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WEEDS OF FARM LAND

Fio. 31. — RED BARTSIA (Bartsia odotttites), parasitic on Wheat.

WEEDS
OF FARM LAND

BY

WINIFRED E. BRENCHLEY, D.Sc, F.L.S.

FELLOW OF UNIVERSITY COLLEGF., LONDON
BOTANIST, ROTHAMSTED EXPERIMENTAL STATION

WITH ILLUSTRATIONS

LONGMANS, GREEN AND CO.
39 PATERNOSTER ROW, LONDON

FOURTH AVENUE & 30TH STREET, NEW YORK
BOMBAY, CALCUTTA, AND MADRAS

1920

PREFACE.

EVERYONE who cultivates the soil, whether on the farm
or garden, is perforce interested in weeds, for their
absence or presence amongst the crops has much to do
in' determining the relative success or failure of the
undertaking. A very great deal has been written on
the subject, but the information is widely scattered
throughout the literature of agriculture and botany. In
this country, at least, very few efforts have hitherto
been made to gather up and correlate this varied know-
ledge, thus rendering it accessible to those most inter-
ested. Furthermore, it is only of recent years that
definite attempts have been made to work out the quanti-
tative and qualitative relations between weeds, the soils
on which they grow and the crops with which they are
associated. In this respect the conclusions so far drawn
can only be regarded as tentative, subject to modification
and revision as more data become available. It has
seemed justifiable, therefore, to attempt to set forth the
present position of affairs, in order that future attacks on
the weed problem may be more co-ordinated, and that
valuable time and labour may be utilised to the best
advantage.

The original investigations embodied in the follow-
ing pages owe much to the cordial assistance afforded
by the many landowners and farmers whose land has
been utilised for the purpose. It is impossible to record
each individually, but my special thanks are due to Pro-
fessor T. B. Wood, Mr. Spencer Pickering, Mr. E. S.
Beaven, Mr. E. E. Stokes, and Mr. J. H. Burton, all

vi PREFACE

of whom facilitated the work by giving me introductions
throughout the districts with which they were best ac-
quainted.

Miss M. B. Lee and Miss V. G. Jackson have
rendered valuable assistance with the proof sheets, and,
above all, I am specially indebted to Dr. E. J. Russell
for his constant advice and criticism throughout the pre-
paration of the book.

W. E. B.

ROTHAMSTED,

June, 1920.

CONTENTS.

PAGE

CHAPTER I.
INTRODUCTION i

CHAPTER II.
DISTRIBUTION OF WEEDS - - - 10

CHAPTER III.
PREVENTION AND ERADICATION OF WEEDS - 43

CHAPTER IV.
VITALITY OF WEED SEEDS 72

CHAPTER V.
HABITS OF WEEDS ------- 84

CHAPTER VI.
PARASITIC WEEDS " -92

CHAPTER VII.
POISONOUS AND INJURIOUS WEEDS 103

CHAPTER VIII.
ARABLE WEEDS. ASSOCIATION WITH SOILS. I. GENERAL - - - 117

CHAPTER IX.

ARABLE WEEDS. ASSOCIATION WITH SOILS. II. SPECIAL - - - 121

vii

viii CONTENTS

PAGE

CHAPTER X.
ARABLE WEEDS. ASSOCIATION WITH CROPS 159

CHAPTER XI.
GRASSLAND WEEDS 175

CHAPTER XII.
USES OF WEEDS 187

CHAPTER XIII.
POPULAR AND LOCAL NAMES OF WEEDS .... . 206

LIST OF ILLUSTRATIONS.

FIG.

31. RBD BARTSIA (Bartsia odontites), parasitic on Wheat - Frontispiece

PAGE

1. BLACK BENT (Alopecurus agrestis) - - - » - - - - 8

2. FAT HEN (Chenopodium album) 13

3. ORACHE (Atriplex patula) 14

4. SPIKELET OF FRUITS OF WILD OAT (Avena fatua) - - - - 16

5. KNOTGRASS (Polygonum aviculare) -------19

6. FRUIT OF NARROW-LEAVED VETCH (Vicia angustifolia) 21

7. A. WINGED SEED OF YELLOW RATTLE (Rhinanthus crista-galli) - 22

B. WINGED SEED OF SPURRY (Spergula arvensis) 22

C. WINGED FRUIT OF HOGWEED (Heracleum sphondylium) - - 22

D. WINGED FRUIT OF BROAD-LEAVED DOCK (Rumex obtusifolius) - 22

8. PLUMED FRUITS —

A. Coltsfoot (Tussilago farfara) ------- 24

B. Creeping Thistle (Cirsium arvense) 24

C. Hawkbit (Leontodon hispidus) 24.

D. Dandelion (Taraxacum vulgar -e) ---.-. 24

E. Groundsel (Senecio vulgaris) - - - - 24

F. Goatsbeard (Tragapogon pratensis) 24

9. PLUMED SEEDS OF WILLOW-HERB (Epilobium sp.) - - 25

10. HOOKED FRUITS —

A. Agrimony (Agrimonia eupatoria) 26

B. Wild Carrot (Daucus carota) 26

C. Goosegrass (Galium aparine) -------26

D. Corn Buttercup (Ranunculus arvensis) 26

11. CORN BUTTERCUP (Ranunculus arvensis) 27

12. SHEPHERD'S NEEDLE (Scandix pecttn) 28

13. BINDWEED (Convolvulus arvensis) 29

14. CREEPING THISTLE (Cirsium arvense) 30

15. HORSETAIL (Equisetum arvense) 31

16. COUCH-GRASS (Agropyron repens) 32

17. CORN SOWTHISTLE (Sonchus arvensis) 33

18. COLTSFOOT (Tussilago farfara) 34

19. WOODWAX (Genista tinctoria) 35

20. SORREL (Rumex acetosa) ---....--36

x LIST OF ILLUSTRATIONS

FIG. PAGE

21. BULBOUS BUTTERCUP (Ranunculus bulbosus) - - - - 37

22. MOUSE-EAR HAWKWBED (Hitracium pilose I la) - 39

23. CREEPING BUTTERCUP (Ranunculus rtpens) 40

24. ONION COUCH (Arrhenatherum avenaceum) ----- 41

25. SEEDLING OF CREEPING THISTLE (Cirsium arvtnse) - - 82

26. DODDER (Cuscuta trifolii), parasitic on Clover 93

27. BROOMRAPE (Orobanche minor), parasitic on Sainfoin. Right. — "\

Sainfoin plant not attacked. Left. — Sainfoin plant attacked by ! face
broomrape, showing the harmful effect on growth - p. 96

28. BROOMRAPE (Orobanche minor), parasitic on Lucerne - - - '

29. YELLOW RATTLE (Rhinanthus major), parasitic on Oats - 100

30. SECTION ACROSS BARLEY ROOT PENETRATED BY SUCKER OF YELLOW

RATTLE (Rhinanthus major) 101

32. AUTUMN CROCUS (Colchicum auiumnale) 109

33. PURGING FLAX (Linum catharticum) 109

34. CROW GARLIC (Allium vineale) - 113

35. RAMSONS (Allium ursinum) 113

36. SPURRY (Spergula arvensis) - - 142

37. ANNUAL KNAWEL (Scleranthus annuus) 143

38. SHEEP'S SORREL (Rumex acetosella) 144

39. CORN MARIGOLD (Chrysanthemum segetum) ..... 1^5

40. QUAKER-GRASS (Briza media) 180

41. PLANTS COMMON IN TRODDEN PLACES —

A. Greater Plantain (Plantago major) - 184

B. Silverweed (Potentilla anserina) ...... 184

C. Rough-stalked Meadow-grass (Poo trivialis) - - - 184

CHAPTER I.

INTRODUCTION.

IT is impossible to begin to work land under any system of
farming without immediately being confronted with the prob-
lem of weeds. Weeds are the inevitable corollaries of crops,
and much of the science of farming consists in the skilful use
of methods by which the weeds are kept in subjection. In
the ordinary course of events all vacant land tends to clothe
itself with vegetation, and soil that is artificially laid bare
during farming operations offers a situation that is most
favourable to the ingress of a native plant population. The
farmer's crops are more or less alien to the areas on which
they are grown, and consequently would have«but little chance
against the natural colonists if it were not for the assistance
rendered by husbandry methods. Weeds have thus a very
great practical and economic importance, and a right know-
ledge of their habits and distribution is a valuable asset.
Every farmer has a general knowledge of the worst weeds
that occur on his land, and usually knows how to deal
with them, but comparatively few have that special know-
ledge of the individual weeds which is necessary if the
more up-to-date and less-known methods of prevention and
eradication are to be successfully applied. The farmers of
this country are in possession of a vast amount of weed
lore, and much information is scattered up and down agri-
cultural literature, but hitherto very little attempt has been
made to bring together the facts and so to correlate them
that they form a complete whole, instead of being merely
disjointed scraps of knowledge of local interest and value
only. The field of inquiry is so large and the difficulty of
obtaining the necessary mass of information so great that it
is impossible to present anything like a perfect picture of the
weed problem, but the aim of the present book is to sketch a
preliminary outline from the facts that are already available,
in the hope that at some future date it may be possible,

2 WEEDS OK KAKM LAND

in the light of fuller knowledge, to fill in and to correct
inaccuracies in the details.

Before beginning to discuss the problem in its general
bearings it is essential that one should have a clear idea of
the meaning of the term weed. The word is used very loosely,
and under some circumstances is made to apply to almost any
plant in any situation. For our purpose, however, it is
essential to narrow the meaning down so that it bears an
exact significance. British farm-land is worked on two distinct
systems, according as the land is under the plough or laid
down to grass. Generally both systems are combined, and a
typical English farm consists of grass and arable land in pro-
portions which vary according to the locality and to the in-
dividual needs of the farmer. The cropping under the two
systems is radically different, as on the arable land the crop
plants are fugitive and occupy the soil for a comparatively
short season before they make way bodily for another crop,
whereas on grass-land the plants are permanent, and retain
their positions year after year, never being replaced by others
unless the sward is ploughed up and a new crop sown. This
difference in chopping has so great an influence upon the
vegetation that covers the ground that it is necessary to have
different definitions for the weeds of arable and grass-lands.
On ploughed land a farmer desires only the crop from the
seed he intends to sow, and anything else that appears on the
field may be regarded as a weed. Consequently, a weed of
arable land may be defined as " any plant other than the crop
sown ". On grass-land, on the contrary, a varied herbage
is desirable, provided that the constituents of the herbage are
of good nutritive value. Old pasture is usually clothed with
a mixture of grasses, clover, and miscellaneous plants, which
vary in proportion and in their value as food for stock whether
as green fodder or as hay. Some of the grasses, such as
Yorkshire fog, in some districts are almost useless or are
positively harmful, whereas some of the miscellaneous plants
such as rib-grass, are of high feeding value and in moderation
are welcomed in the herbage. It is thus very difficult to say
exactly what constitutes a weed of grass-land, but perhaps it
may be defined as (a) "a plant of low feeding value," or (b}
" a plant that grows so luxuriantly or plentifully that it chokes
out other plants that possess more valuable nutritive properties ".
Farmers regard the weeds of ploughed land and of grass-
land from very different standpoints. Every agriculturist

INTRODUCTION 3

will agree that alien plants among arable crops are pernicious
and should be got rid of as far as possible. On the other
hand, the weeds of grass-land are seldom considered to be of
much significance, except when certain plants have specially
noxious qualities which compel the farmers to take measures
against them. For instance, buttercups are rarely eaten by
stock if plenty of other food is available, and they simply
encumber the ground when present in large quantities.
Nevertheless, nothing is done to get rid of them and most
people regard them with much tolerance, considering them
merely as signs that the ground is particularly fertile where
they grow luxuriantly. If, however, a little garlic, which
taints milk, is present on grazing land strong measures are
taken either to eradicate it or to ensure that milking cows do
not have access to the fields. If the same relative quantities
of buttercups and garlic were present on arable land, the
buttercups would be even more harmful than the garlic in
their action on the growth of the crop, and every effort would
be made to rid the land of them. Generally speaking, arable
weeds have the greater practical significance, and as a result
much more information is available with regard to them than
is the case with pasture weeds, so that it is possible to draw
more definite conclusions as to their occurrence.

When land is well tilled the soil is constantly disturbed
by such operations as ploughing, harrowing, and cultivating.
After a crop is removed the soil is ploughed up, all vegetation
growing on it is buried and much of it is killed. If seeds are
buried in the soil they may germinate after the first ploughing,
but they in their turn are destroyed by later ploughing or by
the harrow and cultivator. If a cereal crop is grown the soil
is left more or less undisturbed when once the young plants are
well established, but if roots are wanted the land <f s kept culti-
vated the whole time the crop is on the ground. It is obvious
that these conditions are not at all favourable to the persis-
tence of weed plants unless they are so specially adapted to
hold their own that they can be more or less indifferent to
the rough treatment they get. For this reason the number of
plant species that occur as weeds is limited, and even among
this number there are very many which very seldom occur,
except on particular soils or under special circumstances.
There are few species that are really prevalent and widespread,
and every one of these is markedly well adapted to the con-
ditions of life. Furthermore, the weeds that are ubiquitous in

4 \\ KEDS'OF FARM LAND

this country are chiefly cosmopolitan, and they either occur
naturally under arable cultivation in other countries or they
colonise rapidly if they are introduced. In parts of Australia
the bush has been cleared comparatively recently and the land
brought under cultivation. Where this has occurred the native
flora has disappeared entirely, being unable to put up with the
interference and the new conditions, but a weed flora has
appeared composed of species that are common as weeds
of cultivation in America and the Old World. The introduced
species have adopted their new home to such an extent that
they threaten to spread in a most injurious fashion, with the
result that legislation has been brought to bear, and many of
the more common species are proclaimed as noxious weeds.
Among the proclaimed plants of Victoria State there are
several that have been introduced from other parts of the
world, and that are even more obnoxious in Australia than
they are in this country, charlock, dodder, gorse, hemlock, and
several varieties of thistles, as the milk and creeping thistles,
being among the number.

A similar thing has happened in Canada. The list of
Canadian Farm Weeds 1 consists chiefly of species that have
been introduced from Europe, the native species being much
less in evidence. Wild oat, dock, sheep's sorrel, spurry, chick-
weed, corn cockle, buttercup, shepherd's purse, charlock, clover,
dodder, and ribgrass are but a few of the weeds that create as
much trouble in Canada as they do in England, although they
are not indigenous to that country but have been introduced in
the course of cultivation. The same story is told by collec-
tions of weed seeds that have been sent to Rothamsted from
Tasmania and the United States, and it is evident that certain
species are so indifferent to the wide variation of soil and
climate obtaining in different parts of the world that they will
colonise and spread anywhere under conditions of cultivation.

From the early days of civilisation the weeds or alien plants
that spring up among cultivated crops have attracted much
attention because of the direct influence they exercise on the
food supply of mankind. Methods of eradication have been
advocated and tested, and the problem considered from every
side, but in spite of all that has been done the weeds still
flourish and menace the well-being of the crops at every turn.
It is impossible to do away with weeds, for they are so well
equipped for holding their ground and reproducing their

1 Clark, G. H., and Fletcher, J. (1909), " Farm Weeds of Canada ".

INTRODUCTION 5

kind that no method of fighting them can ever be completely
successful. The only thing is to circumvent them temporarily,
keeping up a constant battle to prevent them getting the
upper hand.

When a number of plants of either the same or dissimilar
species are grown in association the individuals of the com-
munity act and react on one another and determine the ulti-
mate nature of the plant association. The interaction between
the species is very much affected by other factors such as
moisture, sunlight, season, and interference by man, and under
the specialised conditions of cultivation the interplay tends to
become obscured to a great extent. When a large number
of plants are growing in close association keen competition
exists between them, and the weaker plants are apt to
be smothered out, while the stronger continue to struggle
on together. This competition takes place both below and
above ground. The supply of moisture and available plant
food is not inexhaustible, and if a large number of roots are
drawing from the same area at the same time semi-starvation"
threatens the plants. Above ground there is usually an ade-
quate supply of air and sunshine, but the vegetation is not
always in a position to take full advantage of it If the plants
are closely crowded together the leaves overlap and shade one
another, so that a large proportion of them cannot be reached by
the sunlight, and in this way the assimilation of carbon-dioxide
is hindered and the nutrition of the plants suffers accordingly.
Respiration is probably influenced less adversely under these
circumstances as the diffusion of the air carries an abundant
supply of oxygen even to the shaded leaves, and light is not
essential to breathing. The harmful effect of overcrowding is
constantly to be seen in gardens. If a number of young
seedlings are allowed to grow on too long in a crowded seed-
box they become drawn up and delicate, and if left undis-
turbed die without making any satisfactory growth. Even if
they are planted out they never make the same robust and
healthy growth as do similar seedlings transplanted before
the little plants have time to injure one another.

If the roots of the associated plants feed at different depths
in the soil, as for instance in the case of wheat and poppy, the
underground competition is far less severe, but the aerial
competition is so strong that the plants may suffer as much as
though all the roots were at the same level. Water culture
experiments, in which each barley plant had its own individual

6 WEEDS OF FARM LAND

food supply, have shown how actively aerial competition comes
into play quite independently*of the root competition.1 When
the plants were grown at some distance from one another so
that no shading occurred growth was strong and even, a large
amount of dry matter being produced. When a number of
plants were closely crowded together they were far less healthy,
and the amount of dry matter formed by individual plants de-
creased as the amount of shading by neighbouring leaves in-
creased. The crowded plants were unable to carry on adequate
carbon assimilation owing to deficiency of light caused by the
overlapping of leaves. As this decrease of growth occurred even
when there was no lack of food for the individual plants it is
obvious that aerial competition must play a still more import-
ant part in the field where the plants are competing for food
as well as light. Many of the methods and processes of
cultivation are directed towards the elimination of this com-
petition of weeds with crops, the same end being attained by
various systems of farming.

Under ordinary farm management the various crops are
grown in rotation, one of the simplest being the four-course
rotation, barley, seeds, wheat, roots. The seeds are sown
down with barley in spring, and if germination is good the
heavy growth of the barley tends to keep down weeds, while
the clover manages to mark time until the barley is cleared oft
in the autumn. The habit of growth of the clover prevents
the ordinary weeds from making much headway, although a
number of special weeds are often introduced by this crop.
Consequently, when the clover makes way for the wheat the
land is not weed-ridden if the barley and clover have been
good. The weeds have not had much chance to develop and
to seed, and those introduced by the clover are not usually
permanent. With the autumn-sown wheat the weeds get
their chance. The seeds buried in the soil rush into growth,
and the wheat crop is full of a great variety of weeds unless
some proportion of them is removed by spring cultivation.
Even so the wheat stubble is a veritable flower garden, and
is full of many varieties of weeds ripening their seeds in
readiness for the future. After such a fouling crop as wheat,
therefore, roots follow on well, as they offer a good oppor-
tunity to clean the land and to improve the condition of the
soil by cultivation, ready for the next cycle of crops.

'Brenchley, W. E. (1919), "Some Factors in Competition," Jonrn.
Applied Biology, VI, Nos. 2 and 3, pp. 142-170.

INTRODUCTION 7

Rather curious things happen if no rotation is followed,
but the same crop is grown on the land year after year without
intermission. Several fields at Rothamsted have been under
continuous cropping for many years, and the differences in the
weed floras are of the most striking nature. The fields are
divided into plots which are manured in various ways, and the
differences in manuring and the time of sowing the crops have
a considerable influence upon the number and variety of the
weeds. Broadbalk field at Rothamsted has carried autumn-
sown wheat regularly since 1843, so that as soon as one crop
is harvested it is necessary to plough up the stubble in pre-
paration for sowing the next year's crop. Consequently, there
is never any opportunity of thoroughly cleaning the ground
by winter fallow, and as a wheat crop does not admit of much
cultivation in the ordinary way, a very special state of affairs
has risen with regard to the weeds. Black bent (Alopecurus
agrestis) (which occurs to some extent on many fields in the
district but not plentifully enough to cause any. trouble) grows
up with the* corn and ripens its seeds at the same time as the
wheat, so that harvesting operations tend to scatter the seed
freely on the ground. (Fig. I.) These seeds germinate at
once, in the autumn, and the plants develop alongside the
wheat, from which in their young stages they are not easily dis-
tinguished by casual observation. Under rotation farming the
weed does not get a serious hold, as it is soon cleared out by
the cultivation of barley and roots. On Broadbalk, however,
no opportunity arises of ridding the ground of the young
black bent plants before the wheat has to be sown, and with
the lapse of years the pest has spread to such a great extent
that it entails very great expense for hand labour to free the
crop in order to prevent the experiments being spoiled. It is
necessary to hoe out the rows in early summer, and in bad
seasons to hand-pull the plants in order to remove as many
as possible before they have a chance to seed. It is not at
all uncommon for heaps of black berft 3 or 4 feet high to be
removed from each plot of ^ acre. The strong measures
necessary for fighting this weed help to keep the others in
check, so that no other species presents such a difficult
problem.

The adjoining Hoos field has carried barley every year since
1852, but as the barley is spring sown the weed problem is
far less acute. The time that elapses between harvesting in
August or September and sowing in the spring is sufficiently

WEEDS OF FARM LAND

FIG- i. — BLACK BENT (Alopecurus agrestis).

INTRODUCTION 9

long to allow the land to be well worked over, so that no single
weed has the opportunity of obtaining such a hold as black
bent has on Broadbalk. At the present time, however, the
perennial corn sowthistle (Sonchus arvensis] is causing much
trouble in Hoos field, as it spreads by underground stems, and
the broken pieces left after cultivation shoot up again with the
barley.

In contrast to Broadbalk and Hoos, Barn field is devoted
exclusively to root crops. Sugar beet used to be grown, but
of late years mangolds have been taken instead. The field is
remarkable for the poverty of its weed flora. At no time in
the year do a large number of weeds occur, and the variety
of species is small. Some chickweed and groundsel, a few
creeping thistles and greater plantain, represent the major part
of the weed population at any period of the year, and even
after the winter, just previous to ploughing, the same thing is
seen. The continuous growth of roots for so many years,
with the attendant cultivating and hoeing, has cleared the
land of most of the weed seeds which may have been
originally buried in it, and has also prevented weed colonists
from establishing themselves and shedding their seeds.

Many of the points touched on in this introduction will be
dealt with more fully in later chapters, but enough has been
said to indicate the vital importance of a right understanding
of the weed problem if it is to be approached in such a way as
to render profitable assistance to the farmer. With the im-
provements in agricultural machinery and the greater applica-
tion of chemical knowledge to agriculture in the direction of
manures and sprays, it is conceivable that it may be possible
at no distant date to hold the weeds far more under control
than has ever been the case in the past.

CHAPTER II.

DISTRIBUTION OF WEEDS.

THE flora of any country or district usually comprises many
hundreds or thousands of species, but of these compara-
tively few are conspicuous as weeds of cultivation. This is to
a very great extent determined by the fact that cultural con-
ditions are inimical to the growth of many wild plants which
resent interference with their normal conditions of life. The
extent of the weed flora is further circumscribed by the fact that
many plants, though able to withstand the conditions peculiar
to cultivation, are so ill adapted to arrange for their own repro-
duction under the specialised circumstances that they fail to
maintain their position and are therefore practically unknown
as weeds. The most familiar and widespread weeds are those
plants which are the best adapted to meet the difficulties which
arise from the carrying on of the various operations of
cultivation.

The methods ot weed distribution are many and various,
but may be broadly divided into two classes, though the divid-
ing line cannot always be sharply maintained : —

(1) Methods which are independent of any special adapta-
tions for distribution developed by the plants.

(2) Methods which are dependent upon special adaptations
for distribution developed by the plants.

i. METHODS WHICH ARE INDEPENDENT OF ANY SPECIAL
ADAPTATIONS FOR DISTR;BUTION DEVELOPED r,v nn:
PLANTS.

(a) Various Means of Transport, as in Cargoes, Batlast, etc.,
including the Transport of Impure Seed. — Distribution by means
of transport must be held accountable for the spread into vari-
ous parts of the world of many of the worst weeds of culti-
vation. With the increase in trading facilities and the opening
up of fresh shipping routes there has come a notable change

DISTRIBUTION OF WEEDS . n

in the weed floras of many districts, and the difficulties of agri-
culturists have thereby in many cases been greatly augmented.
As is shown below, weed seeds are transported from one
country to another in various ways, and it frequently happens
that a weed that is of little or no account in its country of
origin finds the conditions of a foreign land so congenial that
it spreads and becomes a veritable pest, often needing legis-
lation for its suppression. Sometimes, too, with change in
methods of cultivation, an alien weed flora may crowd out the
native weeds more or less completely. In the settled por-
tions of New Zealand and Australia,1 where clearings have
been made and introduced crops like wheat are grown, the
alien weeds are most conspicuous and dominate the situation.
Apparently the native plants are adversely affected by the in-
terference due to the new methods of cultivation, and are un-
able to withstand the comp tition of the foreign plants ot
which the seeds are introduced with the crop seeds, and as a
result the intruders have been able to gain a firm foothold.
A considerable intrusion of Northern plants into the New
Zealand flora has occurred. When a party of the British
Association visited the country in 1914 much watercress was
noted in one place, and in other localities Geranium molle and
G. robertianum (the former a typical arable weed) were
completely naturalised.

The extent to which weed seeds can be carried from one
country to another in cargoes of grain and other crop seeds
has been well shown by Stapledon,2 who has proved that it is
possible to trace the country from which samples of commercial
oats have originated by means of the quantity and varieties of
weed seeds that are present. For instance, oats from Russia
usually contain an abundance of corn cockle, and wild vetches
and field bindweed are also often plentiful. Turkey seed
is characterised by the presence of a considerable amount of
Rapistrum rugosum, an unidentified Medicago, and a fair
quantity of darnel and sweet clovers ; Canadian origin is
shown by excess of ball mustard (Neslia paniculata] and by
blue bur (Lappula echinata) and prairie sunflower, while in
British seed black bindweed (Polygonum convolvulus} and
charlock (Brassica spp.~] are often the only weed seeds,

1 Rendlc, A. B. (1915), " The British Association in Australia," Jour. Bot.,
LIII, No. 625, pp. 23-34.

- Stapledon, R. G. (1916), " Identification of the Country of Origin of Com-
mercial Oats," jfour. Bd. Agric., XXIII, No. 2, pp. 105-116.

12 WKEDS OF FARM LAND

though a wild oat (Avena strigosa) is sometimes met with.
An examination of the Canadian weed flora is illuminat-
ing. Out of seventy of the worst agricultural weeds that are
fully described and figured by the Department of Agriculture l
forty-seven are characterised as being introduced from Europe,
one from Asia, and one from Tropical America, only twenty-
one being indigenous.

Weed seeds may be carried from country to country, not
only among crop seeds, but also in ballast or with forage of
various kinds. An analysis of the flora of an old ballast heap
at Linnton, Oregon, on the Pacific coast, showed 2 thirty-two
species indigenous on the Pacific coast, eighty-eight species
introduced to the district but occurring elsewhere in Oregon,
and ninety three species collected only on the Linnton ballast
area and not found in other parts of the state.

Probably 50 per cent, of the list of species cited by Nelson
have been collected for the first time on the Pacific coast, or
at least within the limits of the State of Oregon. If infor-
mation were available it would doubtless be found that a
similar state of affairs exists in other places where ballast is
dumped. In our own country much distribution is effected
by the carriage of waste dust and rubbish by railway to dumps
in various parts of the country. It is quite usual to find such
dumps colonised by plants which are not native to the locality,
but whose origin can be traced to the district from which the
waste material was brought. It is probable that a good deal
of weed distribution is effected in this manner, for if conditions
are suitable an introduced plant will quickly establish itself
and may become a troublesome pest.

(<£) Carriage in Manure. — That weed seeds may be spread
by manure from an infested district is a danger whose reality
is too little recognised. If manure is stacked in a field
for some time prior to use it rapidly becomes covered
with weeds, among which fat hen (Chenopodium album) (Fig. 2)
and orache (A triplex patula) (Fig. 3) are often conspicuous.
The seeds of these plants and many others are transported in
the manure, which thus becomes a ready source of infestation.
Only too often the litter used for bedding cattle contains much
rubbish that is full of weed seeds, and unless excessive heat-
ing takes place many of these seeds retain their power of

1 Clark, G. H., and Fletcher, J. (1909), " Farm Weeds of Canada ".
*Nel8on, J. C. (1917), ''The Introduction of Foreign Weeds in Ballast, as
illustrated by Ballast Plants at Linnton, Oregon," Torreya, XVII, pp. 151-160.

DISTRIBUTION OF WEEDS

FIG. 2. — FAT HEN (Chenof odium album).

i4 \VKEDS OF FARM LAND

germination for a long period and are ready to start into
growth when they are dug into the soil with the manure.
Little is known about the amount of heating that weed seeds
can withstand when buried in manure, but it is certain that under
the ordinary conditions of making and storing dung large
quantities of seeds escape destruction. If it can be avoided,

Fio. 3.— ORACHE (Atriplex patula).

therefore, it is best riot to spread manure as soon as it is
received from any district known to be badly infested with
weeds. If the manure can be properly stored for some time,
there is a possibility that many of the seeds will rot and that
many others will take advantage of the genial warmth to start
germinating, only to perish from the adverse conditions for
plant life that exist within the heap.

DISTRIBUTION OF WEEDS 15

The danger of weed transport in manure is probably less
nowadays than it used to be, as with the improvement in
threshing tackle a much cleaner separation of grain, straw and
rubbish is effected, and the practice of burning the rubbish
(containing most of the weed seeds) is becoming more widely
spread. Also there is comparatively little transport of manure
from one country district to another, but where stable manure
is brought from towns much care should be exercised, as
the litter and feeding stuffs are more likely to be contamin-
ated with weed seeds than in the case of manure produced on
farms.

(c) Distribution by Means of Farm Implements. — With the
increase in the use of farm machinery of late years the danger
of weed infestation from this source has become more acute.
Almost every implement that is used in farm operations may
serve as a carrier of seeds or growing parts of weeds, but as
hand implements and the smaller horse machines are usually
the property of the farm, weed distribution by this means is
localised. With the advent of peripatetic tractors, threshing
machines, reapers and binders, etc., the area of distribution
was at once widened, and now care is necessary to prevent
trouble arising. Farm implements spread weeds in various
ways, the most obvious being by means of the clods of earth
that are carried about on the wheels and on the horses' hoofs.
The soil is full of weed seeds and in many cases broken pieces
of weed are also present which are capable of striking root
elsewhere. If machinery passes from farm to farm over a wide
area, from badly-tilled farms to well-cultivated ones, the
efforts of careful farmers to reduce their weed population may
be greatly hindered if they do not take care that the incoming
machines are well cleaned before they are allowed to pass on
to the land. Threshing machines introduce another problem,
as weed seeds collect within them, only to pass out when
further threshing is carried out Such weeds as wild oats
(Avenafatud) are particularly troublesome in this way, as not
only are they bad weeds on the land, but the hairy fruits with
their bent and twisted awns collect in balls and rapidly choke
up the machine (Fig. 4). Here again scrupulous care in
cleaning before use is necessary if weed distribution is to be
avoided.

(d) Carriage by Moisture or in Mud. — Though to some ex-
tent mud carriage is dealt with under the preceding heading
other aspects must be considered here. Traffic of every kind

i6

\\ BEDS or FARM LAND

helps to distribute weeds, as mud containing the seeds is
carried about on the feet of stock, cartwheels, boots of human
beings, walking sticks, and in various other ways. This is
often well shown along cart tracks or round gateways through
which much traffic passes, as an assemblage of weeds character-
istic of different situations may often be found there. For
instance, the trampled mud round a single gate between a
public road and a ploughed field on chalky
Boulder clay was colonised by l : —

(i) Arable Weeds (from field). — Slender
foxtail, scarlet pimpernel, charlock, fat hen,
dwarf spurge, knotgrass, groundsel, field
speedwell.

{2) Grass-land Plants (from grass by
roadside). — Ryegrass, cat's-tail, greater
plantain, broad-leaved dock, couchgrass.

(3) Weeds found in both Situations. —
Silverweed and creeping thistle.

Traffic over such an area in muddy
weather would be a constant means of
weed distribution. It can easily be under-
stood that mud containing weed seeds may
be transported for very long distances
when it is carried on the feet of animals
or on the boots of men travelling by train
or motor. On the whole it is the arable
weeds that are chiefly distributed in this
way, as roadside weeds usually have more
specialised arrangements. The carriage
of mud on cartwheels is often responsible
for the temporary appearance of arable
weeds in grass fields, as such plants as
shepherd's purse, swinecress, chamomile, mayweed, spurry, and
poppies will all spring up along wheel tracks across grass,
though they rarely persist for more than one season unless
the grass is obliterated and bare soil conditions prevail.

The spread of weeds by " damp carriage " is rarely recog-
nised, but many seeds will adhere to damp boots or clothing
where there is an entire absence of mud. Groundsel, ragwort,
hawkbit, daisy, buttercup, dandelion, mouse-ear chickweed, and
the seeds of various grasses may all be collected and transferred

1 Woodruffe Peacock, E. A. (1918), " The Means of Plant Dispersal : Mois-
ture and Mud Carriage," Selborne Magazine, XXIX, No. 338, pp. 20-22.

Fio. 4. — SPIKELET OF
FRUITS OF WILD
OAT (Avena fatua),
showing the hairs
and the twisted
awns.

DISTRIBUTION OF WEEDS 17

from grassy areas, while forget-me-not, field speedwell, fool's
parsley, and persicaria are among the arable weeds that have
been observed to be distributed in this way. Many weed
seeds are rather sticky when damp and tend to adhere closely
to anything they touch, so that they are easily carried about
from one place to another.

(e) Distribution by High Winds and Storm Columns. — Very
little seems to be known on this subject, but one observer,
Woodruffe Peacock, has specially studied the point,1 and his
results suggest that this is a far more important means of dis-
tribution than is generally recognised. Ordinary wind drift
will carry seeds some distance, but this is very local. Wood-
ruffe Peacock cites a case of such distribution of charlock
recorded in Thompson's " History of Boston," and if this could
be more universally established it might throw some light
on the continual appearance of charlock when grass land is
ploughed up, or old arable land free from the weed is ploughed
more deeply. Seeds of mithridate mustard (Thlaspi arvense)
in Cadney (Lines) were carried by a single spring gale over
half a mile of arable peat. Whirlwinds or small local storm
columns will lift and shift seeds for distances up to 150 yards,
but storm columns can carry materials for miles. Distribution
over an area of at least twenty-five miles has been observed in
Lincolnshire. In 1897 a storm column brought to Cadney
a variety of plants for which the nearest habitat was twenty
to twenty-five miles away. Among these were wild onion
(Allium vineale} and couch grass, while heavy plants of tufted
vetch (Vicia cracca), including the root, were also carried. A
list of the plants that Woodruffe Peacock has personally noted
to be carried by storm columns in this country may be inter-
esting, as so little information on the point is available : —

Many grasses.

Achillea millefolium (yarrow). Cut fragments.

Allium vineale (wild onion). Rooted plants.

Anthriscus sylvestris (wild chervil). Fragments.

Capsella bursa-pastoris (shepherd's purse). Rooted plants.

Cerastium vulgatum (mouse-ear chickweed). Rooted plants.

Hippocrepis comosa (horse-shoe vetch). Rooted plants.

Leontodon autumnalis (autumnal hawkbit). Cut fragments.

Lotus corniculatus (bird's foot trefoil). Rooted plants.

1 Woodruffe Peacock, E. A. (1917), " The Means of Plant Dispersal,"
Selborne Magazine, XXVIII, pp. 40-44.

2

is \VI.KI>S <>K FARM LANtt

Ononis repens (restharrow). Broken pieces.

Rhinanthns crista-galli (yellow rattle). Cut fragments and

rooted plants.

Riimex acetosella (sheep's sorrel). Cut fragments.
Stellaria media (chickweed). Rooted plants.
Vicia cracca (tufted vetch). Fragments.

Further observation on this means of dispersal are very
desirable. Many weeds that are obviously distributed by means
of seeds have apparently no special adaptation for dispersal,
and yet there is no doubt that distribution does occur. It is
quite possible that all the agencies at work are not fully
known, and that wind carriage during gales and storm
columns is of far more importance than is at present believed.

2. METHODS WHICH ARE DEPENDENT UPON SPECIAL
ADAPTATIONS FOR DISTRIBUTION DEVELOPED BY THE
PLANTS.

Weeds having special adaptations that assist in their
distribution may be broadly divided into two classes according
as they are spread by means of ^

A. fruits and seeds (sexual reproduction).

B. vegetative parts (vegetative reproduction).

The line of division is not always sharply marked, as in some
weeds both types of reproduction are well developed, but as a
general rule only one method is of real importance to a par-
ticular plant. Those in which both methods are conspicuous
comprise some of the worst of our agricultural weeds, as
methods of eradication that are directed against the formation
of seed are not always effective against the spread of vegeta-
tive parts and vice versa. This double-barrelled reproduction
is specially noteworthy in thistles, wild onion, corn sowthistle,
coltsfoot, and creeping buttercup, though it occurs to some
extent in various other weeds. In the following classification
the same weed may appear twice if the two methods of dis-
tribution are sufficiently well marked to warrant it.

A. Distribution by Fruits and Seeds (Sexual Reproduction].

(a) Seeds Produced in Large Quantities. — Many weeds
that do not have special adaptations for seed distribution are
safeguarded by the production of large quantities of seeds, so

DISTRIBUTION OF WEEDS 19

many being formed that even if a very large percentage is
lost or destroyed the surviving minority will be amply suffici-
ent to provide an abundance of descendants. This method is
very common and effective among arable weeds, especially
with those which grow close to the ground. The various pro-
cesses of cultivation are all inimical to the survival of weeds ;
when the seeds germinate the seedlings are liable to be ruth-
lessly cut down at various stages of growth. Under these
circumstances the presence of large quantities of seeds in the

FIG. 5. — KNOTGRASS (Polygonum aviculare).

soil is most favourable for the weeds as the seeds do not all
germinate at once, so that if and when the first batch of seed-
lings is destroyed, a fresh batch which may have more chance
of reaching maturity springs up at short notice. This may
be continued time after time, as seeds from one crop of weeds
usually vary greatly in the time that elapses before germina-
tion, the period sometimes ranging from a few days to several
years. Scarlet pimpernel, knotgrass (Fig. 5), mouse-ear
chickweed, spurry, chickweed, and speedwells of various
species are all low growing arable weeds which form such an
abundance of seed that when once they are established it is

2"

20 \\ KEDS'OF FARM LAND

difficult to get rid of them. They spread over the surface of
the ground with their long trailing branches, form flowers and
fruits in rapid succession along the stems, and drop their seeds,
which are usually several in a fruit, directly into the soil when
they are ripe.

Charlock (Brassica spp.} produces an abundance of heavy
seeds which to all appearance have no ready means of dis-
tribution other than that of falling into the soil in the neigh-
bourhood of the mother plant. The true method of charlock
distribution, however, is still a mystery, as it has a habit of
turning up in profusion in all sorts of places at a distance
from the nearest source of the seed.

Dodder (Cuscuta spp^) is little other than a seedbox, as its
clusters of small flowers, ranged at frequent intervals along the
twining stems, give rise to multitudes of seeds which either
fall into the soil in the immediate vicinity or are carried away
when the crop is cut, only to start a fresh infestation of the
parasite elsewhere.

A certain number of taller and more upright weeds also
form quantities of seeds, but these are usually so small and
light that they are easily carried about by the wind ; conse-
quently their range of distribution is less limited, and the
danger of loss when they are carried away is compensated for by
their abundance. Shepherd's purse, toadrush (Juncus biifonius},
broomrape (Orobanche sj>p.), and poppies are good examples,
and in some cases, as poppy, the seed capsules have adapta-
tions which prevent the escape of the »seed in unsuitable
weather when there is danger of it becoming damp and clogged.

(fr) Seeds Shot Out. — A limited number of plants take a very
active share in their own distribution by shooting the ripe
seeds out to various distances. Crane's-bill (Geranium sfp.} and
stork's-bill (Erodium spp.}, which are often present in temporary
pastures, have a fruit consisting of five pieces or carpels joined
to a central column, one seed being present in each carpel at
the base. When the seeds are ripe, some amount of de-
siccation occurs, the carpels break away suddenly at the base
and roll up backwards, jerking the seeds out as they go.
The fruit of vetch ( Vicia jr//.) (Fig. 6) is a pod containing one
row of seeds. When ripe the pod splits up both sides and
curls suddenly into a spiral, shooting the seeds for some
considerable distance, often several feet. In the spurges
(Euphorbia .$/>/.) the seeds are jerked away when ripe with
considerable force.

DISTRIBUTION OF WEJ.DS

21

This method of seed distribution is highly specialised, but^
is less effective than others. Comparatively few seeds are
formed, and as the risk of life is very great it seldom happens
that weeds of -this description are very abundant. The
geraniums are usually associated with temporary pastures,
because when once the seed is sown there is little cultural
interference and the weeds are able to ripen seeds in peace.
If the ley is succeeded by tillage crops
such as cereals or roots, the geraniums
usually disappear rapidly, as there are not
enough seeds in the soil to withstand
the processes of cultivation.

(c) Fruits and Seeds Distributed by
Wind. — Adaptations for this purpose are
exceedingly common and are usually in
the form of wings or hairs arranged to
form a kind of parachute. The wings or
hairs may be developed either on the seed
itself or on the fruit, the latter being more
general. Many of the seeds are liable to
be lost, but they are produced in large
quantities and under favourable circum-
stances can be carried for many miles. It
is on this account that weeds with these
adaptations are so peculiarly dangerous,
for if they are allowed to ripen their seeds
it is impossible to confine them within
bounds, and a single dirty farm may vitiate
all attempts at clean farming over a wide FlG 6

area.

FRUIT OF
N A R R O W-L E A V E D
VETCH (Vicia an-
gustifolia), showing
one pod split open
and curled back with
the seeds shot out.

(a) Winged Fruits. — The winged
part may either be firmly attached to the
fruit or may be easily detachable. In
several of the Umbellifers, as for instance
hogweed (Heradeum sphondyliuiri) (Fig. 7 C), a very broad
wing is developed by the seed case, which encloses a single
flattened seed. In the docks and sorrels the floating organ
is formed by the persistent floral envelope or perianth, within
which is the hard triangular fruit (Fig. 7 D).

Q3) Winged Seeds. — In toadflax (Linaria iwlgaris] and
yellow rattle (Rhinanthus crista-galli) (Fig. 7 A) each seed is
provided with a broad wing, so that it is easily carried by the
wind. In some other cases, as in spurry (Fig. 7 B), a very

22 WEEDS OF I ARM LAND

narrow wing is developed, but this is so small in proportion

A

D

FIG. 7. — WINGED SHEDS AND FRUITS.

A. Winged Seed of Yellow Rattle (Rhinanthits crista-galli).

B. Winged Seed of Spurry (Spergula arvtnsis).

C. Winged Fruit of Hogweed (Heraclcum Sphondylium). Wing developed from

Fruit Coat.

D. Winged Fruit of Broad-leaved Dock (Rumcx obttisifolim). Wing consists of

persistent Perianth.

(The small sketches are natural size.)

to the size of the seed that it is doubtful if it is an effective
agent in distribution.

DISTRIBUTION OF \VHi;i>s 23

(7) Plumed Fruits. — By far the greatest number of wind-
carried weeds are provided with this type of mechanism, and
the great majority, if not all, belong to one order of plants,
the Composite. The Compositae, world-wide in distribu-
tion and outstanding in number of species and in the
multitude of individuals, most probably owe much of their
pre-eminence to the fact that they have developed a
thoroughly efficient method of distributing their seeds. The
plumed fruits vary in size, some being quite tiny while
others are comparatively large and heavy, but all agree
in having the calyx, or outer floral envelope modified into a
number of hairs called the pappus. These hairs radiate
from a common centre, sometimes rising directly from the top
of the fruit (as in groundsel and coltsfoot), sometimes being
raised above the fruit on a slender beak, as in dandelion and
goatsbeard. There is great variation in the type of hairs, for
in some cases they are short bristles, as in hardhead ; in
others they are quite simple but long and silky, as in groundsel ;
in others they are feathered, as in creeping thistle, and yet
again the hairs may be outstanding and interlacing so as to
form a kind of web, as is well seen in goatsbeard. Among the
common weeds that possess plumed fruits may be mentioned
thistles (Cirsium arvense (Fig. 8 B), C. lanceo/atum, Carduus
nutans, etc.), cudweeds (Filago germanica and Gnaphalium
uliginosum), groundsel (Senecio vulgaris) (Fig. 8 E), sowthistle
(Sonchus arvensis and 6". oleraceus\ dandelion (Taraxacum
vulgar e) (Fig. 8 D), goatsbeard (Tragopogon pratensis) (Fig.
8 F), coltsfoot ( Tussilago farfara) (Fig. 8 A), hawksbeard
(Crepis spp.\ mouse-ear hawk weed (Hieradum pilosella}, hawk-
bit (Leontodon J//.) (Fig. 8 C). The common hardhead (Cen-
taurea nigra) has only short scaly bristles, sometimes mixed
with a few longer ones, but the greater knapweed (C, scabiosa)
is crowned with a pappus of stiff hairs almost as long as the
fruit itself.

(8) Plumed Seeds. — Comparatively few plants are pro-
vided with plumed seeds, the only outstanding instances among
British weeds being the willow-herbs (Epilobium sf>f.} (Fig. 9).
The fruit is long and narrow and when ripe splits into four
pieces which curl back and liberate the numerous small seeds,
each of which bears a tuft of hairs.

(d) Fruits and Seeds Distributed by Animals and Human
Beings. — Two distinct methods of distribution are included
under this heading, in one of which the fruits and seeds attach

WEEDS OF FARM LAND

FIG. 8. — PLUMED FRTITS.

A. Coltsfoot (Tussilago farfara). D. Dandelion (Taraxacum vulgare).

B. Creeping Thistle (Cirsium arrcnsc). E. Groundsel (S«M£M vulgaris).

C. Ilawkbit (Lcontodon hispidus). ^ - F. Goatsbeard (Ttagopogon pratensis),

(The small sketches are natural size.)

DISTRIBUTION OF WEEDS 25

themselves mechanically to the active distributing agent, and
in the other are swallowed with the food and are ejected
uninjured after passing through the body of the animal.

The fruits of agrimony (Fig. 10 A), wild carrot (Fig.
10 B), goosegrass (Fig. 10 C) and corn buttercup (Fig. 10 D
and Fig. li) are all provided with hooks of various types
which catch on to the wool or hair of animals that pass

A

FIG. 9. — PLUMED SEEDS OF WILLOW-HERB (Epilobium s/.).

A. Fruit split open, showing Seeds.

B. Single Seed, natural size, showing Plume.

C. Seeds, enlarged.

amongst them, or on to the clothing of human beings. Shep-
herd's needle (Fig. 12) has less obvious hooks, but the fruits
are distinctly rough and are well able to cling. The bent
awn and numerous hairs of wild oat (Avena fatud) aid in its
distribution by animals, and it is possible that the hygroscopic
character of the awn, which twists and untwists according to
the dampness of the air, may also play a part in the spread of
this weed.

26

WEEDS Ol 1 ARM I AND

A considerable amount of seed distribution is probably
carried out unconsciously by human beings, as seeds of many
kinds of wild plants have a habit of working their way into
pockets and folds of the clothes. The following weed and grass

B

FIG. 10. — HOOKED FRUITS.

A. Agrimony (Agrimonia eitpatoria).

B. Wild Carrot (Daucus carat a).

C. Goosegrass (Galium aparine).

D. Corn Buttercup (Ranunculus arrcnsis).

seeds have all been collected from human clothing * and give a
good idea of the diversity of species that may thus be spread.
Avens (Geum urbanunt), buttercup (Ranunculus bulbosus and
R. acris), cocksfoot, couch grass, dandelion (Taraxacum vul-
gare), dock (Rumex sanguineus), enchanter's nightshade

1 I am indebted to the Rev. E. A. Woodruffe Peacock for the loan of tubes
containing seeds, etc., collected from human clothing. The above list is drawn
up from the identifications thus obtained.

DISTRIBUTION OF WEEDS

27

(Circcea lutetiana), forget-me-not (Myosotis aruensis\ foxtail
(Afapecurus pratensis), goosegrass (Galium ap<zrine\ hogweed,

Fio. ii. — CORN BUTTERCUP (Ranunculus arvensis), showing Flowers and
Clusters of Fruits.

sterile brome (Bromus sterilis\ tall fescue (Festuca elatior),
tall oat {Arrhenatherum avenaceuni), wall barley (Hordeuw
murinum\ yellow oat (Avena flavescens), Yorkshire fog.

WEEDS OF FARM LAND

Experiments have shown that large numbers of weed seeds
retain their power of germination and growth even after they
have passed through the digestive tracts of animals (see p. 74).
As animals often traverse long distances in a comparatively
short time they are able in this way to accomplish a good deal
of seed distribution, and may on occasion be responsible for
the introduction of a weed into a fresh locality.

(e) Fruits and Seeds
Distributed by Birds. —
Birds may either carry
seeds about on their feet,
feathers or bills, or they
may eat them for food and
void a certain proportion
uninjured. Ducks, water
hens, and other birds have
been proved to carry
species of water plants
from one piece of water
to another by means of
wet seeds or pieces of the
actual plant sticking to
them. Creeping butter-
cup (Ranunculus re/>ens)
often occurs on the damp
edges of ponds and is
known to be carried about
by ducks and water hens.1
Enormous numbers of

FIG. 12. — SHBPHKRD'S NEEDLE (Scandix
fectm), showing the Small Flowers and
much Elongated Fruits.

weed seeds are eaten by
wild birds, and though it
is usually assumed that
all such seeds are destroyed this is not the case. Collinge's 2 ;
experiments have shown that birds are in this way responsible
for the distribution of many common weeds, including ribwort
plantain, mouse-ear chickweed, groundsel, sheep's sorrel, daisy,
yarrow, creeping buttercup, dandelion, chickweed, charlock,
dock, knotgrass, goosegrass, and various others. From the

1 Woodruffe Peacock, E. A. (1917), " Means of Plant Dispersal," Selborne
Magazine, XXVIII, pp. 80-83, 97-101, 114-116; (1918), XXIX, pp. 9-12.

2 Collinge, W. E. (1913), " Destruction and Dispersal of Weed Seeds by \Vild
Birds," Journ. Bd. Agric., XX, pp. 15-26.

' Collinge, W. E. (1914). " Some Further Observations on the Dispersal of
Weed Seeds by Wild Birds," Journ. Econ. Biology, IX, pp. 69-71.

DISTRIBUTION OF WEEDS

29

results of these experiments it is probable that seed-eating birds
are far more active as distributors of weed seeds than is usually

--A

FIG. 13. — BINDWEED (Convolvulus arvensis).
A. Aerial Shoot. B. Underground Stem.

imagined. Evershed examined many pheasant crops * and

1 Evershed, A. F. C. H. (1918), " Pheasants and Agriculture," Journ. Ag.
Sci., IX, pp. 63-91.

WEEDS OF FARM LAND

DISTRIBUTION OF WEEDS

GROUND LEVEL

found large numbers of weed seeds therein. In some cases
hundreds or thousands of seeds of one species were present in
a single crop, and if even a small percentage of these passed
unharmed through the
bird a great deal of
weed distribution
would be effected.
The most abundant
seeds were those of
fat hen, knotgrass,
bindweed, field pansy,
persecaria, chick weed
and buttercup, but in
addition speedwell,
goosegrass, plantain,
black bindweed,
spurry, sandwort,
scarlet pimpernel,
toadflax, and may-
weed were well repre-
sented, and a few
seeds of several other
species were also pre-
sent. In a few weeds,
as bittersweet (Sol-
anum dulcamara) and
black nightshade (S.
ntgrum), seed distri-
bution by birds is
ensured by special at-
tractions, the seeds
being enclosed in juicy
coloured berries which
are eagerly devoured,
and many later ejected

uninjured, the weeds
thus being spread far
and wide.

FIG. 15. — HORSETAIL (Equisetum arvense).

A. Aerial Shoot. B. Underground Stem.

C. Rootlets.

B. Distribution by Vegetative Parts ( Vegetative Reproduction}.

(a} By Underground Stems.

(a) Creeping Stems. — Some of the weeds that are most
difficult to eradicate are provided with elongated branching

32 UKEDS^OF I ARM LAND

stems that creep along below the surface of the ground.
These stems do not bear ordinary leaves but arc usually
clothed with thin colourless or brown scale leaves from whose

C--

Fio. 16. — COUCH-GRASS (Agropyron repens).

A. Aerial Shoot. B. Creeping underground Stem. C. Sharp-pointed Bud on

Underground Stem.

axils branches arise that grow up above the soil and develop
the usual type of green leaves. The underground stems serve
as carriers whereby the new aerial shoots are taken to a con-
siderable distance from the original position, so extending the

DISTRIBUTION OF WEEDS

33

C ('

Fio. 17. — CORN SOWTHISTLE (Sotu-hus arvensis).

A. Aerial Shoot. C. Rootlets.

B. Creeping Underground Stem. D. Flower-head.

3

WEEDS OF FARM LAND

o
bio

I
D

6
o

«

c u

o -a <

f §

'. 2

•2 S?

DISTRIBUTION OF WEEDS

35

FIG. 19. — WOODWAX (Genista tinctoria).
A. Aerial Shoot. B. Stout woody Underground Stem.

36 WEEDS OF FARMLAND

range of the weed. Rootlets are given off from the creeping
stems, and if the latter are broKen up every small piece that
bears a bud or young shoot is capable of striking root for itself

£>

FIG. 20. — SORREL (Rumex acetosa).

A. Aerial Shoot. C. Scars of old Aerial Shoots.

B. Thickened Underground Stem. D. Roots.

and forming an independent plant. In bindweed (Convolvulus
arvensis) (Fig. 13), thistle (Cirsium arvense'} (Fig. 14), horse-
tail (Equisetum arvense) (Fig. 1 5), couchgrass (Agropyron repens)
(Fig. 1 6), and sheep's sorrel (Rumex acetosella] (Fig. 38), the
underground stem is fairly thin, but in corn sowthistle

DISTRIBUTION OF WEEDS

37

(Sonchus arvensis] (Fig. 17) it is much stouter, while in colts-
foot (Tussilago farfara) (Fig. 18) it is sometimes as thick as a
finger, rather fleshy, and may strike down several feet into the
soil, and then turn horizontally instead of creeping just below
the surface.1 As branches are sent up at frequent intervals a

FIG. 21.— BULBOUS BUTTERCUP (Ranunculus bulbosus).

A. Aerial Shoot. C. Bud from which new Plant will arise.

B. Swollen Base of Stem. D. Roots.

single coltsfoot plant is capable of covering a very large area
of ground, and the deep driven stems are exceedingly diffi-
cult to eradicate. Woodwax (Genista tinctoria) ,(Fig. 19)
possesses a very rugged woody underground stem, so full of
" snarls " or kinks that the weed cannot be removed from
pasture land by any means less heroic than ploughing up.

1 These very thick stems do not appear in the specimen illustrated.

38 WEEDS OF FARM I .AN* I)

Sorrel (Rumex acetosa) (Fig. 20) is also provided with a much
thickened stem, which, however, grows rather slowly and sends
up aerial shoots at frequent intervals, giving the whole plant
a clustered appearance.

($) Swollen Stems. — In some plants the part of the
stem below ground is swollen into a kind of tuber which is
reproduced by means of small replicas of itself formed at
the base. This is well shown by bulbous buttercup (Ranun-
culus bulbosus] (Fig. 21), and a very similar type is found in
pignut (Conopodium denudatunf].

(y) By Bulbs and Conns. — These are in reality swollen
underground stems which are clothed with scale leaves, instead
of being merely the swollen bases of the aerial stems as in /?.
In bulbs the stem portion is at the base and is much flattened,
giving off roots below, and bearing on its upper side a number
of more or less fleshy scale leaves arranged one within the other.
The flowering shoot is in the middle, and grows up above the
soil, but the colourless scale leaves remain below ground.
The only well-known farm weeds that have bulbs are wild
onion (Allium vineale] (Fig. 34), ramsons (Allium ursinunt)
(Fig. 35), and spiked star of Bethlehem (Ornithogalum pyren-
aicunf). New bulbs are developed year by year between the
scale leaves, arising from the stem portion, and as several may
be formed from one bulb the spread of the weed is rapid.

In conns the stem portion is very solid and occupies most
of the space. It is covered with a few thin chaffy scale leaves,
quite different from the fleshy scales of the bulb. The general
history of development is rather similar, new corms being
formed either on top or by the side of the old one, the latter
in this case perishing at the end of the year. The autumn
crocus (Colchicum autumnale] (Fig. 32) is probably the only
common farm weed characterised by this method of re-
production.

(b} By Stems Running along the Surface of the Ground. —
In such weeds as bent grass (Agrostis stoloniferd), silverweed
(Potentilla anserind) (Fig. 4 1 ), mouse-ear hawkweed (Hieracium
pilosella] (Fig. 22), creeping cinquefoil (Potentilla reptans\ and
creeping buttercup (Ranunculus repens} (Fig. 23), long thin
stems are thrown out from the parent plants. These run
along the surface of the ground, and at intervals develop a
tuft of leaves and a number of rootlets. The latter establish
themselves in the soil, and when once they have taken hold
the young plants are capable of leading an independent

DISTRIBUTION OF WEEDS

39

existence. Sooner or later the connecting stems may perish, but
they often persist for a long period, so that a single plant may
cover a considerable area of ground as the same process of
reproduction goes on repeatedly. The conditions of the habitat
largely determine the spread of these weeds. Under some
circumstances the runners remain short, and the daughter plants
are grouped closely round the parent, but in others the runners
are lengthy and carry the plantlets well away, thus increasing
the area of spread of the weed.

(f) By Other Types of Vegetative Reproduction, — Some
weeds have developed very specialised types of reproduction

FIG. 22. — MOUSE-EAR HAWKWEED (Hieracium pilosella).
A. Runners (above ground).

which, though less common than the two preceding classes,
are quite effective in aiding the distributioa of the species.

The reproduction of the wild onion (Allium vineale) by
means of seeds and underground bulbs has been described,
but it has still a third method, as the flowering heads always
carry a number of small bulbils at the base of the flower stalks.
It often happens, indeed, that the flowers are entirely absent,
so that the " flower head " consists of a main stalk bearing
aloft a cluster of small bulbs. These ripen and fall to the
ground, where they start into growth and give rise to new
onion plants. It is largely because of this triple method of
reproduction that the wild onion is so difficult to exterminate.

Onion or knotty couch (Arrhenatherum avenaceutn, var.

WKKhS OF FARM LAND

DISTRIBUTION OF WEEDS

FIG. 24. — ONION COUCH (Arrhenatherum avenaceum, var. tuberosum).
A. Swollen Internodes. B. Leaves from Nodes between Swellings.

4* \VKEDS OF FARM LAND

tuberosuni) (Fig. 24) is a variety of tall oat in which the stem
becomes greatly swollen between the leaves, giving rise to a
string of " knots " with leaves springing from between them.
These " knots " are very tenacious of life, and each is capable
of developing into an independent plant. It has been sug-
gested that this habit of growth is only induced by special
conditions of environment, but experiments by L. M. Under-
wood * at Rothamsted indicate that the plant is a genuine
variety, breeding true to type under whatever conditions it is
grown (see p. 90).

Most of the farm weeds that are at all conspicuous are de-
scribed above, but in many others the method of distribution
is not sufficiently striking to merit inclusion with the outstand-
ing types. Most of these plants are dependent upon seeds for
their reproduction, though some spread by their vegetative
parts, but the quantity of seed produced and the efficiency of
the vegetative reproduction is not sufficient to bring the weeds
into prominent notice except under very special circumstances,
when from one cause or another a comparatively insignificant
weed becomes abundant and demands attention.

1 Underwood, L. M. (1912), "A Note on Onion Couch," Journ. Ag. Set.,
IV, pp. 270-272.

CHAPTER III.

PREVENTION AND ERADICATION OF WEEDS.

Prevention,

THE harm and loss caused by weeds is so fully recognised
that in many parts of the world legislation is in force to
control the occurrence and spread of weeds, the laws being
both preventive and remedial in nature. In many cases it
is an offence to deal in agricultural seeds which contain
more than a certain minimum percentage of specified weed
seeds, and, very frequently, certain weeds are regarded as
noxious and must be either eradicated or well kept under, in
default of which severe penalties are enforced. The Dominions
and several European countries are very active in this respect,
but up to the present little action has been taken in the British
Isles, though a certain amount of control is exercised in Ireland
and the Isle of Man.

In those countries in which effective action is taken the
power of control conferred by legislation is very elastic.
Weeds definitely proclaimed as noxious have to be kept
down and in addition local authorities may proclaim other
weeds as circumstances arise. In the case of defaulters,
the authorities are given power to have the work carried
out and to claim the cost from the landowner or occupier,
as is done in the Transvaal, Canada, Australia, and else-
where. Further regulations ensure that the seed imported
from abroad shall be free from weed seeds. This is most
essential, as in parts of Australia the weed flora among the
arable crops on cleared land consists almost entirely of alien
weeds imported with the crop seeds, while the native vegeta-
tion has entirely died out. In Canada, too, many of the worst
weeds have arrived from Europe in the same way. So far no
regulations as to weed control are existent in this country, and
farmers have full liberty to present their neighbours with un-
limited supplies of the seeds of thistles, docks, and other evil

43

44 \VKEDS OF FARM LAND

weeds. In this way a good farmer may be seriously handi-
capped if he has a careless neighbour, and much money is spent
annually for labour in weeding that might be saved if some
measure of legislative control were introduced. However, the
Testing of Seeds Order, 191 7 ,l may have an indirect beneficial
action by encouraging farmers to harvest their crops as free
from weed seeds as possible.

Weeds are ubiquitous. The soil is full of seeds awaiting
opportunity to germinate ; weed seeds lurk in hedges, trees,
farm implements, and in all sorts of nooks and crannies ; wind
carries others from long distances ; water and animals all play
their part in distribution. It is thus obvious that it is impos-
sible to keep any farm entirely free from weeds, but neverthe-
less a great deal may be done by way of prevention. The
chief preventive measures that are practicable on any farm
are : —

(1) To sow clean seed, free from weed seeds.

(2) To prevent any weeds from forming seed and so re-
producing themselves in that way.

(3) To clean farm machinery, especially if borrowed, to
prevent weed seeds being carried from place to place.

(4) To avoid throwing rubbish from ricks, barns, and
other sources on to arable land.

(1) The official Seed Testing Station is prepared to ex-
amine any sample of agricultural seeds that may be submitted
and to report on the nature and quantity of the injurious weed
seeds that may be included, in addition to reporting the per-
centage germination and purity of the crop seed itself. The
Testing of Seeds Order requires that these particulars shall be
furnished by the vendor to the buyer before the transaction is
completed, so that the onus rests on the purchaser if he is
foolish enough to buy seed containing a total of more than
i per cent, of such injurious weed seeds as docks (Rumex con-

glomeratus, Murr ; R. obtusifolius, L. ; R. crispus, L.), sheep's
sorrel (R. acetosella, L.), wild carrot {Daunts carota, L.), York-
shire fog (Holcus lanatus, L.), soft brome grass (Bromus mollis,
L. et spp.\ suckling clovers (Trifolium dubiunt, Sibth ; T. pro-
cumbens, L. ; T. parviflorum, Ebrh, and T. angulatum, Waldst).

(2) In order to prevent weeds from forming seed, methods
of cultivation suitable to the particular circumstances should
be put into operation. All these are identical with those
described for eradication in the following section, but they

1 Testing of Seeds Order (1917), Jour. Bd. Agric., XXIV, pp. 1031-1039.

PREVENTION AND ERADICATION OF WEEDS 45

must be applied early enough in the life of the weeds to pre-
vent any danger of seed formation even in the most forward
specimens. So much seed is produced by individual plants
of docks, thistles, poppies, and others that if even half a dozen
plants are allowed to ripen they can supply sufficient seed -to
restock a large area the following year.

(3) Large numbers of weed seeds are carried about the
country by agricultural implements, and now that machinery
of larger type, that passes from farm to farm, is coming into
common use the danger of contamination from this source is
increasing. Steam ploughs and cultivators, motor ploughs,
and other types of machinery tend to carry about clods of
soil in which numerous weed seeds are buried. Threshing
machines, binders, wagons, and other appliances for dealing
with the harvested crops become thoroughly infested with
large numbers of weed seeds and these are carried from
place to place unless the utmost care is taken to keep the
machines scrupulously cleaned out after use

(4) Large collections of weed seeds occur at the bottom
of corn and hay ricks, in barns and similar places. All such
rubbish should be burned if possible, or, if suitable for feeding
animals, may be steamed or thoroughly ground up in a mill
in order to crush the weed seeds beyond possibility of germina-
tion. This, however, is hardly feasible, as it is not worth the
cost. Too often this source of infection is overlooked, even
on farms that are otherwise well protected against the ingress
of weed seeds, and much damage is thereby caused.

Eradication.

The most effective measures of weed prevention are
bound to fail unless a constant system of eradication is in
force. From one year's end to another it is possible and
necessary for the farmer to be combating the weeds, so
that he always remains master and never lets them get the
upper hand. The methods of eradication are many, but most
of them can be summed up under the heads of eradication
by} mechanical and by chemical means. A few special
methods are occasionally used which cannot quite be classified
in this way, but these are the exception rather than the rule.

From the very early days of agriculture cultivation has
been regarded as the principal means of getting rid of weeds.
The old husbandman knew nothing of our modern agricultural
machinery and carried on his work with the old-fashioned

46 WEEPS OF IAKM LAND

implements worked by hand and animal labour. No chemical
substances were recognised in agriculture, and naturally
enough the methods employed were conservative and farmers
did not foresee future improvements. In this way one finds
Blith 1 stating that ploughing is the only cure for weeds,
and that such common weeds as nettles, docks, chickweeds,
and hemlocks (chevils ?) are caused as much by over-rich and
fat soil as by anything else. Our knowledge has advanced
since those days, the true cause of the prevalence of weeds is
better understood, and many kinds of mechanical and chemical
methods have been devised to deal with them.

The system under which land is farmed has much to do
with the particular methods adopted for the eradication of
weeds. Methods that are possible and effective on ploughed
land are impossible of application on grass-land, besides which
the types of weeds that occur under the two systems are quite
different. It will therefore be necessary to make a sharp dis-
tinction and to consider separately the methods of exter-
minating weeds on arable and grass-land.

I. Eradication of Weeds from Arable Land.

(a) Eradication by Methods of Cultivation — Mechanical
Means. — The primary method of removing weeds from arable
land is ploughing, for unless some clearance is first effected in
this way whatever other methods of cultivation may be carried
out are of little avail. In ploughing the surface vegetation
is bodily reversed and buried under a mass of soil which
prevents the leaves of the plants having access to the light
and air essential to them. The roots are cut off from
communication with the lower soil, and in this position the
plants are subjected to baking and consequent withering if the
weather be hot, or if it be wet and cold the crowns are sur-
rounded with so much dampness that they rot away. This
effectively disposes of large numbers of the annual weeds that
have fibrous roots, while the top growth of perennials is
also destroyed.2 The act of ploughing, however, breaks
up the roots or the underground stems of the perennials, and
unless further measures are taken much harm may result. If

1 Blith, W. (1652), " Survey of Husbandry Surveyed".

•The Russians advocate very deep ploughing (12 inches at least) as
by that means weed seeds are buried at such a depth that they cannot grow.
See Anzibor, S. (1912), Bull. Bur. Agric. Intelligence and Plant Diseases, III,
pp. 2313-4.

PREVENTION AND ERADICATION OF WEEDS 47

these broken pieces are left in the soil after ploughing the
field will shortly be covered with far more of the perennial
weeds than were present in the first instance. An excellent
instance of this was seen by the writer in the summer of 1918
on a neglected farm in Suffolk. The arable land had been
getting into poor condition for some years, and in 1916 an
attempt was made to work some of the fields with the steam
plough. For some reason no after-cultivation of any kind was
carried out, and in August, 1918, it was covered with a dense
rank herbage consisting almost entirely of " water grass "
(Agrostis or twitch), together with an army of curled docks that
were seeding freely. The condition of the land thus treated
was so hopeless that even the farmers of the neighbourhood,
experienced in dealing with that particular type of soil, con-
fessed themselves unable to tackle the problem of reducing the
chaos to a semblance of order. This is a practical demonstra-
tion of the necessity of following the plough with other imple-
ments which will gather up the fragments of perennial weeds in
order that they may be collected and destroyed. Repeated
harrowing after ploughing serves the double purpose of collect-
ing these weeds and of reducing the soil to the fine tilth most
favourable to germination. This in itself is a valuable aid to
weed eradication. The soil is full of weed seeds and the good
tilth encourages them to germinate rapidly, and it is an easy
matter to destroy the delicate seedlings by further cultivation,
so disposing of some proportion of the stores of buried seeds.
If it is not necessary to sow the crop immediately this process
can be repeated, as each cultivation of the surface maintains
a good seed bed for the germination of the weeds.

Even after the crops are sown and are well through the
soil it is possible to destroy the weed seedlings by using the
appropriate farm implements. Special machines have been
invented to meet this need, and the Poppy Destroyer and the
American Weeder1 are but two of the various types employed.
Among some crops it is possible to run the horse-hoe, but
under special circumstances, where a particular weed is trouble-
some and labour is available, the surface cultivation is carried
out with the hand-hoe. When the crops become too high to
admit of the passage of any cultivator it is necessary to
resort to hand pulling for the removal of the larger weeds,
and if necessary the hand-hoe can be kept going for some
time longer. Large individual weeds, as thistles, that cannot

1 Long, H. C. (1910), " Common Weeds of the Farm and Garden," pp. 34-35.

48 WEEDS OF FARM LAM >

be pulled out easily should be constantly spudded in order
to exhaust the underground parts as much as possible. Corn
sowthistle (Sonchus arvensis] is one of the weeds that require
constant attention. It should be cut early in the year soon
after it comes above ground, and the cutting should be
repeated as often as possible during the season.

After the weeds have been collected they should on no
account be allowed to lie about on the ground, particularly if
they are approaching the flowering stage. Such plants as
docks and thistles have such large stores of food in their
underground parts that if they are far enough advanced
it is in many cases possible for them to continue growing
even after they are pulled up from the soil, so that they
can ripen and shed their seed. For this reason the ac-
cumulation of docks and thistles in heaps in the hedgerows
should be discountenanced. All weeds and parts of weeds
should be burned straightway or removed from the field and
mixed with lime to rot them down into a compost. Even
this latter proceeding is dangerous if seeding is at all advanced,
as many seeds have such a hard covering that they fail to
rot, and even though they are buried in the lime they are
likely to remain uninjured in the compost heap ready to
spring into activity when the manure is spread on the land and
favourable conditions arise for germination.

When a heap of manure is kept for any length of time and
reaches a fairly high temperature in the interior it is probable
that many weed seeds perish from the heat developed. Some
species seem proof against almost any adverse circumstances,
and very frequently the first plant to spring up where a heap
of stable manure has stood is knotgrass (Polygonum aviculari),
while fat hen (Chenopodium album} grows so freely upon a
manure heap that it is often called mixen-weed or muck-weed.

As it is all-important to prevent seeding any practicable
method should be adopted to avoid it. In some cases wild
radish is troublesome and is too abundant to be pulled out by
hand. It has been suggested T that when it occurs among corn
crops the plants should be " topped " with a scythe at the time
of flowering so that seed formation is impossible.

It is sometimes advisable to reverse the order of working
and to begin to effect a clearance before ploughing is done.
This is specially useful after dirty crops like peas, which leave
a stubble full of such pests as couch-grass and twitch. A

ljour. Bd. Agric. (1908), XIV, p. 696.

PREVENTION AND ERADICATION OF WEEDS 49

heavy harrow run over the stubble will drag up much of the
weed, and if the latter be collected into heaps and burnt there
and then on the ground, the ashes help to fertilise the soil and
the land is more fit for ploughing. This may be done even on
heavy land when " running grasses " are a nuisance. On light,
sandy land this is the recognised method of dealing with
twitch, as at every available opportunity the cultivator is run
over the soil to gather the stuff up ready for burning.

It is occasionally possible to take advantage of the pre-
ference of weeds tor certain soils in order to eradicate them
or to prevent them from being spread from place to place.
Sheep's sorrel (Rumex acetoselld] requires soil of a very open
and light nature, and anything that consolidates the soil tends
to suppress the weed. Anderson (I/79)1 quotes an instance
of an experiment in which sheep's sorrel was eradicated by
thoroughly rolling the land. Many weed seeds are carried
about in farmyard manure, and as the weeds that are most
abundant on heavy land differ from those that prefer light soil,
Hardie (1904) 2 suggested that wherever possible the manure
made from straw grown on heavy land should be put on to
light land, and vice versa, and then the weed seeds would
have less encouragement to flourish in their new environment.

The methods above described are those that are applicable
to arable land irrespective of the crops carried. The crop
itself, however, can be used as a valuable instrument in weed
eradication, whether on account of its habit or the particular
type of cultivation it requires. Roots are most valuable
cleaning crops, and are often sown when a piece of land has
grown so foul that it needs special treatment. Most root
crops, as mangels, swedes, and turnips, are sown so late in the
season that a long time is available in the spring for cultivat-
ing and clearing the land of weeds as described above. Then,
when once the crop is up, it needs constant attention and
cultivating from first to last. The horse-hoe is used to clear
the spaces between the rows, later on hand-hoeing takes place
to single the plants, and to the very end it is necessary to
keep the land well worked if a good crop is to be obtained.
All this cultivation and working of the soil is the very thing
to clear the weeds out of the way. The weed seeds find a
perfect seed bed in which they germinate, only to be cut down

1 Anderson, J. (1779), " Essays on Agriculture," Vol. II, pp. 215-226.
'Hardie, W. (1904), "Destruction of Weeds by Surface Cultivation,"
Jour. Bd. Agrif., XI, pp. 193-201.

4

5o \V1.I DS 01 I.\RM LAND

at the next stage in cultivation. Fresh seedlings arise to
meet with the same fate, and very few plants are able to
reach maturity to replenish the store of seed in the soil. Two
root crops in succession will make a wonderful clearance even
on badly infested land, and this method has been successfully
used in getting rid of shepherd's needle (Scandix pecteri), which
is troublesome in some places.1

A totally different method is adopted when " smother
crops" are grown. In this case the weed and crop seeds
start into growth together, but before long the crop grows
ahead much more rapidly than the weeds, and as the latter
are deprived of light by the overshadowing of their competitors
they are killed out before they attain any size. Clover,
lucerne, sainfoin, and mustard are among the more common
smother crops. Lucerne is particularly effective, because it
is cut so often during the season that all the weeds that grow
are cut off before they seed, and as the crop occupies the
ground for several years a good clearance is effected. Couch-
grass (Agropyron repens] has been effectively dealt with in this
way. In a French test2 vetches were sown on a field infested
with couch-grass in April, 1910, and a good hay crop was
taken in July. By this time the vetches had " gone down " and
smothered all the top growth of weeds, so that after mowing
the field was clean and fit for sowing lucerne the following
spring. Three good cuts of lucerne were obtained in 191 1, as
the couch had no opportunity of asserting itself and spoiling
the crop.

When crops are grown for silage very good opportunities
arise for clearing the land of weeds, provided the ground is
broken up directly the crop is removed, so that the weeds are
foiled in any attempt to reassert themselves.3 The silage crop
exhausts the soil moisture very considerably, and if the ground
is ploughed without delay the weeds rapidly dry up, particu-
larly if the piocess is favoured by hot, dry, summer weather.
It is usually possible to carry out this work because it comes
between hay and corn harvest, when more time is available.
The perennial weeds are not exterminated by such silage crops
as oats and tares, but they are suppressed for a time and so
weakened that they are more easily dealt with in other ways.

1 Long, H. C. (1912), " Identification and Eradication of Some Common
Weeds, IV," Jour. Bd. Agric., XIX, pp. 273-277.

* La Ttrre Vaudoisc (igii), No. 50, p. 458.

*Amos, A. (1917), "Some Problems in the Growth of Silage Crops,"
Jour. Rd. Agric., XXIV, pp. 167-168.

PREVENTION AND ERADICATION OF WEEDS 51

Some weeds, however, seem to be proof against all
methods of eradication, especially if they occur on soil to
which they are particularly suited and where they normally
grow in great abundance. Corn marigold (Chrysanthemum
segetuni} tends to resist all attempts to remove it. In one
case,1 when it had so completely destroyed two acres of
barley that harvesting was not attempted, the land was
sown down to green crops for four successive years with no
success. This weed has long had an unenviable reputation,
for even in 1727 Threkeld wrote, " Maunour courts do amerce
careless tenants who do not weed it out before it comes to
seed ". Some success may be obtained by growing several
successive root crops on infested land, provided scrupulous
care is taken with the hoeing so as to allow no plant to seed.
Older writers claim that manuring with chalk is effective.2
This weed is very troublesome in turnip fields on the sandy
soil of Norfolk.

Wild oats is a bad weed in some districts and is difficult
to get rid of. Adam3 (1789) claimed that it could be
eradicated by putting infested land down to clover and mow-
ing the oats and clover together before the oats were ripe.
The plant is annual, so the roots do not shoot out again, and
flowering would thus be prevented. It seems doubtful
whether one year only of this treatment would be really effec-
tive. Observations made by the writer in Suffolk seem to show
that wild oat seed is capable of lying dormant for some years,
and a stock of ungerminated seed would probably remain
ready to spring up after the removal of the clover crop. Deep
ploughing of land infested with wild oat serves to bring up a
large stock of dormant seeds into conditions favourable for
germination. Some of these germinate at once and are
cleared away if thorough surface cultivation is carried out
Most of the seeds, however, bide their time and germinate
among succeeding cereal crops, so that the deep ploughing
really encourages an increase in the crop of wild oats in future
years ; in France it was considered that the deep plough-
ing carried out in 1912 favoured the invasion of this pestilent
weed in 1913.*

When a smother crop is grown it is of course necessary

1 Jour. Ed. Agric. (1907), XIV, pp. 536-537.
a" Gleanings from Agriculture" (1802).

3 Adam, J. (1789), " Practical Essays on Agriculture," II, pp. 173-198.

4 Rabatl, E., "La Folle Avoine" (1913), Le Progris Agricole t Viticolt,
33, No. 32, pp. 116-180.

52 \VKEDS OF FARM LAM)

that the crop seed should be free from weed seed. This can
now be easily assured by the guarantee that must be issued
with all seeds sold, but hitherto much care has been necessary.
Cleavers (Galium aparine) was a common impurity in rape
seed, and in the districts bordering the North Sea it was usual
to clean the rape by running the seed over a cloth, when the
rape rolled off while the cleavers seeds were caught by the
cloth by means of their hooks.1

When all other methods fail two more drastic treatments
may be tried : the land may either be fallowed for a season or,
as a last resort, it may be laid down to grass for a term of
years,

Under the old system of agriculture fallowing was usu-
ally regarded as an integral part of the rotation of crops, but
with improved methods of cultivation and the increased use of
manures it is now less generally used unless for such a specific
purpose as clearing land of specially bad weeds. If land can
be kept clean without a bare fallow it is usually more profit-
able to keep it cropped continuously, partly because the value
of the extra crop is obtained and partly because a definite loss
of nitrogen has been proved to occur when soil is left bare
and exposed without any green covering. Under some cir-
cumstances, however, and especially on heavy land, a bare
fallow proves the most effective and prompt means of reduc-
ing the weeds. For this purpose the land should be ploughed
and harrowed to remove as many weeds as possible, and then
be cultivated to provide a tilth in which the weed seeds in the
soil may be encouraged to germinate. Further ploughings
and cultivations must be carried out during the season, the
great object being to obtain as many weed seedlings as possible
in order that they may be destroyed forthwith. It is essential
that the intervals between the cultivations should not be long
enough to allow any of the weeds to seed, and careful watch
must be kept, as some weed species flower and seed with great
rapidity under all circumstances and, if the season be dry, the
longer lived weeds may be induced to hurry on their seeding
processes on account of the drought. Fallowing may be par-
ticularly effective when for any reason a succession of straw
crops has been carried on the same field. The Broad balk field
at Rothamsted, which has carried wheat for seventy-five years,
since 1843, is badly infested with black bent (Alopecurus
agrestis), so badly that constant hoeing and hand pulling fail

1 Jour. Ed. Agr'u. (1912), XIX, p. 321.

PREVENTION AND ERADICATION OF WEEDS 53

to keep it in check. Consequently half of the field was fallowed
in 1914 for a season and the other half in 1915, and the
following years far less of the pest was in evidence.

When all other means of eradication fail, whether they be
methods of cultivation or " chemical " means, obstinate weeds
will sometimes disappear if the land be laid down to grass for
a term of years. Thi-; was fully recognised in the eighteenth
century, and is still practised when necessary at the present day.

Anderson1 (1779) noticed that couch-grass and knotgrass
only occur while the land is under cultivation, or at most for a
year or two after it is laid down to grass, " after which they
usually disappear and are no longer seen till the land has been
again in tillage for some time. And it is in this way alone
that the farmers, in some of the worst cultivated parts of Scot-
land, know how to get rid of these destructive weeds."

Adam 2 (1789) claimed that to extirpate coltsfoot (Tussilago
farfard^j thoroughly the land must be long laid down to grass,
though he admitted that it was once almost destroyed by two
successive crops of vetches, and that it may be killed by allow-
ing the land to lie for a sufficient time under clover and ryegrass.

Most excellent results have been obtained by an adaptation
of this method in recent years in dealing with wild onion
(Allium vineale]. This is only troublesome on heavy soil,
but is sometimes so abundant as to ruin the crops, and no
ordinary method is effective in reducing it. The plant spreads
in three ways, by means of seeds, by bulbils formed in the
flowering head, and by "offsets" from the subterranean bulb.
Experiments were carried out at the Woburn Experimental
Station 3 and also on fields at Woburu and Chelsing in which
the pest was very abundant. Many chemical treatments were
tried, with little or no success in most cases, and various
mechanical treatments, such as cutting off the flowering heads,
pulling up plants by hand, deep-ploughing the land, and
burning the soil, were equally unsuccessful. Experiments
in. which the soil was lightened by mechanical addition were
more promising, indicating that if the land could be opened
up and more effective drainage provided the weed might
eventually be got under. It was therefore decided to sow
plots down with " Elliott's mixture," a mixture of grass

1 Anderson, J. (1779) (3rd edition). " Essays on Agriculture," II, p. 38.

''Adam, J. (1789), "Practical Essays on Agriculture— On Weeds," pp.
173-198.

•Voelcker, J. A. (1911), "Eradication of Wild Onion," Jour. Roy. Ag.
Soc., 72, pp. 404-409.

54 \\KKDS 01 I'AKM LAND

seeds with some deep-rooted plants such as chicory, burnet
and kidney vetch, since the latter send down large, strong
roots which open and aerate the land. Great success re-
warded the attempt. At the end of six years the plots of
grass from Elliott's mixture were ploughed up, and after
the most careful search hardly a single onion was to be
found, while the adjacent plots were so smothered with bulbs
and green tops that they gave the land a distinctly white ap-
pearance. Further experiments were made on the infested
area to compare the effect of a cheaper grass mixture, contain-
ing only Italian ryegrass and red clover, with that of the
more expensive " Elliott's mixture ". When the land was
ploughed up in 1916 l it was found that the cheaper mixture,
in which deep-rooted plants were absent, had been far less
effective in eradicating the wild onion, while the Elliott's mix-
ture had brought about a complete clearance.

When land is laid down to grass for the purpose of weed
eradication it is necessary to keep the pasture down for a
sufficient number of years in order that the underground parts
of the perennial weeds may have time and opportunity to
rot away. Such a clearance is not effected in a year or so,
but "\f it is to be thorough takes some considerable time.
Meanwhile the land will be producing hay crops and so will
not be running at a loss.

(ft) Eradication by Spraying and Manuring. — Chemical
Means. — During the past few years many attempts have been
made to combat weeds by various chemical means, the great
object being to find some application which will destroy the
weeds without injuring the crop. A considerable measure of
success has attended the experiments, but the natural con-
servatism of farmers has up to the present prevented the new
methods from being widely adopted, though some headway is
being made.

The great factor that makes for success in this chemical
treatment lies in the difference between the habit of most
weeds and that of such crops as cereals. The long, narrow
upstanding leaves of cereals, which are often covered with
" bloom," tend to throw off rapidly any moisture that falls
upon them, with the result that even if they are treated with
a poisonous or corrosive substance injury does not necessarily
follow. The majority of weeds, however, have broad leaves

'Voelcker, J. A., "Occasional Notes" (February, 1918), Roy. Ag. Soc.,
No. 4, pp. 1-3.

I'RKYKNTION AND KKA I >1< \\ I K )\ OK \VKKDS 55

which stand out at an angle from the stem, retain moisture
long enough to allow any poisonous agent to become effective.
This is particularly the case if the leaves are rough or crinkled,
as the irregularities hold the moisture for a longer time. It
is more difficult, and often impossible, to apply chemical
methods for the eradication of weeds among leguminous crops,
as the broader leaves of clover, trefoil, sainfoin, serradella and
others behave like the leaves of weeds, and hold the chemicals
long enough to cause serious injury to the plant

With root crops the constant cultivation carried on is
usually sufficient to keep weeds in check, so that as a rule
it is only cereals that are dealt with by chemical means.

The success of the chemical eradication of weeds, is to
some extent dependent upon the weather: It is essential
that the substance employed should remain upon the leaves
long enough to come into action, and, therefore, if heavy rain
falls immediately after an application much of the benefit is
lost. Consequently it is necessary to watch the weather
carefully, and if unfortunately rain supervenes too soon, the
application should be repeated. Again, if a dry substance is
employed it would easily be blown away if applied when the
leaves were dry, so in this case it is usual to carry out the
work when the plants are wet with dew, as by that means the
chemical is fastened to the leaves and does not tend to blow
away when they dry.

The chemical substances used as weed killers can be
divided into two groups : —

(1) Chemicals that merely destroy the weeds and have no
direct beneficial action upon the growth of the crops. These
substances are usually applied in the liquid form as sprays.

(2) Compounds that not only destroy the weeds but also
exercise a manurial action, thus directly benefiting the crop at
a later date. These substances are usually very finely ground
manures, and are applied as dry powders when the leaves are
damp.

(i) Sprays. — Most of these are corrosive in nature, and
burn up the delicate tissues of the leaves and stems, either
killing the weeds outright or so crippling them that the crop
is able to get well ahead before the weeds can again start into
growth to any extent. These chemicals are always applied
in solutions of various strengths. Copper sulphate, iron sul-
phate and sulphuric acid are the most general sprays, but
various other soluble substances have been tested.

56 WEEDS OF FARM LAND

Copper Sulphate. — This is probably the most familiar of
all weed sprays, and has been experimented with for years.
It is most generally associated with the destruction of char-
lock (Brassica sinafiis), but its use has been extended to other
weeds. The rough crinkled leaf of charlock makes it a most
favourable subject for eradication by spraying, and, given
suitable weather, the treatment rarely fails to make a consider-
able reduction. It is usually best to spray when the weeds
are small, with three or four well-developed leaves, but under
favourable conditions success will often attend much later
spraying. On a farm in Gedling, Notts, a few years ago
charlock was successfully sprayed when in full flower, but this
practice is not one to be recommended. On the same farm
it was noticed that while most of the charlock succumbed a
number of plants remained uninjured : closer investigation
showed that the latter were a different species, Brassica cam-
pestris, which has smooth, rather waxy leaves, off which the
spray rolled without exercising its corrosive action. Various
experiments indicate that the best strength to use is 4 or 5
per cent. (4 or 5 Ib. copper sulphate in 10 gallons of water),
applied at the rate of about 40 gallons per acre. In some
cases a 3 per cent, solution is effective, but only under specially
favourable conditions.1

A 5 per cent, solution of copper sulphate at the rate of
50 gallons per acre is useful for eradicating spurry and does
its work thoroughly, but a weaker strength, 3 per cent., is only
partially effective and allows about half the weed crop to form
and ripen its seeds.2 3 In the latter case the spurry is injured
and checked at first, as the shoots shrivel and become brown
at the tips, but later on many plants recover considerably.
This recovery is prevented by the use of the 5 per cent, solu-
tion. Poppies are sensitive to this spray, and even a 2 per
cent, solution does them harm. It has been suggested that
two applications of a 3 per cent, solution, with an interval of a
few days, might prove quite effective in eradicating them.4

In some cases the action of the corrosive spray is strength-

'" Charlock Destruction" (1909), Bull. I, Agric. Dept., Univ. Coll., N.
Wales, Bangor.

'"Spraying of Charlock and Spurry" (1908), Bull. II, Agric. Dept.,
Univ. Coll., N. Wales, Bangor.

8 " Destruction of Spurry in Corn " (1906), Bull. IX, Agric. Dept., Univ.
Coll., N. Wales, Bangor.

«"A Common Weed— The Poppy" (1909), Jour. Bd. Agric. XVI, pp.
26-31.

PREVENTION AND ERADICATION OF WEEDS 57

ened by the addition of a soluble manure, which acts as a
stimulant and enables the crop to get ahead of the weeds before
any that may survive have time to recover. Corn butter-
cup (Ranunculus arvensis], if very strong, is only burnt and
not destroyed by a fairly strong solution of copper sulphate,
4^ per cent In one experiment1 the amount of chemical
was more than doubled, to 9-9 per cent, and 22 Ib. of
sodium nitrate was added to the 10 gallons of water. About
35 to 40 per cent, of the weeds were killed or injured, and before
the rest could make much growth the wheat had benefited so
much by the nitrate that it pulled right ahead of the weeds.
Such strong applications of copper sulphate, however, need
very careful handling, and are not to be advised under ordinary
circumstances.

Iron Sulphate. — In most cases this can be used as a sub-
stitute for copper sulphate, and very often the iron compound
is the more effective of the two, provided that suitable strengths
are employed, as stronger concentrations of the iron salt
are necessary. It has been largely used abroad to eradicate
charlock, and experiments have also been carried out in this
country. Quite good results have been obtained with 40
gallons of 7 per cent, solution per acre, particularly on oat
crops. It was found that copper sulphate caused the young
oats to flag more than the iron sulphate, but, on the contrary,
young barley received more initial check from the latter spray.
Hiltner2 used a far more concentrated solution in larger
quantities, applying 53 gallons per acre of a 22 per cent,
solution to infested oats. Excellent results were obtained,
and the yield of oats from a plot treated thus was six times
that from an untreated plot. Care was taken that the plants
were completely dry before the spraying was done, and the
drastic effects on the charlock were visible within two days.
The German Agricultural Society 3 recommend the addition
of 5 per cent of molasses to cause the solution to adhere to
the weeds more firmly. Iron sulphate may also be applied
dry as a fine powder,4 at the rate of 3 to 4 cwt per acre. It

1 Martin, J. B. (1916), C.R. de V Academic <f 'Agriculture de France, II, pp.
420-424.

8 Hiltner (1911), Praktische Blatter fur Pfianzenbau und Pflantensehutx,
Jan., Feb., Summ. in Jour. Bd. Agric., XVIII, pp. 41-42.

3 Mitt, der deut. Landw. Gesell. (1911), Flugblatt, No. ir, Summ. in Jour.
Bd. Agric., XVI II, p. 244.

4 Bull. Soc. Nat. d1 Agric. (1909), No. 5, Summ. in Jmir. Bd. Agric., XVI,
p. 761.

58 \\ BEDS (>]•• I Aim LAND

may be broadcasted or scattered by machine early in the
morning while the leaves are still wet with dew.

All cereal crops, and also the leguminous crops sown
among them, will resist dusting or spraying with iron sulphate.
The leguminous plants owe their immunity, in this case, to
the fact that they are to a great extent protected by the larger
growing weeds and the cereals, so that comparatively little of
the spray reaches their leaves. Serradella, however, growing by
itself, will not stand spraying with any dilution of iron sulphate
or at any stage of growth, so that it has proved impossible to
use this means of eradicating wild radish among this crop.
Nearly all unprotected broad-leaved crops growing alone suffer
badly, and beans, vetches, yellow and white lupins, roots and
potatoes are much injured by the iron sulphate, though peas
and blue lupins are rather less sensitive.

The iron spray is more effective than the copper salt in
dealing with poppies and corn buttercups, a 15 per cent, solu-
tion reducing the weeds drastically. For the buttercup the
spray is best applied at the beginning of February, and a 1 5
per cent, solution may be used as this is known to do no
permanent harm to the cereal crops.

Sulphuric Acid. — This is the most corrosive agent that is
used in the eradication of weeds. It attacks metals violently,
including copper ; therefore it is necessary to use special spray-
ing machines and to wash them out thoroughly immediately
after use to prevent them from being eaten away. Italian ex-
periments indicate that if spraying is done at the right time the
production of the cereal crop is not affected. For wheat it
should be used during February and early March, when the
plants have five or six leaves, at the rate of about 90 to 100
gallons per acre of an 8 or 10 per cent solution made up with
water. This method has been used in France, in Lot-e-Garonne,
for destroying wild radish.1 Sulphuric acid does not act as a
universal weed destroyer, as all the weed grasses, including
wild oat (Avena fatua), resist its action because their habit
resembles that of the cereals. Medicks (Medicago J/>/>.) and
members of the lily family (as wild onion) also escape. The
acid is deadly to most annual and biennial weeds, such as
poppy, charlock, corn buttercup, cornflower, wild carrot, wild
radish, vetches and vetchlings, and it clears badly infested

1 Rabat£, E. (1911), "Destruction des Ravenelles par 1'acide sulfurique,"
your. <T Agriculture pratique, No. 13, pp. 407-409.

PREVENTION AND ERADICATION OK WEEDS 59

fields of these pests very effectively.1 For oats it is advisable
to use about 60 to 70 gallons of the 10 per cent, solution per
acre, and rather less for barley.2

Arsenite of Soda. — The very poisonous nature of this
substance has prevented it from coming into general use for
spraying purposes, and as it also has certain effects upon the
soil it needs handling with much judgment. It is widely used
in rubber plantations in Hawaii and among sugar canes in
Australia, and in the latter case it is claimed that its use has
reduced the cost of weed destruction by 25 per cent.3 Arsenite
of soda, like most caustic sprays, cannot be used on the broad-
leaved crops without injuring them. In one attempt to rid
alfalfa of dodder by this means the alfalfa was killed as well
as the dodder. Besides this, there is danger of poisoning stock
if a fodder or hay plant is sprayed with too much of it. The
spray considerably alters the mechanical condition of the soil,
acting as a deflocculating agent It is strongly fixed by the
soil and is not washed out even by very heavy rains, and con-
sequently it is liable to remain for an indefinite time in the top
few inches.4 For this reason it is unwise to use the sodium
arsenite spray too freely, as it may accumulate in the surface
soil in sufficient quantity to act as a poison to any crop that is
planted. With due care, however, and with particular crops,
there is no doubt that this spray is decidedly efficacious.

Various Sprays. — In view of the difficulty in obtaining
some of the more usual chemical sprays, such as copper and iron
sulphate, various experiments have been made with other
promising substances. At Rothamsted charlock plants in
various stages of growth were sprayed with 3 per cent, solutions
of nickel sulphate and copper sulphate to contrast the effect of
the two. With young plants the nickel spray was much slower
in taking effect than the copper spray, but at the end of six
days all the plants were dead and made no recovery. With
6 per cent, solution the action was rather more rapid. Later
on some very large plants just coming into flower were sprayed
in a similar way, but although a few days afterwards the

1 Morettini, A. (1915), Le Stazioni sperimentali agrarie italiane, XLVIII,
pp. 693-716.

a Jaguenaud, G. (1912), " Sur la destruction des mauvaises herbes dans les
Ce're'ales par 1'acide sulfurque," Le Progres Agricolc e Viticole, 29, pp. 332-334.

s" Weed-killing by Machinery " (1916), Queensland Agric. jfovr., V, Part 2,
p. 61.

* McGeorge, W. T. (1915), Hawaii Agric. Expt. Station, Honolulu, Presf
Bull., No. 50.

60 WEEDS ol I- A KM LAND

leaves were badly burnt by both sprays, the plants as a whole
were not wilting or dying off. Probably a stronger solution
would have been more effective at this stage, but the results
suggest that the nickel sulphate would prove to be an effective
substitute for copper sulphate, though it might be necessary
to use it in somewhat greater concentration to hasten its
action.

Potassium chloride in a 20 1030 per cent, solution has proved
effective in destroying charlock, as the plants touched by the
liquid are completely shrivelled up. When the substance
can be obtained more cheaply than at present it might well
be given a further trial, as the potash is a most valuable
manure and would be beneficial in this way after the initial
work of weed destruction was over. The potassium chloride
has no bad effect on the cereals, and may be used at the rate
of 352 Ib. dissolved in 1092 gallons of water per acre.1
Strictly speaking, this substance comes under the head of
manures, but as for the purpose of weed destruction it is
applied as a spray it is more conveniently dealt with here.

In some places sodium bisulphate can be readily obtained
from the powder works at a cheap rate, and in parts of France
farmers have been able to get it in truck loads of 5 or IO
tons at the rate of 9^d. per 220 Ib. free on rail. It is a
most effective weed killer, resembling sulphuric acid in its
action, but it needs less precautions in its use. 80 gallons
per acre of 45 per cent, solution (i.e. 360 Ib. of bisulphate per
acre) are recommended for use if the fields are badly infested
with weeds.2 The stuff is, however, difficult to handle, so
that full advantage is not taken of its availability.

(2) Manures. — The method of eradicating weeds by
applications of finely ground manure is not very widely used,
as few substances are yet known to be effective, but in recent
years a good deal of work has been done in this direction
with calcium cyanamide (lime nitrogen) and kainit.

Calcium Cyanamide. — Since the introduction of calcium
cyanamide as a commercial manure the Germans have been
using it to a considerable extent for destroying charlock and
wild radish. Numerous experiments have demonstrated that
it is quite efficient for this purpose, provided that it is applied
when the plants are small and while the leaves are damp.

1 Dusaerre, C. (1916), Travaux de Chimie alimcntaire et d? Hygiene, VII,
PP- 357-358. •

*Peuille d'information du Ministfre de V Agriculture (1918), XXIII, No. 8.

PREVENTION AND ERADICATION OF WEEDS 61

In German experiments the dressings used for charlock varied
from 90 to 135 Ib. per acre,1 though in one experiment good
results were obtained with only 60 Ib. per acre.2 In some
cases the cereal crops were said to turn rather yellow for a
few days after application, but they rapidly recovered, and,
benefiting by the nitrogen in the manure, gave bigger crops
than when no calcium cyanamide was used. Thistles were
also very susceptible and were eradicated along with the
charlock. On the other hand, in experiments carried on in
North Wales,3 calcium cyanamide, at the rate of 80 and 120
Ib. per acre, had no permanent effect on charlock nor on the
crop, and all the weeds recovered from the temporary check
they received.

Good results are reported to have been obtained by treat-
ing wild radish with I cwt. calcium cyanamide per acre, but
it is best to apply a heavier dressing if the weed is very
abundant In one case 1 50 Ib. per acre, applied at the end
of April, completely destroyed the radish, but the associated
oat crop was eight days later in maturing on account of the
heavy nitrogenous manuring. The yield of oats, however,
was half as much again as that from the control plots that
had been left untreated, the net profit from the use of calcium
cyanamide being £2 153. per acre.4 Lime nitrogen is also
effective against poppies.

Kainit — Kainit, at the rate of 4 to 8 cwt. per acre, is said
to be quite useful in the suppression of charlock, and also in
the eradication of many other weeds, frequently being more
effective than either calcium cyanamide or iron sulphate.
Heavier dressings are also recommended, from 10 to 16 cwt.
per acre. The kainit needs to be very finely ground and
should be sprinkled on the plants when they are wet with dew
or rain, if possible on the morning of a fine day. For autumn
sown cereals the best time of application is February or March,
for spring sown corn the manure should be spread soon after
the seeds have germinated. On very heavy land it may
be necessary to apply a dressing of lime to prevent undue

1 Dtutsch. Landw. Presse. (4th Nov., 1908), Summ. in Jour. Bd. Agric., XV,
P- 7?6; (zist Jan., 1914), Summ. in your. Bd. Agric., XXI, p. 64.

* Mitt, der deutsch. Landw. Gesell. (aoth July, 1907), Summ. in Jour. Bd.
Agric., XIV, p. 568.

* " Charlock Destruction " (1909), Bull. I, Agric. Dtpt., Univ. Co//., N.
Wales, Bangor.

4 Deutsch. Landw. Presse. (24* Aug., 1912), Summ. in Jowr. Bd. Agric.,
XX, p. 618.

6a \\ KEDS OF FARM LAND

consolidation * of the soil. Cereal crops are very little harmed
by the kainit and any damage is merely temporary, but peas,
beans and other leguminous crops are more liable to suffer, as
is usually the case when chemical weed killers are used. A
comparison of the various tests made with kainit shows that
it varies in its effect upon weeds, so that the latter may be
classified according to their degree of susceptibility to the
dressing.

^(l) Weeds most Susceptible to Kainit. — Charlock, wild
radish, black bindweed, speedwell, chickweed, nettle, groundsel,
cornflower, mayweed (Anthemis arvensis).

(2) Weeds Moderately Susceptible. — Persecaria, spurry.

(3) Weeds only Slightly Susceptible. — Sowthistle, fumitory,
poppy, spreading orache.

Various Manurial Dressings. — Attempts have been made
to reduce weeds by attacking before germination the seeds lying
in the soil. Any substance that is active enough to destroy
weed seeds would be equally harmful to crop seeds, especially
cereals, so if this method is adopted it must be tried at times
when no crop seeds are lying in the soil, and when a sufficient
period will elapse before sowing to permit the corrosive effect
of the dressing to pass off. Cornflower seeds in the soil have
been successfully destroyed by applications of carbolineum or
chloride of lime, and numerous other weed seeds disappeared
at the same time.2

Spurry is chiefly associated with light soils that are de-
ficient in lime, and sheep's sorrel, though it is found on both
light and heavy soil, also indicates lime deficiency. Liming
has been tried to eradicate both these weeds, with indifferent
success in the case of spurry, with rather more success with
sheep's sorrel. As a matter of fact the shortage of lime is
usually very marked when these weeds are abundant, and it
would be necessary to apply an almost impossible dressing of
lime so to alter the balance as to render the situation untenable
for these weeds. A mere I or 2 tons of ground lime per acre
has no effect on spurry, though doubtless it effects some de-
gree of improvement in the soil itself. At Hodsock, an ap-
plication of 10 cwt. salt per acre on very light sand in poor
condition killed spurry in patches, but later on the weed took
a fresh lease of life, and grew even more luxuriantly than on

1 Landw. Jahrb. (1914), Bd. XLVI, pp. 627-657, Summ. in Jour. Bd. Agric.,
XXI, p. 451.

1 Arb. Dfutsfh. Lnndw. Gtsftl. : see Jour. Bd. Afrric. (1914), XX, pp. 909-910.

PREVENTION AND ERADICATION OF WKKDS 63

an untreated plot, flowering and fruiting abundantly. Possibly
a heavier dressing might have had more permanent effect1

II. Eradication of Weeds from Grass-land.

On arable land certain periods constantly recur when the
land is free from any crop, and even when a crop is growing
there are spaces of bare soil between the plants which permit
of cultivation. On grass-land all is different. The crop is
always on the ground, and the plants are so closely associated
that they are interlaced, and roots and shoots alike help to
form a mat which completely covers the surface of the ground.
For this reason weeds on grass-land can never be dealt with
without taking the crop into full consideration, and the methods
of eradication differ considerably from those adopted on arable
land. They may, however, be subdivided into the same two
main divisions of " mechanical " and "chemical " means.

(a) Eradication by Methods of Cultivation — Mechanical
Means. — When grass-land is constantly grazed or constantly
cut for hay the herbage takes on a special character according
to the method of treatment, and certain weeds find congenial
circumstances under each set of conditions. It is possible to
take advantage of this in the eradication of the weeds, as by
reversing the usual order and haying a grazed pasture, or
grazing a mown field, the conditions are altered and the weeds
do not flourish so well. Oxeye daisy (Chrysanthemum leucan-
themum) grows very strongly in hay fields but resents inter-
ference in the early stages of growth. Close grazing
with sheep in the early spring will materially reduce it, and
for the same reason very early cutting of the hay crop is
effective. This method can also be used to reduce false brome
(Br achy podium sylvaticum and B. pinnatunt) where it is plenti-
ful, as on down pasture. Care is needed when animals are
used as weed eradicators, as if the grazing is carried out on
the wrong lines the weeds may be increased rather than
diminished. A field known to the writer at . Carhampton
(Somerset) was infested with hardhead (Centaurea nigra}.
When the land was grazed exclusively by cows the hardheads
waxed more and more strong, the cows apparently leaving
them severely alone, but when sheep were run in as well
an improvement was soon noticed, as the plants were grazed

1M Experiment to Check the Growth of Spurry," Jour. Ed. Agric. (1901),
VIII, p. 54.

64 WEEDS OF FARM LAND

down closely and rapidly exhausted. On the other hand,
grazing of common land by sheep alone may encourage
bracken, because if broom is present the sheep cat the
broom down closely and allow the bracken to flourish. Cattle,
however, keep the bracken under and allow broom to hold its
own. On dry calcareous pastures where the herbage is short
and often weed-infested, geese are useful, as they graze very
closely and appreciate the weeds. Generally speaking, mixed
grazing is advisable where destruction of weeds is the aim,
the preferences of cattle and sheep being cjtite different, and a
more effective clearance is carried out when both agents are at
work.

If hay fields are infested with large quantities of weeds
that seed freely, such as yellow rattle (Rhinanthus crista-galli)
early cutting of the hay crop is often useful as seeding is
thereby prevented. It is, however, necessary to repeat this
for two or three years in succession, for, though no fresh seeds
may be produced, there are large stores in the ground which
will come up in succeeding years and provide for the future if
they are not cut down. Early cutting also keeps down rank
weeds like wild chervil (Anthriscus sylvestris}.

The most usual, and probably the most effective way of
dealing with the chief weeds of grass-land, such as nettle,
thistle, and bracken, is judicious cutting at appropriate times.
All the worst pasture weeds have underground storehouses of
food, either stems or roots, and if the weeds are to be eradi-
cated it is necessary to cut when those storehouses are as
empty as possible, so exhausting the plants. Thistles can be
cleared by cutting three times in the season, beginning when
the plants are well grown but have not come into flower. If
they are cut in the first week in June and then twice in July
for a couple of years hardly any thistles will remain by the
third year.1

If three cuttings cannot be managed, a single cutting
about the middle of June will do much good. Old agri-
culturists 2 recommend that thistles should be mown just
before they blossom, leaving the stems about 4 inches high,
and that then a large, heavy wooden roller should be run over
the field so as to bruise the stalks thoroughly. The roller
should be passed over four times one way and twice across.

1 " Destruction of Thistles" (1908), (1909). Reports of Field Experiments
at Harper Adams Agric. College.

1 Hunter, A. (1803), " Georgical Essays," Vol. Ill, p. 203.

I'REVENTION AND ERADICATION OF WEEDS 65

Yet again it has been suggested that the thistles should be cut
an inch above ground, as water then gets into the stub and
injures the crown of the plant, thus enfeebling the shoots,
whereas if the plants are stubbed off below ground young and
luxurious stools shoot up.1 Nettles can be kept under by
cutting regularly when the shoots are 6 to 12 inches high, and
ragwort {Senecio jacobad} can be eradicated by cutting just when
it begins to show flower, provided it is not too strongly estab-
lished. It sometimes happens that a weed, uncommon in most
places, will become so abundant in a particular district as to
be a real trouble. This is the case with the wood geranium
(Geranium sylvaticmri)- which is difficult to extirpate if it
gets a hold. Some measure of success has been obtained
by repeated cutting with the scythe, and it is possible that
pasturing the field for several years might be useful, though
cows do not seem to eat the plant.

Where it can possibly be done, bracken is readily dealt
with by means of cutting, but usually it covers such large
areas that this method is impracticable. The plants should
not be interfered with too early in the year, one or two
cuttings made when the bracken is well grown having been
found to exhaust the underground food stores more thoroughly
than if the young fronds are prevented from developing.
Early July and August seem to be the best times in Wales
and Scotland,3 4 but it might be needful to make the first cut
rather earlier in warmer districts. It is necessary to repeat
the process for two or more years, as cutting for one year
only is of little use. Another way is to run chain harrows
repeatedly over the ground at the time the fronds are coming
up, for if this is done thoroughly and persistently the plants
are greatly weakened.

Very low, close-growing weeds, like the stemless thistle
(Cirsium acau/e), are sometimes very troublesome on hilly
pastures, as they cover a considerable amount of ground with
their spreading leaves and kill out all other vegetation in that
area. Their habit makes them difficult to eradicate, and
repeated spudding, carried on throughout the summer, is

1 " Gleanings from Agriculture " (1802), p. 409.

2Milburn, T. (1916), "Eradication of Crane's-bill from Meadows," your.
Bd. Agric., XXIII, pp. 688-689.

8 " Eradication of Bracken," Dept. Agric., Univ. Coll., N. Walts, Bull. V
(1914) ; Bull. Ill (1915).

4 Gordon, G. P. (1916), " Bracken (Pleris aquilina) Life History and Eradi-
cation," Trans. Highland and Agric. Soc., Scotland, XXVIII, pp. 92-106.

5

66 WEEDS OK KARM LAND

practically the only effective remedy. Small patches may be
cleared by covering them with strong sheets of tarred paper,
which in the course of time by excluding the light destroys
all vegetation underneath. Such patches must be re-seeded
when eradication is complete.1 The same method may be
used for small patches of nettles.

Such weeds as rushes, willow-weed (Polygonum persecaria)
and marsh horsetail (Equisetum palustre] only flourish where
there is a plentiful supply of wate%held up by the soil, so that
the land is waterlogged. Such conditions are harmful to most
of the plants that are useful in herbage, and in order to im-
prove the grass, as well as to eradicate the weeds, draining is
the only effective remedy. Marsh thistle (Cirsiutn palustre}
flourishes in damp fields and is also found on hilly pastures
at any spot where a spring occurs, but it rarely causes much
trouble.

In nearly every case, if careful attention be given to the
matter, it is possible in the course of a few years to clear
grass-land of weeds by the above methods without resorting to
more drastic measures. Woodwax (Genista tinctorid), how-
ever, resists every attempt to eradicate it, and when once
established in a favourable position it spreads rapidly and
causes great depreciation in the value of the pasture. Stock
refuse to touch it, either green or in hay, and apparently the
only way woodwax can be eradicated is to plough up the
whole field and keep it under arable cultivation until such
time as the land is cleared of the underground parts of the
pest.

On rich pasture land buttercups grow most abundantly and
do not yield to ordinary methods of eradication. It has been
found that a clearance can be made by ploughing up and care-
fully cleaning the land, and then taking at least one root crop
off it, which enables still more cleaning to be done. If the
land is then seeded with grasses and clover of good quality and
is treated generously a good pasture soon results, which may
easily provide feed within one year from sowing.2

(If) Eradication by Spraying and Manuring — Chemical
Means. — On grass-land, as on arable fields, " chemical means"
resolve themselves into treatment by liquid sprays and the
application of artificial manures. Here again, however, the

J " Cnicu« acaulis," your. Bd. Agric. (1911), XVII, pp. 907-909.
"Carrutheri, W. (1906), " Buttercups in Pastures,' Jour, Roy. Ag. Sac.,
LXVII, p. 258.

PREVENTION AND ERADICATION OF WEEDS 67

difference in the requirements of the crops under the two
methods of cultivation is so great that the eradication of
weeds by chemical means has to be regarded from totally
different standpoints in the two cases.

(l) Sprays. — On grass-land sprays have only a limited
degree of usefulness, because as the herbage consists of a mat
of plants which presents in the aggregate a very large area of
leaf surface, the amount of spray that is necessary to kill
certain obnoxious weeds is sufficient to find a lodgment on the
leaves of the herbage and work havoc, particularly among the
broader leaved plants, such as clover, which are a most valu-
able constituent of the crop. In the majority of cases it is not
possible to apply the spray in such a way that it reaches the
weeds without affecting the herbage, therefore, generally speak-
ing, this method is of little use on grass-land.

Iron sulphate has been used in an attempt to eradicate
dandelions from lawns, the application being repeated till the
treatment had to be discontinued for fear of injuring the grass.
The experiment was a failure on account of the great vitality
of the dandelion roots, which remain unhurt even though the
leaves are destroyed by the spray. Iron sulphate has proved
equally ineffective with bracken, and copper sulphate is of
little or no use to eradicate thistles.

Bracken, on account of its tall branching habit, is more
amenable to eradication by spraying than any other grass-land
weed. The leafy canopy that it forms offers a large surface
which catches and retains the liquid and prevents it from fall-
ing to the ground in sufficient quantity to injure the underlying
herbage. Sulphuric acid has proved effective in clearing bracken
from areas of grazing land. A few hours after spraying with
a 5 per cent solution the bracken leaves wilt, and a few days
later the stems turn black and wither, as the acid is gradually
conducted along the midrib and down the stalk, eventually
reaching almost to the underground rhizome. A second
spraying after a new crop has sprung up clears off the bracken
for the year and weakens it for future years. The grasses
underneath are not much affected, the bracken affording them
adequate protection, and as in the following year the fern is
slower in making its appearance, the grasses are able to get
ahead earlier, with the result that the pasture becomes much
improved. Arsenite of soda and salt have also been used with
good effect on bracken. Arsenite of soda, however, is inadvis-
able as a general rule, because it is so very poisonous that there

cs \VI:I;MS OK FARM LAND

is danger to cattle that may eat the herbage or hay afterwards.
The Americans apply salt solution, using 200 Ib. salt per acre,
dissolved at the rate of I Ib. salt in l^ quarts of water. Two
sprayings a year are necessary, and it is claimed that the
method is effective.1 Salt does not injure the herbage, but
on the contrary exercises a beneficial action as a manure, so
that the {rait solution is free from the objection common to most
sprays. in Germany a 15 per cent, solution of kainit has
been used to eradicate nettles in springtime, and the sugges-
tion is made that this good effect may be due to the presence
of salt in the kainit.

(2) Manures. — The principles underlying the treatment of
grass-land and arable land by manure for the eradication of
weeds are essentially different. On arable land the application
is made directly to the weeds with a view to burning them up
and so destroying them, the actual beneficial action of the
manure on the crops being a somewhat secondary considera-
tion. On grass-land, however, it is impossible so to differentiate
between weed and crop. In this case the manures are applied
with the view to encouraging certain desirable species, to
enable them to exercise their full force of competition and so
gradually crowd out the undesirable plants.

Apart from their beneficial influence on the herbage, salt
and lime, perhaps, exercise a more direct action upon certain
weeds. Nettles are less likely to recur if infested pastures
are treated with 6 cwts. per acre of salt at the time the weeds
are cut down in the spring. A similar dressing in early April
is recommended for getting rid of oxeye daisy (Chrysanthemum
leucantliemuni). On the other hand, salt does not seem to
injure thistles much, as the effect of various methods of cut-
ting is not enhanced by an after application of salt.2

Lime in one of its various forms is usually most effective
in reducing the quantity of sorrel (Rumex acetosa} and sheep's
sorrel (Rumex acetosella\ though it is still doubtful whether
this is due to the fact that the sorrels are intolerant of the
lime itself or 'whether they are merely extremely in. patient of
the increase of competition due to the improvement of the
herbage by the liming. Be that as it may, liming may be
regarded as the universal remedy for these weeds. The

'Cox, II. H. (1915), "Eradication of Ferns from Pasture Lands in the
Eastern United States," U.S. Deft. Agric., 1-iirmi-r's Bulletin, No. 607, p. 12.

'"Destruction of Thistles" (1908), Report of 1'ieLl Experiments at Harper
Atltims Affrii-. Coll.

PREVENTION AND ERADICATION OF WEEDS 69

quantities used vary considerably, the nature of the soil
being the determining factor in many cases. As much as
5, 10, or 15 tons per acre have been applied to very light
soils, deficient in lime, but the difference in favour of the very
heavy dressing is not considerable. A more general applica-
tion is about 30 cwts. per acre on light land, ranging up to
3 tons per acre where the soil is heavy and wet. Sheep's
sorrel will also yield to basic slag on heavy land, prob-
ably on account of the lime in the slag. If docks (Rumex
crispus and R. obtusifoliiis) are present in pastures they should
be spudded out, and if a pinch of sulphate of ammonia be
placed on the cut ends the roots are almost certain to be
destroyed.

False brome or tor grass (Brachy podium pinnatum and
B. sylvaticuni} is sometimes a great pest on down pastures,
where its coarse growing tufts seriously depreciate the grazing
value of the land. Gas lime has proved an effective remedy
when about 2^ cwts. per perch (20 tons per acre) are applied
in as fresh a state as possible to the tufts of grass.1 If spread
in autumn, not later than November, the false .brome is soon
completely killed. The following spring the land needs
harrowing and working up to a fine tilth, when a mixture
of good grass seeds, suitable to the particular soil, must be
sown to provide a fresh turf. Gas lime is most powerful
when freshly made, and loses strength rapidly with exposure,
especially during rainy weather.

In Cornish experiments, pasture infested with moss was
cleaned by suitable treatment with new superphosphate of
28 to 30 per cent, strength. A single application of 6 cwts. per
acre in February was sufficient where only a little moss was
present, and even when the moss was of long standing, forming
a dense carpet an inch thick, a second dressing was completely
effective. It is recommended that the superphosphate be
followed with a similar dressing of bone meal applied the
following autumn, in order to encourage the growth of herbage
and discourage a fresh invasion of moss.2 At Wye, on chalky
soil, chemical dressings proved of little use, but mechanical

1 Hutchinson, H. P. (1912), " Tor Grass or False Brome and its Eradication
from Down Pasture," jfour. Bd. Agric., XIX, pp. 648-657.

1 " Destruction of Moss." (a) Cornwall County Council, Memoranda of
Results of Agric. Experiments, 1903 and 1904, pp. 32-34. (b) Cornwall
County Council, Notes on Agric. and Poultry Experiments, 1905 and 1906,
pp. 19-20.

70 WEEDS OF FARM LAND

treatment by rolling, harrowing, and the treading of sheep
was more efficacious in eradicating moss.1

(c) Destruction of Weeds by Parasites. — Weeds, in common
with other plants, are liable to attack by various insect and
plant enemies, and some attempt has been made to turn this
susceptibility to account in their eradication. Comparatively
little work has yet been done in this direction, but definite
experiments have been made in New Zealand and Italy and
probably elsewhere. Creeping thistle (Cirsium arvense\ even
in this country, is very often attacked by rust, which powders
the leaves and stems with dusty brown spots and greatly
weakens the plants. Cockayne2 states that if the rust is to
be made an adequate means of control it is necessary to in-
crease infection considerably beyond that occurring naturally.
It is possible to cultivate the spores of the rust on thistle leaves
under artificial conditions. These rusted leaves are crushed
up in water to liberate the spores and the liquid is sprayed on
to the thistles in their early stages of growth. Under these
conditions it is said that infection is virulent and the disease
spreads rapidly.

Italian investigators point out that such common weeds as
thistle, sowthistle, bindweed, poppy, bladder campion, hawk-
bit, charlock, willow-weed, and broomrape are under natural
conditions frequently attacked by parasites, and they suggest
that with due encouragement a useful means of weed eradica-
tion lies at hand. Much care would have to be taken, however,
if any great extension of this method were attempted. Many
of the weed parasites may be capable of carrying on existence
on other hosts, and crops might easily be attacked by the
disease employed to kill the weeds. Also, many of the
fungus diseases of plants go through two phases of existence
on two utterly different hosts, like the wheat rust, which passes
one phase on wheat and the other on such plants as the bar-
berry. It would therefore be necessary to investigate the life
history carefully in every case, in case the parasite used for kill-
ing the weeds should be one that spent another life phase on a
useful crop. This danger is a very real one, and some workers
suggest that it would be more advisable to encourage insect
pests which hinder the spread of weeds by riddling the seeds

1 A. D. H. (1900), " Moss in Pastures," South-Eastern Agric. Coll. Journal,
No. 9, pp. 71-?2-

•Cockayne, A. H. (1915), " Californian Thistle Rust (Puccinia suaveolens),"
New Zealand Jour. Agric., XI, No. 4, pp. 300-302.

PREVENTION AND ERADICATION OF WEEDS 71

and so destroying their power of germination. The seeds of
bindweed, gorse, and some species of wild pea are often so
badly attacked that it is difficult to find an uninjured seed.
At best this method would be of limited value, some of the
worst weeds, such as wild oat (Avena fatua\ being apparently
immune from the attacks of any kind of parasite, whether
animal or fungus.

CHAPTER IV.

VITALITY OF WEED SEEDS.

FROM very early days the length of time that seeds retain their
power of germinating and forming new plants has been of in-
terest to those engaged in husbandry. Even Theophrastus
(about 322 B.C.) recorded that most seeds remained alive for
more than three years, and that at Patra, in Cappadonia, seed
was said to remain fertile and fit for sowing for forty years.
In those days the differences in the behaviour of seeds of the
same species in this respect was attributed to the situation, and
seeds in elevated places exposed to plenty of wind and sun
were supposed to keep longer than others. Nowadays the
differences are attributed more to the conditions of storage than
to anything else, and it is realised that temperature, moisture
in the air and in the seed, the composition of the surrounding
atmosphere, and various other factors all play their part in
determining how long a seed will live.

Popular superstition, fostered by the reports of the germina-
tion of " mummy " wheat, attributes a marvellous longevity to
seeds. Strict inquiry and experiment, however, shows that
authentic seeds from the ancient sepulchres and pyramids will
not germinate, the seeds obtained from such situations which do
grow having been proved to be frauds inserted by the Egyptian
fellaheen for the sake of gain. In all other cases in which
very old seed is reported to have germinated doubt has been
thrown on its authenticity.

With a view to ascertaining the approximate time that
seeds may be expected to live under conditions of dry storage
a British Association Committee l carried out a series of ex-
periments with over 200 very varied species of plants, incl tid-
ing a number of common wild plants and farm weeds. The
range of years is well shown by the following table : —

1 Strickland, H. E., Daubeny, Henslow, and Lindley (1850, 1857), " Reports
of a Committee Appointed to continue their Experiments on the Growth and
Vitality of Seeds," Rep. Brit. Ass., Adv. Set., No. 20, pp. 160-168 ; No. 27, pp.
43-56.

72

VITALITY OF WEED SEEDS

73

Limit of Years during which

Germinating Capacity was

Retained.

43
42
27

26
25

21

18

15
14
13

12
10

9
8
6
5
4
3

Number of Species.

i (Leguminosae).

i (Leguminosae).

7 (5 Leguminosae,
i Malvaceae,
i Tiliaceae).

4

4

4

I

2

I

5

2

4

2
70

3

3

9

97

It is thus seen that the majority of seeds do not survive
for many years under ordinary conditions of storage, and that
eight and three years seem to be the critical .periods for a
large number of plants. The actual periods of survival for
the wild plants and farm weeds tested in these experiments
may prove interesting : —

Latin Name.

(')

Ulex europaus

(1)

Convolvulus major

(I)

(2)

Mthusa cynapium
Anagallis arrensis

(3)

Arctittm lappa

(4)

Carum carvi

(5)

Daucus carota

(6)

Nepeta cataria

(7)

(Enanthe crocata

(8)

Rumex obtusifcdius

(9)

Silene-inJJata

(10)

Vicia saliva

(i)

Con:um moiulatum

(2)

Valerianella dentata

English Name.

Gorse

Greater bindweed

Fool's parsley

Scarlet pimpernel

Burdock

Caraway

Wild carrot

Catmint

Hemlock water-dropwort

Broad-leaved dock

Bladder campion

Common vetch .

Hemlock .
Narrow-fruited com salad

(i) Bryonia dioica

(2\ Hypericum hirsutiim

(3) Plantxgo medii

(4) Tragopogon porrifolius

(5) Valenana officinalis

(6) Verbascum thapsus

White bryony .
Hairy St. John's wort
Hoary plantain .
Purple salsify
Common valerian
Great mullein

Number

of
Years.

15

74 WEEDS OF FARM LAND

As the above tables show, the seeds of some leguminous
plants are able to live for many years under conditions of dry
storage An additional proof was afforded by a number of
seeds obtained from the Natural History Museum through the
kindness of Dr. Rendle, the keeper of the Botanical Depart-
ment. These were tested at Rothamsted in 1916, and one seed
of black medick (Medicago lupulina) gathered in 1884 grew
well, though other tested seeds of similar age did not germiijr
ate. Many weed seeds are able to retain their vitality under
most adverse circumstances, and even when they are swallowed
by animals or birds large numbers pass through the alimentary
tracts unharmed. This has been definitely proved by many
experiments. In a single day a cow was estimated to have
eaten with her fodder 89,000 seeds of plantain and 564,000
seeds of chamomile.1 Of these 85,000 and 198,000 respectively
were voided in the dung, apparently uninjured, and the
germinating capacity of the seeds then proved to be 58 per
cent, and 27 per cent. Dorph Petersen 2 fed seeds of ribwort
plantain (Plantago lanceolate?) and mayweed (Matricaria inodora)
to a cow, and found that after passing through the digestive
system of the animal 51 per cent, and 26 per cent, respectively
germinated out of the total number of seeds fed. About 50
per cent, each of sheep's sorrel (Rumex acetosella} and fat hen
(Chenopodium album] passed unharmed through a pig, and I 5
per cent, of each through a fowl, although the majority of
seeds are usually destroyed in the latter case because of the
grinding action in the gizzard. In another case in America
a cow and a horse were each fed with 2 Ib. of grain screenings
in addition to their other food each night and morning for
seven days.3 On the evening of the seventh day they were
bedded with sawdust and the excreta for that night collected.
The dung and sawdust were thoroughly mixed and put in
boxes in a greenhouse and four weeks later the following seeds
were found to have germinated and grown : —

1 Hansen, K. (1911), " Weeds and their Vitality," Ugeskriftfor Landmaend,
56, pp. 149-151. See Internat. Review of Agric., 1911, p. 738.

a Dorph Petersen (1910), Jahre^bericht der Vereinigung Jur angewandte
Botanik., Summ. in Jour. Bd. Agric., XVIII, 1911, pp. 599-600.

1 Patterson, H. J., and White, H. J. (1912), " By-Product Feeds," Maryland
Agric. Expt. Station Bull., No. 168, pp. 2-3.

VITALITY OF WEED SEEDS 75

Cow's Dang. Horse's Dung.

149 Fat hen (Chenopodium album) 1213 Fat hen

12 Pigweed zi Pigweed

14 Bindweed (Convolvulus arvensis) 12 Bindweed

4 Foxtail (Alopecurus pratensis) 28 Foxtail

2 Timothy (Plilenm pratense) 6 Timothy

3 Clover, Trifolium sp.
5 Mustard, Brassica sp.

(morning glory).
2 Convolvulus sp.

It thus seems that more weed seeds are destroyed by
passing through the digestive system of a cow than of a horse.
Experiments in India also show that fat hen seeds are not
injured by being fed to bullocks,1 and in this way animals do
a good deal towards spreading weeds over considerable areas.
Seeds are also able to survive after being eaten by birds, as
shown by various authorities.2 3

When, however, weed seeds are buried and stored up in
manure heaps many of them succumb, as they are unable to
withstand the high temperature generated in a well-made
heap. The excessive moisture, together with the. acrid nature
of the liquid, may also have much to do with the destruction
of the weeds, experiments having shown that certain seeds,
such as dodder, lose much of their germinating capacity when
they are immersed in liquid manure or even pure water for
any length of time.4 Even if they are only slightly buried
beneath the surface, the majority of dodder seeds perish in
well-made manure in about a month, only a small percentage
retaining their vitality. On the other hand, it is not safe to
assume that all weed seeds are killed by storing in manure.
Experimental results are not available, but it is exceedingly
probable that many seeds escape, as many of them are pro-
tected by stout outer coats which enable them to resist the
adverse conditions. The seeds of fat hen (Chenopodium album}
not only survive, but germinate and flourish exceedingly on
manure heaps.

To the farmer and gardener the most important aspect of

1 Milne, D. (1915), " The Vitality of Seeds Passed by Cattle," Agric. Jour.
India, X, pp. 353-369.

'Collinge, W. E. (1913), " The Destruction and Dispersal of Weed Seeds by
Wild Birds," jour. Bd. Agric., XX, pp. 15-26.

sKerner, A., and Oliver, F. W. (1895), "Natural History of Plants," pp.
863-865.

4 Morettini, A. (1914), Le Stazioni sperimentali agrarit ilaliane, XLVII, pp.
733-751-

76 \VKKDS OK KARM LAND

the vitality of seeds is their power of surviving for prolonged
periods when buried in the soil. It is beyond question that
weed seeds will lie dormant underground for several years,
starting into growth whenever favourable conditions occur,
though much discrepancy exists in the estimates of the time
that the seeds can endure burial without losing their power of
growth. A most striking instance of the abundance of living
weed seeds in cultivated soil is afforded by the Somme fchttle-
field. A. W. Hill * reports that in July, 1917, acres of poppies
were in full flower, forming a stretch of flaming scarlet over
wide areas. The poppies were occasionally replaced by a few
acres of white chamomile (Matricaria chamotnilla} and large
patches of yellow charlock (Brassica sinapis) also broke the
uniformity. The subsoil of the area is chalk, covered with
loam, and the constant shelling has churned the ground up
and incorporated the soil and subsoil very thoroughly. The
charlock was specially conspicuous on the more recently dug
graves of soldiers, where the pure chalk had been brought up
to the surface. On the sites of wrecked woods, sheets of
rose-bay or fireweed (Epilobium angustifolimri} were conspicu-
ous, and round the edges of the ponds formed by shell holes
were bands of toad rush (Juncus bufonius var. gracilis}, ac-
companied by willow weed (Polygonum persecaria\ the latter
often growing out of the water. In addition to these domin-
ating plants, a large variety of other common arable weeds
were present in greater or less amount. It was obviously
impossible that these hordes of weed seeds could have been
carried by any known means of transport, whether by wind,
animals, birds, vehicles, or human beings, and the inference is
that they were all present in the soil in great numbers and
seized the opportunity to germinate provided for them by the
unwonted upheaval of the soil.

On a small scale a similar phenomenon is familiar to almost
every farmer. It is a matter of common knowledge that if
arable land is turned up rather more deeply than usual, or if
old leys are ploughed up, in the following season large quanti-
ties of weeds will appear from seeds which must have been
buried in the soil awaiting their chance. Belief goes further, and
it is often said that large crops of poppies, charlock, or similar
weeds spring up even when " old pasture " is ploughed. In-
fill, A. W. (1917), "The Flora of the Somme Battlefield," Ktw Bull.
Misc. Information, Nos. 9 and 10, pp. 297-300.

VITALITY OF WEED SEEDS 77

quiry often shows that this old pasture has been under arable
cultivation at some time or other, thus accounting for the
presence of arable weed seeds. Nevertheless, there are many
puzzling cases in which no history of arable cultivation can be
traced. Where this occurs at a distance from other arable
fields, as sometimes happens when moors are reclaimed, it
seems that of necessity the seeds must be carried to the spot
on a large scale by some means of transport hitherto undetected.
As a general rule, however, the presence of seeds buried in
the soil is sufficient to account for the large weed crops. By
experiment and observation much information has been
gathered as to the ability of various weed seeds to withstand
burial, but even yet our knowledge of the matter is very
incomplete, both as regards the species concerned and the
means by which the seeds adapt themselves to the conditions
of burial.

A striking characteristic of the majority of farm weeds is
the abundance of seed that is produced. Only a very small
proportion of this seed finds itself immediately under conditions
suitable for germination, and the greater number of seeds are
compelled to remain dormant or else to perish. These wait-
ing seeds do not all remain on the surface of the ground,
large numbers being carried underground by various agencies.
Some of these agencies are well known, but others are easily
overlooked. The various means of burial have been summed
up by Woodruffe Peacock from his own observation as
follows : — 1

(1) Means Influenced by the Activity of Human Beings and
Domestic Animals. — Spade, plough, and foot pressure by stock.
Cattle drive seeds in 5 inches, horses 3 inches, sheep 2 inches
or more, while wheel ruts carry seeds down IO inches in some
cases.

(2) Environmental Means. —

(a) Wind, including local whirlwinds and storm columns.

(£) Water, which, however, usually destroys fertility.

(f) Mammals, as fox, rabbit, squirrel, polecat, Norway rat,

mole, water vole, stoat, weasel, badger, long-tailed

field mouse.
(</) Birds.
(*) Insects, as ants, burrowing insects, larvae.

1 1 am indebted to the Rev. E. A. Woodruffe Peacock for the loan of
unpublished MSS. containing this information.

78 WKEDS OF FARM LAND

(f) Worms, which help to bury seeds 4 or 5 feet, especially
smooth or rolling seeds like those of charlock, clovers,
thistle and broom.

(£•) Sun and earth cracks, in which, however, most seeds
perish.

(A} Rock cracks. *

Other means may suggest themselves, but the above list is
sufficiently comprehensive to indicate the great variety of
ways in which seeds may be carried underground to consider-
able depths.

When once burial has taken place the conditions determine
whether the seeds lie dormant or start into premature growth
and perish. It seems probable that most of the seeds in the
top few inches of soil are in the presence of sufficient water,
air and warmth to enable them to germinate, and it then
depends upon the vigour of the seedlings and the relative
depth of burial whether the young plant can reach the surface
or whether it perishes ignominiously, stifled at birth. The
deeper buried seeds, however, seem to be able to set up some
.condition of equilibrium with their surroundings, and instead
of germinating many of them lie dormant, awaiting some turn
of events that will bring them into more favourable circum-
stances. Waldron l buried seed for several years and then
tried to germinate them, and found that the deeper buried
seeds, up to a depth of 10 inches, were the better preserved.
As years go on numbers of the buried seeds rot and perish
in other ways, but a certain number survive for long periods
of time. Very definite evidence that this is the case is pro-
vided by the crops of weeds that spring up when methods of
cultivation are altered.

An instance has recently occurred in Cumberland. Forty
acres of land covered with gorse and heath were broken up in
1893 and kept clean under arable cultivation for over ten
years. Between 1904-06 the land was laid down to grass,
and gorse seedlings soon appeared. These were stubbed out
without being allowed to seed and no more appeared on the
pasture. In the winter igif-iS the area was ploughed up
and sown with oats, and gorse seedlings soon reappeared.
At harvest time they were abundant in the stubble, being
most plentiful where the gorse was originally thickest. These

1 Waldron, L. R. (1904), " Vitality and Growth of Buried Weed Seeds,"
North Dakota Agric. Coll. Bull., No. 62. Also see Munerati, O., and Zapparoli,
T. V. (1913), Lt StaMioni sfirimtHtali agrarit italiatu, Vol. XLVI, pp. 347-371.

VITALITY OF WEED SEEDS 79

seeds had been buried for twenty-five years, and still retained
their power of germinating as soon as conditions became more
favourable.1

In farming practice the seeds of broomrape (Orobanche j/.)
are credited with the power of lying dormant for several years
and germinating in succession. This has been corroborated by
pot experiments carried out for a period of fourteen years,
which showed that broomrape seeds are able to retain their
vitality when buried in soil for eight years.2 Other workers
give the period as at least ten years, the variation being prob-
ably due to differing conditions.

From the practical standpoint the case is very clear that
many weed seeds have the power of remaining buried for a long
time without perishing, but in the absence of definite experi-
mental and historical evidence many fantastic ideas on the
subject have gained credence. With a view to obtaining some
definite facts a series of experiments have been carried out
with soil from the Rothamsted fields, of which the detailed
history for many years past is accurately known.3 Old arable
fields were selected which had been grassed over for fifty-eight,
forty-three, thirty-two, and ten years, while Harpenden Com-
mon, Park Grass (a piece of old pasture that is known to have
been under grass for at least 300 years), and also a field that
has long been ploughed, were used for comparison. Samples
of soil, 6 inches square, were taken inch by inch to a depth of
12 inches, the utmost care being used to avoid contamination
from surrounding soil. These samples were placed in shallow
earthenware pans and boxes in a greenhouse, kept moist and
watched for about two years. As seedlings appeared they
were identified and removed to make way for later comers.

As was to be expected a large number of the seedlings
were those of typical grass-land plants, derived from seeds from
the covering herbage. No idea could be formed of the age of
these, so they were perforce left out of consideration. The
" real old pasture " from the Common and Park Grass yielded
all told six seeds of typical arable weeds, whose presence could
readily be accounted for by accidental carriage on the feet of
horses, cattle, human beings, wheels, birds, etc All the old

1 Parkin, J. (1918), " Vitality of Gorse Seed," Nature, 3552, Vol. 102, pp.
65-66.

1 Passerini, N. (1910), " Duration of Vitality of Seeds of Orobanche crenata,"
Atti R. Accad. Econ. Agr. Gtorg. Firanzt, 5, ser. 7, No. i, pp. 1-7.

»Brenchley, W, E. (1918), "Buried Weed Seeds," Jour. Agrif. Sci., IX,
pp. 1-31,

8o

WEEDS OF FARM LAND

arable fields, even the one that had been under grass for fifty-
eight years, yielded arable weeds in such numbers as to pre-
clude the possibility of accidental infe^ion after the land was
grassed over. One is therefore forced to the conclusion that
the seeds had lain dormant throughout the years.

The grand total of typical arable weeds obtained from the
samples are given in the following table : —

Methods of Cultivation.

Area.

Years under
Grass.

No. of

Samples.

Total Number
of Arable
Weeds.

Real old pasture

Harpenden Common

?

3

2

,, ,, M

Park Grass

?

4

4

Old arable land

Lab. House Meadow

58

4

30

ii i> >t

Barn Field Grass

43

4

12

11 n »

Geescroft

32

4

74

ii ii it

New Zealand I.

10

4

457

it ii ii

New Zealand II.

10

4

334

Present day arable land

Long Hoos

0

2

782

The above table shows that after ten years of burial very
large numbers of weed seeds are still alive and capable of
springing into activity as soon as circumstances are favourable.
The number decreases with time, but even after thirty years
or more it is still great, as 74 seeds from an area I foot
square by I foot deep implies a surprisingly large total per
acre. Still longer periods of burial fail to destroy all the
seeds, though the number of live seeds decreases considerably.
The greater number of the arable weed seeds were found
several inches below the surface, and many of them were rest-
ing as far down as twelve inches. The actual number found
at the different depths are shown in the following table : —

Total Numbers of Arable Weed Seeds from Different Depths.

Period

Area.

under
Grass.

Depth in Inches.

Total.

Years.

I

2

3

4

5

6

7 8

9 10

II 12

Lab. House

Meadow .

58

2

6

6

5

9

i i

3°

Barn Field Grass

43

i

3

3

4

I

12

Geescroft .

32

I

2

3

5

9

*4

12 8

9 2

6 3

74

New Zealand I.

10

68

51

57

67

53

36

17 16

13 44

9 26

457

New Zealand II.

10

57

46

5i

36

48

30

14 16

7 16

13

334

Long Hoos

o

60

92

162

97

"5

82

63 40

21 29

8 13

782

VITALITY OF WEED SEEDS

Si

The number of species found at different depths is also
very instructive. As might be expected, in present clay arable
land and land that has been grassed over for comparatively
short periods most of the species are represented in the top
six or seven inches, a less number occurring at lower depths.
When the land has been under grass for longer periods, how-
ever, many of the arable species tend to disappear from the
upper few inches, as most of the seeds have either been carried
lower or have started into growth and perished. An apparent
exception to this is seen in the Laboratory House Meadow,
but in this case, as the meadow is close to the house, doubt is
thrown on the age of some of the buried seeds in the upper
inches, owing to the proximity of allotments.

Distribution of Species of Buried Weed Seeds.

Number of Species Occurring at Different Depths.

Area.

of Species
Occurring.

Depth in Inches.

I 2

3 4 5 6 7 8 9 10 ii 12

Lab. House

Meadow

II

2 4

435 ii

Barn Field Grass

4

I

21 II

Geeseroft . . .

9

I I

I252323I43

New Zealand I

14

9 9

9 9 ii 9 7 62321

II

13

9 n

10 910 9 4 3212

Long Hoos . .

20

IO 12

12 ii 10 13 ii 13 9 6 6 6

The number of species of weed seeds that are obtained by
, this method after burial for ten years and more is somewhat
limited. After the shorter periods large numbers of certain
species are found, especially orache (Atriplex patula), poppy,
knotgrass (Polygonum aviculare), field speedwell ( Veronica
tournefortii and V. agrestis). As time goes on the poppies
and speedwell drop out almost entirely, but orache and knot-
grass are still plentiful even after many years of burial.

In view of the fact that large crops of charlock are expected
and often obtained when grassed-over arable land is ploughed
up it is interesting to notice the evidence of the survival of
this weed in this experiment.

WEEDS <>l I ARM I -AND
I

Brassica s/>. Charlock.

Area.

Lab. House Meadow
Barn Field Grass
Geescroft
New Zealand I

II
Long I loos .

Period under

(irast.

Years.

58

43

32

10

IO

o

Number of

Seedlings

from Samples.

I
3

ii
ii
16

The number of seeds was not great, but as each charlock

plant grows" large and is very
conspicuous, it is probable that
quite sufficient would be present
to make a good show if the land
were again ploughed. As a
matter of fact, New Zealand
was broken up immediately after
the samples had been taken,
and the following season an
abundance of charlock smothered
the field, together with large
quantities of ivy-leaved and field
speedwell, with poppies locally.
The great decrease in the
number of live charlock seeds
as the period of burial lengthened
does not indicate that this parti-
cular seed is any better fitted to
survive under such conditions
than many other species that
are less striking in appearance.
The Rothamsted records in
several cases give details of the
weeds that occurred on the
fields sampled when they were originally under the plough,
and a comparison of these with the seedlings obtained in the
pans shows a close resemblance, thus further strengthening
the theory that the weeds in the pans had sprung up from
seeds that had remained alive though buried for years. The
occurrence of seedlings of creeping thistle (Cirsinm arvense) is
of interest, as fanners often maintain that the seeds of this
plant are abortive and never germinate (Fig. 25).

The reasons why seeds buried in soil should retain their

FIG. 25. — SEEDLING OF CREEPING
THISTLE (Cirsium arvense) which
came up from Seed Buried in Soil
from New Zealand Field at Roth-
amsted.

VITALITY OF WEED SEEDS 83

power of germination longer than those kept in dry storage or
those on the surface of the soil are still rather obscure. The
question is complicated and probably depends upon a certain
balance being reached between the various physiological con-
ditions in which the seed finds itself. The temperature is
more equable some inches below the surface of the soil, and
while seeds near or on the surface may perish from cold during
the winter, buried seeds do not usually suffer from extreme cold.
Strong sunlight may also be very injurious to germination, and
this again is ruled out.1 The stage of maturity is another
important factor. Immature seeds soon perish, but mature
and properly ripened seeds contain just enough water to
enable them to lie dormant, and the conditions of air and
moisture surrounding them in the soil seem to be such as to
enable them to mark time without undergoing further desicca-
tion or other vital changes. When once the long buried seeds
are brought to the surface they are likely to start into growth
very quickly. Experiments have shown that many species of
seeds that have been kept in unfavourable circumstances
germinate rapidly when the conditions are improved,2 for in-
stance, when they are brought from prolonged darkness into
light. On the whole, the more deeply buried seeds retain
their germinating capacity the best, as was clearly shown by
the Rothamsted experiment above described and also by pot
experiments carried out by Dorph Petersen with various seeds
buried 3, 6, and 12 inches below the surface.

Much more information and evidence are needed before it
will be possible to explain fully why large crops of certain
weeds, as charlock, poppies, and fireweed, spring up when land
is ploughed or cleared even when the weeds were not present
before the change of conditions. It is, however, quite clear
that in the majority of cases sufficient live weed seeds are
buried in the soil to supply far larger crops of weeds than any
farmer need desire.

'Gumbel, H. (1912), Untersuchungen uber die Keimungverhaltnisse ver-
schiedener Unkrauter, Landwirtsch. Jahrb., XLIII, pp. 215-331.

8 Praktische Blatter fur Pflanzenbau und -schutz (1912), Summ. in your. Bd.
c., XIX, pp. 231-232.

CHAPTER V.

HABITS OF WEEDS.

THE habits of growth and the length of time that weeds live
have much to do with the methods adopted in dealing with
them, and also with the amount of damage that they are able
to inflict upon crops. A knowledge of the way in which a
particular weed grows is often a valuable asset to the farmer,
enabling him to eradicate it in the most effective way, and in
some cases an understanding of the life history of a plant
reveals some weak point in development at which it may most
readily be attacked with every hope of success.

Duration of Weeds. — Weeds may be divided into three
classes according to the length of time they live : —

(i) Annual Weeds. — These are plants in which the whole
cycle of existence is completed within twelve months. After
germination the vegetative growth is rapid, so that the plant
is in flower within a comparatively short space of time.
The ripening of the fruits is equally rapid, and the pro-
duction of seed is thus ensured. Annual weeds depend
entirely upon seed for their reproduction, and the whole
energies of the plants are directed towards the formation of
this essential. As a general rule the quantity of seed produced
is very abundant, so that even though much of it may be lost
by decay or other means a sufficiency is left to carry on the
species. If the season be hot and dry, and there is danger that
plant life will suffer from drought, the annual weeds hurry into
flower at an early stage of development in order that they
may not die before their seeds are formed. It is no uncommon
sight in a dry summer to see the most miserable specimens
putting up a weak flower and then ripening miniature seed
pods. The same effect is produced by other adverse circum-
stances, such as the presence of poisonous substances in the
soil. Unless they are killed outright, annuals strive to the
very utmost to produce some stock of seed before they give

84

HABITS OF WEEDS 85

up the struggle for existence. This habit of life makes it quite
easy to eradicate annual weeds by careful cultivation. If the
seeds are allowed to germinate and the young plants are cut
down before they flower, seed formation is prevented and the
plants have no other means of reproducing themselves. It is
necessary to keep a careful watch because some plants, such
as ivy-leaved speedwell, chickweed, shepherd's purse, pimpernel
and others begin to flower very early in life, and these early
flowers ripen and shed their seeds long before the latest
formed buds have opened. Many of the arable weeds are
annual in duration, some of the most common being groundsel,
spurry, poppy, chickweed, speedwells, pimpernel, charlock,
radish, thyme-leaved sandwort, fat hen, spurge, fumitory, and
cleavers, but the commoner weeds of grass-land usually live
longer, as the short-lived plants find it difficult to establish
their transitory existence under the conditions found in pasture
or meadow land.

(2) Biennial Weeds. — These are plants which spread their
life cycle over two years. In the first season the seed
germinates and vegetative growth is active, but flowers are
not produced. In many cases large quantities of reserve food
substances are laid up during this time and stored away in the
roots or underground stems for use during the following year.
In the second year the energies of the plant are directed to
seed formation, the reserves of food being used up for the
purpose of developing the flower and fruits. When this is
safely carried out the plant dies exhausted.

If a biennial plant starts growing early in its first year, and
the summer is hot and dry, it often happens that flower forma-
tion is hastened. Under these circumstances, instead of wait-
ing till the second year, the flowering spikes are thrown up
and seed is produced at the end of the first season, so that
the weed becomes an annual for the occasion. The object of
this change of habit is, once again, to ensure seed formation,
for the biennials are as dependent as are the annuals on seed
for the propagation of their kind, not being provided with
means of vegetative reproduction.

Very few weeds are truly biennial in habit, as they labour
under such serious disadvantages. The cultivation of the
soil during the growing season prevents the plants from mak-
ing much growth and from storing up food to tide them over
the winter. Even if they do escape for the time, it is more
than probable that spring cultivation will cut them up before

86 WEEDS 01 I ARM I. AM)

they have any opportunity of flowering and seeding. As they
have no other means of propagation it is obvious that biennials
have a very poor chance under these circumstances except in
the isolated cases in which for any reason a change to an
annual habit is made. Consequently few or no biennials are
to be found among arable weeds, and even those of grass-land
are few in number, the most noteworthy being wild carrot,
spear thistle and marsh thistle, the hemlock from the border
of the fields being similar in type.

(3) Perennial Weeds. — These are plants which have no
definite term of existence, but which, when once established,
and if left to their own devices, live on from year to year,
constantly spreading and increasing in quantity. All of them
can and do arise from seeds, but they are by no means depen-
dent on this method tor their perpetuation. Perennials have
various arrangements for vegetative reproduction whereby new
plants can arise from different portions of the original parent
without the intervention of seed. They also form thickened
and creeping underground stems, bulbs, or strong bulky roots, in
which quantities of food are stored up for the use of the plant
when necessary. Most of the perennial farm weeds die down
to the surface of the ground in the winter but live on in their
buried parts, and then, in the spring, the stored up food is
utilised to give the plant a fresh start and to carry it on until
the new aerial stem and leaves are able to take up the work
of nutrition. Fuller details of the habit of the perennials will
be found under the next heading " Habits of Growth of Weeds,"
especially in sections 3, 5, 6, 8, 9.

Habits of Growth of Weeds. — Farm weeds vary much in
their habits, so that for every condition of life weeds are
found to suit the particular circumstances. Broadly speak-
ing, annual plants adopt one set of habits and perennials
another, but this is not an absolutely hard and fast rule. It
is not always possible to be quite certain how to classify some
weeds, as their mode of growth may combine the characteristics
of two classes, and the following grouping must only be
regarded as a broad and general division, which is liable to be
modified by different observers or by the same observer at
different times and places.

(i) Erect Weeds. — Under this heading may be classed all
those weeds which throw up an erect stem, more or less
branched, bearing leaves, flowers and fruit. Nearly all weeds

i- \\ I:I;DS 87

of this type are annuals and develop either a tap root or a
more fibrous root which does not thicken up to any great ex-
tent, e.g. charlock, spurge, fat hen, wild radish, nipplewort,
corn marigold, corn cockle, groundsel, shepherd's needle,
poppy, red dead nettle, corn buttercup, and others.

In a few perennial plants, as pignut and bulbous buttercup,
the same erect habit of growth is adopted, but the base of the
stem is considerably swollen and serves as a storehouse of
food from year to year. Some of the erect weeds make big
plants and have large leaves, and as they grow up with the
crop rob it of a good deal of light as well as taking up food
and water from the soil.

(2) Tufted Weeds. — These grow close to the ground and
often branch considerably, forming a close tuft of leaves and
stems that is very characteristic in appearance. Most are
annual in duration : lady's mantle, mouse-ear chickweed,
swine cress and annual meadow grass are the most familiar
examples. In some situations the three former have a tendency
to send out longer branches, so that this group merges into
the next Spurry, annual knawel, mayweed, and chamomile
also grow near the ground and branch repeatedly, and may
be included in this section.

(3) Weeds with Stems Trailing over the Surface of the
Ground, but not Rooting at the Nodes. — Some of the most
troublesome annual weeds come into this section, and given
favourable circumstances a single plant is able to cover a large
area of ground. Each weed possesses a single main root, and
sends out horizontal branches which again branch repeatedly
until at length a dense mat is formed which effectually covers
the surface of the soil and prevents the ingress of light and air.
A single plant of orache seen in the summer of 1918 at Hel-
mingham in Suffolk measured over 4 feet in diameter, and it
needs little imagination to realise that no other vegetation,
whether weed or crop, had any opportunity of flowering within
the area covered by this plant. The trailing weeds are very
troublesome among roots, as they tend to cluster round the
young plants and are not removed by hoeing, so that unless
they are carefully taken out by handweeding the crop has
little chance, for root crops are very impatient of overcrowding,
particularly in the earlier stages. Knotgrass, chickweed,
speedwells of various species, orache, pimpernel, and wild pansy
are plentiful on arable land, and several kinds of trailing
geraniums occur as weeds on leys, where they are harmful

88 \\ 1.1.1 )S OF FARM LAND

because they make the grass patchy by choking it out where-
ever they grow.

(4) Rosette Weeds. — The characteristic feature of these
weeds is that no leafy stem is produced, but a number of leaves
arise together from a rootstock or much compressed stem
lying just below the ground level. In some cases, as in the
daisy, dandelion, and plantain, the naked flowering stems arise
in the same way, but in others, as in shepherd's purse and the
various docks, a leafy flowering shoot is thrown up. Two types
of rosettes may be distinguished, but the habitat often deter-
mines which type will be produced by a particular species of
weed

(a) Rosettes in which the leaves have little or no leafstalk
and the blades are pressed close to the ground, as in daisy,
shepherd's purse, hoary plantain, and sometimes the greater
plantain.

(£) Rosettes in which the leaves may or may not have
leaf-stalks, but in which the blades are somewhat raised from
the ground, forming a cluster rather than a true rosette, as in
dandelion, docks, ribwort plantain, and greater plantain (usual
form).

The first type of rosette causes much trouble in grass-land,
because all vegetation is choked out from underneath the weeds,
and as the latter often occur in large numbers and continually
spread, infested pastures rapidly deteriorate in quality unless
measures are taken to check the invaders.

Most of this group are perennial, shepherd's purse being
almost the only common annual weed that adopts this habit.

(5) Weeds Creeping on Surface of Ground and Rooting at
Nodes. — These weeds closely resemble the trailers (3), but are
distinguished by the abundant supply of adventitious roots
that are developed from the leaf-joints. Most of them, how-
ever, are perennials, as the extra rooting system provides for
a continual stock of young plants which are able to establish
themselves and survive the winter. Creeping buttercup, silver-
weed, and bent grass are representative of these weeds, but the
habit is less common than most of the others.

(6) Weeds Creeping by Rhizomes or Underground Stems and
Sending up Green Shoots above Ground. — This habit is confined
to perennial weeds, and the group includes some of the very
worst of the farm weeds. The rhizomes may either creep near
the surface as in couch-grass, stinging nettle, corn mint, and
rush, or they may descend to various depths, running vertically

HABITS OF WEEDS 89

or horizontally as circumstances dictate, as in thistle, horse-
tail, and coltsfoot. In either case buds are formed which push
up above the soil and develop into green shoots, producing
leaves and flowers. The food stored underground during the
winter is used to start the buds into activity in the spring, and
later on the green shoots form an extra stock of food and
pass it down below to be stored for the next winter, thus
completing the vicious circle. Dormant buds are plentiful on
the rhizomes, and if a small piece of the latter is broken off
the buds develop, roots and shoots are sent out, and a new
plant results. The rhizomes enable the weeds to migrate con-
siderable distances, and when great efforts have been made to
clear a particular spot it is no unusual occurrence to find the
pest turning up many yards away, perhaps in another field, to
which it has travelled and escaped notice.

Coltsfoot is slightly different in habit from the other weeds
in this class. Early in the spring, about February, clusters of
flower buds are pushed above ground, which give rise to the
familiar yellow flowers, somewhat resembling small dandelions.
No leaves are produced at this tjme, but when flowering is
nearly or quite over more buds develop from other parts
of the rhizomes, and this second set produces the large
cottony leaves that often carpet the ground where coltsfoot is
abundant This separation of flower and leaf leads many
people into the mistake of thinking that they are not connected,
and too often the flowers are allowed to ripen seed with im-
punity by the very farmers who make determined onslaughts
on the plant when the leaves have appeared.

(7) Climbing and Scrambling Weeds. — A few plants pro-
duce very long, weak stems, which raise themselves into the
light and air by twining or scrambling round other vegetation.
When these weeds are plentiful among crops they are most
troublesome, because they tend to strangle the crop plants and
prevent the latter developing properly, and also, if the stems
of cereals are weak, the climbing weeds pull them down and
cause them to " lodge " without any opportunity of rising again.
The worst climbing weeds in this class are convolvulus (or
bindweed) and black bindweed. The former is a perennial,
with long twisted rhizomes from which an abundance of weak
aerial stems are given off, while the latter is an annual whose
leaves bear such a similarity to those of the true bindweed that
the two weeds are often confused. Both are very leafy, and
when they occur abundantly in corn crops it is necessary to

9o \\ i;i;DS OK KAKM I.\M)

dry the sheaves most thproughly as the bindweeds are apt to
cause heating in the stack.

Vetches occasionally appear as farm weeds, though most of
them are typically hedge plants. They are climbers in which
the end leaflet of the compound leaf is modified into a tendril.
This is irritable and curls round any available support, enabling
the weak stemmed plant to drag itself up.

Goosegrass (Galium aparine] does not climb, but scrambles
over and among the crops, clinging to them by the minute
hooked prickles with which every part of the plant is clothed.
The slender stems may reach a length of several feet, and
their clinging habit causes considerable interference with farm
operations. Goosegrass is only an annual, but under suitable
conditions it grows very rapidly, forming large numbers of
prickly fruits which are very easily picked up and carried
about by anything with which they come into contact.

(8) Weeds with Swollen Inlernodes. — This habit, fortun-
ately, is unusual among farm weeds. In the knotty or onion
couch the portions of stem between the successive leaves are
swollen up into large knobs, several occurring in a string.
These are perennial, very tenacious of life, and resistant to
most attempts to eradicate them. Every " knot " will produce
a new plant, so that if the weed is broken by ploughing it is
encouraged to increase. If, again, the clusters of knots are
brought to the surface in cultivation and are allowed to dry,
they separate into the individual knots, and additional plants
result. It is therefore specially important that this weed should
be cultivated out with as little breakage as possible, and
should be promptly removed from the soil before it dies and
breaks up.

(9) Bulbs. — The weeds that belong to the Lily family are
characterised by bulbs, which are underground clusters of
swollen scale leaves springing from a small flattened stem.
Buds arise between these scale leaves and develop into new
bulbs, and seeds are also produced, so that such weeds as
meadow saffron (Colchicuni autumnale] and Bath asparagus
(Ornithogalum pyrenaicutn) have two certain methods of re-
production. Wild onion possesses a third method, as small
bulbils arise among the flowers, which fall to the earth and
develop into fresh plants.

(10) Parasitic Weeds. — These are few in number, but are
capable of working much havoc when they are present among
crops. Their habit is to attach themselves, by means of suckers,

HABITS OK WKKDS 91

to some part of a selected host plant and steadily rob their
victim of food. A bad attack of dodder may utterly ruin a
clover crop by the constant sapping of strength consequent on
the loss of nutritive substances. Yellow rattle, broomrape,
and bartsia are the other most familiar parasites, but they are
all sufficiently important to demand more extended notice.
(See Chapter VI.)

CHAPTER VI.

PARASITIC WEEDS.

ORDINARY green plants use the soil and the atmosphere as
storehouses from which they draw the raw materials of their
food, these being then converted by the vital processes of the
plants into substances which can be utilised to build up the
tissues. The roots, by means of fine root hairs, take up from
the soil water in which nitrogen (in the form of nitrates), and
compounds of such mineral substances as potassium, phos-
phorus, iron, calcium, magnesium, etc., are dissolved. This
dissolved raw food passes up through the woody part of the
plant into the leaves, where it meets with supplies of carbon
which are taken in from the air in the form of carbon-dioxide.
During the daytime complicated chemical changes take place
resulting ultimately in the formation of such substances as
sugar and starch, which are then conveyed to the various parts
of the plant where they are needed. This preparation of food
can only go on in green parts in the presence of light, so that
plants that do not possess green colouring matter or in which
leaves are absent and are not replaced by green stems are not
able to prepare their own food, but must obtain it ready for
use from some other source. Some plants of this nature
attach themselves in various ways to other living plants and
steal their food all ready prepared, thus earning the name of
parasitic plants.

Parasitic plants may be divided into two classes : —

(1) Total parasites, in which green colouring matter is
entirely absent, and which cannot prepare any food for them-
selves, so that they are absolutely dependent upon other plants
for their food.

(2) Partial parasites, which possess a certain amount of
green colouring matter which is often very poor in quality;
they are able to prepare part of their food, but are dependent
upon other plants for most of their nutriment

Total parasites are capable of doing great harm to the

92

PARASITIC WEEDS

93

host plants on which they live, as they drain the hosts of so
much food that the latter are necessarily much enfeebled.
Partial parasites usually do less harm, because their demands
are not so heavy, but they can do much injury if they attack
weakly hosts.

Among farm weeds there are a few species that live
parasitically, some of which
are of real economic impor-
tance, while the rest are more
interesting than dangerous.
Both total and partial para-
sites are represented, dodder
(Cuscuta spp.} and broomrape
(Orobanche spp.} being the
chief total parasites, and
yellow rattle (Rhinanthus
crista-galli] and red bartsia
(Bartsia odontites] the most
common partial parasites. In
addition to these, eye-bright
(Euphrasia spp.}, cow-wheat
(Melampyrum spp.} and red
rattle (Pedicularis spp^) are
sometimes found in grass-
land and are probably parti-
ally parasitic on the roots of
grasses, but they are not
known to do much damage.

DODDER (Cuscuta spp.\
(Fig. 26), Nat. Order Con-
volvulacea. — Dodder is fre-
quently seen amongst clover
and gorse, appearing as long,
slender red threads which
interlace the stems and
branches. The threads are
not rooted in the ground and they bear no leaves, but are
studded in the summer with clusters of small white flowers
which are followed by four-seeded capsules or seed vessels.
Several species of dodder are scattered over the world, each
species having one or more host plants on which it usually
lives. Among others the clover dodder (Cuscuta trifolii)
patronises clover and other leguminous plants ; flax dodder

FIG. 26. — DODDER (Cuscuta trifolii),
parasitic on Clover.

94 WEEDS OF FARM LAND

(C. epilinwri) seems to live entirely on flax ; lesser dodder (C.
epithytnuni) on the roots of heath, thyme, and other small
shrubby plants, while the common or greater dodder (C.
europad) is much less exclusive and is found on a great
variety of plants in Europe and parts of Asia.

The seeds of dodder fall to the ground or are sown along
with a crop. They start into growth, each seedling develops
a small root and sends up a thin delicate stem into the air.
This stem twists round seeking for a congenial host, but if
this is not found the seedling dies. If a host is available the
dodder twists round it and rapidly fastens itself on to the stem
by means of suckers ; when connection is established the
roots and the lower part of the stem of the dodder die away,
leaving the parasite disconnected from the ground and entirely
dependent upon the host for its food.

The suckers are small swellings or tubercles resembling the
beginnings of roots. They gradually bore their way through
the epidermis or outer skin of the host plant, then through the
underlying soft tissue or cortex until they reach the central
part of the stem. Intimate connection is thus established
between the conducting strands of the host plant and those
of the dodder, so that a clear passage is available for the
transference of food in a ready prepared condition from the
host to the parasite. If much dodder is present the drain on
the resources of the host is often so severe that the victim
cannot stand the strain but dies of starvation, and in this way
large areas of clover are often ruined. Dodder is recognised
as one of the most dangerous foes of this crop, and therefore
legislation is adopted against it, making it an offence to sell
crop seed contaminated with dodder seed.

Although most species of dodder are usually associated
with one or more well-defined host plants, it is now found that
some of them are capable of infecting other plants, including
various kinds of weeds. This renders the pest still more
dangerous, for dodder, being under favourable circumstances,
is often able to pass safely through the winter in the vegetative
condition and may succeed in escaping observation on the other
hosts even when the main crop has been drastically dealt with.
The clover dodder (Cuscuta trifolii) has been known to spread
on to hoary plantain and bedstraw, the common dodder will
spread from nettles to grasses,1 and another species (Cuscuta

1 Montcmartini, L. (1913), Alcune malattie nuove o rare, Rivista di
Patologia vegetale, VI, pp. 204-210.

PARASITIC WEEDS 95

arvensis) is found on a variety of weeds as well as on clover,
including dock, dog's mercury (Mercurialis perennis), sow-
thistle, charlock, black nightshade (Solatium nigrutri), nettle,
creeping thistle, wild lettuce, knotgrass, and mayweed.1

Dodder seeds retain their power of germination for several
years, even when buried in the soil. The germination of the
seeds is spread over a long period, the largest percentage
coming up during the first month after sowing, while the
others appear later on in gradually decreasing numbers.
Some of the seeds are " hard " and it is these which form a
dangerous stock in the soil for several years after infection.
Although dodder seeds will lie dormant in the soil for so long,
Italian investigators claim that they are not able to withstand
the action of farmyard manure. If they are buried in a heap
of manure most of the seeds lose their power of germinating
within about a month, only a very small percentage retaining
their vitality over longer periods. It is considered, therefore,
that there is comparatively little danger of spreading dodder
infection by means of farmyard manure, provided the latter is
well made and properly treated.

Eradication of Dodder. — In this country clover dodder (C.
trifolii) is the species that causes most trouble. As prevention
is better than cure every effort should be made to sow seed
that is absolutely free from dodder seeds. With the excep-
tion of an American species (C. gronovti}, which has extra
large seeds resembling in size those of clover, the ma-
jority of dodder seeds can be effectively removed from clover
and lucerne by screening with sieves of suitable mesh. A
large proportion, but not all, of the dodder seeds may also be
destroyed by dry heating, as they lose their power of germina-
tion at temperatures that are harmless to the associated clover
seeds. The most effective temperatures seem to be : — 2

149° F. for 2 hours.

158° F. for 30 minutes or for I hour.

167° F. for 30 minutes or for I hour.

If infection does occur and the patches are observed before
they have spread too far, the affected part of the crop should
be dug up, covered with chaff, sprinkled with paraffin and
burnt on the spot. The dodder should not be torn out with
a rake, as this serves to spread the trouble. If infected plants

1 D'Ippolito, G. (1913), Le Stazioni sperimtntali agrarie italiane, XLVI,
pp. 540-549-
•'Ibid.

96 WEEDS OF FARM LAND

are noticed during the "winter they should be cut off an inch
or two below the surface of the soil with a sharp spade or
hoe, and burnt on the spot. If this is impossible the plants
should be carried away with the greatest care, in order to
prevent seeds or pieces of dodder being scattered about the
field.

If the infection is too widely spread to be dealt with
locally, it is best to plough under the affected crop, burying
the dodder, provided seed formation has not begun. If seeds
are forming the crops should be cut as low down as possible
and burnt As the clover dodder is usually associated with
leguminous plants only, it is advisable to avoid growing such
crops for a period of years, in order that the dodder seeds
lying dormant in the soil may have an opportunity to germinate
and die for lack of a suitable host from which they can obtain
their nourishment. During this period the land should be
cropped with cereals, grasses, or roots, which the clover dodder
does not attack.1

In some cases spraying is said to be an effective means of
eradicating dodder. It is reported that a 1 5 per cent, solution
of sulphate of iron kills the parasite and also blackens the
clover badly, but that the latter recovers and sprouts again.
Arsenite of soda, at the rate of £ Ib. in 5 gallons of water has
proved successful on lucerne.2 French experiments3 also
show that heavy dressings of sodium nitrate (8 cwts. per acre)
will destroy dodder and at the same time strengthen the
alfalfa or other leguminous host, thus enabling the latter to
resist the drain of the parasite to a greater degree. Sodium
nitrate is advantageous in that it does not exercise the
same dangerous burning action on vegetation as sulphate of
iroa

BkOOMRAPE (Orobanche spp.\ (Figs. 27, 28), Nat Order
Orobanchacea. — The lesser broomrape (Orobanche minor) is
the species of most economic importance in this country as it
fastens on the roots of clover, lucerne, sainfoin, and other
leguminous crops and sometimes does considerable damage,
completely ruining the second cut of clover in some cases.
It also attacks a number of other plants which are not

1 (1906), " Dodder," Jour. Bd. Agric., XIII, pp. 33i-33s-

'(1908), " Eradication of Dodder," your. Bd. Agric., XV, pp. 280-281.

* Farcy, J. (1910), Journal d' Agriculture pratique, No. 42, pp. 497-498.

FIG. 27. — BROOMRAPE (Orobanche minor), parasitic on Sainfoin.
Right. — Sainfoin plant not attacked.

Left. — Sainfoin plant attacked by Broomrape, showing the harmful effect on
growth.

FIG. 28. — BKOOMRAPH (Orobanche minor), parasitic on Lucerne.

PARASITIC Ul 97

leguminous.1 Another British species, branched broomrape
(O. ratnosa), is of more importance in other countries, for
instance in America, where it works havoc among hemp crops
and also attacks tomatoes.

The parasite appears above ground as a thick fleshy stem
bearing a number of flowers which rapidly form seed vessels
containing an abundance of very small seeds, which are
scattered by the wind. The whole plant is dingy, usually
brown or purple in colour, with no leaves and no trace of
green colouring matter.

Broomrape seeds can lie dormant in the soil for at least
ten years, probably longer. They are apparently unable to
germinate unless they are in the immediate neighbourhood of
the fine fibrous roots of their proper host, and their power of
lying dormant enables them to await suitable conditions with-
out suffering from the delay. Generally speaking, they attack
well-developed host plants, as if they attacked young and
weakly plants the hosts would be so debilitated by the drain
on their resources that the parasite would fail to obtain
sufficient food to make satisfactory growth.

The broomrape seed germinates and puts out a small
radicle or root which penetrates a fine rootlet of the host and
soon connects itself with the conducting strand This radicle
at once begins to steal food from the host, and stores it up in
the form of a starchy reserve food in the upper part of the
radicle which swells up and gradually forms a nodule on the
host root. This nodule increases in size and after a time a
number of small prominences appear on its surface, a larger
swelling developing just where the seed coat was at first
present. The small prominences grow out into roots which
surround the nodule closely and attack the host roots in other
places, thus providing several points of attachment instead of
only one. The larger swelling develops into a shoot, short
and covered with scales, which eventually elongates and grows

1 Garman, H. (1903), Kentucky Agric. Exp. Stat. Bull., 105, p. 31, gives
a list of English plants attacked by Orobanche minor.

Crepis virens Poterium sanguisorba ?

Crithmum maritimum Trifolinm arvense.

Daucus carota pratense.

Digitalis purpurea
Hypocharis radical a.
Lotus corniculatus
Medicago lupulina
sativa

repens.
strict urn.
subterraneum.
striatum.
filiforme.

98 WEEDS Ol- I 'ARM LAND

up above the soil to bear the flowers. The greater part of the
life of the broom rape is passed below ground, as the nodule
spends twelve months or more in developing into a fair sized
bulb-like structure, before pushing aerial shoots. After the
first crop of clover or lucerne has been cut a good deal of
food is stored up below ground, and as the soil is well warmed
up at the time, the broomrape on the root thrives on the extra
food and warmth, develops very rapidly, and throws up
flowering stems which ripen their fruits and seeds within a very
short space of time.

Eradication of Broomrape. — The best remedy is prevention,
by sowing clean seed. The broomrape seeds are some of the
very smallest seeds that occur, so it is an easy matter to screen
them out from the large seeds of the crops. If unfortunately
infection does occur, the broomrapes should be pulled up by
hand immediately they appear above the soil, before they have
time to form seed, and should then be burnt The attachment
with the host roots is not very firm, and the whole parasite
easily comes away. This procedure must be carried out
systematically for several years until the dormant seeds have
all developed. It is useless to do it for one or two years
only, as a very few plants, if neglected, are sufficient to re-seed
a large area. The clover or other crop should be encouraged
by judicious manuring and liming, to make it strong enough
to withstand the attacks of the parasite, and when the crop is
eventually ploughed up no" other leguminous plant should be
sown on the same ground for several years. The interval
should be as long as possible, a case being on record l in which
broomrape attacked clover after seven years had elapsed since
the last clover crop, the new attack being so severe that the
whole crop had to be ploughed up.

Broomrape deserves more attention than it usually gets,
for many farmers fail to realise the life history of the plant and
do not connect the poorness of their second cut of clover with
the armies of dingy brown spikes that spring up on their
fields.

YELLOW RATTLE (Rhinanthus crista-galli.\ Nat Order
Scrophulariacea. — This is only a partial parasite, as it possesses
yellowish-green leaves which are able to help in the nutrition
of the plant, though much of the food is stolen from a host
Two species are really included under the one name.

(l) Rhinanthus minor. — Small yellow rattle, which is very

1 " Broomrape " (1908), Jour. Bd. Agric., XV, pp. 176-180.

PARASITIC WEEDS 99

common in pasture land and is parasitic on the roots of
grasses and possibly on some other species also.

(2) Rhinanthus major (Fig. 29). — Greater yellow rattle,
which occasionally makes its appearance in cornfields, where
it attacks the cereal crops and does much mischief.

The small yellow rattle is not usually taken much notice
of by farmers, but it reduces the crop and turns black in dry-
ing, rendering hay in which it is abundant distasteful to
animals. The greater yellow rattle is local in this country —
the writer has only seen it in part of Wiltshire,1 — but if it
gets a good footing it is capable of depreciating or even
ruining the cereal crops.

Unlike dodder and broomrape the yellow rattle develops
like a normal plant with an underground branching root
system and an aerial stem bearing leaves and flowers. Its
roots range themselves alongside the fibrous roots of the
host, and at the point of contact suckers are sent out
which penetrate to the conducting strands of the host root
and absorb nitrogenous food material therefrom (Fig. 30).
The attachment is very intimate, and it is impossible to
separate host and parasite without breaking the roots badly.
Occasionally the suckers appear to penetrate the base of the
stem, and in one instance a row of suckers was seen along the
outside of the husk of a barley grain. The plant is able to
manufacture its own carbohydrate food (as starch and sugar)
with the aid of its green leaves and the carbon-dioxide taken
in from the air. Large quantities of winged seeds are produced
which can retain their vitality in the soil for some years, thus
securing the propagation of the plant.

Eradication. — On grass-land yellow rattle is most abundant
in fields that are regularly cut for hay, as when once it has
gained a footing it has yearly opportunities of ripening quan-
tities of seed. It is less often seen on grazing land, and can
be eradicated or at least greatly reduced if constantly mown
land is grazed, for a number of years, especially if sheep are
used. If hay must be taken it should be cut early so as to
forestall the ripening of the yellow rattle seeds. The grazing
is more effective if it is supplemented by a dressing of basic
slag, 7 cwts. per acre, applied before the end of November.
In some cases it is useful to apply about 5 to 7 cwts. per acre
of salt early in the year, as soon as possible after the seedlings

1 Brenchley, W. E. (1913), "Yellow Rattle as a Weed on Arable Land,"
Jour. Bd. Agric., XIX, pp. 1005-1009.

IOO

1)S OF FARM LAND

Flo. 29. — YBLLOW RATTLE (Rhinanthus major), parasitic on Oau.

PARASITIC WEEDS

101

— A

- D

FIG. 30. — SECTION ACROSS BARLEY ROOT PENETRATED BY A SUCKER OF
YELLOW RATTLE (Rhinanthus major).

A. Root of Barley.

B. Sucker of Yellow Rattle.

C. Cells through which the stolen food passes from the Barley into the
Yellow Rattle.

D. Root of Yellow Rattle.

io2 WEEDS <>l I- ARM LAN' I)

of the parasite appear, as by this means large numbers of the
latter are killed. The seedlings may also be destroyed by
harrowing in March or even later, but this is not usualU as
effective as dressing with salt1

Eradication on arable land, is a matter of greater difficulty.
In ordinary rotation courses cereal crops follow one another
at intervals of two years or even less, so that there is no time
to work the yellow rattle seeds out of the soil before the
favoured host plants are again available. When once the
cereals are attacked, mechanical methods of eradication can-
not be applied, as the parasites are so closely attached to the
hosts that forcible removal of the yellow rattle would injure
the roots of the crop. Owing to the infrequency of bad attacks
of this weed on arable land little is known as to the best
method of cleaning the land ; fallowing, coupled with frequent
cultivation when the yellow rattle seedlings appear, might do
some good. Possibly, too, if the land were grassed over for
a time and grazed by sheep as soon as feed was available, a
clearance might be effected after some years. It would be
necessary to carry this on long enough to allow most of the
seeds to germinate, and then to keep a careful watch when
the land was again ploughed up in order to stamp out the
pest at its first reappearance.

RED BARTSIA (Bartsia odontites) (Fig. 31), Nat. Order
Scrophulariacea. — This partial parasite is rarely accused of
causing trouble, but as it is undoubtedly parasitic on the roots
of wheat it should be carefully watched wherever it is plenti-
ful. . The roots of bartsia attach themselves to the wheat roots
in much the same way as in the case of yellow rattle, and
part of the food is abstracted from the cereal. Bartsia is
obviously half parasitical on the roots of various other plants,
as it is often much more abundant on the paths and headlands
than it is among the crops. It is seldom present in great
quantity, but, if conditions were specially favourable, it might
conceivably do some amount of mischief.

Eradication. — No special measures are taken to eradicate
this weed, which is usually kept in hand by the Ordinary
methods of weed destruction.

1 " The Eradication of Yellow Rattle " (1916 ?), Agricultural Department,
Univ. Coll. of Wales, Aberystwyth.

CHAPTER VII.

POISONOUS AND INJURIOUS WEEDS.

THE most obvious damage done by weeds is that to the crops
among which they grow, but a certain number of plants work
harm by poisoning or otherwise injuring live stock or human
beings or by affecting various farm products, for instance milk
and wool, in such a way as to depreciate their market value,
so causing waste and loss. In some cases it is probable that
damage from this cause has been over-estimated, but there' is
no doubt that it is a point that needs to be borne in mind and
guarded against as far as possible. The plants concerned
may be considered under two headings : —

(A) Weeds that are harmful to live stock and human
beings.

(B) Weeds that injuriously affect farm products.

The majority of these are plants possessing some poisonous
qualities which either cause death to the animals eating them
or else make the stock ill and put them out of condition,
financial loss resulting in either case. Exact knowledge on
this subject is very difficult to obtain. The reports on sus-
pected plants from various sources are often conflicting, and
in most cases hardly anything is known of the true action of
the weeds concerned. Also, it is occasionally to the benefit of
the unscrupulous to attribute the death of stock to a poisonous
weed rather than to its true cause. Ewart l sums up the
state of affairs as follows : " It is exceedingly difficult or
impossible to draw a definite line of demarcation between
poisonous and non-poisonous plants. The usual origin of the
report as to the poisonous character of a plant is that some
stock die, and the nearest plant is selected as the scapegoat,

1 Ewart, A. J. (1909), " The Weeds, Poison Plants, and Naturalised Aliens
of Victoria," p. n.

103

104 WEEDS OF FARM LAND

without any post mortem', experiment, or investigation of any
kind. In some cases this is done purposely when the stock
have really died from anthrax or similar diseases. On future
occasions it is usually easy to find the suspected plant
where the stock have been, and so reports continue lo come
in. If the plant cannot be found, then some other plant is
credited with poisonous properties."

A certain number of weeds, however, are credited with
causing harm the world over, and there is little doubt that
they are sources of definite injury when they occur to any
considerable extent.

In " Plants Poisonous to Live Stock " H. C. Long l includes
the following farm weeds that have on occasion been found or
suspected to be poisonous.

(a} -Found Poisonous. — Autumn crocus, bindweed, bracken,
buttercup, charlock, corn cockle, darnel, fool's parsley, hem-
lock, horsetail, persecaria, poppy, radish, ragwort, scarlet
pimpernel, sheep's sorrel, sorrel, spurge (various species), water
hemlock or cowbane.

(£) Suspected. — Broomrape, cat's ear, dodder, ground ivy,
mayweed, purging flax, silverweed, sweet clover, tormentil,
viper's bugloss, yellow rattle.

Although definite instances of poisoning have been recorded
from all the plants ih list (a) comparatively few of them are
so virulent as to need very special precautions with regard to
keeping stock out of their way. The worst weeds are more
fully noticed in the following paragraphs: —

Bindweed (Convolvulus arvensis}. — This is seldom con-
sidered to be harmful, but the underground stems are purgative
and the seeds are poisonous to stock if eaten in any quantity.-'
If the seeds are ground up in flour they are said to render it
injurious to health, besides making it a bad colour.

Buttercup (Ranunculus .$/>.). — Opinions differ as to the
harmfulness of the various species of buttercup, but many of
them contain an intensely acrid juice which under some con-
ditions, at least, may cause poisoning when the plants are eaten
by animals. Henslow3 states that if too many buttercups are
eaten they may cause death, but that as drying dissipates the
deleterious principle horses and cows may then eat them with-

1 Long, H. C. (1917), " Plants Poisonous to Live Stock," Cambridge Agri-
cultural Monographs, Cambridge University Press.
1 Ewart, A. J. (1909), loc. cit., p. 48.
8 Henslow, G. (1901), ""Poisonous Plants in Field and Garden," p. 37.

POISONOUS AND INJURIOUS WEJ-:i>- 105

out any injurious results. As a matter of fact, buttercups being
usually most plentiful in luscious pastures where plenty of
more appetising food is available the cattle thrust them aside
and do not eat sufficient to harm themselves. The degree
of toxicity varies with the stage of growth, as the young
shoots in the spring are almost harmless in most species, but
the amount of the poisonous substance increases as time goes
on, often reaching a maximum at the time of flowering, the
blossoms being more poisonous than other parts of the
plants.

Corn cockle (Lychnis githago). — The damage wrought
by this weed is very generally recognised, both with regard to
its effect on stock and on human beings. As so often happens
the reports as to its toxicity are very varied, but the consensus
of opinion brands corn cockle as productive of much harm.
The whole plant is more or less poisonous, but the seeds are
by far the most dangerous and most of the trouble arises
when they are eaten. As they are much the same size as
wheat grains they are difficult to separate out, and when they
are ground up they give the flour an unpleasant greyish colour,
and, if sufficiently plentiful, render the bread injurious to
health. The poisonous principle, githagin, is not supposed
to be destroyed by baking,1 or, even if partially decomposed,
sufficient remains unchanged to make the bread harmful,2 and
fatal results have followed the use of it.3

Animals vary in their response to the action of corn cockle,
but from the various experiments quoted by Long it is appar-
ent that calves, pigs, and horses are very susceptible, and that
on the whole young animals are more harmed than older ones.
It is less certain how far birds and poultry are affected, but
Hungarian experiments4 have shown that geese died when fed
with meal containing 40 to 50 per cent. of. corn cockle seeds,
even when this meal was added to other food. Degen also
states that corn cockle can produce grave symptoms of poison-
ing in poultry, the pathological symptoms closely resembling
those of acute mineral poisoning.

The weed is sometimes plentiful in wheat crops, but as

1 Henslow, G. (1901), loc. cit., p. 60.

2 " Some Weeds of Iowa " (1903), Experiment Station, Iowa State College,
Bull. 70.

1 Long, H. C. (1917), loc. cit., pp. 19-22.

4 Degen, A. (1916), Kiserletiigyi Koxlemenyeh, XIX, Part I, pp. 11-21. See
Internal, Review of Set. and Pract. of Agric. (1916), VII, pp. 1629-1630.

io6 \\KKI.S <>K FARM LAND

it is a very conspicuous' plant it can be removed by hoeing
or handpulling before the seeds ripen.1

Fool's parsley (^-£V//«<Y* cynapium). — A considerable differ-
ence of opinion exists as to the toxic nature of this weed, but
there can be little doubt that it is decidedly poisonous. Stock
seem to refuse it and so rarely suffer by it, but humans have
been poisoned by using the leaves in mistake for parsley. In
some cases the consumption of the plant causes active poison-
ing, in others it is said to be harmless ; it is possible that this
contradiction may be due to the fact that the toxic principle
or alkaloid (coniine) varies in quantity according to the con-
ditions of climate and habitat under which the plant is grown,
or according to the stage of development* in which the weed is
eaten.2 Barthe 3 includes fool's parsley among the poisonous
Umbelliferae.

Hemlock (Conium maculatum}. — This plant has long been
famed for its poisonous qualities and is supposed to be the
source of the decoction drunk by Socrates. It is strongly
narcotic and causes paralysis and death. Probably hemlock
has caused more harm to human beings than to farm animals,
as the leaves have been mistaken for parsley, the roots for
parsnips, and the seeds have been used in error for anise.*
Usually stock avoid it because of its strong foetid odour, which
is especially marked when the plant is bruised. Goats seem
to be largely immune from the action of the poison,5 which is
most abundant in the seeds but is also present in the stem and
leaves. The reports of the toxicity of hemlock vary from
different places, but according to Barthe 6 this increases as one
passes from cold to warm climates, and he states that in North
Europe it can be eaten without ill effects. Whenever possible
the plants should be pulled up and burnt and the ground kept
covered with other vegetation to prevent re-establishment by
seedlings. The seeds are said to be very short-lived and in
this way lose their vitality without the opportunity of germin-
ating.

Horsetail (Equisetum spp.}. — Field horsetail (Equisetum
arvense) is the species usually met with on farms, but others

1 A general description and discussion of the poisonous qualities of corn
cockle is given in Jour. Bd. Agric. (1910), XVII, pp. 38-45.

3 Long, H. C. (1917), loc. cit., pp. 39-40.

» Barthe, L. (1918), " Toxicologie chimique," p. 499.

4 Long, H. C. (1917), loc. cit., p. 41-42.

• Ewart, A. J. (1909), loc. cit., p. 29.

* Barthe, L. (1918), loc. cit., p. 499.

POISONOUS AND INJURIOUS \\] i.DS 107

occur as well, and this may account for the conflicting opinions
as to the poisonous nature of the weed. There can be no
doubt, however, that some species of Equisetum are actively
injurious to stock, and Equisetum arvense is probably one of
them. German feeding experiments have indicated that field
horsetail (E. arvense} is harmless to the larger domesticated
animals, while the marsh horsetail (E. palustre) is really injuri-
ous to cattle. In America, on the contrary, it is stated that
E. arvense has proved fatal to horses, especially young animals.1
Complaints of Equisetum poisoning are fairly frequent in the
Russian Agricultural Press, horses and cattle suffering more
from the effects of eating the plant dried (in hay) than green.2
In feeding experiments dried Equisetum arvense was mixed
with hay, the quantity being gradually increased from •£
to 6 Ib. per day. At first the animals preferred it to the
rest of their food, but gradually left it alone, and after fourteen
days would hardly touch it. At the end of this time symptoms
of poisoning were evident, and it was concluded that the weed,
to be dangerous to horses, must be present in large quantities,
but might then prove fatal.3 This is corroborated from Canada,
as Howitt * states that if fed in quantity in hay E. arvense is
poisonous to horses. In some parts of England, as at Chedzoy,
on Sedgemoor, horsetail has a very bad reputation for causing
scour in cattle, but horses and sheep are said to be unaffected
by it. As various species are classed under the popular name
it is probable that some cause scouring and others do not,
which may account for the indifference with which the plant is
regarded by farmers in some places and the objection to it in
others. Cattle dislike the weed and eat round the clumps in
order to avoid it as far as possible.5

The presence of Equisetum indicates poor drainage, and if
this is attended to by deep ploughing on arable land, and by
underdraining grass-land, in addition to keeping the w'ater
courses clear, it is not usually difficult to eradicate the weed.

Meadow saffron or autumn crocus (Colchicum autumnale)

1 See Long, H. C. (1917), loc. cit., pp. 84-85, for a fuller account of this work.
3 Trudy Bjuro po prikladnoj Botanikje, Jan., 1916 ; see your. Bd. Agric.,
XXIII, p. 278.

3 " Horse Poisoning by Equisetum arvense " (1912), Kew Bull. Misc. Inform.,
No. 3 ; see Jour. Bd. Agric., XIX, p. 229.

4 Howitt, J. E. (1916), " Weeds of Ontario," Ontario Dept. of Aerie., p. 22.
8 Brenchley, W. E. (1916-17), " West Country Grass-lands," Jour. Bath

and West and Southern Counties Soc., XI, p. 97.

io8 WKKDS ()K KAKM LAND

(Fig. 32). — This plant is local, but very abundant when it
occurs, and is one of the most poisonous of our British faun
weeds, numerous cases of loss of stock having been traced to
it. In Switzerland l cases of poisoning of household animals
and human beings are recorded every year. Horses arc
poisoned by the green plant or by dried leaves in hay. Cattle
usually avoid it in any form, though young animals are fre-
quently poisoned. Poisoning often occurs in the spring when
beasts fed in the stall during the winter are let out on the
young grass. Pigs are affected, but sheep and goats seem to
be more or less immune. The flowers appear alone in the
autumn, no leaves being then produced, and the seed vessel
remains below the soil. After the flowers die down no more
is seen of the plant till the following spring, when leaves ap-
pear and the seed vessel rises out of the ground. Every part
of the plant is poisonous, corm, leaves, flowers, and seeds, so
that danger to stock occurs both in autumn and spring. Oc-
casionally, if the spring is late, the leaves may appear in hay
and so cause trouble, but generally it is grazing stock that arc-
liable to be affected. Grazing is safe enough in the summer
and winter while the plant is resting, but during the spring
and autumn stock should be rigidly excluded from fields con-
taining the weed. The toxic principle, colchicine, is not
volatile and is not removed by drying the plants, so that the
leaves are as harmful in hay as when fresh, and as the poison
seems to be cumulative repeated small doses may eventually
cause poisoning.2 Warm milk has been recommended as an
antidote. With perseverance meadow saffron can be easily
eradicated ; seeding may be prevented by dragging a crossbeam
with bundles of brushwood and bushes attached, over the
meadow when the plants are flowering, thus destroying the
blossoms,3 while the corms can be weakened and starved out
by cutting and handpulling the leaves in spring. A special
digging iron for the destruction of the corms has also been
employed.

Purging flax (Linum catharticuni] (Fig. 33). — This is
regarded as a suspected plant only by Long, but it has often
been known to occur in meadows or in hay which has caused

1 Stabler and Schroeter, Matten und Weiden der Schweiz, IX, p. 209,
Summ. in Jour. Bd. Agric. (1908), XV, p. 303.

8 (1908), " Meadow Saffron," Jour. Bd. Agric., XV, pp. 44-45.

'(a) Illiutrierte Landwirtschaftliche Zeitung, No. 27 (1912), (b) Bornemann,
" Die wichtigsten landwirtschaftlichen Unkrauter," p. 68 (see your. Bd. Agric.
(I9I3), XIX, p. 852).

POISONOUS AND INJURIOUS WEEDS

109

purging or death to the animals fed thereon. Under some con-
ditions prussic acid is developed by the plant and this would

FIG. 32. — AUTUMN CROCUS
(Colchicum autumttale).

FIG. 33. — PURGING FLAX (Linum catharticum).

be quite sufficient to cause the results recorded ; therefore
it is wiser to regard with suspicion pastures or meadows con-
taining this flax.

Ragwort (Senecio jacob&a). — The harmful nature of this

no WKKDS OF FARM LAND

weed is not often recogjiised in England, probably because
the first symptoms of poisoning are so insidious, but the
Board of Agriculture has called attention to the fact as the
danger of loss is considerable.1 In Australia,- New Zealand,
and Canada,3 however, ragwort is considered a very bad weed
as it induces a fatal disease, cirrhosis of the liver. The symp-
toms only appear after one to three months continuous grazing
on the plant, and even if the cattle are removed while they
still appear healthy, after-symptoms may manifest themselves,
leading to fatal results. Horses and cattle suffer badly, but it
is uncertain whether sheep are affected. Probably the plant is
most actively poisonous in June, July, and August, and as there
is no known cure it is essential that ragwort should be eradicated
from pasture land and not allowed to enter into hay. This
can be done (i) by grazing with sheep in winter or early spring
before much growth has been made, (2) by cutting the plants
in the flowering stage, the cut portions being gathered up and
burned, (3) by handpulling early in July. The plant being
biennial eradication must be carried on for two years, and
watch must also be kept against fresh infestation by seeds
carried by the wind.

Shepherd's purse (Capsella bursa-pastoris). — This is rarely
considered to be poisonous, but a case is on record in which
two children were poisoned by eating the. tops of the plants,4
their lives being saved with difficulty. This does not neces-
sarily imply that shepherd's purse is poisonous in the ordinary
way, as certain individuals are often adversely affected or
poisoned by foods that are harmless to most people, e.g. some
people are unable to eat strawberries without suffering from a
type of poisoning.

Water hemlock or cowbane (Cicuta virosa). — This is not in
reality an arable or grass-land weed, but as it is exceedingly
poisonous and may be found in damp areas or water courses
to which stock can gain access, it must not be left out of con-
sideration. Happily it is not very common or abundant in
this country, but in other parts of the world it flourishes and
special precautions have to be taken against it The greater
part of the poisonous principle is present in the rhizomes or

1 " Poisoning of Cattle by Ragwort " (1917), Jour. Bd. Agric., XXIV, pp.

433-436.

1 Ewart, A. J. (1909), loc. cit., p. 42.

*Howitt, J. E. (1916), loc. cit., p. 95.

4 Kellerman, W. A. (1895), " Poisoning by Shepherd's Purse," Bot. Gat.,
XX, pp. 325-326.

POISONOUS AND INJURIOUS WEEDS MI

underground stems, and possibly these are the only parts of
the plant that are actually poisonous as it is said that the
stems and leaves can be eaten in quantity with impunity.1
The poison is very rapid in its action, the first symptoms ap-
pearing in about twenty or forty minutes, and death resulting
if a fatal dose has been swallowed. Wherever water hemlock
is known to occur the plants should be grubbed out and burned ;
great care being taken not to leave any portions of the rhiz-
omes lying about where animals can get them. The pulled
plants should not be left in the water as the toxic principle,
cicutin, dissolves out and contaminates it, thus giving rise
to another source of trouble.2

In addition to the above outstanding weeds there are a
few which are certainly poisonous or otherwise harmful, but
which are only locally or occasionally present in sufficient
quantity to cause trouble.

Sheep's sorrel (Rumex acetosella) is charged 3 with having
poisoned a horse and sheep which browsed upon it when the
fruit was ripe and full of seeds, with fatal results to the horse.
The nature of the poisonous principle, if any, is not known,
unless the toxic action was due to the acid oxalates that are
present in the plants. Spurges (Euphorbia spp.~] are usually
avoided by stock, but if eaten are harmful as the juice is acrid
and the seeds contain an extremely purgative oil. Stagger
weed (Stachys arvensis] seldom occurs in any quantity in Eng-
land, but in the Dominions it is reported as causing serious
trouble among cattle.4 It is a weed of damp places and may
be eradicated by draining. Black nightshade (Solanum nig-
rum] sometimes does mischief, and Barthe states that it is
poisonous in warm and temperate regions, but loses its poison-
ous properties in the cold northern regions.5

Without being actually poisonous some weeds may cause
trouble if they are eaten or handled. Broomrape (Orobanche
minor) has been found to produce colic in animals fed on
clover, in which it grows plentifully, while the seeds of black
bindweed (Polygonum convolvulus] may, after some time, cause

1 Fleming, C. E. (1918), " Range Plants Poisonous to Sheep and Cattle in
Nevada," Agric. Exp. Stat., Univ. of Nevada, Bull. No. 95, p. 23.

1 Smith, J. D. (1917), " Weeds of Alberta," Bull. No. 2, Province of Alberta,
Depart, of Agric., Seed and Weed Branch, p. 98.

J Henslow, G. (1901), loc. cit., p. 142.

4 Maiden, J. H. (1916), " Asphodelus nstulosus and Stachys arvensis:
Harmful Weeds in New South Wales," Aerie. Gas., Ntw South Walft,
XXVIII, pp. 335-338.

8 Barthe, L. (1918), " Toxicologie chimique," p. 518.

ii2 WEEDS OK FARM LAND

serious internal derangements if too many are present in tin:
oats fed to stock.1 In Belgium, hogweed {Heracleiun sphon-
dylium) is supposed to have caused " Panaisie," a kind of
erysipelas induced if the plants are rooted up when they are
covered with dew. No harm results when hogweed is pulled
later in the day,2 because then the dew, in which it is suggested
that an irritant essential oil is dissolved, has been dissipated
by the sun.

Occasionally mechanical injury is caused by local irritation
due to very rough or sharp weeds or by the accumulation of
indigestible masses in the alimentary canal. Huffcaps (Aira
ccespitosa) is an exceedingly coarse and rough grass and rasps
the mouth badly, and in places where it occurs a clause
is inserted in many leases to the effect that the land must
be kept clear of it by cutting or otherwise.3 The sharp
awns of certain grasses, as wild barley and brome, tend to pene-
trate the gum and break off, giving rise to considerable inflam-
mation, and if the heads are swallowed they may accumulate or
" ball " in the stomach of the animal. The fibres of shepherd's
purse and the much branched chickweed are liable to cause
trouble in the same way if they are eaten too freely.

(B) WEEDS THAT INJURIOUSLY AFFECT FARM PRODUCTS.

The milk of cows and the flesh of stock is liable to become
tainted if any strong smelling or strong tasting plant is
included in the animals' food, and many complaints of un-
pleasant flavours have been traced to this source. There are
not a large number of weeds that are proved to taint farm
products, but some of these have been in bad repute from early
days. In 1 789 Adam 4 included dyer's weed (Reseda sp.\ darnel
(Lolium temulentum\ cow-wheat (Melampyrum sp.}, melilot
(Melilotus jr/.), and crow garlic among the weeds that spoil farm
products, and most of these had been known for long before.

Crow garlic (A Ilium vineale} (Fig. 34) and ramsons (A.
ursinunt) (Fig. 35) bear the worst reputation for tainting milk
and for injuring wheat and flour. Crow garlic is difficult
to distinguish among grass until it flowers, as the leaves are
very narrow, so that suspected pastures should be very carefully
examined before stock is turned in in the spring. Although

1 Henslow, G. (1901), loc. cit., p. 141. *Ibid., pp. 99-100.

•Brenchley, w. E. (1916-17), "West Country Grass-lands." ibid., p. 97.
4 Adam, J. (1789), " Of Weeds," " Practical Essays in Agriculture," II, pp.
173-198.

POISONOUS AND INJURIOUS WEEDS 113

the tainting of milk and butter is universally admitted, opinions
differ as to how the mischief is worked. Some people hold that

FIG. 34. — CROW GARLIC FIG. 35. — RAMSONS (Allium ursinum).
(A Ilium vinea.lt'), show-
ing underground bulb
with bud and cluster of
aerial bulbils on the
flowering stalk.

it is entirely due to dirty milking, whereby small pieces of garlic
leaves fall into the pail, but that this is the explanation is
improbable in the majority of cases. Some farmers- hold that
garlic taints the breath of cows, as it does that of man, and that

8

ii4 WEEDS OK KAKM I. AND

in some way or other this- influences the milk, but this again is
highly improbable. It is far more likely that the direct taint is
imparted to the milk in some physiological manner not well
understood, and possibly the taint is carried in the fat globules
more readily than in the rest of the milk. One dairy farmer
known to the author has fed cows on "garlic wheat " or even on
" garlic with wheat in it " and had no suspicion of trouble nor
complaints of the milk being tainted. In American experi-
ments J it has been found that increasing the length of time
between feeding on the onion and the hour of milking reduced
the unpleasant odour and flavour. There is only a slight odour
and flavour in milk when cows are kept off onion infested pas-
tures for four hours before milking and this slight flavour is said
to disappear almost entirely when the milk stands for four hours.
Even if this be so it is wiser to keep milking cows out of fields
known to be infested with garlic during the growing period of
the plant in spring and early summer. There is an idea among
graziers that store beasts and cattle may safely be run in these
fields, the garlic often acting as a mild tonic or aperient, but
that fattening sheep and cattle should be kept away lest their
flesh become tainted.

Crow garlic is occasionally a pest on arable land, and as
the aerial bulblets are about the same size as wheat grains it
is difficult to separate the two, and the value of the wheat is
thereby depreciated. Bread made from garlicky flour, especi-
ally if eaten warm, has a pronounced odour and flavour, and
in the United States it is estimated that the money loss from
wild onion runs into millions of dollars yearly.2

Ramsons is closely allied to the crow garlic and sometimes
causes similar trouble. It is readily distinguished by its thin,
flat spreading leaves, and when it is abundant in the shady
places it prefers the milk of cows that gain access to it becomes
badly tainted, and it is said that the flavour is strongly ac-
centuated if the milk is scalded.

Darnel (Lolium temulentum) is possibly the "tares" of
Scripture, and its harmful nature has been known for centuries.
It sometimes grows freely among wheat ; the seed being
nearly as large as wheat it is difficult to separate the two, with
the result that the darnel discolours the flour and gives a dis-
agreeable taste to the bread. Under some circumstances the

'Cox, H. R. (1918)," Wild Onion, Method of Eradication," p. n, U.S.A.,
Depart, of Agric., Farmer 'j Bull. 6ro.
•/*«*., p. 3-

POISONOUS AND INJURIOUS WEEDS 115

weed is not merely unpleasant but dangerous, and cases of
human and stock poisoning have been known to occur. Adam l
states that the seeds possess a very intoxicating quality and
bring on convulsions if taken in large quantities, and in France
darnel is called Ivraie because when brewed with barley it
acts as a narcotic intoxicant.2

Melilot (Melilotus spp.) occasionally occurs as a weed in this
country, though in America and elsewhere it is grown for
fodder. Ewart3 states that the sweet smelling cumarin,
which all the species contain, in excess produces a disinclina-
tion to locomotion, paralysis and ultimately fatal symptoms,
but that no harm is likely to occur if the amount of melilot
present does not exceed 10 per cent, of the herbage. Accord-
ing to Adam,4 if the seeds are ground with the corn they spoil
the flour, as the bread made from it has a strong taste and
smells like melilot plaister.

Pennycress or stinkvveed (Thlaspi arvense) . — Complaints of
this weed are not often heard in this country, because it seldom
happens that it is abundant enough to work harm, but in the
Dominions it is regarded as most noxious and special measures
are adopted against it. The whole plant has a peculiarly
objectionable odour, somewhat resembling that of garlic, and
the seed is very pungent. The stinkweed taints milk and
butter and also the flesh of animals that eat it, causing con-
siderable loss where the weed is plentiful.5

Various other weeds are accused of tainting milk and
butter, but the evidence in many cases is less clear, and pos-
sibly local conditions of soil and climate may make a species
harmful in some cases and innocuous in others. Among the
accused weeds are buttercups, wild mustard and charlock,6
yarrow, dog daisy, chamomile and mayweed,7 while woodwax
(Genista tinctorid) is supposed to make milk bitter.

The hooked fruits or burs of various weeds when abundant
are another source of loss to the farmer. These burs stick
to the wool of sheep as the animals rub against them, and
it is impossible to extricate them from the fleeces without

'Adam, J. (1789), loc. cit., p. 188.
"Long, H. C. (1917), loc. cit., p. 83.
* Ewart, A. J. (1909), loc. cit., p. 23.
4 Adam, J. (1789), loc. cit., p. 192.

•Henderson, T. B. R. (1909), "Stinkweed, How to Hold it in Check,"
Press Bull. No. 2, Province of Alberta, Depart, of Agric.

' F. M. (1910), " Crucifers and Milk, Revue Scitntifiqut, p. 599.
7 Long, H. C. (1917), loc. cit., p. 101.

u6 WEEDS OF I ARM LAND

wasting a considerable- amount of wool. Cleavers, corn
buttercup, geum, agrimony, and other plants that depend upon
animals for their distribution all contribute to this loss, and
where sheep are kept it is very important that special care
should be taken in the eradication of this type of weed.

CHAPTER VIII.

ARABLE WEEDS. ASSOCIATION WITH SOILS.

I. GENERAL.

IN travelling about the country and inspecting fields in various
districts the first impression received is that the individuals of
the weed flora are very closely determined by the type of soil
on which they grow. Sandy land is often smothered with
poppies, spurry or corn marigold, boggy soil is carpeted with
willow weed, chalk shows abundance of chicory, and loam and
clay present a general mixture of weeds without any great
outstanding species. A closer investigation shows that this
first impression is to a large extent erroneous, that most
individual species of weeds may be found on different kinds of
soils in various parts of the country and that comparatively
few weeds are definitely associated with any particular soil.
Still closer examination of the weed populations shows that as
a general rule the weed communities are far more characteristic
of the different soils than are the individual species. The
communities vary within themselves in different localities, but
in their broad outlines they show some connection with the
character of the soil. It is probable that many factors interact
to determine the nature of the weed population, and that the
mere chemical or mechanical composition of the soil is of
comparatively little importance except in so far as it is bound
up with other factors such as drainage, rainfall, temperature,
season, acidity, and aeration. The interaction of all these
factors determines the relative competition of the species
growing on the soils, and so the personnel of the weed com-
munities is profoundly affected. The influence of factors other
than soil is often well shown by the difference in the propor-
tions between the weeds that grow in wet seasons and dry
seasons. If the season be very \vet some plants gain the
upper hand at an early date and maintain their position all
through the year, whereas if the season be dry quite another
set of plants comes to the front on the same soil.

"7

n8 WEEDS OF FARM LAND

The whole question of weed population probably resolves
itself into one of competition between the different species.
The absence of a weed in any particular situation may be due
to one of several reasons : —

(1) The plant is so unsuited to the soil that it will pot
flourish on it under any circumstances.

(2) Other species are so much more favoured by the con-
ditions of growth that the particular species concerned is
smothered out and is unable to make any headway.

(3) The method of cultivation may be such as to hinder
the species from establishing itself.

(i) It very frequently happens that a species is absent
from a particular type of soil in one place while it is present or
even abundant upon similar soil in other districts. The con-
clusion may be drawn that comparatively few plants are really
antipathetic to any soil, and that if other conditions are suit-
able most plants will grow, at least to some extent, on any
kind of soil. Naturally, there are exceptions to this rule, but
they are probably less frequent than they seem at first sight.
Salt marshes are characterised by a specialised set of plants
adapted to the peculiar conditions induced by the flooding
with salt water which occurs at high tides. These species,
as Salicornia spp., Suceda maritima and S. fruticosa, Aster
tripolium, Glaux maritima and several others are never
found as weeds of cultivation or in any inland area. Never-
theless it is quite possible to grow them in ordinary soil
and to obtain good plants. On the other hand, the salt
marsh conditions are so exceedingly abnormal that the
majority of land plants find it impossible to live in such situ-
ations, because the combination of waterlogging, flooding,
and an excess of salt render the position untenable. But, as
soon as the land is drained and the floods are kept back by
dykes the typical land plants soon find entrance and before
long oust the original occupants of the soil.

Sorrel and sheep's sorrel are usually associated with acid
soil, and it is sometimes asserted that they will not grow in
the presence of a sufficient supply of lime. Rothamsted ex-
periments have shown that, in the absence of competition of
other plants, these species do better with a full supply of lime
than they do on an acid soil. Pot cultures were carried on
with a light soil, deficient in lime. The amount of chalk
necessary to correct the acidity of the soil was determined
and then calcium carbonate was added to the pots in varying

ARABLE WEEDS. ASSOCIATION WITH SOILS 119

proportion so that a series was obtained containing £, £, £, I
and twice the amount of chalk really required. Various seeds
were sown, including grasses, Rumex acetosa, R. acetosella, and
Trifoliuni pratense, and in addition a mixture of all the seeds
was made and sown in big pots prepared with soil similar to
that in the small pots. The plants were all kept under the same
conditions in a glass house and were carefully watered. At
the close of the experiment the plants were cut, weighed
green, dried thoroughly and weighed again. It was found
that by far the heaviest crop of Rumex acetosa was obtained
from the pots that received twice as much chalk as was needed,
and that the weight of the crop was rather less in the more
acid soils than in those pots which had received a complete
dressing of chalk, thus disproving the statement that sorrel
prefers an acid soil to one containing a sufficiency of lime.

Rumex acetosa.

Lime Requirement (Supplied as Chalk).

o

1

*

\

I

t.

gms.

gms.

gms.

gms.

gms.

gms.

Average green weight per pot .

10-85

97

«'5

12-9

12-5

2I'O

Average dry weight per pot

2-1

1-75

2-17

2'I

2'43

3*

The sheep's sorrel germinated very badly in all the pots
and only one or two plants grew at all. The only pots in
which any fair amount of growth was made were two which
had received f and a full supply of lime, thus again showing
that this species will grow well on soils which are not acid.

All the other species grown alone made satisfactory growth
in the soils of varying acidity, as, owing to the absence of
competition, they were able to make the most of the soil even
though it were not really very congenial. In the big pots,
on the other hand, the proportions of the various species varied
with the acidity, indicating that directly competition came into
play the plants that were most favoured by their particular
soil gained the upper hand, while the species that were more
indifferent suffered by the crowding of the other plants and
consequently developed less strongly.

The explanation of the discrepancy between the results of
these pot cultures and the ordinary field observations probably
lies in the mere fact of the varying conditions of competition
between the plants. Acid conditions of soil are not particularly

120 \\ BEDS OK FARM LAND

favourable to the growth of most species, but Rumex acetosclla
is quite indifferent to them. Consequently, while most plants
are hesitating to start boldly into growth the sheep's son^l
pushes ahead, dominates the situation from the first and holds
its own to such an extent that many of the other weeds do not
have a fair chance to make a start. On ordinary soils, how-
ever, the competition is keen from the beginning. Sh
sorrel would be quite content with the soil conditions, but it
cannot put up with the competition of other species, and con-
sequently it gets crowded .out of existence. This does
not, of course, imply that if competition were removed
sheep's sorrel would spring up everywhere, as seeds would
not be present in every soil. In the general distribution of
species the balance has been continually adjusted, until no\v
a few species are very specially associated with particular soils
while the great majority of plants will grow everywhere if
conditions are favourable. Thus the struggle for existence is
continually going on and the balance of dominating species is
shifting day by day in response to the perpetual changing of
the conditions which favour or inhibit growth.

This being the case, very few, if any, arable weeds can be
regarded as symptomatic of the soil on which they grow — i.e.
there are practically no individual species which indicate
infallibly the nature of the land where they occur. Individual
species are therefore of little use as decisive indicators, but
communities of species give much more accurate information.
For instance, the presence of sheep's sorrel indicates acidity
of soil, though it does not necessarily show whether the land
is heavy or light, but if it is associated with spurry and annual
knawel the community or association of species shows definitely
that the soil is very light or sandy in addition to being acid.
Again, though no single weed is exclusively associated with
clay land, the presence of such a mixture of weeds as black
bent, hoary plantain, corn buttercup, coltsfoot, and couch-^:
at once indicates a heavy soil. In considering the association
of weeds with soil, therefore, it is necessary to lay more stress
on the particular communities in which the plants occur than
on the connection of one particular species with one definite
type of land.

CHAPTER IX.

ARABLE WEEDS. ASSOCIATION WITH SOILS.

II. SPECIAL.

IN order to get some definite idea of the association of
weeds with crops and soils from the statistical point of view
weed surveys have been carried on for several years in differ-
ent parts of the country. In the course of the investigations
many hundreds of fields have been visited, the crops and the
nature of the soil observed, and detailed notes made of every
weed occurring on each field with its relative abundance or
scarcity. The results thus obtained l have been carefully
analysed and compared, and have provided the figures on which
are based the observations made in the present chapter. The
weed survey is preliminary and incomplete as it only deals
with a limited number of districts, and the conclusions put
forward may be subject to modification when more data become
available from other parts of the country. The variety of soils,
however, is considerable, the areas worked were far apart
(ranging from Somerset to Norfolk), and the correspondence
in the results from the different districts is sufficiently close to
justify the belief that later modifications will be matters of
detail rather than of principle.

In considering the association of particular weeds with
special types of soil the remarks made in the previous chapter
should always be borne in mind. A plant may be more or
less characteristic of a certain soil when it occurs in any
quantity, and yet it may be present on every other type of

1 Brenchley, W. E. (1911), "The Weeds of Arable Land in Relation to the
Soils on which they Grow," I (Bedfordshire), Ann. Bot., XXV, pp.

I55-I65-

(1912) Ibid., II (Wiltshire and Somerset), Ann. Bot., XXVI, pp. 95-109.

(1913) Ibid.. Ill (Norfolk), Ann. Bot., XXVII, pp. 141-166.

(1915) " Weeds on Arable Land and their Suppression " (Nottinghamshire

and Derbyshire), Jour. Roy. Agric. Soc., Vol. 76, pp. 14-37.
(1916-17) " West Country Grass-lands," Jour. Bath and West and Southern
Counties Society, XI, pp. 85-112.

122 UT.KDS OK FARM LAND

soil to some extent, or it may be absent in one district from
the very soil on which it is so characteristic elsewhere. Con-
sequently exceptions will be found to nearly every statement
made, and it is only by gathering together and correlating
evidence from many sources that any approach to real accuracy
will be made.

For purposes of convenience soils may be classified as
follows : —

(1) Clays and heavy loams.

(2) Medium loams.

(3) Light loams and sand.

(4) Chalk.

(5) Special soils, as peat.

Such a classification is necessary for working purposes, but in
actual fact no hard and fast line can be drawn between the
different sections. Clays and heavy loams merge imperceptibly
into the medium soils.and there is no sharp dividing line between
medium loam and the lighter soils. Again, land that is
termed clay in one part of the country will pass as loam else-
where, the terminology depending to a large extent upon the
general nature of the soils in the surrounding district. Never-
theless, when an investigator is constantly working on various
soils in different districts, a recognition of the relative lightness
or heaviness of the land develops almost instinctively, and
experience enables the classification of the weeds according to
the soil they occupy to be made with a fair degree of accuracy.
In addition to determining the soil with which a weed is
associated, it is necessary to draw a distinction between the
frequency with which a plant occurs and the amount of it that
is present. A weed like field forget-me-not may be fre-
quently found on any soil, and yet it may occur in such small
quantities that it is often noted as being scarce in the fields,
while it may never be present in such abundance as to be
dominant.1 On the other hand, such plants as field speedwell,

1 The relative abundance of weed species in any field is indicated by the
following terms : —

!i) Dominant. — When one species is much more abundant than any other.
2) Sub-dominant. — When a second species, less plentiful than the dominant
one, is also more plentiful than the other species of the flora.

(3) Distributed. — When a weed is rather plentiful over the whole of a field,
but is not relatively more abundant than other associated species.

(4) Occasional or sparse. — When occasional specimens of a weed are to be
found here and there.

(5) Scarce or rare.— When isolated individuals occur, sometimes only one or
two specimens being found.

ARABLE WEEDS. ASSOCIATION WITH SOILS 123

chickweed, curled dock, and fat hen are found on all soils in
such abundance that they are often dominant. Again, a weed
may occur on all soils but it may be far more abundant on
some types than on others, as happens with ribwort plantain
which is occasionally dominant on chalky soils and not else-
where, and black bindweed which is often dominant on light
soils but not on heavier land. This local dominance of ubiq-
uitous weeds gives a good indication of the soils which are
really preferred by the species. Thus the frequency with
which a weed occurs is not necessarily associated with its
abundance. Naturally enough the weeds that are of universal
distribution are usually the most frequent in occurrence, as they
are not limited by the soil conditions, and so have a greater
choice of habitat, but on the other hand plants that are
specially localised, as spurry and white mustard, are generally
far more abundant in their particular situation than are the
weeds of general distribution.

In the following pages a weed is said to —

(1) be characteristic of a soil when it is usually frequent or
abundant onthat soil but only occurs infrequently and in small
amounts on other types of land.

(2) have a preference for a particular soil if it is more often
frequent or abundant on that soil than on any other.

(3) be generally distributed if it shows no preference for
one soil more than another.

The chief arable weeds may be classified according to their
association with soils, as follows : —

A. Weeds of General Occurrence.

(a) Plants that are equally distributed on all types of soil.
(fr) Plants occurring on all soils, but less frequently on

heavy land.
(c) Plants occurring on all soils, but less frequently on

chalk.

B. Weeds Specially Associated with Heavy Land.

(a) Plants characteristic of heavy land (clay and heavy
loam).

(b} Plants common on heavy land, but also of general dis-
tribution.

(1) Plants which flourish equally well on chalk.

(2) Plants which do not occur so frequently on chalk,
(a) With distinct preference for the heavier soils.
(/?) Equally plentiful on heavy and medium soils.

I24 WI i;i)S OF FARM LAND

C. Weeds Characteristic of Sand and very Light Soil /V//V/,v//

//; Lime.

D. Weeds Associated with Chalk,
(a) Plants characteristic of chalk.

(fy Plants with a definite preference for chalk, but also

occurring on all soils.
(c) Plants with a definite preference for light and sandy

soils as well as for chalk.

E. Weeds Associated with Peat Soils.

A. Weeds of General Occurrence.

By far the larger proportion of arable weeds are to be
found distributed over all types of soil instead of being
definitely associated with one or two particular soils. At first
sight it looks as though these weeds were absolutely indifferent
to the nature of their habitat, but a close numerical analysis
of observations made on their occurrence shows that there is a
considerable amount of differentiation, and that even though a
weed be of universal distribution it often has definite preferences
or mild dislikes for certain soils. This is shown both by the
frequency with which a weed occurs on a soil and by its
relative abundance, and the weed communities which are
characteristic of the different habitats owe a great deal to
those plants that are very tolerant and that yet have their
preferences as to soil. The presence of a quantity of the
universally distributed scabious (S. arvensis] on chalky land is
quite as characteristic as that of wild mignonette (Reseda lutea\
which is practically confined to such situations. Indeed, there
are so few plants which are really soil indicators that if it
were not for the grouping into characteristic communities of
these weeds of general distribution it would be difficult or im-
possible to determine the weed communities that are associated
with the different soils.

It is gradually becoming evident, however, that much of the
' " universal occurrence" of certain weeds is more apparent than
real. Some of the commonest weeds, as knotgrass (P. aviculare\
show very great difference in character — differences so great that
it seems impossible that they are due to mere local variations
brought about by particular conditions of soil and climate.
The knotgrass will vary from a type consisting of very thin,
wiry stems bearing tiny narrow leaves hardly J inch long to
another of a much more succulent nature, in some cases with

ARABLE WEEDS. ASSOCIATION WITH SOILS 125

large broad leaves nearly 2 inches long. It is an accepted
fact that many of these variations constitute true sub-species,
but the classification and differentiation are still so hazy and
uncertain that it has not yet been practicable to make use of
these " splits " of species in studying the weed flora. It is,
however, very probable that when matters are cleared up more
it will be found that some of the main splits are of very great
importance and possibly certain splits will prove to be as
characteristic of different types of soil as such species as spurry
are of sand. Meanwhile we must be content to accept these
weeds as occurring on all soils, remembering that we may be
dealing with a variety of types instead of with a single one.

The account of the weeds of general occurrence may
conveniently be broken up into sections according to the
classes of soils that are more or less particularly favoured.
The division is made with due reserve, and is purely artificial
in nature, because its truth and convincingness will vary ac-
cording to the districts, soils, and cultural conditions with
which the reader is acquainted. Weeds that are classified
into one section on a general analysis may belong to another
section for a particular area, so it must be borne in mind that
the classification is the result of observations made on many
hundreds of fields scattered over the country, and so may give
a fairly true general picture.

(a) Plants that are Equally Distributed on all Types of Soil.
— A certain number of weeds appear to be truly ubiquitous,
occurring on any and every soil without preference. Naturally
enough some of the very commonest farm pests come under
this heading, as the faculty of being able to live happily under
any circumstances favours the spread and persistence of these
plants to an exceptional degree. Some of them are very
widely spread, as is shown by the following table which gives
the number of times some of the commonest weeds were
noted during the investigation, together with their percentage
of frequency * on the various classes of soils : —

1 Percentage of frequency = number of times seen per too fields.

126

WEEDS OF FARM LAND

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ARABLE WEEDS. ASSOCIATION WITH SOILS 127

The table also shows how persistently some of the worst
weeds, as thistle, knotgrass, black bindweed, and fat hen,
maintain their hold upon the ground in spite of the strenuous
efforts of the farmer to eradicate them. The creeping
thistle masters the situation more frequently than any other
weed. No matter what the soil nor how carefully the land is
farmed it is almost impossible to get rid of it, and it takes
advantage of every opportunity to spread more and more. It
occurred on 73 per cent, of the fields examined, and in 125 of
these, i.e. II per cent., it was the chief and dominant weed,
holding the worst record of all weeds in this respect.

The curled dock (Rumex crispus) may be dominant on
any soil, and it would be rampant everywhere if it were left
alone, but so much time and labour has been spent on its
eradication that the presence of too many docks in normal
times is a sign of bad farming and neglect. It is possible to
make a clearance by persistent effort. Fat hen and chickweed
are often dominant on various soils, but field speedwell,
groundsel, and shepherd's purse less frequently. Most of
the other weeds show some preference in their dominance.
Black bindweed is frequently the chief weed on the lighter
soils, but was never seen dominant on clay or chalk, whereas
its close relative knotgrass is dominant on all types of
soil, heavy or light, chalky or non-calcareous though it
dominates rather more frequently on the lighter than on the
heavier soils. Ribwort plantain and shepherd's needle are
seldom abundant, but very occasionally they will dominate on
chalky soil. The shepherd's needle is curiously local in its
distribution. In Bedfordshire, Nottinghamshire and Derby-
shire it seems to be absent from chalk, and behaves practically
as a calcifuge. In Norfolk it was never seen on chalk and only
occasionally on chalky loam, but in the West Country it is
most prevalent on chalk and on other soils of very calcareous
nature, so that in that area it is chalk-loving instead of calci-
fuge. This is probably one of the cases in which competition
and local conditions have far more to do with distribution
than the nature of the soil, though it is not very usual for such
a complete inversion of the habitats to take place.

Bent grass (Agrostis spp.\ commonly known as twitch or
couch, causes much trouble in places. It may be dominant
on any type of soil, and indeed in the frequency with which
it is the chief weed on a field it takes third place. On the
lighter soils it is frequently scuffled out and burnt in heaps,

128

\\ BEDS OF FARM LAND

but on heavier land it-is far more difficult to eradicate, as the
creeping stems are very full of vitality and each small broken
piece is capable of starting a new plant on its own account

in addition to these ubiquitous weeds which occur in such
quantities as to make them an important economic factor
there are a few others which are more or less uncommon but
which are equally cosmopolitan in habitat. Petty spurge and
field forget-me-not are widespread but never very plentiful.
The pale red poppy (P. dubium} occurs more frequently than
is recognised as it is probably often confused with the common
red poppy.

Silverweed (Potentilla anserina) although it occurred in
10 per cent, of the fields examined was frequently in such
small amounts as to be scarce. Only on three occasions was
it dominant and in each case this was on chalky land. It is
quite probable that this weed in spite of its general distribution
has some preference for calcareous soil. Creeping buttercup,
mouse-ear chickweed, field madder and wild radish are speci-
ally characterised by the number of times that they are scarce
when they do occur, as is shown by the following table :—

No. of Times

No. of Times

No. of Times

Per Cent, of

Seen.

Dominant.

Scarce.

Times Scarce.

Creeping buttercup .

149

2

20

13

Mouse-ear chickweed

83

—

15

18

Field madder .

85

—

22

26

Wild radish

41

2

22

54

In addition to the weeds noted above, a number of others
occur with less frequency; in the course of the investigation
they were seen but twenty times or less in arable fields. The
indications are, however, that most of these plants are com-
paratively indifferent as to soil, as they were found on all
types of land.

* Achillea millefolium
ALthusa cynapium .

* Bellis perennis
Brassica campestris
Cirsium lanceolatum
Caucalis nodosa

* Chrysanthemum leucanthemum

* Lychnis dioica

Yarrow.
Fool's parsley.
Daisy.

Field cabbage.
Spear thistle.
Knotted caucalis.
Dog daisy.
Red campion.

ARAHI.i: \VI.I.DS. ASSOCIATION WITH SOILS 129

Nepeta glechoma . . . Ground ivy.

Potentilla reptans . . . Cinquefoil.

* Prunella vulgaris . . . Self heal.

* Ranunculus bulbosus . . Bulbous buttercup.

* Sisymbrium officinale . . Hedge mustard.
Urtica dioica . . . Stinging nettle.

The weeds marked * were very often scarce, and it is
noticeable that they are all characteristic of grass-lands or
hedges, and are not commonly associated with arable land.
In no single case did any weed in this list attain a position of
dominance.

Thalecress (Arafa's thaliand] may perhaps be included
here though it was only seen three times, on three different
types of soil, in Bedfordshire. Arable land is a very unusual
habitat for this species, it being a frequenter of old walls and
waste stony places and not usually appearing on cultivated soil.

(£) Plants Occurring on all Soils, but less Frequently on
Heavy Land. — A small number of the weeds that are of general
distribution are much less common on heavy loams and clays
than they are on the lighter soils, on which as a rule they
are fairly evenly distributed. The number of species that come
under this heading is very restricted, as usually the weeds that
are scarce on the heavy land show some definite preference for
a particular type of soil, such as sand or chalk, which does not
occur in this case.

TABLE II.— WEEDS OF GENERAL OCCURRENCE, BUT LESS FREQUENT

ON HEAVY LAND.

«

Percentage of Frequency (= Number of Times

No.

Seen per 100 Fields).

Latin Name.

English Name.

of
Times

Seen.

All
Soils.

Heavy.

Medium.

Light.

Chalk.

Peat.

Antliemis urvensis

Corn chamomile .

^8

3

7

i'5

4

6

7

Arenaria scrpyllifolia Sandwort

no

IO

2

12

II

16

Euphorbia helioscopia Sun spurge

72

6

3

II

4'5

13

—

Geranium molle . Soft crane's-bill

84

7'S

27

13

7

II

—

Papaver rhtxas . Common red poppy

367

33

16

38

3?

34

—

The common red poppy {Papaver rhoeas] is so very wide-
spread and abundant that in some districts it is one of the
most difficult weeds to, fight. It is popularly believed to
be peculiarly a weed of sand and very light soils, but close

9

1 30 \VKKI>S OK FARM LAND

investigation has shown that it is really far more cosmopolitan.
It is as common on medium loams as on light loams and
sand, and it is also seen quite often on the heavy loams and
clays. In fact the proportion of the number of occurrences
in these situations reaches 50 per cent of those on all the
other soils. Poppies are frequently dominant — in 367 occur-
rences they took first place 93 times — but they are never domin-
ant on clay, and but rarely on heavy loam. Here again the
popular mind is astray, as the records of dominance are nearly
as frequent in proportion from medium loam as they are from
sand and sandy soils, though light loams have a lead in this
respect. Equally striking is the frequency with which the
weed is scarce — 69 times in the 367 observations. Naturally
enough, this scarcity is more marked on the clays and heavy
loam, but it is also very noticeable on all the lighter types of
soil.

Sandwort (Arenaria serpyllifolid] is apparently localised in
its distribution. It was seen 103 times in Norfolk, but only
seven times altogether in the other districts visited. It is
quite possible that it may occasionally have been overlooked,
as sometimes it closely resembles small forms of Stellaria
media, but it is improbable that it would have escaped detec-
tion to any serious extent. It has a much stronger dislike of
heavy soils than has Papaver rhceas, and also it shows a cer-
tain preference for chalk. Sandwort is rarely dominant and
rarely scarce ; it avoids extremes and simply takes its place
as an inconspicuous member of the weed flora, seldom playing
any striking part.

Soft crane's-bill (Geranium molle) and sun spurge (Euphorbib
helioscopid) resemble one another in that in addition to being*
scarce on heavy land they are also less prevalent on the lighter
soils, including sandy and light loams and sand. Soft crane's-
bill was once seen dominant on sand, and is rather often scarce
in quantity, but the sun spurge never dominates and is more
usually scarce on any kind of soil. The latter plant is a most
insignificant member of the weed community, and were it not
that it thrusts itself upon one's notice by its peculiar colour
and conformation, would often run great risk of being over-
looked.

Corn chamomile (Anthemis arvensis) is less common than
some of the other mayweeds, and is hardly found at all in
some districts. It very occasionally dominates on light or
chalky soils and is often scarce on any soil.

ARABLE WEEDS. ASSOCIATION WITH SOILS 131

(c) Plants Occurring on all Soils, but less Frequently on
Chalk. — The weeds in this category show a regular gradation
of frequency.

(1) Plants that are merely less common on chalky soils,
such as Veronica hedertzfolia and Veronica arvensis.

(2) Plants that are so much less common on chalk that a
dislike of such soil is suggested, as Alchemilla arvensis, Laininm
piirpureuin, Matricaria chamomilla, Matricaria inodora, and Poa
annua.

(3) Plants which are so infrequent on chalk that a dislike
of calcareous soil is evident, as Papaver argemone, Polygonuui
persecaria, Rumex obtusifolius.

TABLE III.— WEEDS OCCURRING ON ALL SOILS, BUT LESS FRE-
QUENTLY ON CHALK.

Percentage of Frequency (= Number of

In

Times Seen per 100 Fields).

Latin Name.

English Name.

<- }}

en

O (/5

:73

X

E

^j

sj

6

0
CO

t

as

1

u

s

!

u

1

Veronica arvensis

Wall speedwell

80

7

8

8

8

4

_

Veronica hcderafolia .

Ivy-leaved speedwell .

206

18

22

15

21

9

—

Alchemilla arvensis

Lady's mantle .

96

8-6

3'5

13

II

3

—

Laininm piirpureiim

Red dead-nettle .

39

3'5

3'5

6

3

•7

—

Matricaria chamomilla

Wild chamomile

29

3

3 '5

i

3

•7

—

Matricaria inodora

Scentless mayweed .

181

16

16

18

19

4

15

Poa annua .

Annual meadow-grass

195

17

17

25

18

4

Papaver argemone

Pale poppy

17

**5

1-5

ii

1-6

—

—

Polygonum persecaria .

Willow-weed

132

12

2-6

12

13

•6

90

Rumex obtusifolius

Broad dock

40

3 '6

3-5

4

4-5

—

(i) Ivy-leaved speedwell (Veronica hederafolia} is of fre-
quent occurrence and is often dominant. The plant is of a
very early and ephemeral habit, and as soon as growth is
completed it ripens its seeds and dies off rapidly, so that in
many cases by the end of June few traces of an abundance of
plants are to be seen. Consequently, it may easily happen
that if fields are examined late in the season the speedwell
may be missed in areas in which it dominates at an earlier date.
It seems to be equally dominant on all types of soil, as even
on chalk it maintains its position in this respect, although the
plant is so much less frequently seen in this situation.

Wall speedwell ( Veronica arvensis} is much less common

9*

132 WEEDS OF FARM LAND

than its ally and usually' occurs in very small quantities, never
being present in any abundance.

(2) Lady's mantle (A Ichentilla arvensis] is uncommon both
on chalky and heavy land, and possibly is the more intoler-
ant of the latter. When it does occur on clay or heavy
loam it is usually scarce, but on calcareous soil it is dis-
tributed more evenly, and is often present in fair amount.
Very occasionally it is dominant or sub-dominant on very light
soils or sand, but as a general rule it is insignificant and in-
conspicuous.

Red dead-nettle (JLamium purpureutn) always has the air of
being an intruder among arable weeds, as it never seems fully
at home in such surroundings. Its preference is for medium
loam, and it is very rare on chalk ; so rare that it may almost
be considered as absent This dead-nettle is never dominant,
and never abundant, but is often present in mere traces.

The mayweeds (Matricaria inodora and Matricaria chamo-
milla) resemble one another in distribution, but the former is
much the more common. The scentless mayweed (M. inodora)
is frequently dominant or sub-dominant on all soils save chalk,
and it is probable that it would dominate still more often if it
were not for its habit of clinging to the edges and open spaces
of the corn fields, and of refusing to flourish among the corn,
even in places that are particularly favourable for its growth.
This same habit also accounts for the frequency with which
the weed seems to be scarce, as if the crop competition is extra
strong the mayweed gives up the struggle at the outset and
entirely fails to assert itself.

Wild chamomile {Matricaria chamomilld) is very rarely
found on soil of any calcareous type, and probably the plant
should be classified amongst those in section (3) which are in-
tolerant of chalk. Although this mayweed is so infrequent it
is sometimes dominant, usually on sandy soil, and occasionally
on clay.

Annual meadow-grass (Poa annua) is one of the very few
grasses that may fairly be regarded as a true arable weed and
not as a mere survival from a previous "seeds" crop. It is
frequent on all soils except those of calcareous nature and is
often present in some quantity, though it is not often domi-
nant. Very occasionally, however, it is so plentiful that it
carpets the ground and even receives the local name of twitch
(this occurred at Gedling in Notts), but such prevalence is un-
usual, the weed being easily kept down by careful cultivation,

ARABLE WEEDS. ASSOCIATION WITH SOILS 133

(3) Willow-weed (Polygonum persecarid) stands apart from
all other weeds in its habits and habitats. It is most intoler-
ant of chalk, but otherwise seems indifferent to the nature of
the soil. Sometimes it behaves like other weeds and is spread
more or less evenly over the fields, or is segregated in areas
that are determined by definite and marked local conditions.
More usually, however, its distribution is sporadic. It occurs
here and there in spots, sometimes at the bottom of a field,
where the soil is moister, sometimes towards the top, where
no obvious difference in water content is evident. It is abun-
dant and usually dominant on peaty soils and grows happily
in parts of fields that are often waterlogged or are churned up
into thick mud by the farm traffic. When the plant occurs
high and dry towards the top of a field, inquiry will often elicit
the information that a spring emerges near by, or that at some
periods of the year those spots are extra damp from some
source of underground water. Careful consideration leads to
the conclusion that soil plays but a small part in determining
the distribution of willow-weed, but that a plentiful supply of
underground water is essential if the plant is to flourish.
Chalky soils are thoroughly well drained, and rarely have
sodden spots, so the absence of willow-weed from these situa-
tions may be due either to chalk intolerance or to a deficient
water supply. The weed is frequent enough on sand, and is
even sometimes dominant there, but sandy soils often have
damp soggy spots in which the plant can flourish, or the water
table may be sufficiently near the surface to enable the roots
to travel down to reach abundant moisture.

On the heavy clay fields in part of Somerset, which are
low-lying and near the moors, willow-weed flourishes well and
spreads uniformly over the whole area, as the necessary con-
ditions of moisture are fulfilled everywhere, and not only in
isolated spots.

Pale poppy (Papaver argemone) is seldom seen, either be-
cause it really does not occur, or because it is present in such
small quantities that it is overlooked or confused with other
larger species of poppy. It occurs any where except on chalky
soils, but is often scarce.

Broad dock (Rumex obiusifolius) must be regarded as an
interloper among arable weeds. It seems to object strongly
to chalk or else it so happened that it had been cultivated out
of existence in every field visited during the course of the in-
vestigation. The plant is essentially a weed of waste places,

'34

u BEDS OF I ARM I. AND

and even when it flourrshes well in the corner of the fields,
hedgerows, etc., it rarely migrates among the crops. It is,
however, difficult to pass judgment in this respect, as the v-
is so big and so obnoxious that when it does appear it is usually
eliminated with the greatest possible speed by a good farmer.

B. Weeds Specially Associated with Heavy Land.

(a] Plants Characteristic of Heavy Land (Clay and Heavy
Lo.ims}. — There is no weed so exclusively associated with clay
and heavy loam that it may be described as "symptomatic,"
but a very few are so much more often seen on such soils than
on any other that perhaps they may fairly be called "charac-
teristic ". None of the five weeds classified thus are of frequent
occurrence, as naturally the close association of a plant with
a particular type of soil considerably limits its distribution.

TABLE IV.— WEEDS CHARACTERISTIC OF HEAVY LAND (CLAY AND

HEAVY LOAMS).

Latin Name.

English Name.

Total
Occurrence
on all
Soils.

Percentage of Frequency (= Number
of Times Seen per 100 Fields).

All
Soils.

Clay.

Heavy
Loam.

Chalk.

Other
Soils.

Anthemis cotula
Geranium dissectum
Plantago media
Ranunculus arvensis

Stinking mayweed .
Cut-leaved geranium
Hoary plantain
Corn buttercup

16

19
18

49

17
1-6
4

4
4
7
14

I

4

i
6

•6
3

I
1-2

7

2

Alo/>tcurus agrestis .

Black bent

54

5

14

IO

5

2

Stinking mayweed (Anthemis cotula}, although so seldom
seen, is apparently closely associated with clay, on which it
is even sometimes dominant. When it does occur on other
soils very little of it is present as a rule, and it is often in
such mere traces as to be scarce.

Cut-leaved geranium (Geranium dissectum*) is equally at
home on clay and heavy loam, but curiously enough it has
been seen to reach a position of sub-dominance on a light loam,
at Flitwick (Beds). It does not seem to occur on chalk.

Hoary plantain (Plantago media) has a most decided pre-
ference for clay soil, and it is usually regarded by farmer
a sign that the land is in good heart. It is never present in
any quantity, and is seldom seen on arable land.

ARAiu.i: \vi:i:ns. ASSOCIATION WITH SOILS 135

Corn buttercup (Ranunculus an'i-nsis), though very local
in occurrence, is sometimes a bad weed on heavy wheat
land, and the heavier the land the more likely is the plant to
cause trouble. It is sometimes dominant, and the presence of
the seeds in the corn tends to depreciate the value of the
wheat considerably as so much more cleaning is necessitated.
The weed is far more characteristic of clay and heavy loam
than appears from the table, for although it occurs on the
other soils as indicated it is usually so scarce that only close
observation reveals its presence. Probably in many of these
cases it has simply sprung from stray seeds introduced when
the crop was sown.

The inclusion of black bent (Alopecurus agrestis) in this
list may perhaps be criticised, as it occurs quite frequently on
other soils and is also dominant on them. Nevertheless, the
preference for clay and heavy loam is so marked that a point
may be stretched to include it among the characteristic heavy
land weeds. Black bent is capable of doing much damage
among corn crops but happily does not usually occur in any
quantity, its nabit being such that ordinary methods of rotation
farming keep it in check. Occasionally, though, it has been
seen dominant on clay, chalk, and medium loam, and, when it
does occur, is not often scarce but usually present in ap-
preciable amount.

(£) Plants Common on Heavy Land, but also of General
Distribution. — Several of the most common and abundant
weeds are found distributed over every type of soil, but never-
theless they occur more frequently and more plentifully on
the heavier soils. The frequency with which the weeds in
this class occur is in striking contrast with the scanty distribu-
tion of those plants which are really characteristic of the heavy
soils. These weeds may be divided into two distinct sections.

(1) Plants which flourish equally well on chalk.

(2) Plants which do not occur so plentifully on chalk.
(a) With distinct preference for the heavier soils.
(£) Equally plentiful on heavy and medium soils.

In both cases the lighter loams and sand afford less con-
genial habitats.

'36

WEEDS OF FARM LAND

TABLE V.— WEEDS COMMON ON HEAVY LAND, BUT ALSO OF GENERAL

DISTRIBUTION.

Percentage of Frequency ( - Number of

lc.

Times Seen per 100 Fields).

Latin Name.

English Name.

•5 "

„•

E

6
Z

(/)

3

Z
X

3
|

•s

J

U

1

i. FLOURISH EQUALLY WKLL ON CHALK.

Convolvulus arveitsis . Bindweed .

599

54

63

70

42

60

Plantago major . . \ Greater plantain

20 S

19

23

23

M

21

—

Senebiera coronof-us .

Swine cress

24

2

3'5

2-6

i

3'3

—

Sonchus arrensis

Corn sow-thistle

296

27

42

38

16

36

•7

2. OCCUR LESS FREQUENTLY ON CHALK.

(a) Distinct Preference for the Heavier Soils.

Agropyron rcpens

Couch-grass

167

15

24

15

13

7

7

Br^ssica sinapis .

Charlock .

383

34

53

34

23

7

Eupliorbia exigua

Dwarf spurge

118

ii

22

14

3

13

Gulium aparine . .

Goosegrass

278

25

43

29

13

30

15

Tussilago farfara

Coltsfoot .

226

20

40

27

10

13

b) Equally Plentiful on Heavy and Medium

Soils.

A triplex patula .
Equisetum arvcnse

Orache
Horsetail .

167

2&8

15
24

28

33

28
34

7

20

3
8

15
15

Lapsana lomnmnis

Nipplewort

37

3'4

5

5

2

2-6

Mentha arvfitsis

Corn mint

158

«4

21

19

II

6

—

Veronica touniefortii .

Large field speedwell

290

29

37

37

21

12

—

( i ) Plants which Flourish Equally Well on Chalk.

Corn sow-thistle (Sonchus arvensis) has a decided liking
for heavy soils, but is nearly as common on calcareous land.
In these two habitats it is more often dominant than else-
where. Considering the frequency with which the weed
occurs it does not often take the first place, but this may partly
be due to the fact that it is fond of growing among cereal
crops and so is liable to be pulled up, being a very conspicu-
ous plant, especially when in flower.

Greater plantain (Plantago major) has much the same
distribution as the corn sow-thistle, except that it is more
often seen on medium soils. Although it is so common it is
rarely present in any quantity, and in all districts investigated
it was only once seen dominant on arable land, on clay.

ARABLE WEEDS. ASSOCIATION WITH SOILS 137

This weed is more frequent on grass-land than on ploughed
land.

Swine cress (Senebiera coronof>us] is a characteristic little
plant, which is not very often noticed. It often congregates
near the gateways of fields, in the cart ruts, instead of scatter-
ing evenly over the fields. It is hardly ever dominant or
present in great quantity, and is rarely seen on any of the
lighter soils.

Bindweed (Convolvulus arvensis] is one of the commonest
of all weeds, so common that it is rather difficult to say that it
has any real preference as to soil. It seems evident, however,
that it is less happy 'on the lighter types of soil. This is
shown by the frequency with which the weed occurs in the
different habitats and also by the number of times it pre-
dominates on the various soils. It is very often dominant or
sub-dominant on clay, heavy and medium loam, and fairly
often so on chalk, whereas on the light sandy soils it is less
frequently dominant and more often scarce. The abundance
of this weed may be gauged by the fact that in one occurrence
out of every five it is either dominant or sub-dominant,
usually the former. This is largely due to its habit of growth,
as the long creeping underground parts defy all efforts to clear
them out, especially on the heavy land, and also the aerial
stems cling so closely to the crops among which they scramble
that when once growth has fairly started it is almost impossible
to remove the weed without seriously damaging the crop.

(2) Plants which do not Occur so Frequently on Chalk.

(a) With Distinct Preference for the Heavier Soils.

Coltsfoot (Tussitagofarfara) expresses a most decided pre-
ference for heavy soils. The heavier the soil, the more likely
is coltsfoot to be present, and as the soil gets lighter, so does
the percentage of frequency of this weed decrease. Never-
theless, it may be dominant on any type of soil, clay,
medium loam, light loam, sand, chalk, or gravel. Considering
the frequency with which the plant occurs it is not very often
dominant, but this may be largely due to the special attention
that farmers pay to its eradication. This same fact may also
tend to decrease the frequency with which it is seen on the
lighter soils, and to emphasise its universal occurrence on
heavy land. The underground parts penetrate the soil so
deeply that it is exceedingly difficult to remove them effectively
from heavy soil by any of the usual methods of cultivation,

138 WEEDS OF FARM LAND

but on saiul and light Iwam a better clearance can he effected.
It is often said that the presence of coltsfoot indicates an
easily available supply of underground water, or a high \vater
table, but definite confirmation of this statement is wanting
The plant is often one of the first to colonise newly made
dumps, railway embankments and similar "made" soils in
which the water supply tends to be deficient rather than
liberal and in which the water table or available underground
water lies at a considerable distance below the surface. It a
comes in when the nitrogen content of the soil is reduced, as
on the unmanured plot and that receiving minerals only on the
Broadbalk field at Rothamsted.

Goosegrass (Galium aparine) is very widespread, but
shows as strong a preference for heavy land as coltsfoot does.
As an arable weed, however, it is less plentifuj in quantity
and is often scarce on all kinds of soil, especially light land,
though it usually occurs in appreciable quantity on chalk. It
is seldom dominant in comparison with its frequency of oc-
currence, but this dominance is distributed over all soils and is
not confined to heavy land.

Couch-grass (Agrofyron repens] is regarded in many districts
as one of the most pestilential of weeds. Every small portion
of its rhizome is capable of originating a new plant, and even
with the most careful cultivation it is difficult to avoid
scattering the pieces broadcast. Consequently, couch-grass is
very often dominant, on any type of soil, although in its occur-
rence it seems to show a definite preference for heavy land.
It is quite possible that this preference is not a true one, and
this is supported by the frequent dominance on sand. On
light soil it is comparatively easy to scuffle out the creep-
ing rhizomes without breaking them, and so destroy them
wholesale. This cannot be done on heavy land, as every
attempt at removal breaks the rhizome and leaves innumer-
able fresh starting-points for the weed in the soil. Conse-
quently it may well be that couch-grass is in reality cosmo-
politan as to soil, but that methods of cultivation have ^iven
it a false appearance of preferring heavy land.

Dwarf spurge (Euphorbia exigmi)' is one of the less
abundant weeds which makes no important contribution to
the economy of the weed flora, although it is of frequent
occurrence. The preference for heavy land is very strong.
and it has a marked objection to sand and gravel. It is
never the chief weed, but on one occasion, at Inglescombe, near

AKAllI.i; WKKDS. ASSOCIATION WITH SOILS 139

Bath, it was sub-dominant ; in a large proportion of instances
it only occurs in traces, isolated individuals here and there
being the sole representatives.

The true charlock (Brassica sinapis) needs to be
carefully distinguished from some half dozen other weeds
which pass under the same name. Charlock does not
exhibit such a marked preference for heavy soil as the fore-
going weeds, but a consideration of its dominance or scarcity
on the various soils show that it has a very strong preference
for the heavier land. On clay, heavy and medium loam and
chalk it is very often dominant, but on the light loams and
sand it comparatively seldom reaches such a position. On the
other hand, it is much more often scarce on the lighter soil,
indicating that the habitat is less congenial. The preference
for heavy land in this case is probably real, as* the plant
has no underground part which aids in reproduction, but is
entirely dependent upon seed for its propagation. Charlock
is very generally considered to be a chalk weed, but investiga-
tion shows that in many cases on the chalk the dominant
" charlock " is really white mustard (Brassica alba}.

(#) Equally" Plentiful on Heavy and Medium Soils. — The
weeds described above all prefer really heavy land (heavy
loams and clay) to any other type of soil. A few weeds,
however, are as much at home on the medium loams, but are
much less prevalent on the lighter soils and chalk.

The large-flowered field speedwell ( Veronica tournefortii} is
really an alien, but since its introduction it has spread so
rapidly that it is now one of the most common of arable
weeds and has to a large extent usurped the place of the
ordinary field speedwell ( Veronica agrestis]. This fact has not
been fully recognised, and as in many points the two plants
very much resemble one another V. tournefortii is still
easily overlooked and confused with V. agrestis unless special
care be taken. In fact, although it was reported from as
many as 29 per cent, of the fields visited in the Rothamsted
investigation it was certainly present more frequently, as for
two years, in Bedfordshire and the West Country, we ourselves
failed to make the distinction and put all records under Veronica
agrestis. Long,1 too, fails to distinguish between the two species
in his list of weeds, though Buckman '-' in 1855 realised the
difference.

1 Long, H. C. (1910), " Weeds of the Farm and Garden," p. 399.
» Buckman (1855), •' On Agricultural Weeds," Jour. Roy. Ag. Soc., XVI,
P- 364-

i4o \\ I I.DS OF FARM LAND

Heavy loam provides a rather more congenial habitat for
V. tournefortii than clay, the plant is as fully at home on
meJium loam as on the heavier soils, and it exhibits some
dislike of chalky soil. This speedwell is occasionally dominant
on various soils, usually on heavy loams, but probably as time
goes on it will become much more prevalent and widespread
if its progress continues to be as rapid as it has been of late
years.

Horsetail (Equisetum arvense) and corn mint (Mentha
arvensis) are similar in distribution to the large-flowered
speedwell. Horsetail is often dominant on various soils,
chiefly on clay and medium loam, but it would probably
dominate to a much greater extent if it were allowed to. It
is, however, such a troublesome pest that special efforts are
directed tbwards its eradication, and the success of these
efforts is shown by the number of fields from which the
weed is recorded as scarce. The long underground parts
enable the plant to spread over wide areas, and it is difficult
to clear the soil of the weed when once it has obtained a firm
hold, especially on heavy land. It is abundant at Rothamsted
on the unmanured plot of Broadbalk wheatfield.

Orache (Atriplex patuld] is essentially a weed of heavy
and medium soil, although when it does occur on the light
soil it is often very plentiful and even dominant. Many
farmers fail to recognise this weed, as in some ways it closely
resembles fat hen (Chenopodiuin all>um\ especially in the early
stages of growth, and the idea is prevalent that the low-
spreading plant of orache is merely fat hen that has been cut
down or has met with other injury during growth and so has
spread out instead of growing into the tall form characteristic
of the Chenopodium, Fat hen, however, is much more widely
distributed, and does not show the same preference for heavy
and medium soil as orache. Orache is not very often domi-
nant considering how often it occurs, but it is usually present
in some quantity. The seeds are very tenacious of life and
can survive burial in the soil at considerable depths1 for
many years, starting into active growth if ever conditions
become favourable.

Nipplewort (Lapsana communis) is uncommon and scarce
as an arable weed. It is very rarely present in any appreci-
able quantity, though it was once seen dominant at Staythorpe

'Brenchley, W. E. (1918), "Buried Weed Seeds," Jour. Ag. Sci., IX,
pp. 1-31.

ARABLE WEEDS. ASSOCIATION WITH SOILS 141

(Notts).
weed.

Possibly it is more usual as a garden than as a field

C. Weeds Characteristic of Sand and very Light Soil
Deficient in Lime.

Much of the sandy and very light land in this country in
its uncultivated condition is characterised by a marked defici-
ency in lime content, so much so that such soils are often
said to be "acid" or "sour". Soil conditions such as these
are not conducive to the healthy growth of a great variety of
plants, but there are a few weeds which are perfectly at home
and which revel in the very conditions that are untenable for
many others. The half dozen plants in this category are
seldom seen on ordinary soil, either because there is too much
lime present to please them or because they are so impatient
of competition that directly other plants are able to put up
a fight the " sour land " weeds give up the struggle at once.

TABLE VI.— WEEDS CHARACTERISTIC OF SAND AND VERY LIGHT SOIL,

DEFICIENT IN LIME. '

Percentage of Frequency (= Number of

Times Seen per 100 Fields).

No. of

Latin Name.

English Name.

Times

Seen.

All

Sand

Sandy

C\t\\»T

AH

Soils.

and
Bake.

Loam and
Gravel.

Chalk.

uincr
Soils.

Chrysanthemum segetum

Corn marigold .

24

2

7

3'5

_

'3

Gnaphalium uliginosum

Marsh cudweed

32

3

4

10

—

3

Rumex acetosella .

Sheep's sorrel .

97

9

20

M

—

5

Schranthus anntins

Annual knawel

37

3

II

7

—

'3

Spergula an en sis

Spurry

218

19

52

30

—

9

Urtica urens

Small nettle .

25

2

. 6

17

~~

i '4

Spurry {Spergula arvensis] (Fig. 36) is the greatest bug-
bear in the shape of weeds that farmers have to deal with on
sandy land. It is an annual plant which forms large
quantities of seeds, and when once fairly established it is
almost impossible to eradicate it. Liming does a great deal
to help, but the amount of lime that would be necessary to
eradicate the spurry would ruin the soil, as the dressing
would need to be so abnormally heavy that lime poisoning
would probably be set up. Spurry is so closely associated
with light sandy soils that one expects to find it there,
and, more than that, to find it dominant in many cases. As

1 1-

1 ARM I. AND

;i matter of fact, it is the pre-eminent weed in at least one-
third of the cases -in which it is found, and further, it is
relatively seldom scarce except in the few instances in which

it appears on heavier land. The lighter the soil, the more
likely is spurry to occur, and so it is even more closely as-
sociated with sand than with sandy loam and gravel.

Annual knawel (Scleranthus annuus) (Fig. 37) is an in-
conspicuous weed that is easily overlooked, especially as it is

ARAI',1.1. WEEDS. ASSOCIATION WITH SOILS 143

really not very common. When it does occur, it is often
present in abundance, especially on sand. It is very rarely
seen on any soil heavier than gravel.

Small nettle (Urtica urens} is another weed that is more

often seen on sand than elsewhere, but never on chalk. It is
not of frequent occurrence, and it is very often scarce, so that
it plays little part in the general weed economy.

Sheep's sorrel (Runtex acetosella) (Fig. 38) is common on
all the lighter soils, though it has some preference for sand.
This may be one of the cases in which the lime deficiency has

144

WEEDS OF FARM LAND

more to do with the plant's occurrence than has the texture of
the soil. It occurs occasionally on nearly all types of land,

and is always regarded as being an indicator of lack of lime,
but it is not nearly as frequent on the heavier land as is it<
ally Rumex acetosa. On sandy and gravelly soils and also
on peat sheep's sorrel is frequently dominant, and apart from

ARABLE WEEDS. ASSOCIATION WITH SOILS 145

arable land it is a characteristic feature on sandy and gravelly
heaths and commons where lime is lacking from the soil.

Corn marigold (Chrysanthemum segetuni) (Fig. 39) is
shrouded in a
alight air of mys-
tery. Obviously
enough sandy
soils are con-
genial to it, as it
usually occurs in
such situations
and is relatively
often dominant
there, whereas
Buckman l states
that it is an index
of rich soil. But
the weed is by no
means common,
being very local,
and even in the
same district it is
localised to cer-
tain fields. It is
evident that some
other factor, in
addition to lime
deficiency and
soil texture, de-
termines its dis-
tribution, and it
seems possible
that this factor
may be that of
moisture. A
comparison of
the number of
occurrences with
the number of

39' —

MARIGOLD (Chrysanthemum segetum).

times it is dominant suggests that the plant is ultra-particular
as to its habitat and is most intolerant of any untoward cir-
cumstance, but that when its peculiar needs are met it is

1 Buckman (1855), Jour. Roy. Ag. Soc.t XVI, p. 363.
IO

\\ l.l.hS ()!•• I ARM LAND

capable of gaining and, keeping the upper hand to the detri-
ment of the crop amongst which it finds itself.

Marsh cudweed (Gnaplialinni ulighwsuni) belies its name
utterly in its distribution as an arable weed. Far from seeking
moist spots in which to flourish it is associated with light
sandy soils which are well drained and which seldom have any
superfluous water held up in them. This is the only one of
this class of weeds which is more frequent and abundant on
sandy loam than on sand. It is rarely present in any quantity,
but is often scarce, though it was once seen to be sub-dominant
at Woburn (Beds). Buckman suggests that it is a good in-
dex of damp subsoil.

D. Weeds Associated with Chalk.

The weeds that are usually associated with chalk can be
divided into three distinct classes according to the degree of
preference for chalky soil that they exhibit.

(a) Plants characteristic of chalk.

(£) Plants with a definite preference for chalk, but also oc-
curring on all soils.

(c) Plants with a definite preference for light and sandy
soils as well as for chalk.

(a) Plants Characteristic of Chalk. — The true chalk lovers
are very few in number, and even they are not strictly confined
to the one habitat, though the proportion of occurrences on
other types of soil is very small. White mustard (charlock),
hardhead, and toadflax are the three outstanding plants in
this group, while corn gromwell, wild mignonette and lamb's
lettuce are equally characteristic but much less frequently
seen.

TABLE VII.— WEEDS CHARACTERISTIC OF CHALKY SOILS.

Percentage of Frequency (= Number of Times

Seen per 100 Fields).

No. of

Latin Name.

English Name.

Times

Seen.

All

Soils.

Clay and
Heavy
Loam.

Medium
Loam.

Light
Soils.

Chalky
Soil.

Peat.

Brassica alba .

White mustard .

72

6-5

I

3

6

20

Ccntaurea nigra

Hardhead .

56

5

i '5

2

1-8

26

—

Linaria ml gar is

Toadflax .

66

6

«*3

—

2

33

—

Lithospermum arvense

Corn gromwell .

21

2

•8

—

I

8

—

Reseda lutea

Wild mignonette

27

2'5

'4

'5

i'4

12

—

Valerianella olitoria

Lamb's lettuce .

5

3

~~

ARABLE WEEDS. ASSOCIATION WITH SOILS 147

White mustard or charlock (Brassica alba} is often found
growing alongside the ordinary charlock (Brassica sinapis} on
chalky soils, though it is not so frequent in occurrence even
in such favoured situations, but whereas the Brassica sinapis
is abundant on all types of soil with a leaning towards the
heavy land, Brassica alba is rarely seen except on typical
chalk land and in a less degree on light soils. The two
species are very similar in habitat and colour of flower, and
farmers rarely distinguish between the two forms, the chief
difference being in the shape of the leaves and the character
of the fruits. When white mustard does occur it is very often
dominant, particularly on chalk, where it is the chief weed
every second time that it occurs. Curiously enough, though
the species is so uncommon on the heavy and medium land,
yet in such situations it is sometimes dominant instead of
being occasional or scarce, as is usually the case with plants
that show preference for special types of soil when they occur
outside the preferred habitat.

Hardhead (Centaurea nigra} is as common on chalky soil
as the white mustard, but it is more or less insignificant in
quantity, and never reaches a position of dominance. The
plants are larger and therefore attract attention, but the
species is more associated with pasture than with arable land.

Toadflax (Linaria vulgaris} and wild mignonette {Reseda
luted] are always connected in the popular mind with chalky
land, and indeed they seem curiously characteristic and con-
spicuous, although they are rarely present in any considerable
quantity. Corn gromwell (Lithospermum arvense} and lamb's
lettuce (Valerianetla olitorid) are most insignificant, occurring
but seldom and in very small quantities, but nevertheless they
are just as characteristic of chalky soils as are the more abun-
dant species like white mustard and toadflax.

(b} Plants with a Definite Preference for Chalk, but also
occurring on all Soils. — This class of weeds is much better re-
presented than that of plants characteristic of chalk. The
plants in this section do not exhibit violent dislike to any type
of soil, but they are certainly much more often associated with
chalky land than with any other. Some of the commoner
weeds come under this heading, such as pimpernel, fumitory,
field pansy, and campion, and only a very few are at all
infrequent in distribution on arable land, these being hog-
weed, greater knapweed, round leaved toadflax, and wild carrot.
This is only another instance of what usually occurs. Plant

u I.KDS OF FARM LAND

species that are really. characteristic of any type of soil are
few in number and comparatively infrequent in distribution,
whereas plants which merely exhibit a preference fora partic-
ular soil are represented by several species, and are far more
often met with.

TABLE VIII.— WEEDS WITH A DEFINITE PREFERENCE FOR CHALK BUT
ALSO OCCURRING ON ALL SOILS.

1

Percentage of Frequency (= Number of

1.

Times Seen per 100 Fields).

Latin Name.

English Name.

?!

J

E .

d

'5

|l

.2 E
•S3

£-3
j °

=3 =

1

3

SJ

V)

05"

—

Anagallis arvensis

Pimpernel

205

18

18

18

16

40

1

Bartsia odontites .

Red bartsia

74

7

7

7

4

15

—

Centaurea scabiosa

Greater knapweed

34

3

'4

2-6

3

9

—

Daucus carota

Wild carrot

3?

3 '4

•8

4

2

ia

—

Fumaria officinalis

Fumitory

230

21

12

25

21

31

—

Heracleum sphondylium

Hog\veed .

33

3

3

4

I

9

—

Linaria spuria

Round-leaved toadflax

8

7

"4

1-6

•2

2

—

Lychnis vespcrtina

White campion .

191

8

16

18

31

—

Ranunculus acris .

Tall buttercup .

43

4

5

1*6

3

6-5

7

Scabiosa arvensis

Field scabious .

121

ii

4

8

8

37

Silene inflata.

Bladder campion

IOO

9

3

8

6

3°

—

Taraxacum vulgare

Dandelion

96

9

10

8

5

18

23

Viola tricolor

Pansy

245

22

9

19

25

33

69

Of all the weeds classified in this list field scabious (Scabiosa
arvensis], bladder campion (Silene inflata), wild carrot (Daucus
carota), and greater knapweed (Centaurea scabiosa] show the
greater preference for chalky soil, though pimpernel (Anagallis
arvensis] and hogweed (Heracleum sphondylium) run them
very close.

Field scabious (Scabiosa arvensis} is quite commonly dis-
tributed, but it rarely occurs in any quantity, and was never
seen to reach a position of dominance.

Bladder campion (Silene inflata] is perhaps rather less
frequently seen than the scabious, but it occurs in greater
abundance, and occasionally forms the chief weed in the flora
on various types of land.

Wild carrot (Daucus carota] is probably less usual as an
arable than as a pasture weed, but in spite of its infrequent
occurrence it is sometimes present in such abundance as to be
dominant on light and chalky soils.

Greater knapweed (Centaurea scabiosa] is another of the

ARABLE WEEDS. ASSOCIATION WITH SOILS 149

more uncommon weeds, being much less frequent than its
ally C. nigra. Usually it is not present in any abundance, but
it was once seen dominant on sand in Norfolk.

Poor-man's-weather-glass or pimpernel (Anagallis arvensis)
is one of the more insignificant weeds which are fairly wide-
spread but rarely occur in any quantity. Nevertheless, it is
in no danger of being overlooked as it attracts much interest
and attention from the fact that it is said to close on the
approach of rain, thus providing a useful weather glass for
country folk. Very occasionally it is present in such abund-
ance as to be dominant, and it has been found so both on
heavy clay and chalky loam.

Hogweed (Heracleum sphondylium) is not very common as
an arable weed, as it much prefers the hedgerow for its habitat
It never dominates in the fields and is frequently represented
by solitary individuals, interlopers that have wandered out
from their normal position in the hedges.

A few of the more common weeds, such as fumitory,
campion, field pansy, are not quite as closely associated with
chalky soil as those described above, though the preference is
still very marked.

Fumitory (Fumaria officinalis) is ephemeral in nature,
and disappears from the fields at a comparatively early date,
so that it may be more abundant in reality than the figures
indicate. It is quite frequently dominant, and still more often
scarce, but both these observations may need to be modified
in consideration of the fugitive nature of the species. As a
matter of fact Fumaria officinalis includes a number of species
which have not been distinguished in the field, and some
of these are more ephemeral than others, so that the records
obtained for fumitory in the later months of the season
are largely dependent upon the particular species occurring in
the districts examined.

White campion (Lychnis vespertind} is very widely scattered,
but it is seldom present in any amount, and indeed is scarce
in two out of every five times it occurs. It is quite probable
that most of the seed is introduced with clover and other small
crop seeds, and this would largely account for the widespread
distribution and for the fewness of the plants found.

Field pansy (Viola tricolor) is also commonly found in
small quantities, and was only once seen dominant on gravel
in Nottinghamshire.

Red bartsia, tall buttercup, dandelion, and round-leaved

\\ BEDS <»!• I ARM I, AND

toadflax are less usually seen in arable fields, and are not often
present in any quantity. Very occasionally red bartsia and
tall buttercup dominate, but generally they are quite insignifi-
cant Red bartsia (Bartsia odontites), however, attracts a
certain amount of unfavourable notice on account of its semi-
parasitic nature, described elsewhere (p. 102).

(c) Plants with a Definite Preference for Light and Sandy
Soils as well as for Chalk.

TABLE IX.— WEEDS WITH A DEFINITE PREFERENCE FOR LIGHT AND
SANDY SOILS AS WELL AS FOR CHALK.

Latin Name.

English Name.

No. of Times
Seen.

Percentage of Frequency ( = Number
of T mes Seen per 100 Fields).

All Soils.

I

Medium.

4

3

A

£

i

a.

Cnrdiiits niitins .
Filago gcrmanica
Geranium futUtum
Lamittm amplcxicaulc
LcgOHsia hybrida
L^copsis arvcnsis
Veronica serpyllifol'a

Musk thistle .
Cudweed
Small-flowered crane's-bill
Henbit ....
Corn campanula
Small bugloss
Thyme-leaved speedwell

21
15
.30

3°

37
30
7

2
I'3

2-7

•8

1-6

I
-J

2-4

2'2
3'2

4
I '3
5

3

2-7
•6

i-i

2-6

4

5-5

l'4

6
I'J

The species in this list are on the whole very insignificant
members of the weed flora. Not one of them occurs at all
frequently, and it is very seldom that any are present in any
abundance. On one or two occasions musk thistle (Cardans
nutans) and small-flowered crane's-bill (Geranium pusilluui) were
the chief weeds in the fields, but none of the others were ever
dominant. Yet, in spite of their comparative scarcity, several
of these plants are very interesting, and attract much attention.
Musk thistle, cudweed, henbit, corn campanula, and small
bugloss all have peculiar characteristics of habit or colour which
mark them out among their associates, and consequently an
observer often receives the impression that these weeds are
more common than they really are, and the results of the
numerical analysis come in the nature of a surprise.

E. Weeds Associated with Peat Soils.

Many peat soils are particularly difficult to cultivate owing
to their peculiar nature, and in most cases such soils are left
to their own devices or used for grazing or hay instead of for

ARABLE WEEDS. ASSOCIATION WITH SOILS 151

arable cultivation. This, of course, does not apply to the
Fen land, which is of a specially rich nature, and which is not
acid like many of the other peat lands.

Weed Flora of Twelve Fields on Everton Carr, Arranged in
Numerical Order of Frequency.

Latin Name.

English Name.

No. of
Times
Seen.

No. of
Times
Dominant.

Remarks.

Polygonum persecaria .

Willow-wee.d

10

4

Spergula arvensis

Spurry

9

4

Rume x acetosella

Sheep's sorrel

9

2

Also once sub-

dominant.

Galeopsis tetrahit

Hemp nettle .

9

i

Viola tricolor

Field pansy .

8

—

Often in patches.

Agrostis stolonifera ? .

Bent grass

5

2

Sometimes in

patches.

Chcnopodiiim album

Fat hen

5

—

Polygonum convolvulus

Black bindweed

5

—

Taraxacum vulgare

Dandelion

3

—

Stellaria media .

Chickweed .

2

—

Only in small

amount.

Equisetum arvense

Horsetail

2

—

Alriplex pattila .

Orache .

2

—

Potentilla anserina

Silverweed .

2

—

Polygonum aviculare .

Knotgrass

2

—

Hypoch&ris radicata .

Cat's ear

2

—

Rumex crispus

Curled dock .

2

—

Poa anntia .

Annual meadow

.2

—

Scarce on both

grass

occasions.

Brassica sinapis .

Charlock

I

—

Sonchus arvensis

Corn sow-thistle .

—

Anthemis arvensis

Corn chamomile .

—

Achillea millifolium .

Yarrow .

—

Ranunculus repcns

Creeping buttercup

—

Senecio vulgaris .

Groundsel

—

All scarce.

Lychnis Jlos- cue uli

Ragged robin

—

Matricaria inodora

Scentless mayweed

The peat on Everton Carr, Nottinghamshire, provides an
interesting instance of the weeds that occur when wet, acid
peat land is cultivated. The weed flora is very restricted in
the number of species composing it, but a few are markedly
characteristic of the situation and occur in most fields, often
in considerable quantity : Willow-weed (Polygonum persecaria\
spurry (Spergula arvensis], sheep's sorrel (Rumex acetosella},
and bent grass (Agrostis stolonifera ?), are usually present and
often dominant, and hemp nettle (Galeopsis tetrahit} is also
very common, though it seldom dominates the whole of a

I52 UT.r.DS OF FARM I. AND

field. In addition to these fat hen (Chenopodium a/l>uni\ black
bindweed (Polygonum convolvulus}, and field pansy (Viola
tricolor) occur frequently in greater or less abundance. The
other species found are less characteristic of peat soils and
are more erratic in their distribution. An analysis of the
weeds seen on twelve fields on Everton Carr on 28th June,
1915, may be of interest, as the list (see page 151) shows
very clearly how severely the personnel of the weed flora is
limited by the habitat.

COMPARISON OF DISTRIBUTION OF ARABLE WEEDS AS
RECORDED BY VARIOUS OBSERVERS.

It is instructive to compare the absolute quantitative results
obtained by the Rothamsted methods of working with the
more empirical results set forth by other workers from records
of practical experience and accumulated general observations.
Two convenient lists are available, given by Buckman * (1855)
and Long2 (1910).

A close comparison of the habitats of the various weeds as
given by the three sets of observations shows most remarkable
agreement. This agreement is absolute, except with regard to
some thirty-seven species, and with these the discrepancy
is usually slight and due to the fact that one or other investi-
gator has made a closer association of the weed in question
with some particular soil. This may easily happen, as local
variations in distribution are bound to influence the judgment
of the worker to some extent. For instance, Long and Buck-
man associate Euphorbia exigua with loams, whereas the
writer finds it on all types of soil, with some preference for
heavier land. Again, Long associates Scabiosa arvensis with
all soils indifferently. Buckman confines it to calcareous land,
whereas the writer finds it on all soils, with a preference for
chalk, thus reconciling the opinions of the other two authorities.
Similar reconciliations can be effected in most instances where
discrepancy exists, and the only cases in which the variations
in the lists are significant are given in the following table, any
result which is seriously disputed being put into italics : —

1 Buckman (1855), " On Agricultural Weeds," Jour. Roy. Agric. Soc., XVI,
PP- 359-367-

a Long, H. C. (1910), " Common Weeds of the Farm and Garden," pp.
384-408.

ARABLE WEEDS. ASM x I \TtOX WITH SOILS 153

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154 WEEDS OF FARM LAND

Some of the discrepancies in the above table are such as
might be reconciled or eliminated with a wider range of ob-
servations, but a few of the statements are so diametrically
opposed to one another that it is difficult to see how they
could be made to agree.

Alopecurus agrestis is peculiarly at home on heavy clay
and the heavier soils, so much so that it seems to be character-
istic. In the Rothamsted experiments it was only seen once
on sand and four times on gravel, out of a total of fifty-four
observations, a fact which gives no corroboration to Long's
statement that it is a weed of dry sandy soils.

Palaver rhceas is popularly associated with light soils, and
indeed, often occurs so abundantly in such situations as to
nickname the whole district, e.g. "Poppyland" in Norfolk.
Nevertheless, an unbiassed analysis shows that whereas poppies
are often overwhelmingly abundant on some light soils, yet
they are universally distributed over nearly all soils, although
they are present in smaller quantities on the really heavy
types of land. It has already been pointed out that Papaver
r/uvas was observed as a dominant on every kind of soil except
clay and peat, so that there seems to be no justification for
Buckman's remark that this species is " a most exact indicator
of sandy soil ". As a matter of fact, poppies are impatient of
certain types of sandy soil, and the acid sands that bear heavy
crops of spurry rarely carry many poppies, while the chalky
sands that are so congenial to the latter are unfavourable to
the growth of spurry.

Long's statement that Rumex acetosella occurs on all dry
soils is misleading, as this includes the chalky land which is
obnoxious to the species. The writer's observations go to
show that sheep's sorrel is characteristic of light and sandy
land, but that it is seldom seen on chalk, so much so that the
plant is regarded as one of the few " indicators " of acid soil.
Being shallow rooted it may be found as a denizen of a very
thin layer of sour land overlying chalk, as happens in the
" bake " on the top of some of thg Wiltshire Chalk downs.

Spergulaarvensis is another plant that indicates a deficiency
of chalk, and again it is misleading to describe it as occurring
on all soils. The plant is still more characteristic of sand and
very light soil than the sheep's sorrel, and even when it puts
in an occasional appearance on heavier land it is usually very
scarce. Its dislike of chalk is so marked that although it has
been noted 218 times it has never once been observed on

A R. \BI.K WKKDS. ASSOCIATION WITH SOILS 155

any type of calcareous land, whether chalk, chalky loam,
chalky sand, or red land.

In a few cases the differences between the three tables are
possibly caused by the local distribution of certain weeds. If
plants are at all localised it is quite likely that utterly different
results may be obtained by various workers or by the same
worker in different areas. As an instance of this, Scandix pecten
(shepherd's needle) may be cited. In Wiltshire, in 1911, this
plant was almost exclusively associated with chalk and red
land, and it occurred frequently enough to be considered a
chalk lover. In Norfolk, in 1912, and in Notts and Derby
in 1915 the same species was not once seen on chalk, and
only very rarely on chalky loam, so that it behaved practically
as a calcifuge. In Bedfordshire, in 1910, it was not often
seen, but it was associated with several kinds of soil without
showing much preference. This at once shows how the
difference may have arisen between Long's and the writer's
observations on this species, and also affords an indication
that if more data were forthcoming many of the other differ-
ences would be modified or eliminated.

i56

WEEDS o| I \K\| LAND

ARABLE WEEDS. ASSOCIATION^WITH SOILS 157

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'58

WEEDS OF FARM LAND

CHAPTER X.

ARABLE WEEDS. ASSOCIATION WITH CROPS.

IT has already been pointed out that one of the chief factors
in determining the abundance or scarcity of a particular weed
is the degree of competition it is able to withstand success-
fully, and furthermore, that the above-ground struggle for
light is as important as the underground struggle for food
and water. This being the case, the habit of growth of the
various crops and the differing systems under which they are
cultivated have a great deal to do with determining the com-
position of the weed flora. A normal crop of clover or
temporary grass grows strongly and completely covers the
ground, so that it is impossible for the majority of weeds to
live at all except in bare patches where the crop has failed.
Consequently very few of the ordinary local farm weeds are
to be found among such a crop, unless the latter has come so
badly that the ground is not covered and the weeds have
an opportunity to live. On the other hand, there are a few
weeds, like geranium, campion, and field madder, which are
specially fitted to grow among a smothering crop, and these
plants are generally to be found in the clover. The seeds are
carried with the crop seeds and the weeds flourish among the
crops, but they are so impatient of cultivation, or are so
unable to withstand the open situation among cereals and
roots, that very few of them survive when once the clover or
grass has been removed from the ground.

Amongst cereal crops matters are quite otherwise. The
crop plants grow in regular rows, well spaced out, and for a
long period during early growth the plants are small and offer
comparatively little competition to the weeds except in the
rows in which they are sown. This is most favourable for
the weeds, and if it were not for occasional cultivation the
crop would have a very poor chance as it would become
choked out or smothered by the weeds. Indeed, this is
occasionally seen to happen, especially on light sandy land on

159

160 WEEDS <>| I 'ARM I. AN l>

which, owing to a deficiency of lime in the soil, spun)- is ramp-
ant. Such soils are sometimes loaded with buried spurry
seed, and if the season be favourable to the germination and
early growth of the plant it comes up strongly in such
enormous quantities that no amount of cultivation, short of
hand pulling at great expense, is able to remove sufficient
of it to prevent it from becoming a most serious competitor
of the crop. Even when it is possible to make a fair clearance
some parts of the fields always seem to defy all efforts and
grow crops of spurry instead of corn, thus reducing the profit-
able crop and causing a considerable monetary loss. On less
acid soils of light types the poppy behaves in much the same
way, but as this weed grows upright instead of sprawling over
the ground it gives the crop a slightly better chance. The
time at which the crop is sown and the nature of the growing
season have a great effect upon the variety and abundance of
weeds. Autumn sown wheat germinates, makes a little
growth, and then waits until the following spring before it
makes much headway. Many of the weed seeds germinate
very freely in the autumn, seedlings grow up among the
wheat and are well established by the spring. Cultivating
between the drills removes many of them at that time, but a
very considerable proportion remain to come into competition
with the wheat. Charlock, for instance, holds its own in the
drill, and it is quite usual to see fields of wheat flaming yellow
with charlock in the spring sunshine. If the wheat gets a
good start it will grow so rapidly that it overtops the weeds,
and by depriving them of light keep them under to a great
extent. If the season be unfavourable, however, wheat and
weeds have to continue in competition, with the result that the
wheat plants suffer from overcrowding and the crop is short.

It is much more easy to cope with the weeds when corn
is sown in the spring. The land is laid up roughly in the
autumn and multitudes of weed seeds germinate and begin to
flourish, only to be turned under and destroyed when the land
is ploughed in the spring previous to sowing. If two or three
ploughings are given before sowing, more and more of the
weed seeds are thus put out of the way of doing harm. When
the crop is sown it grows straight away after the seedlings are
up, and unless the weather is exceptionally droughty there is
no check to development. The weed seeds begin to germinate
as well but they have little chance among the crop, as before
they get a good foothold the crop plants are so lusty that the
weeds are injured by competition in a very early stage of

ARAiu.i; \\KKI >s. ASSOCIATION WITH CROPS 161

growth, and never have a chance to grow big enough to do any
damage. Thus it happens that good strong crops of spring-
sown wheat, oats, and barley are remarkably free from weeds
during the growing season. In July and August the ground
below the plant is clean, with only an occasional sickly weed
struggling for existence here and there. It is sometimes said
that the best way to get rid of weeds is to keep the crops
growing well and strongly, enabling them to carry out the
work of eradication themselves without much artificial aid.
If the season be unfavourable and a long drought prevents the
corn from growing away strongly the weeds have a much
better chance. Some of them can stand drought well, and as
at such times they often grow more rapidly than the crop they
are able to come into strong competition.

Root crops are kept so well cultivated that there is no
definite evidence to show how they would behave towards
weeds if they were left to themselves. The ground is very
well prepared beforehand and the seeds are sown comparatively
late in the season, with the result that large numbers of the
weed se^ds have started into growth and been destroyed before
the crop is sown. The constant use of the hoe during growth
does not give the weeds any chance, and it is for this reason
that roots are considered to be such valuable " cleaning crops ".
This general association of weeds with crops is obvious,
but detailed investigation shows that a much closer connection
exists between certain crops and particular species of weeds.
Whilst most weeds of any importance are to be found associated
to some extent with every crop, yet many of them are specially
encouraged or discouraged by one crop or another.

Comparatively few weeds are equally prevalent among all
crops and these few comprise some of the most abundant and
widely distributed plants. The others all have some special
relation to the crops, either of aversion or sympathy. In con-
sidering this question it is generally of little use to take into
account those weeds which occur very seldom, as the data are
not often sufficiently reliable to base conclusions upon. In a
few cases, however, this rqle has been departed from, where
the indications of association are particularly marked.

An examination of the lists of the percentage of frequency
of the chief weeds among the different classes of crops shows
that roots, seeds, peas, and beans have the most direct influence
upon the weed flora. The weeds that are encouraged or
discouraged by these crops divide up into distinct classes with

ii

162

.1)8 OF FARM LAND

hardly any overlapping, so that a plant which appears under
one heading is very seldom found under another. The cereals,
however, do not act quite in the same way. As a whole they
form an indifferent body of crops, because hardly any weeds
are either specially associated with them or usually absent
from among them. Some differences are evident between
the cereals, weeds that are common among wheat being
often scarce among barley, etc., but the division is not so clear
as with the other classes of crops. For this reason a considera-
tion of the association of weeds with cereals is postponed for
a time, because all the chief weeds can be classified under
other headings.

For this purpose arable weeds may be summarised thus : —

(1) Weeds that are found as often among one crop as
another.

(2) (a) Weeds specially associated with root crops.
(b] Weeds discouraged by root crops.

(3) O2) (a) Weeds specially associated with temporary grass
or clover (" seeds ").

(/9) Weeds specially associated with temporary
grass or clover and wheat crops.

(£) Weeds discouraged by temporary grass or clover
("seeds").

(4) (a) Weeds specially associated with peas and beans.
(#) Weeds discouraged by peas and beans.

I. Weeds that are Found as often Among one Crop as Another.

TABLE X.— WEEDS THAT ARE FOUND AS OFTEN AMONG ONE CROP AS

ANOTHER.

Percentage of Frequency ( = Number of Times

Seen per 100 Fields).

Latin Name.

English Name.

Peas

All
Crops.

Wheat.

Barley.

Oats.

Roots.

Seeds.

and
Beans.

Brassica sinapis .

Charlock .

34

37

42

50

26

25

34

Capsella bttrsa-pastoris

Shepherd's purse

30

38

3°

33'

27

28

31

Cirsium ar reuse .

Creeping thistle

73

65

74

67

75

63

69

Convolvulus arvensis

Bindweed .

54

56

67

52

5i

43

45

Linaria vulga>is .

Toadflax .

6

5

7

5

4

8

3

Rumet acetosella

Sheep's sorrel

9

6

4

15

7

10

7

Rum ex crispus

Curled dock

4i

50

3Q

44

30

4i

48

Senecio vulgaris .

Groundsel .

33

33

26

37

32

33

43

Sotuhus arvensis .

Corn sow-thistle

27

26

34

24

17

37

34

Veronica agrcstis

Field speedwell

19

23

28

24

13

13

22

ARABLE WEEDS. ASSOCIATION WITH CROPS 163

The plants in Table X are commonly associated with
every type of crop, and some of them are among the most
frequent and abundant weeds. A few of them, however, are
more specially favoured by certain crops, this being shown by
their relative abundance and the number of times that they
usurp the position of dominant weeds. Charlock (Brassica
sinapis] is often dominant among all crops, but particularly
in wheat and oats. Field bindweed (Convolvulus arvensis)
dominates very frequently, specially among barley and on
fallow land. Creeping thistle (Cirsium arvense), on the other
hand, is abundantly dominant among all crops, if allowed, but
it is rather less favoured by wheat, oats and seeds. The rest of
the weeds in this class are not often present in great quantity,
partly because they are so steadily eradicated when seen that
they do not have a fair chance. Sheep's sorrel (Rumex aceto-
sella) and groundsel (Senecio vulgaris) flourish best among
seeds ; corn sow-thistle (Sonchus arvensis} is seldom very
plentiful except with barley ; field speedwell ( Veronica agrestis)
is sometimes abundant among oats and peas and beans. Some
of the weeds, again, are frequently present in very small
quantity although they are so wide spread. Shepherd's purse
(Capsella bursa- fas torts) is often scarce among all crops, yellow
toadflax (Linaria vulgarts] is rarely or never dominant, while
the curled dock (Rumex crispus} is so persistently attacked
that it is rarely allowed to take first place among the weeds
and is instead often reduced to a position of scarcity.

It is obvious that most of the weeds that are well
distributed among all crops are specially adapted for the
purpose, being able to tide over adverse circumstances in-
duced by the habit of any crop or by any particular method
of cultivation. Charlock, shepherd's purse, curled dock and
field speedwell produce large quantities of seeds which do not
all germinate at the same time. Some of these seeds start
into growth and the seedlings are often destroyed by cultiva-
tion, but another batch of seeds is waiting its turn, and
usually weeds of this description baffle the farmer unless
he is particularly alert. Creeping thistle and bindweed have
creeping underground stems which possess an amazing power
of retaining their vitality and growing under any circum-
stances, so that the type of crop does not affect them greatly.
Corn sow-thistle and groundsel are provided with plumed
fruits, and the seeds may not only remain buried in the soil
from one year to another, but a fresh supply may be constantly

ii •

\VI.I I K3 < >l I ARM LAND

brought by the wind, -throughout the year in the case of
groundsel, and in late summer and early autumn in the case
of corn sow-thistle.

A comparison of Table I with Table X shows that very few
weeds are indifferent both in regard to the soil they occupy and
the crops amongst which they grow, shepherd's purse, creeping
thistle, curled dock, groundsel, and field speedwell being the
only ones in this category. The other weeds that are found as
often in one crop as in another are more particular as to soil, so
that in their case the nature of the soil, and not that of the
crop, determines the distribution. On the other hand, most of
the weeds that have no preference as to soil are greatly in-
fluenced by the nature of the crop, and therefore in this case
the crop, and not the soil, is the determining factor in dis-
tribution. This means that the nature of the soil and the
type of crop act independently on the weed flora and that the
weeds themselves respond in various ways to the action of
the two factors which are necessarily at work at one and the
same time.

2. (a) Weeds Specially Associated with Root Crops. — A
careful consideration of all the results does not reveal a single
weed that has a particular association with root crops. Roots
are sown quite late in the season, which gives the opportunity
of cleaning the land well beforehand. During the growing
season the cultivator and hoe are kept at work, so that only
the most persistent and ubiquitous weeds are able to maintain
a footing.

The constant cultivation among root crops tends to make
a great clearance of the weeds, as under conditions of good
farming comparatively few plants are allowed to attain any
size. In this way the abundance of the weeds is greatly re-
duced, but most of the more common species are to be found
among the roots throughout the season. This is because the
stores of seeds or underground parts in the soil are so great
that the very cultivation which clears away one crop of seed-
lings prepares the soil for another crop to germinate or start
into growth. Some weeds, however, seem to resent the inter-
ference and are often absent from roots in fields that they
frequent when other crops occupy the ground.

ARABLE WEEDS. ASSOCIATION WITH CROPS 165

(/;) M'cdfs Disconni^ctl by Root Crops.

TABLE XI.— WEEDS DISCOURAGED BY ROOT CROPS.

Percentage of Frequency (= Number of

Times Seen per 100 Fields).

Lalin Name.

English Name.

I

2

J3

1

B

2
0

1

i

V

Ii

5

*

a

M

£«

Anagallis arvensis .

Pimpernel

18

21

22

22

12

19

17

Bartsia odontites

Red bartsia

7

14

2

5

—

8

7

Brassica alba .

\Yhite mustard

7

7

8

7

2

7

7

Cerastium viilgatum

Mouse-ear chickweed

7

12

2

5

I

22.

5

Euphorbia exigua .

D\varf spurge .

n

13

18

12

5

12

10

Lychnis vcspertina . Campion

17

12

19

21

9

37

M

Papaver rhazas . • Common red poppy

33

48

38

34

13

43

26

Plantago major

Greater plantain

19

22

24

28

8

23

22

Ranunculus repcns .

Creeping buttercup

13

17

9

13

4

23

19

Tujsilago farfara .

Coltsfoot

20

27

19

V

12

17

26

Viola tricolor .

Pansy

22

25

22

19

13

35

22

Matricaria inodora .

Scentless mayweed

16

24

I3

21

8

ii

29

Scandix pecten

Shepherd's needle .

12

22

18

15

3

5

10

Very few of those weeds thus discouraged are present
in large quantities under any circumstances, and this may
account for the comparative ease with which they are re-
duced among roots. Pimpernel (Anagallis arvensis], mouse-
ear chickweed (Cerastium vulgatum\ and dwarf spurge
(Euphorbia exiguri] have never been found dominant anywhere,
while greater plantain (Plantago major), creeping buttercup
(Ranunculus ref>ens\ field pansy ( Viola tricolor], campion
(Lychnis vespertimi) have each one record of dominance to
their credit among other crops, but never one among roots.
The red poppy (Papaver rhazas\ however, provides a single
example of a weed that is most abundant in some districts,
and yet often absent from the root crops in these very
areas. The soil contains numberless seeds, but under these
particular conditions of cultivation the poppies make little head-
way. This is well shown by the fact that the red poppy was
only once found dominant amongst roots, when among other
crops in the same district it dominated no less than 92
times. This fact in itself shows how bitterly the poppy
resents the interference of cultivation. White mustard (Bras-
sica alba] behaves in a similar way, though the discrepancy

WKKDS OK I 'A KM I.AN'D

is less marked — with two instances of dominance among roots
and twenty-three elsewhere. Coltsfoot (Tussilago farfard] is
very considerably affected, but makes a better fight for its
position than any other weed in the group, managing to
become dominant as often in proportion among roots as
among other crops.

(3) (a) Weeds Specially Associated with Temporary Grass and
Clover (" Seeds ") or with " Seeds " and Wheat Crops.

These two classes of weeds are very clearly marked out
Two distinct factors are evident in this case, which work to-
gether and help to make the flora of "seeds" crops more
distinctive than any other. The first factor is that " seeds "
form essentially a smothering crop. They are sown very
thickly, and from an early date they spread out and cover the
ground closely, in contrast to the cereals, which grow fairly
upright, and to roots, in which open spaces are left for a long <
period of time. Consequently, any weeds that dislike com-
petition stand a poor chance among seeds, and only those can
flourish whose habit permits them to enter into effective com-
petition with the crop. Some, but not all, of the " seeds " weeds
are equally abundant among wheat. The second factor is that
the seed of clover, trefoil, medick, etc., is so small that effec-
tive cleaning is difficult, and large numbers of weed seeds
may therefore be introduced when the crop is sown. These
introduced weeds are a class apart, for they flourish among
their harbouring crop, but do not persist further on in the
rotation in any quantity. Apparently cultivation is obnoxious
to them, and the great majority quietly disappear when once
the ley is ploughed up. The weeds that are common among
both seeds and wheat are also usually introduced with the
seed crop, but they seem to be able to hold their ground
for a season in the wheat that so commonly follows a clover
ley. After this, however, they tend to disappear like the rest.
The two sets of weeds are as follows : —

ARABLE WEEDS. ASSOCIATION WITH CROPS 167

(a) Weeds Specially Associated with Temporary Grass or
Clover (? Seeds"}

TABLE XII.— WEEDS SPECIALLY ASSOCIATED WITH TEMPORARY
GRASS OR CLOVER.

Percentage of Frequency ( = Number of
Times Seen per 100 Fields).

Latin Name.

English Name.

.

•o

All Cro

S

A

\

1

I

1

1/3

ji

Anthemis arvensis

Corn chamomile

3

4

2

2

o'5

12

_

Daucus carota .

Wild carrot .

3

2

3

I

i

17

5

Geranium molle .

Dove's-foot crane's-bill

8

5

4

0-C

5

31

2

Lychnis vespertina

Campion

17

12

19

21

9

37

14

Plantago lanceolata

Ribwort plantain

9

7

2

4

2

9

Shcradia arvensis

Field madder

7

8

I

5

5

31

S

Viola tricolor

Pansy .

22

25

22

19

13

35

22

Although these weeds are so usually found among seeds
they are very seldom dominant, probably because the
smothering nature of the crop prevents any other plant from
usurping too predominant a position. Most .of the plants are
very closely connected with " seeds " crops only, but campion
(Lychnis vespertina} and field pansy ( Viola tricolor} are
common among others, with a decided preference for " seeds ".
Both these weeds are introduced with " seeds," and they are
able to hold their own throughout the rotation, though
never present in any quantity. Campion (Lychnis vesper-
tina} is a great contrast to its companion, as its habit is so
utterly different. Most of this section are small low growing
plants which spread out close to the surface of the ground in a
rosette form, so that no other plant is able to crowd into the
ground occupied by the spreading of the weed. Campion,
however, is a bold, strong grower, and shoots up over the
head of the crop to revel in the freedom of the upper air.

Jn addition to the weeds given in Table XII a number of
others that occur comparatively,seldom are chiefly associated
with "seeds" crops. These all behave in the same way, and
disappear with the succeeding crop in the rotation.

The chief of these are : —

Carduus nutans .
Cirsium lanceolutum
Filagd germanica
Geranium dissectum
Geranium ptisilliim
Reseda lutea

Musk thistle

Spear thistle

Cudweed

Cut-leaved geranium

Small -flowered crane's-bill

Wild mignonette (equally common among barley).

1 6*

\\ BEDS OF I ARM I AND

l\'ft'</s .V/v< •/(////• AssiicitJtcd n'ith \Vlie<it
(ir,iss and Clover (" Seeds ").

TABLE XIII.— WEEDS SPECIALLY ASSOCIATED WITH WH11AI
TIM HORARY GRASS AND CLOVER.

Percentage of Frequency (= Number of

Times Seen per 100 Fields).

Latin Name.

English Name.

<j
I

fr

d

,

If

0
<

£

CQ

5

1

Jl

Alchemilla arvensis .

Lady's mantle

9

23

I

5

0'5

16

9

Arcnaria scrpyllifolia

Thyme-leaved sandwort

10

13

4

4

-1

32

5

Cerastinm riilgattnn .

Mouse-ear chickweed .

7

12

2

5

I

22

Myosotis arrensis

Field forget-me-not

15

25

7

12

7

33

19

Veronica arvensis

Wall speedwell

7

20

I

4

0-5

10

7

These weeds resemble the others associated with "seeds"
crops in that they are seldom or never dominant. Most of
them are so small and inconspicuous that care has to be taken
in field work to give them their due weight of importance, as
it is easy to under-estimate the quantity present. Sandwort
(Arenaria serpyllifolid}, mouse-ear chickweed (Cerastinm
vulgatuni), and forget-me-not (Myosotis arvensis} occur more
frequently among seeds than among wheat, whereas lady's
mantle (Alchemilla arvensis} and wall speedwell ( \ 'crsnica
arvensis'} exhibit a greater preference for wheat. All of them
are relatively seldom seen among any other crops.

(&) Weeds Discouraged by " Seeds " Crops.

It has already been mentioned that the peculiar habit of
" seeds " crops is detrimental to the growth of many weeds.
Some of the commonest and mo'st abundant farm weeds, in-
cluding several that are utterly indifferent to the nature of
the soil they frequent, cannot endure the close competition of
"seeds," and refuse to grow among them. The seeds and
underground parts of the weeds, perhaps after making a few
futile efforts to establish a position, simply remain dormant in
the soil until such time as the antagonistic crop is removed
and more favourable conditions supervene. Then, little the
worse for their waiting period, they reassert themselves among
the later crops in the rotation.

AR.MiI.I-: \\KKDS. ASSOCIATION WITH CROPS 169
TABLE XIV.— WEEDS DISCOURAGED BY "SEEDS" CROPS.

Percentage of Frequency (= Number of
TinriA Seen per too Fields).

Latin Name.

English Name.

A It

Peas

All

Crops.

Wheat.

Barley.

Oats.

Roots.

Seeds.

and
Beans.

Agropyron repens .

Couch-grass .

15

18

5

12

25

4

24

j Agrostis spp. .

Bent-grass

22

33

10

18

28

14

2Q

Atriplfx pntnla

Orache .

15

16

9

18

23

3

16

Chcnopodium album

Fat hen .

44

32

61

48

60

17

48

Equisetum arvense

Horsetail .

24

29

26

26

24

14

3t

Galittm apart tie

Goosegrass

25

37

21

21

23

15

38

Lamium pnrpurenm

Red deadnettle

4

3

2

3

6

I

3

Mentha arrcnsis .

Corn mint

M

17

16

it

M

8

17

Poa atinna

Annual meadow-grass

17

35

10

H

M

8

17

Polygonnm aiicnlare

Knotgrass

56

62

58

63

64

21

62

Polygonum convolvulus

Black bindweed

49

48

64

5<>

63

20

45

Polygonum persecaria

Willow-weed .

12

10

12

18

15

3

10

Spergula arvensis .

Spurry

19

13

17

34

23

7

24

Stellaria media

Chickweed

45

52

45

4i

59

18

50

:a hedcreefolia

Ivy-leaved speedwell

18

20

22

20

21

2

29

Veronica tourncfortii

Large field speedwell

29

31

19

22

36

'4

4°

All the weeds classified in the above table are seriously
handicapped in the presence of a "seeds" crop, but some are
much more affected by the competition than others. Bent
grass (Agrostis spp.~), horsetail (Equisetum arvense}, goosegrass
(Galium aparine}, corn mint (Mentha arvensis), and large field
speedwell (Veronica tournefortit} are among those that are
less influenced. Orache (Atriplex patula\ knotgrass (Poly-
gonum aviculare\ willow-weed (Polygonum persecaria}, and
especially ivy-leaved speedwell (Veronica hederafolia} are
more seriously affected, as their frequency is far less than half
that among all crops. Couch-grass (Agropyron repens) appears
to come in this latter group, but it is quite conceivable that on
some occasions it was overlooked, as it is difficult to dis-
tinguish it from some of the grasses which have a legitimate
place in "seeds " crops.

The majority of these weeds are rarely present in any
quantity, and few of them are ever dominant. Orache, goose-
grass, red dead nettle, corn mint, willow-weed, chickweed,
couch-grass and ivy-leaved speedwell were never observed
to be dominant among this crop throughout the course of the
investigation, though many of them were frequently the chief
weeds among other crops. Bent-grass, fat hen, horsetail,

170

WEEDS OK KAKM LAND

annual meadow-grass, knotgrass, black bindweed, spurry, and
large field speedwell were very occasionally found dominant,
but much less frequently than they were in other cases.

4. (a) Weeds Specially Associated with Peas and Beans.

In spite of the difference in soil conditions under which
peas and beans are grown they carry a very similar weed flora.
These crops are different in habit from any others grown on a
farm ; the individual plants are very strong growing, but in
the earlier stages they do not cover the ground to the same
extent as a young, healthy crop of seeds. Later on in life
peas and beans are as efficient smother crops as are seeds, but
the diversity of their earlier history influences the weed flora
considerably, so that the plants that are encouraged or injured
by the two classes of crops are entirely different. Peas and
beans are regarded as being the dirtiest crops on a farm,
because the weeds have a fair opportunity of establishing them-
selves while the crop is young ; little cultivation can be carried
out for fear of damaging the peas and beans, and many of the
weeds thus become strong enough to withstand the later
smothering action. Only two weeds, black bent and corn
buttercup, receive special enc6uragement from this type of
crop, and both these are correspondingly prevalent among
wheat, and are discussed under that heading also.

TABLE XV.— WEEDS SPECIALLY ASSOCIATED WITH PEAS AND BEANS.

Latin Name.

English Name.

Percentage of Frequency (= Number of
Times Seen p«r 100 Fields).

All
Crops.

Wheat.

Barley.

Oats.

Roots.

Seeds.

Peas
and
Beans.

Alopeciirus agrcstis .
Ranunculus urvensis .

Black bent
Corn buttercup .

5
4

9

12

2

2

•1
3

2

I

3

I

21

7

Black bent (Alopecurus agrestis) is profoundly influenced
by cultivation. If once it gets a fair start and is not interfered
with too much it can hold its own well, but if badly dis-
turbed in the early stages it has very little chance. For this
reason it is not usually a serious pest, ordinary rotation
farming keeping it in check. Peas and beans afford a most
congenial shelter for it, the comparative openness of situation
at the outset and the subsequent lack of cultivation providing

ARABLE WEEDS. ASSOCIATION WITH CROPS 171

the very conditions it delights in, so that the black bent is able
to make good growth before the crop gets too thick, and is then
strong enough to grow up with the peas and beans and to
maintain its position.

(b) Weeds Discouraged by Peas and Beans.
TABLE XVI.— WEEDS DISCOURAGED BY PEAS AND BEANS.

Latin Name.

English Name.

Percentage of Frequency (-- Number of
Times Seen per 100 Fields).

All
Crops.

Wheat.

Barley.

Oats.

Roots.

Seeds.

Peas
and
Beans.

Centaur ea nigra
Euphorbia helioscopia
Potentilla anserina .

Hardhead .
Sun spurge
Silverweed

5
6

10

3
6
12

9
13

12

6
6

IO

3
6

8

6
5
14

2

Scabiosa arvensis
Silene inflata .
Taraxacum vulgare .

Field scabious .
Bladder campion
Dandelion .

ii
9
9

12

9
IO

15
16

9

13
8

10

6
4
3

14
ii

15

3
3
3

Fumaria officinalis .

Fumitory .

21

19

24

26

25

H

12

This is not a very well-marked class of plants. With the
exception of fumitory (Fumaria officinalis} few of the weeds
are very frequent or plentiful, and several of them are ad-
versely affected by other crops as well as by peas and beans.

Hardhead (Centaurea nigrd) and sun spurge (Euphorbia
helioscopia) are the most influenced by this crop, as they failed
to appear among it on any occasion, though they were well
distributed through all other crops. Neither of these weeds
is ever dominant, and sun spurge is frequently scarce, so it is
easy to understand why they disappear rapidly under unfavour-
able circumstances. Silverweed (Potentilla anserina} is nearly
as intolerant as the last two described, for it was only twice
seen among peas or beans.

Field scabious (Scabiosa arvensis), bladder campion (Silene
inflata) and dandelion (Taraxacum vulgare} have almost as
great an objection to root crops as to peas and beans. Although
they occur rather frequently they are seldom or never dominant,
and dandelion is often scarce.

Fumitory (Fumaria officinalis} is abundant and frequent.
It is an early plant and much of it has died away by June and
July, sp that quite possibly it is really more abundant than
the records show, as the observations" made later in the year

1 72 \\I.i;i)S OF FARM LAND

may have often failed t<> take adequate account of the spr.
It does not show a very pronounced objection to
among any crop, but "seeds," peas, and beans reduce it by
about one-half. The quantity occurring is reduced even more
than the frequency, for although fumitory is very often
dominant among most crops at certain periods of the year, it
wast only once observed dominant among peas and beans.
Usually this plant gives very little trouble, as it is ephemeral
and the quantity is not often serious even when it is the chief
weed in a field.

Association of Weeds with Cereal Crops.

The cereals form a group of plants that collectively has
less direct influence upon the weed flora than any of the other
types of crop. The drills are placed some distance apart and
the habit of the young plant is such that the weed seeds have
a good opportunity of starting into growth under favourable
conditions. Later cultivation, where this is done, destroys
many of the weeds, but those that are present along the drills
themselves escape destruction. Consequently, the weed flora
of cereal crops remains fairly representative, except where
the crop is so exceptionally heavy that all undergrowth is
smothered out. Arable weeds occur with almost equal fre-
quency among cereals and among all crops added together,
and in most cases the figures practically coincide. A few
weeds are rather more frequent among cereals, as is shown in
the table on opposite page, but even with these the differences
are not great. Only two weeds, ribwort plantain {Planfti^o
lanceolata) and dove's-foot crane's-bill (Geranium niollc], are
less frequent, but this is not due to discouragement by the
cereal crop, but to their introduction in large quantities in t lie-
seeds of temporary leys.

The weed floras associated with the individual cereal crops
show certain variations, but these differences are not at all
clearly marked. Every weed of any importance is found
amongst all the cereals, but some are more particularly encour-
aged or discouraged by one or other of them. Only two
weeds are so adversely affected by any cereal crop that they
practically disappear — i.e. lady's mantle (Alchcniilla arvensis]
and wall speedwell {Veronica arvensis}t which are hardly ever
seen among barley. In all other cases the association is less
definite. Some of the weeds can be grouped in two distinct
ways, according as they are more particularly associated with

AKAI1I.I. \\KI.DS. ASSOCIATION \\1TI1 CKOI'S 173

WEEDS THAT ARE MORE FREQUENT IN CEREAL CROPS.

Latin Name.

English Name.

Percentage of Frequency
(= Number of Times Seen
per ice Fields).

All Crops.

Cereal Crops.

dllis iirrcnsis
Brassica sinapis
Papavcr rhccas
Plantago major
Polygontim convolv tins
Scaiulix fcctcn
Veronica agrcstis

Scarlet pimpernel
Charlock .
Red poppy
Greater plantain
Black bindweed
Shepherd's needle
Field speedwell .

18
34
33
19
49

12

19

22
41
41
24
56
19
25

Weeds that are Less Frequent in Cereal Crops.

Geranium molle
Plantago lanccolata

Dove's-foot crane's-bill
Ribwort plantain

7'5
9

3
5

wheat or are relatively scarce among barley. The two groups,
however, are largely identical, indicating that some factor is
at work with one crop that is absent from the other. This
factor is probably the difference in the time of sowing of the
two crops. Wheat in this country is usually sown in the
autumn, thus hindering an effective cleaning of the land.
Weed seeds germinate and grow up with the corn, and the
nature of the crop hinders an effective clearance by later
cultivation. Barley, on the other hand, is spring sown, very
often after roots. The land is ploughed up and lies fallow
throughout the winter, when the weed seeds germinate and
make good headway. Further cultivation occurs before the
crop is sown, the weed seedlings are destroyed, and even
though other dormant seeds may start into growth they have
to face far greater competition from the crop, which gets
away rapidly and is a much greater competitor to the young
seedlings than is the wheat plant to those weeds that germinate
in autumn. If all these weeds are cut out, very few are left
which show any special connection with particular cereals.
In the following table the two groups are put together in so
far as they are identical, and the remaining weeds are classified
under their separate headings. It may be noted that while
spurry (Spergula ar-censis) and fat hen (Chenopodium album}
are both discouraged by wheat, the former is specially prevalent
among oats and the latter among barley.

WEEDS OF FARM LAND

Latin Name.

English; Name.

: Percentage of I-'requcncy
• .her of Timei Seen
per 100 Fields).

All „
Cereals.

/beat. Barley.

Weeds that are Specially Frequent among Wheat and Less Frequent

among Barley.

Agrostis spp. .

Bent grass . . .

23

33 10

Alchemilla arvensis .

Lady's mantle

It

23 i

Bartsia odontiles

Red bartsia .

8

14 2

Cerastium vulgatum

Mouse-ear chickweed

7

12 2

Myosotis arvensis

Field forget-me-not

16

25 7

Poa annua .

Annual meadow-grass .

21

35 *o

Ranunculus arvensis

Corn buttercup

6

12 2

Veronica arvensis . . Wall speedwell

IO

20 I

Weeds Specially Frequent Among Wheat.

All Cereals

Wheat.

Alopecurus agrestis . . Black bent

5

9

Arenaria serpyllifolia

Thyme-leaved sandwort

8

13

Galium apartne

Goosegrass .

27

37

Weeds Less Frequent Among Wheat.

Chenopodium album . Fat hen

45

32

Spergula arvensis . . Spurry ....

20

13

Weeds Specially Frequent among Barley.

All Cereals

Barley.

Chenopodium album

Fat hen

45

6l

Euphorbia helioscopia

Sun spurge .

8

13

Silene inflata .

Bladder campion .

9

16

Weeds Less Frequent among Barley.

Agropyron repens

Couch grass .

12

5

Matricaria inodora .

Scentless mayweed

20

13

Sheradia arvensis . . Field madder

5

I

Weeds Specially Frequent among Oats.

All Cereals . Oats.

Rumex acetosella

Sheep's sorrel

8

15

Spergula arvensis .

Spurry ....

20

34

Weeds Less Frequent among Oats.

Geranium molle . . Dove's-foot crane's-bill .

3

o'5

Veronica arvensis .

Wall speedwell

10

4

CHAPTER XI.

GRASS-LAND WEEDS.

THE consideration of the weeds of grass-land presents a very
different problem from that of arable weeds because of the
totally different nature of the crop with which the weeds are
associated. Arable land crops are, so to speak, alien to their
situation and are grown on bare soil, which offers a clear
field for the competition of other species that are native to the
soil and would carry all before them if they were not hindered
by cultivation. On grass-land, on the contrary, the crop con-
sists of an association of plants that are usually themselves
native to the soil and that grow in a closely interwoven mat
covering the surface of the ground, thus excluding all plants
that cannot make headway against keen competition. Then
again, on arable land it is only the produce of the sown seed
that is of use as a crop, whereas on grass-land it matters little
what particular species enter into the composition of the
herbage provided that they are not injurious or poisonous and
that the feeding value for stock is high. Consequently in
many cases it is not possible to draw a sharp distinction be-
tween the crop plants and the weeds, as a species that is quite
a useful constituent of herbage in one place may be a veritable
pest elsewhere. Whether it be mown for hay or grazed,
herbage typically consists of a mixture of grasses, leguminous
plants, and miscellaneous species from other orders. Each of
these groups contains some plants that are most valuable from
the farmer's point of view but others that are regarded as
of little use or as harmful weeds. The criterion is usually
the feeding value of the plant but this varies with circum-
stances, as it is influenced by soil conditions, climate, and
other factors, concerning which our knowledge is very imper-
fect. For instance, on Romney Marsh l adjacent fields are

1 Hall, A. IX, and Russell. E. J. (IQII), "A Report on the Agriculture and
Soils of Kent, Surrey, and Sussex," p. 60.

175

i;'. \\ BEDS <>l I ARM LAND

sometimes " fatting "-and "non-fatting," i.e. while the fornu r
is excellent grazing pasture and fattens sheep rapidly the
latter is of little use except for carrying store beasts. A com-
plete botanical analysis of the Herbage reveals no variation in
the species present that would account for such a diffen
so that the same combination of plants is far more valuable
in the one case than in the other. Some grasses, as Yorkshire
fog and tall oat, tend to grow rank and coarse under favour-
able conditions and are then rightly considered as weeds, but
nevertheless the best pastures and meadowland of the highest
feeding value usually contain one or both of these grasses, the
proportion of Yorkshire fog often being quite appreciable.

On account of this necessary reservation, therefore, a weed
of grass-land may be considered to be any plant that is in
itself useless or injurious (a mere cumberer of the ground), or
any plant that in the case in question is of low feeding value
and by its abundance or rank growth tends to crowd out and
supplant other species that under the same circumstances
would provide far more nourishment to the stock feeding
thereon. As high feeding value is more usually associated
with certain grasses and leguminous plants than with miscel-
laneous species, it often happens that the most valuable
pastures and meadows are stocked almost entirely with the
former while the inferior grass-lands show a large percentage
of the latter in the composition of their herbage.1 As a matter
of fact, it is usually fairly easy to decide whether a certain
species is to be considered as a weed or as a useful plant on a
particular area of grass-land. Various rank and tall-growing
plants, as thistles, woodwax, nettles, chervil and docks, do not
under any circumstances enter into the legitimate composition
of the herbage and are always to be regarded as weeds Run-
ning plants, such as couch-grass (Agropyron repens], creeping
buttercup {Ranunculus ref>ens), bindweed (Convolvulus arvensis),
and bent grass (Agrostis s/>f.}, which tend to cover large areas
of ground with their matted stems and roots, do much dam
to grass-land, and certain rosette plants that lie very close to the
ground, e.g. mouse-ear hawkweed (Hieracium f>iii>sclla\ suffo-
cate all other plants growing under the spread of their lea
All these must be regarded as pernicious and to be removed
whenever possible. Poisonous or injurious plants, such as
meadow saffron, purging flax, hemlock, and garlic, are not to be

1 Armstrong, S. F. (1907), " Botanical and Chemical Composition of the
Herbage of Pastures and Meadows," Jour. Agric. Sci., II, pp. 283-304.

' GRASS-LAND WEEDS 177

tolerated, and come into the weed category. The classification
of many other plants, as described above, depends upon
circumstances.

Local conditions, often varying within small areas, do
much to determine the relative abundance of grass-land weeds.
The amount of water in the soil is a most potent factor in this
way, and its action is well seen on low-lying fields where the
water table approaches the surface of the soil rather nearly,
as happens in alluvial areas (cf. Berkeley district, Gloucester-
shire, and Sedgemoor, Somerset). These fields are often
thrown into ridge and furrow, the survivals of old arable
cultivation, and in the furrow where water-logging occurs
rushes and other moisture-loving plants abound. Up the
sides of the ridges the rushes gradually get fewer as the soil be-
comes slightly drier, and unless the field is abnormally low-lying
and damp the tops of the ridges are free from rushes. Coin-
cidently with the dying out of the rushes there is often an in-
coming of the tall buttercup (Ranunculus acris), which likes a
considerable degree of moisture but cannot withstand absolute
waterlogging, so that the tops of the ridges, though bare of
rushes, are often colonised by masses of these buttercups. A
further sequence may be observed where the fields are slightly
higher and but little waterlogging occurs even in the furrows.
Then the rushes get less and eventually die out, the tall butter-
cup descends from the ridge into the furrow, and is replaced
more or less completely on the top of the ridge by the allied
bulbous buttercup (R. bulbosus}, which is even more impatient
of an excess of water. The above illustrates what is often seen
in the West Country, but with possible variation in the plants
concerned it gives a good picture of what may be expected to
occur in any locality when excess of water is present. Drain-
ing gullies and depressions in grass fields are often colonised
by various species of docks. The broad-leaved dock (Rumex
obtusifolius] tends to congregate in places where the water
spreads out to flood the fields, while the sharp dock (R. con-
glomeratus} and the blood-red dock (R, sanguineus) frequent
the gullies and shady places and the edges of fields.

Where the water supply is particularly abundant, as on
peaty soils, the herbage takes on quite a different character
from that found in drier situations as the typical grass-land
plants are less plentiful, their place being taken by a number
of miscellaneous plants usually regarded as weeds of low
nutritive value, such as ragged robin, meadowsweet, cotton

12

178 UT.F.DS OK I- ARM I. AM)

grass, creeping jenny,' mint, sedge and marsh bedstraw. If
still more water is present the change is yet greater, and true
water and marsh plants appear, including marsh marigold,
arrowhead, lady's smock, watercress, pennywort, and purple
loosestrife, in addition to various species of rushes.

A great contrast to the weed flora of damp land is seen
in that of well-drained high grass-land. The grasses, instead
of being lush and rank, tend to grow small and fine, and such
weeds as daisy, dog daisy, yellow rattle, pignut, sorrel, quaker
grass and rough brome are often abundant. Poor pastures on
dry land are frequently characterised by such weeds as milk-
wort (Polygala vulgaris] hardhead, beaked hawksbeard (Crest's
taraxacifolia), salad burnet (JPoterium sanguisorba\ thyme,
lady's mantle (Alchemilla vulgaris}, and ragwort, while such
worthless grasses as false brome (Brachypodium pinnatum and
B. sylvaticuiri) and soft brome {Bromus mollis) are frequently
present.1

Although it is not always possible to fix the status of a
plant as being useful or useless on grass-land, it may be per-
missible to make a rough classification as follows : —

A. PLANTS THAT MUST BE REGARDED AS WEEDS UNDKK
ALL CIRCUMSTANCES.

/
(a) Poisonous and Injurious Plants.

Autumn crocus (Colchicum atitnmnale).

Bindweed (Convolvulus arvensis).

Buttercup (Ranunculus spp.).

Crow garlic (Allium vineale).

Horsetail (Equisetum 5pp.).

Huffcaps (Aira caspitosa).

Purging flax (Linum cathartic um).

Ragwort (Senecio jacobaa).

Ramsons (Allinm ursinum).

Wild barley (Hordeum pratensc).

All the above are fully described in Chapter VII. so no more
need be said about them here.

1 Stapledon, R. G. (1910), "On the Flora of Certain Cotswold Pastures,"
Scient. Bull. Roy. Agri. Coll., Circncester, No. 2, pp. 29-46.

GRASS-LAND WEEDS 179

(6) Coarse Growing Plants that Deteriorate the Quality of
the Pasture or Meadow.

Cat's ear (Hypochceris radicata).

Chervil (Anthriscus sylvestris).

Dog daisy (Chrysanthemum leucanthemum).

Docks (Rumex obtttsifoliits, etc.).

Hogweed (Heracleum sphondyliitm).

Nettles (Urtica dioica and U. urens).

Rest-harrow (Ononis repens).

Scabious (Scabiosa arvensis).

Thistles (Cirsium arvense, C. lanceolatum, Cardiitis niitans).

Wild carrot (Daucits carota).

Woodwax (Genista tinctoria).

Yarrow (Achillea millefolium).

A few weeds in this class, notably thistles, nettles, and
hogweed, have a certain nutritive value and are turned to
account when cut down, and some classes of stock will eat
them when dried.

(<:) Grasses and Plants of Low Feeding Value.

False brome (Brachy podium sylvaticum and B. pinnatum).

Soft brome (Bromus mollis).

Quaker grass (Briza media).

Rush (jfvnetu spp.).

Sedge (Carex spp.).

Quaker grass is usually a sign of very poor land and can
be eradicated by manurial improvement (Fig. 40). The other
two grasses, when circumstances are favourable, tend to over-
run the pastures to the exclusion of species of greater feeding
value.

(d) Parasitic Weeds.

Dodder (Cuscuta spp.).

Eyebright (Euphrasia officinalis).

Lousewort (Pedicularis palustris).

Yellow rattle (Rhinanthus crista-galli).

See Chapter VI.

B. PLANTS THAT ARE CONSIDERED TO POSSESS A CERTAIN
FEEDING VALUE BUT ARE REGARDED AS WEEDS IF
THEY ARE PRESENT IN TOO GREAT QUANTITY OR
GROW TOO LUXURIANTLY.

Bent grass (Agrostis spp.).

Couch-grass (Agropyron repens).

Dandelion (Taraxacum vulgare).

Hardhead (Ccntaurea nigra).

Sheep's sorrel (Rumex acetosella).

Silverweed (Potentilta anserina).

Sorrel (Rumex acttosa).

Yorkshire fog (Holcus lanatus).

12*

i So

I)S OF FARM LAND

A

Fio. 40.— QUAKER GRASS (Briza media).

GRASS-LAND WEEDS 181

C. In addition to the above there are a number of plants
that are more or less common denizens of grass-land but which
are difficult to classify definitely as weeds. All of them are
noxious if they are present in too great abundance, but this
is generally because under such circumstances they crowd out
and usurp the place of other plants of higher feeding value.
Probably most of the plants in this category are of some use
as food, but little information is available on this point In
this group are included : —

Cowslip (Primula veris).

Daisy (Bel Us perennis).

Germander speedwell (Veronica chamcEdrys).

Goatsbeard (Tragopogon pratensis).

Greater plantain (Plantago major),

Hoary plantain (P. media).

Ladies' bedstraw (Galiitm veritm).

Mouse-ear chickweed (Cerastinm vulgatum).

Mouse-ear hawkweed (Hieracium pilosella).

Pignut (Conopodium denudatum).

Ribwort plantain (Plantago lanceolate).

Salad burnet (Poterium sanguisorba) .

Sellheal (Prunella vulgaris).

The above lists must not be taken as in any way ex-
haustive, though they include the majority of the more common
"weeds" of grass-land. Various other species may occur
locally, and sometimes a plant that is uncommon in most
places may be present in abundance in isolated fields in cer-
tain districts, as, for example, fritillary (Fritillaria meleagrts)
in meadows near Oxford and Framsden (Suffolk) and daffodil
(Narcissus pseudo-narcissus} in various parts of the country.
Bracken (Pteris aquilind) is often troublesome on common
grazing land, but is less usual as a weed on grass-land that is
under ordinary farm management.

Mosses and Fungi.^-T\vo lower forms of plant life, mosses
and fungi, often give trouble in grass-land and must be classed
under the heading of weeds. Mosses are associated with damp
soil conditions and usually indicate poor drainage. As they
tend to spread thickly over the surface of the soil they enter
into competition with the herbage and prevent satisfactory
growth taking place, so that the presence of too much moss
indicates that the herbage is of less value than it might be.

Fungi are very commonly found on grass-land in damp
weather, but they give most trouble when they form " fairy
rings," as they cause the grass to become very uneven in
growth. The rings are formed by the action of various fungi

182 WEEDS <>r I ARM I. AM>

which grow in a particular way and give rise to the character-
istic appearance. The fungus consists essentially of long
white threads or hyphae, forming a mycelium which ramifies
and spreads through the soil. At intervals this mycelium
throws up fructifications popularly known as toadstools or
puffballs. Frequently these toadstools are fairly slight and of
a medium size, 2-4 inches across, but occasionally they are
very large and solid, measuring from 8-IO inches in diameter.
The particular fungi which form the ring begin to grow
from a central point and branch outwards in all directions, the
fructifications being thrown up year after year on the outer
edge of the ring, which grows bigger annually. The area
occupied by the ring the previous year seems to be particularly
well manured by the fungus, as the grass thereon grows
luxuriantly and is always very dark in colour. The affected
areas are marked out by their luxuriant growth and dark
colour, even in mowing fields in which the grass is knee deep.
In pastures the grass of the rings is much appreciated by
stock which keep it very closely cropped, but still the dark
colour is evident. After one year of heavy growth the transient
stimulus is apparently exhausted and the herbage falls behind
that of the rest of the field, indicating that the ground has
been seriously impoverished. The personnel of the herbage
also changes. There is no fixed scheme of colonisation, but in
each field the growth within and without the ring shows dis-
tinctive differences. Sometimes yarrow (Ackillea millefoliu-ni)
and ribgrass (flantago lanceolatd) appear among the thick
grass of the ring, though they are absent elsewhere ; some-
times cocksfoot is the chief grass associated with a good deal
of hogweed. Another rather usual combination is field brome
and rough meadow-grass, frequently combined with sorrel
and cocksfoot. One very perfect example seen at Wickwar
(Glos) consisted chiefly of ryegrass and cocksfoot. Within
the ring the herbage was shorter and showed a mixture of
grasses and weeds that indicated poverty of soil. It included
vernal-grass (Anthoxanthum odoratuni), rough meadow-grass,
dog's tail, very little cocksfoot and an abundance of weeds.

Too many fairy rings are not desirable in grass-land, but
unless they are so abundant as to threaten the herbage
seriously it hardly pays to attempt to eradicate them. Liberal
manuring will do much towards getting rid of them, but
definite efforts at eradication are better reserved for lawns and
special pieces of grass-land.

GRASS- 1. AN I) WKKDS 183

VEGETATION OF SPECIAL AREAS OF GRASS-LAND^

In the course of a survey of grass-land one thing gradually
forces itself upon the attention, i.e. the marked effect that slight
differences in level of soil or conditions of life has upon the
herbage. Areas round gates and paths through fields are
sharply marked out in this way, and they are characterised by
a very definite type of vegetation.

Round the gates the soil is usually much trodden, so
that its surface becomes more or less free from the ordin-
ary grasses of the field. It often happens that this trodden
soil is colonised by certain weeds more usually found on
arable land, such as knotgrass (Polygonum aviculare], swine-
cress (Stnebiera coronopus], annual meadow-grass (Poa annua],
mayweed (Matricaria inodora}, all plants that do not intrude
into the general herbage. Frequently the vegetation is
still more characteristic. The grasses that do occur — often
rough meadow-grass (Poa trivialis] (Fig. 41 C) — frequently
assume a prostrate habit. One plant is almost ubiquitous in
such situations. Wherever a field is much trodden, there almost
certainly to be found is the greater plantain (Plantago major]
(Fig. 41 A), and the more trodden the soil the finer the plant
seems to grow. Paths are often demarcated by this plantain,
and it appears even in places where not a vestige of it occurs
in the regular herbage. Silverweed (Potentilla anserind] (Fig.
41 B) comes a very good second to the plantain, but is
more apt to congregate round gates and cart tracks than
along footpaths. Locally the broad dock (Rumex obtusifolius]
and creeping thistle (Cirsium arvense) occur in abundance, and
occasionally the hoary plantain (Plantago media] may be ob-
served. In one instance, at Falfield, Glos, where the path
through a field was still green and not bare, it was colonised
by a thick carpet of daisy (Rellis perennis] and dove's-foot
crane's-bill (Geranium molle] ; but this was an exceptional case.

Wherever a manure heap or stack is placed in a field the
grasses underneath are more or less completely killed out, and
on the removal of the stack a bare area is left on which colonis-
ation begins. The manure introduces various weed seeds,
usually from arable fields, and such species as knotgrass, mouse-
ear chickweed, fat hen, shepherd's purse, chick weed, orache,
thyme-leaved speedwell, toadrush and groundsel, may usually be

^renchley, W. E. (1916-17), "West Country Grass-lands," Jour. Bath
and West and Southern Counties Soc., XI, pp. 104-108.

1 84

\\ I i:i)S OF I- ARM LAND

ft.

FIG. 41. — PLANTS COMMON IN TRODDEN PLACES.

A. Greater Plantain (Plantago major).

B. Silverweed (Potentilla anserina).

C. Rough-stalked Meadow-grass (Poa tririalis).

GRASS-LAND WKKDS 185

found. Here again the prostrate habit of the surviving grasses
is noticeable. These may include Yorkshire fog, cocksfoot,
and ryegrass, as well as rough meadow-grass, and of these the
last-named is one of the first to resume the upright habit.
The effect of a manure heap on the herbage that eventually
clothes its site is very persistent. After eighteen years, in
one case at Tortworth Park, the position was still marked by
the super-luxuriant growth of the grass, which lodged badly
even when the rest of the field is not at all laid.

On the sites of old ricks arable weeds are not so usually
found, but strong growths of broad dock, dandelions, and nettles
are often seen, and these are sometimes surrounded by a ring of
cocksfoot associated with sorrel (Rumex acetosd). Field brome
(Bromus arvensis] is also rather fond of such situations and
was found dominant at Berkeley on the site of an old heap of
grips (seconds lime) that had been spread on the ground.

In the shadow of trees the herbage takes on a distinc-
tive character, particular species growing in definite associa-
tion. Three marked species are cocksfoot, foxtail, and rough
meadow-grass, but even these are divided amongst themselves.
In the Gloucestershire fields cocksfoot was to be found in
abundance under almost every tree, sometimes dominating the
situation, sometimes with either foxtail or rough meadow-grass
sharing the pre-eminence. The density of shadow influences
the distribution considerably. Under big trees which cast
very dense shade, cocksfoot and foxtail may often be found
dominant towards the outer edge of the shade ring, whereas
in the dense shadow near the bole they may be replaced by
rough meadow-grass and sometimes by smooth meadow-grass
(Poapratensis~]. Less frequently under big trees rough meadow-
grass and foxtail share dominance, with cocksfoot only occur-
ring occasionally.

In some cases, where the hedges are high enough to cast
a real shade, resembling the partial shade under the smaller
trees, cocksfoot and foxtail grow most luxuriantly along the
edges of the fields, forming bands many feet broad which ceass
abruptly towards the edge of the shade line. Comparatively
few other species occur in any quantity in the shadow of
trees, and usually only one or two of these are at all conspicu-
ous in each instance. Tall and bulbous buttercups, wild
chervil (Anthriscus syhestris), sharp dock and broad dock,
sorrel, pignut (Conopodium denudatunf), and field brome prac-
tically sum up the colonists, though occasionally creeping

186 \\ BEDS OK KAKM LAND

thistle, nettle, and ryagrass venture as far as the outer edge of
the shade circle.

Occasionally the vegetation under trees takes on a totally
different character. Under certain trees in Tortworth Park
(Glos) Brotnus sterilis absolutely dominated the situation, in
some instances to the total exclusion of all other species, in
others admitting foxtail on sufferance. Under a very large oak
tree on a mowing field, also at Tortworth, the deep shade was
colonised by an abundance of pignut, little else being evident
except an undergrowth of grass. Farther out, in the less
dense shadow, cat's ear (Hypochceris radicatd) was dominant,
very little pignut being present. At the edge of the shade-,
merging into the main part of the field, the cat's ear was
joined by masses of dog daisies, which also occurred in
abundance out in the open, giving the field the appearance of
a sheet of white and gold.

When fields are grazed by cattle, they are frequently
scattered with clumps of coarse, luxuriant grass that the
animals leave severely alone. These clumps spring up around
the droppings, and are very generally composed largely or en-
tirely of cocksfoot, with or without sorrel in varying amount.
The cocksfoot is obviously much encouraged by manuring, and
under favourable circumstances will grow so strongly as to
overpower nearly everything else. On this account care has
to be used in the application of dung to certain fields where
this grass flourishes. To some people the prevalence of cocks-
foot in clumps round the droppings and also under trees sug-
gests that in the latter case the grass is encouraged by the fact
that the animals seek the shade of trees during sunny weather,
so that the ground there gets heavily manured, thus giving the
cocksfoot a grand opportunity. This may be true to a large
extent, but even without heavy manuring cocksfoot tends to
grow very luxuriantly in the shade ; indeed, in some parts of
the world it is called orchard grass because it forms the chief
constituent of the herbage under the fruit trees. The tussocks
disfigure the fields and help to make the grass patchy. To
keep them down it is well to follow after cattle with horses or
sheep, as these have not the same objection to eating the
grasses in the clumps.

CHAPTER XII.

USES OF WEEDS.

THK descriptions of plants given by very early writers and
the old herbalists, as Dioscorides,1 Pliny,'2 Gerarde 3 and
Parkinson,4 lay special stress upon their medicinal values,
many of which, to our modern idea, are extremely fanciful
and far-fetched. The majority of wild plants then known
were used for medical purposes or for herb teas, but few
of these have retained their reputation to the present day.
The stitchwort gained its name because it was reckoned
" good against stitches and pains in the side ".1 The creeping
buttercup was used to raise blisters on the wrists of those
attacked by ague, and the seeds of corn cockle were dried,
powdered and used as a cure for jaundice.5 Kidney vetch
(Anthyllis vulneraria) once had the reputation of being a good
cure for wounds, and hence received its specific name vulner-
aria,6 while the scarlet pimpernel, pounded to dust and drunk
in water, was regarded as a remedy for the bite of a mad dog.1
Many other such ideas were rife, but all have passed away.
The mayweed was formerly much used for medical purposes,
but, curiously enough, after being practically neglected for
a long time it came back into use in connection with
homoeopathy.0 The juice of the sun spurge (Euphorbia helio-
scopia) is still sometimes used for removing warts,7 and when
rubbed on the skin behind the ear is said to be a cure for
toothache.8

The few weeds which are still commonly utilised in medi-
cine, as colchicum, hemlock, and poppy are treated in detail

1 " Leechdoms, Wortcunning, and Starcraft of Early England " (1864).
Collected and edited by Oswald Cockayne. (Includes Dioscorides, A.D. 100.)

3 Pliny's " Natural Historic," Holland's Translation (1634).
1 Gerarde, " The Herbal " (edited by T. Johnson), (1633).

4 Parkinson, J. (1629), " Paradisi in Sole".

5 Hogg, R., and Johnson, G. W. (1863), " Wild Flowers of Great Britain ".

6 Wilson (1847), " Rural Cyclopedia ".

tKnapp, F. H. (1846), " Botanical Chart of British Flowering Plants ".
8 Pratt, A., " Flowering Plants, Grasses, and Ferns of Great Britain."

187

i88 WEEDS OF FARM I, AM)

later on in the chapter. Before the increase in the importation
of cheap vegetable dyes from foreign countries, and before the
great advances made in connection with chemical <!;.
wild plants played an important part in the provision of these
essential articles of commerce. Among the weeds, ladies'
bedstraw (Galium verunt), sorrel (Rumex acetosd}, agrimony
(Agrimonia eupatorid), nettle (Urtica dioica), woodwax (Genista
tinctoria), willowweed {Polygonum persecarid) were all used for
dyes, and wild mignonette or dyer's rocket (Reseda luteola],
besides providing a beautiful yellow dye, was used for making
the paint called " Dutch pink ".* In the time of Pliny wild
orache was even used to colour the hair black.2

Some of the uses to which the weeds are put are very
singular and interesting. The stalks of white deadnettle
are made into whistles by country boys, and in the time of
James I ladies used carrot leaves instead of feathers. The
seed of wild oat is provided with twisted awns which uncoil
when in contact with water, so it has been used as a hygro-
meter, and also, as the hairs and bent awn cause the seed to
resemble closely a fly, it is used by rustic fishermen for catch-
ing trout.1

Many of the commonest farm weeds have a varied history
of usefulness in old and modern times, and therefore they are
treated individually in the following paragraphs.

Achillea millefolium (Yarrow). — This plant is highly
astringent and was anciently much prized as a vulnerary.
According to the old leechdoms it was widely used for curing
wounds, and the story runs that it received its name because
Achilles found it and used it to cure those who had been
wounded with iron.3 As late as 1863 it was used among the
Scottish Highlanders to make an ointment for drying and heal-
ing wounds, and it is possible that this is still done.4 It is a
useful astringent in cases of haemorrhage, and yet, curiously
enough, it is called " nosebleed " because the leaves are
supposed to cause bleeding if put into the nose.3 In some
parts of Sweden and Africa, yarrow has been employed in
the making of beer in order to render it more intoxicating.6
Some agriculturists regard it simply as an agreeable condiment
for cattle, while others consider it to be a most valuable
ingredient in good nutritious herbage.

1 Lindley, J., and Moore, T. (1889), " Treasury of Botany".

2 Pliny, loc. cit. 3 Leechdoms, he. cit. (Includes Ampuleius.)
4 Hogg, R., and Johnson, G. W., loc. cit.

• Woodville, W. (1790-1792), " Medical Botany''.

USES <3F WEEDS 189

Agrimonia eupatoria (Agrimony). This has always had a
considerable reputation for medicinal purposes, and an infusion
of agrimony was employed by the peasantry of the south of
England for feverish colds.1 The Canadians are also said to
have successfully used an infusion of the root in certain fevers.
During the war the fruits were used as a constituent of the
tea mixtures sold in Germany. The plant contains tannin
and has been used in Germany for dressing leather. It also
yields a good colouring matter which dyes wool bright nan-
keen if the plant is gathered when the flowers are beginning
to open, but if gathered in September the dye is darker.2

Agropyron repens (Couch-grass). — Although this is such a
pestilent weed, it has great capabilities of usefulness if rightly
employed. From very early times its medical value was recog-
nised. Pliny claimed that it was useful for healing wounds,
and that poultices made from it prevented inflammation of
injuries. Gerarde also emphasised the healing powers of the
plant, and Culpepper 3 went so far as to say that " a physician
holds half an acre of them to be worth 5 acres of carrots
twice told over". Horses and cattle are particularly fond of
the rhizomes or underground stems. At Chedzoy, in Somerset,
in 1916, the couch grass that was cultivated out was thrown
into a stack, with the intention of using it for rick bottoms.
Cattle were turned into the field, and they made a raid on the
stack and rapidly demolished it, though the stuff was never
fed to them.4 In Rome and Naples the rhizomes are washed
and mixed with carrots as food for horses.1 They contain a
considerable amount of nutritive matter, similar in quality
and quantity to that in the potato, and this can easily
be extracted in the form of a starchy powder resembling
arrowroot, which is quite good for human food. During the
war a coffee substitute was prepared from the rhizomes, and
the latter were also dried and ground into flour.

Apart from its feeding value, couch-grass is valuable as a
manure if made into a compost with lime, or burned, and
the ashes spread over the ground. The rhizomes can also be
worked up into paper, and although the quality is at present
not very good it is useful for rough work, and improvement
may be effected as experience is gained.

1 Wilson, loc. cit. a Hogg and Johnson, loc. tit.

* Culpepper, " British Herbal ".

4 Brenchley, W. E. (1917), " West Country Grasslands," Jour. Bath and
West and Southern Counties Society, XI, pp. 102-103.

i9o WEEDS OF FARM I.AXh

Agrostis s/>/>. (Bent grass). — This weed is little u-r<l cxa-pt
as feed for animals, but in Italy and the South of France the
stolons have sometimes been gathered into bundles by the poor
and sold in the market as horse provender.1 Agrostis alba
has been cultivated for fodder, but this is seldom done now.2

Allium ursinum (Ramsons). — Gerarde says that in the
Low Countries the leaves were stamped and eaten as a sauce,
and that the leaves were sometimes eaten in April and May
with butter.3 In Khamchatka large quantities are stored for
winter use, both for culinary purposes and as an antiscorbutic.4

Borago officinalis (Borage). — The young and tender leaves
are good in salads or as a pot-herb, and formerly were often
put into negus or cold tankards. Occasionally the leaves and
flowers have been employed as an ingredient in brewing.1

Cantelina sativa (Gold of pleasure). — Although regarded
as a weed in England, this is such a useful plant that it is
cultivated on the Continent in Holland, Belgium, Germany,
North France, etc., and in South Europe produces two crops
a year. It yields an excellent oil which has practically no
smell and gives a brighter flame and less smoke than oil of
rape or mustard.1 The oil was noted even in Gerarde's time,
for he says it was used by the poor peasants in their banquets,
and by rich people in their lamps.3 It is now chiefly used by
soapmakers. The cake obtained after expressing the oil has
been suggested for use as cattle-food, but seems to be too acrid
to be satisfactory for that purpose.''' The stems are very fibrous,
being tough, hard, and durable, so that they are employed for
such purposes as thatching temporary buildings and for making
brooms, sack-cloth, sailcloth and packing paper. The plant
has been used as green fodder for sheep, and poultry and
geese are very fond of the seeds and quickly fatten on them.5

Carex (Sedge). — The stiff strong leaves are occasionally
used by the poorer farmers for fodder, litter, thatch, and fuel,
and in Kent the leaves of the larger kinds have been employed
to fasten the hop-vines to the poles. The Laplanders protect
their hands and feet in winter with a flaxy fibre made from
sedge, and by the Italians it is used to stuff crevices of casks,
and to make bottoms of chairs and covers for flasks ot
Florence oil.1

Chenopodium album (Fat hen). — The seeds have occasionally

1 Wilson, loc. cit. * Lindley and Moore, Inc. cit.

* Gerarde, Inc. cit. * Hogg and Johnson, loc. cit.

6 Johnson, C. P. (1861-62), " Useful Plants of Great Britain ".

USES OF WEEDS 191

been ground into flour for bread-making, as, for instance, during
the Russian famine of 1891-1 892. l They are also used in the
preparation of shagreen, being pressed into the moist hides to
form the granulations so characteristic of that leather.2 The
plants possess a certain manurial value if they are ploughed
in when green, as the potash content is about IO'9 per cent, the
same as in Stellaria media*

Cichorhim intybus (Chicory). — In France, Italy, Switzerland
and other parts of Europe this has been specially cultivated
for stock feed, and was much esteemed for cows, being usually
made into hay.4 In the eighteenth century the roots were
gathered for eating before the flowering stems shot up, some-
times being dried and made into bread.5 The more modern
use is as a substitute or adulterant for coffee. The roots are
kiln-dried or roasted and ground into powder, and added to
coffee either openly or fraudulently (as some people prefer
ground chicory to genuine coffee, and others have a strong
objection to it).6 During the war the value of chicory as a
coffee substitute was so well recognised that in Germany and
Austria the whole crop was reserved for this purpose, its use
in feeding animals being prohibited. The dried roots contain
a good deal of sugar, and have been used instead of oats for
feeding purposes.7

In Belgium it has long been used in a pure state instead
of coffee, and in the same country the roots are boiled and
eaten like parsnips. The plant is much cultivated in some
parts of England, the herbage being used as food for cattle
and the roots as an article of commerce. The leaves are often
blanched and eaten for salad,8 and the roots possess medicinal
properties closely resembling those of dandelion. Altogether
the plant is distinctly useful in many ways, and it is even stated
that this and some very similar plants constitute half the food
of the Egyptians.9 At the present time it is a most valuable
constituent of " Elliott's mixture," which has proved so effica-
cious in eradicating wild onion from arable land.10

1 Hanasek, T. F. (1915), Zeitsch. fur Untcrsuchung der Nahntngs- und
Gcnussmittel, 29, pp. 17-25.
1 Knapp, loc. cit.

3 Kling, M. (1915 ?) " Uber die chemische Zusammensetzung einiger
Unkrauter sowie deren Wert als Futter-und Diingemittel," Landw. Vtrsuchs-
Stat, LXXXV, pp. 433-470, Summ. in your. Bd. Agric., XXII, pp. 362-363.

4 Andrews, G. H. (1853), " Modern Husbandry," p. 287.

8 Woodville, W., loc. cit. • Wilson, loc. cit.

7 See Jour. Bd. Agric., Vol. XXIII, pp. 499-500.

8 Hogg and Johnson, loc. cit. • Pratt, loc. cit.

10Voelcker, J. A. (1911), "Eradication of Wild Onion," Jour. Roy. Ag.
Soc.t 72, pp. 404-409.

192 WEEDS OF FARM LAND

Colchicum anfmnnale (Meadow saffron). — Like many other
poisonous plants the meadow saffron has valuable medicinal
properties, and the seeds have often been prescribed for gout
and rheumatism.1 The Turks infuse the flowers in wine to
render it more intoxicating, and the bulbs are said to be eaten
with impunity in the autumn by the peasantry in Carniola.-'
The poisonous nature of all parts of the plant causes it to
be looked on askance in this country, many instances of
poisoning of animals and human beings having been traced
to this source.

Conium maculatum (Hemlock). — As far back as the time
of Theophrastus a most powerful poisonous juice, used in
medicine and also for causing death,3 was obtained from the
root of this plant, and there is a tradition that the poison
drunk by Socrates was hemlock. The fruits are the most
convenient sources of the alkaloid coniine as used for medical
purposes. It is said that the green unripe fruits possess the
major part of the peculiar properties of the plant, and that
they may be dried without loss of activity.1 Hemlock has a
peculiar sedative effect upon the motor nerves and occasionally
used to be prescribed for that purpose, but Cushny states that
this drug, long widely used in therapeutics, has on more
accurate investigation failed to maintain its position and
passed into disuse.4 The plant is supposed to give off a
narcotic effluvium which is most active in hot and dry seasons
and in warm countries. Linnaeus says that sheep eat the
leaves, but that horses, cows, and goats refuse them, while Ray
states that the thrush will feed upon the fruits even when corn
is to be had.

The plant is often called kecks or caxes, apparently be-
cause spinsters used the stems for caxes to wind yarn upon.2

Conopodtum denudatum (Pignut). — The edible quality of
the tuberous roots has long been recognised, for, according to
Gerarde, in the seventeenth century the Dutch people ate them
boiled and buttered, as we do parsnips and carrots.5 They
have a flavour scarcely inferior to that of chestnuts, and it is
possible that in Holland and the Alps they are still so used.
Apparently they are palatable and very nutritious, either raw,

1 Fluckiger and Hanbury (1874), " Pharmacographia : A History of
Drugs".

* Hogg and Johnson, loc. cit.

'Theophrastus, 322 B.C., " Enquiry into Plants," (Hort's Translation).

4 Cushny, A. R. (1918), " Pharmacology and Therapeutics, or the Action of
Drugs," p. 306.

'Gerarde, loc. cit.

USES OF WEEDS 193

roasted, or boiled, and Wilson thought it a great pity that
earthnuts were not cultivated as an article of dessert.1 In
some parts of England they are sliced and put into soups, and
in Sweden they are extensively used and form a regular market
article. Pigs, with their keen sense of smell, are able to de-
tect the pignuts2 underground as they do truffles. During
the war the use of this plant was advocated as a vegetable.3

Convolvulus arvensis (Bindweed). — Is greatly enjoyed by
rabbits in captivity. Analytical and feeding experiments in
Germany (1914) have shown that the green stems and leaves
have a high nutritive value as green fodder, and that they are
also useful in manure.4

Equisetum arvense (Horsetail). — Is disliked in pastures, for
although it is eaten by horses it is injurious to sheep, and
causes violent scouring in cattle when forced to eat it by
hunger.1 It has a considerable economic value as it abounds
in particles of mineral matter, rendering this and other species
particularly suitable for polishing hardwoods, ivory, brass, etc.
An allied species, E. hyemale, used to be imported from
Holland under the name of " Dutch rushes " and was used by
Northumberland dairymaids for cleaning milk pails.5

Fumaria officinalis (Fumitory). — Is readily eaten by cows
and sheep, but horses will not touch it and goats dislike it
when it is full grown.1 The whole plant has a considerable
medicinal reputation as a blood purifier and cosmetic, the
leaves being the most effective part The Japanese recognise
the medicinal value of the plant. In Picardy the plant is
used to curdle milk.2

Galium aparine (Goosegrass). — In the time of Dioscorides
goosegrass was made into filters for straining milk, and,
Linnaeus mentioned that in his day the stalks were applied to
the same purpose. Even in our country places it is occasion-
ally used in this way when a sieve is not at hand.6 In Sweden
the horny fruits are dried and slightly roasted as a substitute
for coffee,7 and they have also been thoroughly ground for
cattle food.8 Occasionally, too, the dried plant is infused in

1 Wilson, loc. cit. * Hogg and Johnson, loc. cit.

'Crichton Browne, J. (1917), "A Neglected Source of Food Supply,"
Selborne Magazine, Vol. XXVIII, pp. 85-87.

4 Kling, loc. cit. * Knapp, loc. cit.

1 Pratt, loc. cit. 7 Johnson, C. P., loc. cit.

•Bernatsky, J. (1915). See " Internal . Review Science and Practice of
Agriculture" (1916), VII, pp. 245-246.

13

I94 U'l : I A KM

hot water and drunk .as tea. A red dye can be obtained
from the root

Galium verum (Ladies' bedstraw). — The plant is of distinct
value in dyeing, as a bright yellow colour is obtained from the
flowering tops boiled in alum, and the roots yield a red dye
equal to madder.1 The plant is made use of by the High-
landers, who boil the roots with the yarn, adding alum to fix
the colour.2 Some authorities say the dye is superior to
madder, and at one time it was recommended for cultivation,
when experimental plots yielded a crop of 12^ cwt. dried roots
per acre. It has been supposed that the bones of animals
turned red if the beasts fed on this plant, the colouring
taking place sooner in young than in fully grown animals,
while it was deepest in those whose bones were hardest and
thickest.3 The popular name of "cheese rennet" is derived
from the fact that the whole plant when bruised will curdle
milk, and in the Hebrides it is used for this purpose, combined
with leaves of common nettle (Urtica dioicd] and a little salt.
It is also used both to colour and flavour milk intended for
cheese, and vinegar is sometimes made from its juices".

Genista tinctoria (Wood-wax). — This yields a bright yellow
dye, and if articles dyed with it are then dipped into a blue
solution of woad (I satis tinctoria) the celebrated " Kendal
green " is obtained.4 The colour is fixed with alum, cream
of tartar, and sulphate of lime.5

Geum urbanum (Avens). — The herbage is greedily devoured
by sheep, and when young may be used for salads and other
culinary purposes.1 The plant was much esteemed b^y her-
balists, and since 1780 has been used as a febrifuge,6 and has
even been recommended as a substitute for Peruvian bark in
the cure of intermittent fevers. If gathered in spring and put
into ale avens gives the liquor a pleasant flavour and prevents
it turning sour. The root, if chewed, is said to overcome
disagreeable odour of the breath. Medically it was once much
in repute as a specific for diarrhoea and dysentery.7

Heracleum sphondylium (Hogweed). — Has been extensively-
used in Sussex for fattening hogs, and makes good nourishing
food for cattle.1 In the Hebrides the stems are eaten, and
an attempt has been made to manufacture sugar from the

1 Wilson, loc. cit. aKnapp, loc. cit.

* Pratt, loc. cit. 4Lindley and Moore, loc. cit.

'Johnson, loc. cit. 8 Woodville, loc. cit.

7 Stephenson, J., and Churchill, J. M. (1834), " Medical Botany ".

USES OF WEEDS 195

stalks, but as it requires 40 Ibs. of dried stalks to produce one
Ib. of sugar, the amount of labour required renders the process
too expensive.1 The inhabitants of Kamtchatka make a
great delicacy from this plant by peeling the stalks, drying
them in the sun, and then laying them in the shade in bags
till a saccharine efflorescence is formed. This is' shaken off
and eaten and has a taste like liquorice. The Russians pre-
pare the stalks in the same manner and then distil an ardent
spirit by fermenting them in water with bilberries ( Vaccinium
uliginosuni). This spirit is said to be superior to that distilled
from corn.4

Linaria vulgaris (Toadflax). — In Sussex the plant used to
be called gallwort and was put into the water drunk by poultry
in order to cure them when drooping. The flowers afford a
yellow dye, and in Sweden the plant is boiled in milk and used
to attract and destroy flies.1 It has some medical value as a
purgative.4

Lithospermum arvense (Corn gromwell). — The outer part
of the root is red and stains paper, linen, oily substances, and
the human skin.3 A rustic substitute for rouge is obtained
from the roots,1 which is used to give a brighter tint to their
cheeks on festive days by the girls in the north of Sweden.
It also provides a colouring matter for ointments, hence obtain-
ing the name " bastard-alkanet ".

Nepeta glechoma (Ground-ivy). — According to Wilson
ground-ivy or ale hoof was a chief ingredient in the manufacture
of ale by the ancient Saxons, and in his time was still occasion-
ally used by the poor for infusion in ale or beer, as a remedy
against internal disorders.3 Other authorities state that it was
formerly used in the fermentation of beer and other liquors,
to cause the foam on the fermented drink. If the leaves are
thrown into the vat with ale they clarify it and give it a special
flavour. Ale-hoof was generally used for this purpose till the
reign of Henry VIII, when hops were substituted and soon
ousted the older plant from favour.4 As late as 1889, and
possibly to the present day, ground-ivy was held in repute by
village herbalists, who dried it and used it as a substitute
for tea.2 For obstinate coughs it is a favourite remedy with
the poor, but is not much valued by the medical profession.5

Orchis ntascula (Early orchis). — The roots of this orchis
and some allied species are extensively used for the manu-

1 Pratt, loc. cit. * Lindley and Moore, loc. tit. 'Wilson, loc. cit.

* Hogg and Johnson, loc. cit. * Woodville, loc. cit.

13*

196 \VI;I:IK or FARM I..\\D

facture of the food-stuff called "salep" or "salccj)". Orchis
mascula is very plentiful in the moist meadows of Gloucester-
shire and other parts of England, and is much cultivated in
the East, where it yields a considerable portion of the diet of
the inhabitants of Turkey, Persia and Syria. The root is
heated and dried in the air, and forms a somewhat horny
substance called salep, which is supposed to contain a very
large quantity of nutritious matter within a very small bulk.
It has the property of concealing the taste of salt water and
of retarding the natural souring of milk, and in certain pro-
portions it is said to be a very useful and profitable addition
to bread.1 Opinions differ as to its medicinal value, some
authorities claiming that it is of considerable service in several
diseases, others denying that it is of much use in this respect.

Ornithogalum pyrenaicum (Spiked Star-of-Bethlehem).—
This weed is very local in occurrence, but round about Bath
it is so abundant that the young shoots or flowering spikes
are collected in the spring and sold in the market as a substi-
tute for asparagus, hence the variety of popular names con-
nected with "asparagus" — Bath asparagus, French asparagus,
Prussian asparagus.'2 It would probably be improved by
cultivation. The seeds are said to impart a flavour to bread.3

Papaver rhceas (Red poppy). — The valuable properties of
this plant have long been recognised, as even in the time of
Theophrastus (circa 322 B.C.) it was used in medicine. Pliny
acknowledged the narcotic nature of the poppy, and stated
that it reduced inflammation of the eyes when used as a liniment.
At the present time this particular species is chiefly valued for
its petals which yield a fine red colouring matter, especially if
used in the fresh state. The petals are collected for making
a coloured syrup which has very slight narcotic properties.'"
Opinions differ as to whether the seeds are also narcotic,
but they contain a farinaceous substance, combined with a
bland oil which is expressed for use. This poppy oil is
particularly sweet and wholesome and is often mixed with
or used instead of olive oil for domestic purposes and for
painting. The cake or residue after the oil is expressed forms
a nutritious food for cattle. In some parts of Europe and the
East poppy seeds are baked in cake or strewn upon bread
and butter, and the Genoese encrust them with sugar and eat
them as comfits. They are also eaten by Egyptians and

1 Wilson, loc. cit. * Lindley and Moore, loc. cit.

1 Hogg and Johnson, loc. cit.

USES OF WEEDS 197

Persians and were used by ancient peoples to excite an appe-
tite, and in Poland and Russia they form an ingredient in
soups and gruel. Poppy seed is given to singing birds as a
cooling food when they are moulting, and is then called "maw
seed".1

Plantago lanceolata (Ribwort plantain). — This weed is said
to serve a useful purpose by preventing the soil from being
washed away on thin soil overlying rocky substrata, as in the
Welsh mountains, and it has been known thus to keep a large
area fertile which would otherwise have been barren.1 It has
also been sown on sandy land as, food for sheep.2

Plantago major (Greater plantain). — According to Pliny
this plantain is very astringent and was used instead of a
cautery or searing iron, but it is rather doubtful if he really
meant our modern species. In the old Leechdoms or medical
works many medicinal properties were attributed to plantain,
some of which seem more fanciful than real. The leaves of
this species and of Plantago media (hoary plantain) are often
applied to wounds by poor people. The seeds are very muci-
laginous and useful in pulmonary diseases, and are also much
in demand among bird fanciers as food for canaries.2 The
mucilage of some species of plantain is used by manufacturers
for stiffening muslins.

Polygonum aviculare (Knotgrass). — The fruit is emetic and
purgative,3 and the whole plant is greedily eaten by pigs, so
that in some countries it is called hog- weed. Gerarde states
that it used to be given to pigs when they were sick and would
not eat their food. In Alsace knotgrass has been largely used
for making into hay,1 and it is said to be very useful in rear-
ing silkworms.4 Thunberg says that in Japan a blue dye re-
sembling indigo is prepared from this plant.

Polygonum convolvulus (Black bindweed). — Some writers
claim that the seeds are quite as good as those of buckwheat
and that they are produced in greater abundance. The juice
expressed from the bruised leaves is very purgative.1

Potentilla anserina (Silverweed). — The silvery foilage is
greatly relished by geese. The roots are eagerly eaten by pigs
and much appreciated by children, who roast them over the
fire. In the Hebrides the roots are an article of diet, either
raw or boiled. They contain a good deal of nutriment and in
times of scarcity the people of the islands of Tiree and Coll

1 Hogg and Johnson, loc. cit. -Knapp, loc. cit.

'Lindley and Moore, loc. cit. * Pratt, loc. cit.

198 WEEDS OF FARM LAND

have used them for £>read and lived for months together
almost entirely on this food.1

r^tentilla reptans (Cinquefoil). — The roots contain tannin
and have been employed in the preparation of leather.2 A
quaint old use of the plant is that given by Pliny — that " it
is used for purging or blessing of the house against naughtie
spirits or enchantments ".

rotentilla tonnentilla (Tormentil). — The roots provide a
most agreeable astringent, aromatic and efficacious. In the
western isles of Scotland and in the Orkneys they are
used for tanning leather and are considered to be superior to
oak bark ; they are boiled in water and the leather is then
steeped in the cold liquid. The roots also contain a red
colouring principle, soluble in alcohol but insoluble in water. a

Poterium sanguisorba (Salad burnet). — The herbage has
much the flavour of cucumber and was used in the old English
drink known as "cool tankard".3 The French and Italians4
esteem it as a salad.

Pteris aquilina (Bracken). — Wilson gives an excellent
summary of the various uses of this plant. In earlier days it
was in great request for thatch, it was formerly employed in the
manufacture of both glass and soap, and possesses sufficient as-
tringency for the purpose of the tanner. In seasons of scarcity
it makes useful fodder, and it forms good litter in the cow
house and piggery. Bracken often serves as tolerably good
manure for potato crops, and is used for the winter protection
of esculent roots. It is a common fuel for heating ovens and
burning lime — and yet, is one of the greatest pests of pastoral
farms and renders an enormous aggregate of our country un-
available for agricultural purposes.4 In Scotland it is employed
as a vermifuge.5 It is reported that the young fronds make a
good fodder for pigs if they are mixed with potatoes, steamed
and pounded, and also that the rhizomes are rich in food
material, especially before the end of April, and may be fed to
pigs.6 Experiments made during the war show that a good

1 Pratt, loc. cit. 3 Hogg and Johnson, loc. tit.

3 Lindley and Moore, loc. cit.

4 Wilson, loc. cit. e Knapp, loc. cit.
'(a) Zeit-Nahrungs Genussmittel (1916), 32, p. 447.

(b) " The Uses of Bracken Fronds and Roots," Jour. Ed. Agric. (1917),
XXIII, 1252-1255.

(c) Hansen und Mez (1916), " On the Use of Fern-root (Pteris aquilina) in
German Pig-feeding Experiments," Deutsche landwirtsch. Pressc., 43, No. 22,

P- 193-

Id) Weiner Landw. Ztg. (April 22, 1916), Summ. in Jour. Bd. Agric.,
I, p. 499.

USES OF WEEDS 199

deal of potash can be obtained by burning bracken and utilis-
ing the ash.1

Ranunculus acris (Tall buttercup). — Possesses a very acrid
juice and is sometimes used fresh as a plaster for causing local
irritation, as in cases of rheumatism and hip disease. Care is
needed in application, or it may cause ulcers, but the plant
loses its virulence on dying. Withering says that beggars use
it to ulcerate their feet, which they expose in that state to
excite compassion.- The curious superstitions that attach
themselves to some plants are well exemplified in this case,
for Ampuleius wrote, " For a lunatic, take this wort and
wreathe it with a red thread round a man's neck when the
moon is on the wane, in the month which is called April, in
the early part of October, soon he will be healed ".3

Rhinanthus crista-galli (Yellow rattle). — The plants are
supposed to be useful for exterminating vermin, if the seeds
and seed vessels are boiled in water and poured over the haunts
of bugs and fleas or over animals infested with lice.4

Rumex acetosa (Sorrel). — The leaves of this plant are acid
and astringent, and were much cultivated in gardens for
eating cooked or as salads, especially in the time of Henry
VIII. It has, however, been almost entirely supplanted for
this purpose by the French sorrel, which has large succulent
leaves, and the native species has almost disappeared from
cultivation.5 A rustic custom, which probably still survives, is
to serve it as sauce with roasted meat, hence the name " green
sauce ". The herb is also beaten to a mash and mixed with
vinegar and sugar. In some parts of Ireland the plant is eaten
with milk and fish, and is capable of souring milk, being so used
by the Laplanders.4 A fine red dye is obtained by boiling the
dried root. In some parts of Sweden when it is difficult to
cultivate barley or rye, a bread made from bark and another
made from common sorrel often stand between the poor
people and starvation.6

A substitute for salt of lemon used to be extracted from
the roots in Germany and exported to England. In its pre-
paration the mucilaginous parts were separated by use of water
and pipeclay and the salt was purified by several crystallisa-
tions.4 It was also much employed in making verjuice.

1 Berry, R. A., Robinson, G. W., and Russell, E. J. (1918), " Bracken as a
Source of Potash," Jour. Bd. Agric., XXV. pp. i-ir.

3 Woodville, loc. cit. '•Leechdoms, etc., loc. cit.

4 Hogg and Johnson, loc. cit. • Lindley and Moore, loc. cit.
• Pratt, loc. cit.

200 \\KKhS OK I ARM LAND

The weed is of little ^agricultural importance, as it is n
eaten by live stock unless they are unusually hungry, but its
medicinal value as a cure or preventive of scurvy was recog-
nised by some of the oldest writers.

Ruinex obtusifolius (Broad-leaved dock). — Cattle will not
eat the plant, but in the North of England the boiled foliage
is used as food for pigs. Withering states that fallow deer eat
it so greedily that it is rare to see a dock growing in a deer
park. The name " butter-dock " is given because the large
leaves are often employed for wrapping round butter and cheese.
The root is very astringent, and acts in the same way as the
powder or tincture of Turkey rhubarb. It was formerly used
by dyers, and when powdered makes an excellent dentifrice.1

Rushes are among the plants that have gradually decreased
in importance with the progress of civilisation. Nowadays
rushes are considered chiefly as troublesome weeds, which are
to be eradicated whenever possible. In older times many
useful articles of household economy were made from them
as they were worked up into mats and into baskets of all
descriptions, from coarse fishing baskets to finely woven ware.2
The familiar term " rushlights " points to the use of the pith
of some rushes for making candles. Little baskets and
children's toys were made from the same pith. When twisted
together rushes were used to make ties for bundles and other
rustic implements, and it is probable that they provided the
material for the earliest cordage. Indeed, the rushes of some
countries are commonly made into ropes and cables, and in
this country mats and chair bottoms were formerly manu-
factured from them.1

Scleranthus annuus (Annual knawel). — Cattle refuse to eat
this, but sheep and goats will feed on it3 In some parts of the
continent, as Sweden and Germany, it is said that a decoction
is made and the steam inhaled as a remedy for toothache.4

Senecio vulgaris (Groundsel). — This abundant weed seems
to be of little use for any purpose except as a food for cage
birds. Few animals care for it except goats and pigs.3 The
expressed juice has been used to cause the evacuation of bot
worms from horses.4 The bruised leaves are healing if applied
to boils, and an infusion can be used in small doses as a purga-
tive and in large quantities as an emetic. It was far more
valued by the old herbalists than it is now.

1 Pratt, loc. cit. 2 Pliny, loc. cit.

' Wilson, loc. cit. 4 Hogg and Johnson, loc. cit.

USES OF WEEDS 201

Silene inflata (Bladder campion). — The boiled leaves are
supposed to taste like peas or asparagus. They are eaten by
the natives of Zante,1 and were also used by the inhabitants
of Minorca in 1655 after the corn crop had been destroyed by
locusts.2

Sonchus oleraceus (Common sowthistle). — The bitter milky
roots have occasionally been used for making bread.3 The
leaves were formerly eaten in Italy as salad, but have long
been replaced by more palatable plants.4 Hares and rabbits
are greedily fond of the leaves, goats like it, and other animals
often feed upon the plant.

Spergula arvensis (Spurry). — Although spurry is regarded
simply as a pestilent weed in this country, it is much valued
abroad as cattle food. Beasts, sheep, and poultry are very
fond of it, and it has excellent fattening properties. Old
writers state that -in the Low Countries two crops can be
obtained in a year, the first from a May sowing, when the
plants ripen seed in August, and the second from a sowing
made after rye harvest, which provides feed until the New
Year.5 The crop is either used as pasture, cut green, or
made into hay. It improves the mutton of sheep and the
milk and butter of cows, and is said to cause hens to lay more
freely.3 The seeds can be ground into a kind of flour, which
makes a fair bread, especially if mixed with wheat or rye flour.
It is often used for this purpose in Norway and Finland,
particularly when other crops are short.6 The seeds, when
bruised, form a good cattle food, and when expressed they also
yield a good lamp oil.

Stellaria media (Chickweed). — Is of little use except as
food for birds and pigs, which are very fond of it. It has
been boiled for use as spinach, and is said to have some
nutritive value when treated in this way.3 German experi-
ments indicate that the weed has considerable manurial value,
as it contains about 10*9 per cent, of potash.7

Taraxacum vulgare (Dandelion). — In the time of Gerarde
and Parkinson this was much valued for medicinal purposes,
and it is still recognised in therapeutics, though it does not
rank high in value. The ground root is sometimes mixed
with chocolate to make a palatable kind of dandelion tea.8.

1 Knapp, loc, cit. * Hogg and Johnson, Inc. cit.

3 Wilson, loc. cit. * Lindley and Moore, loc. cit.

"Houghton (1728), " Husbandry and Trade Improved," II, p. 374.
• Pratt, loc. cit. 7 Kling, loc. cit.

"Johnson, loc. cit.

202 \VKEDS OF FARM LAND

Theophrastus considered that the plant was too bitter to be
fit for human food, but nowadays the young leaves are blanched
and much relished in spring salads. The French people eat
the young roots as well as the blanched leaves with bread and
butter,1 and in parts of Germany the roots are roasted, ground,
and drunk instead of coffee by the poorer people, who claim
that the beverage so prepared can hardly be distinguished
from genuine coffee.2 As fodder it is much liked by rabbits,
pigs, and goats, but sheep and cattle do not care for it and
horses will not touch it.3 The leaves are sometimes used for
feeding silkworms when mulberry leaves are not available.*

Tnssilago farfara (Coltsfoot). — For many centuries the
plant has been used in chest and lung troubles. Even in
Pliny we read: "If the root of Folefoot be burnt upon the
coles made with Cypres wood the smoke ... is singular for
an old cough ". The leaves have certain demulcent and
pectoral properties, and are employed in the manufacture of
British herb tobacco, of which they form the chief ingredient,
and which was formerly much used in chest complaints.3 The
smoking of the plant was strongly recommended by the old
writers. The cottony down from the leaves has sometimes
been utilised for filling pillows and cushions,5 and it also
makes a most excellent tinder when wrapped in a rag, dipped
in a solution of saltpetre, and dried in the sun.

Ulex europaeus (Gorse). — Although this can hardly be
reckoned as an ordinary farm weed, it has so many uses that
it may find a place here. In spite of its spiny habit it forms
a most excellent forage, though the older branches need to
be bruised with a mallet before being fed. Old writers say
that cattle appreciate it greatly and fatten on it as well as they
do on turnips, that the milk of cows is as plentiful as though
they were fed on grass, and the butter produced of excellent
quality.8 More recent work indicates that the gorse should be
well crushed and freshly prepared, in order to prevent fermen-
tation.7 Mountain sheep thrive better when fed on gorse than
on grass.8 Horses prefer it to hay or even to corn, but as it tends
to fatten them very much it is less suited for working animals.

1 Stephenson, J., and Churchill, J. M., loc. tit.

»Woodville, loc. cit.

3 Hogg and Johnson, loc. cit. 4 Lindley and Moore, loc. cit.

8 Pratt, loc. cit. • Wilson, loc. cit.

7 Fau, E., L'Industrie Lailihre (1910), No. 42, pp. 677-679.

8 Andrews, loc. cit.

USES OF WEEDS 203

In the Scilly Islands the ponies feed chiefly on the gorse they
find in the hills.

Gorse is also good for fuel, and in Cornwall is cultivated
for the purpose, being chiefly made into faggots for heating
ovens. It burns rapidly with much heat, and was formerly
used in lime burning. The ashes are rich in alkali, and are
made into lye or worked up into balls with clay to serve as a
substitute for soap.1 They are also very valuable as manure,
particularly on peaty soil.

Gorse forms good cover for game and shelter for young
forest trees,2 and it can also be used for hedges if kept closely
trimmed. It is, however, not very resistant to frost, although
it will stand salt spray if planted near the sea.

Urtica dioica (Common nettle). — This much-despised weed
has, in days gone by, proved an exceedingly useful friend to
mankind. The stem contains a large proportion of fibre, which
has been manufactured into every grade of material from ropes
and cordage to fine white linen. It was much used in the
manufacture of textile fabrics by the ancient Egyptians,2 and
even at the present day supplies the inhabitants of Siberia with
fishing lines and cordage, while in many villages of Piedmont
it is made into cloth. In 1911 an Austrian firm devised a
method of removing the gum from the rough fibre, the result-
ing finished product being a pure bleached fibre which was
glossy, supple, and flexible. The war, moreover, has given a
considerable impetus to the exploitation of this source of fibre,
and so many improvements and inventions have been carried
out that it seems likely that, with judicious methods of culti-
vation, nettles will prove a profitable crop. In 1916 the Central
Powers had developed the industry to such an extent that
nettle fibres were reported to cost 60 per cent, less than im-
ported cotton, and the War Ministries were using it for manu-
facturing wagon-covers, tents, sackings, clothing materials, and
even cloth for military underwear. In Denmark the nettle yarn
has been worked up with wool, with satisfactory results. At
first the warp was of wool, the woof of yarn spun from nettle
fibres, and the resulting fabric, though not so soft as pure
woollen cloth, possessed considerable strength and was suitable
for men's clothes. Later on attempts were made to blend
the wool and nettle fibres in the yarn, as better results were
expected from such a combination.3

1 Johnson, loc. cit. 2 Hogg and Johnson, loc. cit.

3 See Brenchley, W. E. (1919), "The Uses of Weeds and Wild Plants,"
Science Progress, XIV, No. 53, pp. 128-129.

204 \VKEDS OF FARM LAND

Steps were taken to organise the collection and culti-
vation of nettles, with the result that by 1918 it was
estimated that 23,000 hectares ( = 9292 acres) would be
under nettle cultivation in Germany, with an estimated yield
of 175,000 metric cwt. of fibre. The cultivation of nettles
has also been encouraged in Hungary, a special company
being formed to further the work. The plants will grow well
on ground that is of little agricultural value, and in some
plantations they have developed into shrubs as high as a
man. In other cases plantations have been formed on moor-
land which is unsuitable for growing food crops, and it is
claimed that by doing this the land is subjected to a process
of slow, natural cultivation that in time will increase the
agricultural value of the land.

Nettles when cut and dried can be used as fodder for
domesticated animals. The latter will not touch the growing
plants because of the stinging hairs, but shortly after cutting
these hairs collapse from loss of water and are then innocuous.
Nettles have long been cultivated in Sweden, as they can
be grown on waste or poor land and are very resistant to
extreme temperatures.1 One great advantage is their rapid
growth ; with judicious cutting three crops a year can be
obtained. Even where regular cutting is not practised the
leaves and seeds are often collected and dried as winter food
for fowls. The leaves are boiled in water to the consistency
of gruel, and are then mixed with cooked potato peelings,
while the seeds are added to other food and are found to
stimulate egg production. Analyses made by Professor
Hendrick 2 show that nettles may be very useful as feeding
stuff. Young nettles from 12 to 18 inches high sampled in
May contain much fat and ash, and as much albuminoid
material as linseed cake. Older nettles cut in July are more
fibrous and contain more soluble carbohydrates, but the per-
centage of nitrogen is higher than that in grasses. These
figures indicate that dried nettles cut at the flowering stage
are similar in analysis to hay made from leguminous crops.
A yellow dye is obtained if the roots are boiled with alum,
and the seeds when mixed with corn improve the appearance
of horses, and it is said that horse dealers use them to give a

1 Garcia Santos (1916), A Vinha Portugueza, XXXI, No. g, pp. 276-280.
* National Food your, (nth Sept., 1918). See also Jour. Bd. Agric.,
Vol. XXV, p. 992, 1918.

USES OF WEEDS 205

lively air to an animal before selling him. The chopped leaves
are supposed to increase egg production when fed to poultry.1
Nettles also have their value as human food, the young
tops being boiled in spring like spinach. They are used
very largely in this way by the peasantry in the West of
Ireland. A useful rennet is made by adding a quart of salt
to three pints of a strong decoction of nettles. When a table-
spoonful is put into a large bowl of milk the latter readily
clots, forming a pleasant beverage, free from any flavour of
nettle.2 If a leaky wooden vessel be rubbed with a handful
of nettle leaves the juice enters the cracks and coagulates, and
the leakage is repaired, though no hint is given as to the
length of time the repair holds good. The leaves are also
placed on the top of baskets of Kentish plums to preserve the
bloom — but it is doubtful whether the nettle leaves have any
specific value in themselves or whether they simply keep away
interfering hands by virtue of their stings.

1 Wilson, loc. cit. 2 Pratt, loc. cit.

CHAPTER XIII.

POPULAR AND LOCAL NAMES OF WEEDS.1

Achillea millefolium, .£.-— Arrow-root, bloodwort, camil, cam-
mock, carpenter-grass, devil's nettle, dog daisy, eerie,
garwe, girs (stanch or stench), greenarrow, hundred-
leaved grass, melefowr, milfoil, nosebleed, old man's
mustard, pepper (old man's, wild), sanguinary, sneeze-
wort, tansy, thousand-leaf, thousand-leaved clover, yallow,
yarrow, yarroway, yerrow.

Aethusa cynapium, L. — Ass-parsley, dill, dog-poison, dog's
parsley, false parsley, fool's cicely, fool's parsley.

Agrimonia eupatoria, L. — Agrimony, church-steeple, cockle
burr, egremoine, egremounde, garclive, goosechite, harvest
lice, hemony, liverwort, rat-tail, tansy (white, wild).

Agropyron repens. See Triticum repens.

Agrostis sp. — Cloud grass.

Agrostis alba, L. — Dun John, quick, spear grass, whicks,
wicks, fine John, florin, running twitch, white bent
grass.

Agrostis stolonifera, L. — Bent grass, black grass, black-top
grass, florin-grass, knotgrass, orcheston grass, orchis
grass (?), quitch, red robin, squitch grass, surface twitch,
water-grass.

Agrostis vulgaris, L. — Bent, bent-grass, black quitch, bread-
and-cheese, fine Jt>hn, monkey's grass, squitch, tussocks,
twitch, water twitch.

Aira caryophyllea, L. — Mouse-grass, hairgrass, silver hair-
grass.

Aira caespitosa, L. — Bent grass, benton pry, bull-faces, bull-
front, bull-hassocks, bull-pates, bull pole, bull's forehead,

1 Many of the names given in this chapter have been met with in the course
of the weed surveys made by the author in different parts of the country. The
majority, however, have been taken from

(a) Britten, J., and Holland, R. (1886), " A Dictionary of English Plant
Names " ;

(6) Prior, R. C. A. (1879), " On the Popular Names of British Plants ".

206

POPULAR AND LOCAL NAMES OF WEEDS 207

bull-toppin, carnation-grass, flag (?), hassock, huff-caps,
iron grass, sniddle, sniggle-grass, snizzle-grass, tufted
hairgrass, tussock grass, windlestraws, zedge-mocks.

Ajuga reptans, L. — Bugle, brown bugle, dead men's bellows,
herb carpenter, helfringwort, middle comfrey, middle
consound, sicklewort, wild mint, wood betony.

Alchemilla arvensis, L. — Argentill, bowel-hive, breakstone,
colickwort, firegrass, lady's mantle, parsley breakstone,
parsley pert or piert, parsley vlix, percepier.

Alchemilla vulgaris, L. — Bear's-foot, dewcup, duck's-foot, great
sanicle, lady's mantle, lamb's foot, lion's foot, padelion,
pedelyon, syndau.

Allium ursinum, L. — Bear's-garlic, buckrams, crow-garlick,
cow-garlick, devil's posy, garlick, gipsy onions, hog's-
garlick, ramps, rams, ramsden, ramsey, ram's horns, ram-
sons, rommy or roms, rosems, stink plant, wild garlick,
wild leek.

Allium vineale, L. — Crow onion, garlick (cow, crow, wild).

Alopecurus agrestis, L. — Bennet-weed, black bent, black couch,
black-grass, black quitch, black squitch grass, grass (spear,
twitch), hunger-grass, hunger-weed, land-grass, mouse-tail,
slender fox-tail.

Alopecurus geniculatus, L. — Black-grass, blue-grass, elbowit-
grass, flote-grass, marsh foxtail.

Anagallis arvensis, L. — Bird's eye, bird's-tongue, female pim-
pernel (var. ccerulea), John-go-to-bed-at-noon, male pim-
pernel, merecrop, orange lily pernel, pimpernel, poor
man's weather-glass, shepherd's calender, shepherd's
clock, shepherd's delight, shepherd's glass, shepherd's
sundial, shepherd's warning, shepherd's watch, shepherd's
weatherglass, sunflower, torn pimpernowl, waywort,
weather glass, wincopipe, wink-a-peep.

Anthemis arvensis, L. — Corn chamomile, dog's camomile (?),
white gowlan.

Anthemis cotula, L. — Balder brae, baldeyebrow, camomile
(dog's or stinking), camovyne, daisy (dog or horse), dog-
banner, dog-binder, dog-fennel, dog-finkle, flowan, hog's
fennel, jayweed, madder, madenwede, maise, maithen,
mather, marg, mathes, mayweed, morgan, murg, poison
daisy.

Anthriscus sylvestris, Hoffm. — Ass-parsley, badman-oatmeal,
bun, caxes, chervil (cow-weed, mock or wild), cicely, cis-
weed, coney-parsley, cow-mumble, cow-parsley, cow-weed,

208 \V].i;|)S ()]• FARM LAND

da-ho, deil's meaj, deil's or devil's oatmeal, devil's parsley,
dill, dock (kadle or kettle), dog-parsley, eltrot, ha-ho, hare
parsley, hemlock, hi-how, humlock, keck, kedlock, kee-
shion, kelk or kelks, kellock, kesk, kevvsies, mayweed,
naughty man's oatmeal, orchard weed, parsley (dog's,
pig's, sheep's, wild), rabbit-meat, ratsbane, sweet ash,
white-weed,, wild carraway, wild cicely.

Anthyllis vulneraria, L. — Cat's-claws, crawnels, Jupiter's beard,
kidney vetch, lady's fingers, luck, lamb's-toe, rustic wound-
wort, staunch, woundwort, yellow crow's-foot

Antirrhinum orontinin, L. — Calf-snout.

Arabis thaliana, L. — Thale-cress, wall-cress.

Arenaria. — Sandweed, sandwort.

Arenaria serpyllifolia, L. — Chickweed, thyme-leaved sandwort.

Arnoseris pusilla, Gacrtn. — Lamb's succory, swine's succory.

Arrhenatherum avenaceum, var. tuberosum, Gilib. — Arnit or
arnut, buck beards, button-grass, couch, haver-grass, knot-
grass, lobbin grass, lousy or lucie arnut, murrick, onion
couch, pearl, pearl grass, quitch, swine arnut, twitch (butter
or button).

Artemesia vulgaris, L. — Apple-pie, bulwand, fat hen, fellon-
herb, French tobacco, green ginger, mogford, motherwort,
muggert, mugweed, mugwort, sailor's tobacco, smother-
wood, weremod, wormwood, wormit.

Atriplex. — Areche, blite, meals, wild orach.

Atriplex patula, L. — Arach, delt-orach, fat hen, lamb's
quarters.

Avena fatua, L. — Bearded oat, drake, flaver, haver, Kentish
longtails, poor oats, sowlers, uncorn, wild aits, wild oat.

Bartsia odontites, L. — Eyebright, eyebright cow-wheat, hen
gorse, red rattle, sanctuary.

Bellis perennis, L. — Bachelor's buttons, bairnwort, banwood,
banwort, bennergowan, bennert, bennet, benwort, bessy-
banwood, billy button, boneflower, bonwort, briswort,
bruisewort, catposy, cockiloorie, comfrey, confery, cumfirie,
daiseyghe, daisy, daisy (dog, shepherd's, small or the
children's), dazeg, dicky daisy, ewe-gowan, gowan, gowlan,
hen and chickens, herb margaret, less consound, March
daisy, margaret's herb, May gowan, Mary gowlan,
marguerite, maudlinwort, mother of thousands, primrose,
silver penny, sweep, sweeps.

Borago officinalis, L. — Beebread, borage, burrage, cool-tankard,
Langdebeef, ox-tongue, star flower.

POPULAR AND LOCAL NAMES OF WEEDS 209

Brassica alba. — Charlock, kedlock, kellock, kerlock, ketlock,
sen vie, white mustard.

Brassica campestris, L. — Bargeman's cabbage, charlock, ket-
lock, nape, yellows.

Brassica sinapis. — Bastard rocket, bazocks, birdseed, brassies,
brassock, cadlick, cadlock, callock, calves-feet, carlock,
chadlock, charlick, charlock, chedlock, churlick, corn cale,
craps, curlick, curlock, field kale, garlic, garlock, kadlock,
kale, kecklock, kedlock, kellock, kerlock, ketlock, kilk,
kinkle, mustard (corn, wild), popple, presha, or presha-
bhwee or prushus, rape, rough cadlock, runch, rungy,
scaldrick scalies, scallock, senvie, shirt, skedlock, skeldock,
skeldick, skellock, skellie or skillock, turnip, warlock, will
kail, wild kale, yellow flower.

Briza media, L. — Amouret, bird's-eye, cow-quake, dadder-grass,
danglethorn (?), dawther, didder-grass, diddery-docks,
dithering-grass, dodder, dodder-grass, doddering-dickies,
doddering-dillies, doddering-grass, doddering-jockies,
dodderin-Nancy, doddle-grass, dothering-dicks, dothering-
toms, earth-quakes, grass (fairy, pearl, quaker, rattle,
shaking, shiver, shivering, swaggering, totter, tottering,
trembling, waggering), hay shakers, jockey grass, lady's
hair, maiden-hair, mountain flax, quack-ducks, quakers,
shake ladies, shakers, shivering jemmy, sillar shakle, siller
tassels, silver ginglers, silver shakers, suisilk, trembling
jockies, thrimlin-jockies, wag-wanton, wag-wants, whacker
gerse, wiggle-waggles, wig-wag wanton, wiggle-waggle-
wantons.

Bromus arvensis, L. — Field brome.

Brontus asfier, L. — Hairy brome.

Bromus mollis, L. — Blubber-grass, bob-grass, bull-grass, cock-
grass, darnel, duck havver, geese-grass, goose corn, goose-
grass, haver-grass, hooded grass, lob or lob grass,
oat-grass.

Bromus secalinus, L. — Cheat, cheats, dies-seed weed, cock-
grass, darnel, drake, droke, drook, oat (dravick, wild),
rye brome-grass, sleepies.

Bromus sterilis, L. — Black-grass, drake, drank, haver-grass,
oat-grass.

Calamintha acinos, Clairv. — Basil (field, stone, or wild), basil
balm, basil thyme, corn mint (?), mother of thyme, poley
mountain.

«4

iio NNT.KDS (}}• FARM I AND

Camdina sativa, Ct* — Camline, cheat, Dutch fl;ix, -old «>t'
pleasure, myagrum, oil-seed.

Capsella bursa-pastoris, L. — Bad man's oatmeal, blind-weed,
case-weed, clappedepouch, cocowort, fat hen, lady's purse,
mother's heirt, naughty man's plaything, pepper-and-salt,
pick-pocket, pick-purse, pick-your-mother's-heart-out, pmr
man's parmacetty, sanguinary, shepherd's bag, sheplv.
pouch, shepherd's purse, shepherd's scrip, tooth-wt.rt,
toywort, ward-seed, witches' pouches.

Cardamine pratensis, L. — Apple-pie, bird-eye, bird's-eye, bitter
cresses, bogspinks, bonny-bxird-een, bread-and-milk, canter-
bury bells, cuckoo, cuckoo-bread, cuckoo-flower, cuckoo-
pint or pintle, cuckoo-spit, cuckoo's shoes and stockings,
gookoo-buttons, gookoo-flower, headache, impatient cress,
lady flock, lady's glove, lady's milksile, lady's smock, lamb
lakins, lucy locket, may blob, may flower, meadow,
meadow cress, medetarde, milkgirl, milkmaid, milksile,
paigle, pigeon's eye, pig's eyes, pink, shoes and stockings,
smell smock, smick smock, spink, whitsuntide gilliflower.

Carduus nutans, L. — Queen Ann's thrissel, thistle (bank, buck,
dog, musk, Scotch).

Carex. — Ae-pointed-gairss, carnation-grass, cegge, grass (blue,
hard, spear, sour, spire, star, sword), lesch, ling, moor-
pawms, pry, rush, sag, sedge, seggin, seggs, serge, sniddle,
zeg.

Carex glauca, L. — Carnation-grass, gilliflower-grass, glaucous
sedge, grass (pigeon's, pink), pry.

Carex hirta, L. — Carnation-grass, goose-grass, hairy sedge,
hammersedge.

Carex vulpina, L. — Fox sedge.

Caucalis nodosa, Scop. — Knotted hedge parsley.

Centaurea ntgra, L. — Bachelor's buttons, ballweed, belweed,
black centaury, black soap, blue tops, boleweed, bolwes,
bowweed, bowwood, bullweed, bunds, bundweed, bunk,
button-weed, centaury, centaury (great or more), churl's-
head, clobweed, club-weed, cnop-wort, cock-heads, cod-
weed, crop- weed, darbottle, drumstick, hardhead, hardhead
horse, hard-iron, hare-bottle, harsh-weed, horse hardhead,
horse knobs, horse knops, horse knot, horse-snap, hurt-
sickle, hyrnehard, iron-heads, iron-weed, knapweed, knob-
weed, knop-weed, knotgrass, knotweed, lady's cushion,
loggerheads, matfellon, shaving-brush, sweeps, tarbottle,
tassel, yronhard.

POPULAR AND LOCAL NAMES OF WEEDS 211

Centaurea scabiosa, L. — Bachelor's buttons, black-top, bowwood,
bunk, drumstick, great horse knobs, great knapweed, horse
knobs, horse knops, iren-harde, knobweed, knotweed,
matfellon.

Cerastium vulgatum, L. — Chickweed, mouse-ear, mouse-ear
chick-weed.

Ctienopodium. — Goose-foot, meals, nightshade, wild orach.

Chenopodium album, L. — Biacon-weed, dirtweed, dirty Dick,
dirty John, drought-weed, fat hen, frost-blite, hen-fat,
Johnny O'Neele, lamb's-quarters, lamb's-tongue, mails,
meldweed, melgs, midden myles or milies, milds or miles,
muck-weed, mutton-tops, myles, rag jag, wild spinach
(pigweed in Canada and U.S.A.).

Chrysanthemum leucanthemum, L, — Bozzom, caten-aroes, cows'
eyes, daisy (big, bull, butter, devil's, dog, dun or dunder,
field, great, horse, London, midsummer, moon, ox-eye,
poor-land, thunder), daisy goldins, dog-flower, Dutch
morgan, espibawn, gadgevraw, gadjerwraws, girt ox-eye,
goode, gowan (horse, large, white), horse-pennies, hoss-
daisy, large dicky daisy, magweed, maudlinwort, may-
weed, moon, moon-flower, moon-pennies, moon-penny,
moonwort, ox-eye, poverty weed, white bothen, white gold,
white gowlan, white gull.

Chrysanthemum segetum, L. — Bigold, boodle, boswell, bothem,
bothen, botherum, bothul, bozzom, buddle, budland, corn
marigold, fat hen, geal gowan or geal seed, gil gowan,
gold, golden corn-flower, golding, goldings, goles, golland,
gool or goold, gould, gouls, gowan (gule, yellow), gowlan,
gowland, guild, guile, gule, manelet, marigold, marigold
(field, wild), marigold goldings, marigold goldins, moon or
moons, ox-eye, ruddes, sunflower, tansy, yellow bottle,
yellow gold, yellow- gowans, yellow gull, yellow ox-eye.

Cichorium intybus, L. — Bunk, chicory, succory, wild cicory.

Cirsium acaule, Web. — Dwarf thistle, ground thistle, pod-thistle,
stemless thistle.

Cirsium arvense, Scop. — Creeping thistle, dashel, dodger,
thistle (boar, corn, cursed, dog, hard, pricky, sharp,
way).

Cirsium lanceolatum, Scop. — Bow fistle, bur, cheese, dashel,
marian, quat vessel, thistle (bank, bell, bird, blue, boar,
buck, bull, bur, horse, Scotch, spear).

Cirsium palustre, Scop. — Bog-thrissel, marsh thistle, moss-
thistle, thistle (red, water).

M"

212 WEEDS OF FARM LAND

Colchicum autuinnale, L. — Crocus (autumn, fog, meadow,
michaelmas, purple), meadow saffron, naked boys, naked
lady, naked virgins, rams, saffron, son-before-the-father,
star-naked boys, tube root, upstart

Conium ntaculatum, L. — Bad man's oatmeal, bunk, cambuck,
caxes, heck-how, hemlock, herb bennet, humlock, humly,
keck, kex, kelk, kous, keish, kewse, St. Bennet's herb,
wode-whistle.

Conopodium denudatum, Koch. — Arnit or arnut, badman's bread,
catnut, cipper-nut, curluns, deil's bread, deil's oatmeal, dil-
note (?), earth chestnut, earthnut, ernut, fare-nut, gennet,
gernut, gourlins, gowlins, grunnut, hawk-nut, hog-nut,
hornecks, Jack durnils, jocky jurnals, jurnut, killas, killi-
more, kipper-nut, knipper-nut, knotty meal, lousy or lucie
arnut, mandrake, nut (ground, hare, kipper, pig, St.
Anthony's), scabby hands, swine-bread, tetter-berry, truffle,
y^annut, yarnut, yennet, yennut, yenut, yor-nut, yer-nut,
yowe yorlings.

Convolvulus arvensis, L. — Barbine, barweed, bearbind, bell-
bine, bellwine, billy-clipper, bindweed, bine, common bind,
corn-bind, corn-lily, devil's guts, gravel bindweed, hedge
bells, lap-love, lily, lily-bind, rope-wind, sheep-bine, small
bindweed, small withiwind, wave-wine, waywind, weed-
bind, weedbine, wheatbine, wild convolvulus, wind, wither-
wine, with wind or withwine.

Crepis taraxacifolia, Thuill. — Beaked hawk's-beard.

Crepis virenSt L. — Smooth hawk's beard.

Cuscuta. — Devil's guts, dodder, dother, fordboh, laced thyme,
strangle-weed.

Cuscuta europ&a, L. — Beggarweed, bind, devil's guts, hailweed,
hairweed, hale-, hell-, or hairy-bind, hale-weed, podder,
scald, scald-weed, strangle-tare.

Cuscuta trifolii, Bab. — Ail-weed, beggar-weed, Indian grass.

Daucus carota, L. — Bee's-nest, bird's-nest, crow's-nest, dawke,
dill, fiddle, field more (?), hill-trot, mirrot, rantipole, wild
carrot.

Echium vulgare, L. — Blue bottle, blue weed, blue cat's-tail,
bugloss, cat's-tail, iron-weed, langdebeef, our Lord's flannel,
our Saviour's flannel, snake flower, snake's bugloss, viper's
bugloss, viper's grass, viper's herb, wild borage.

Epilobium. — Herb willow, willow herb.

Epilobium hirsutum, L. — Apple-pie, blooming sally, cherry-
pie, coddled apple, codlins, codlings-and-cream, custard-

POPULAR AND LOCAL NAMES OF WEEDS 213

cups, fiddle-grass, gooseberry pie, plum-pudding, red withy
herb, sod-apple, son-before-the-father, wild willow, willow
herb.

Equisetum. — Cat-rushes, cat's-tail, feather, grandfather's beard,
grass (joint, scrub, shave, water), holy-water-sprinkle,
horse-tail, joint-weed, mare's-tail, old man's beard, puddock
pipes, pull pipes, rattle, snake pipes, tad-broom, tad pipes,
tidy-pipe, toad pipe, wold man's beard (?).

Equisetum aruense, L. — Bottle-brush, cat's-tail, colt's-tail, frog
pipes, horse pipe, scrub grass, shave grass, snake pipes.

Erigeron canadense, L. — Butter-weed, Canadian fleabane.

Erodium. — Heron's-bill.

Erodium cicutarium, L Her. — Needle (pink, powk), stick-pile,
stork's-bill, wild musk.

Erysimum cheiranthoides , Br. — Tarrify, treacle mustard, treacle
wormseed, worm-seed.

Euphorbia. — Spurge, tithymall.

Euphorbia exigua, L. — Dwarf spurge.

Euphorbia helioscopia, L. — Cat's-milk, churnstaff, deil's apple-
trees, deil's kirn staff, deil's milk, devil's churnstaff, devil's
milk, grass (wart, whitlow), irby-dale grass, little good,
mad woman's milk, mamma's milk, milk wort, milk-weed,
mouse-milk, Saturday's pepper, seven sisters, sun spurge
or sun-following spurge, turnsole or torn-sole, wartweed,
wortwort, wolfs milk.

Euphorbia peplus, L. — Deil's milk, devil's milk, petty spurge,
seven sisters, wartweed, wee gweedie.

Euphrasia officinalis, L. — Adhib, euphrasy, ewfras, eyebright.

Filago germanica, L. — Cartafilago, chafeweed, childing cud-
weed, clodweed, cudweed, cudwort, downweed, herb
impious, hoarwort, old owl, owl's crown, quidwort, son-
before-the-father.

Fumaria offidnalis, L. — Beggary, earth-smoke, fume-of-the-
earth, fumiterre, fumitory, fumusterre, God's fingers and
thumbs, snapdragon, wax dolls.

Galeopsis tetrahit, L. — Bee-nettle, blind-nettle, dai-nettle, day-
nettle, dea-nettle, de-nettles, deye-nettle, dog-nettle, don-
ninethell, female hems, glidewort, hemp (bastard, nettle,,
wild), hemp-nettle, holyrope, stinging nettle, sting nettle.

Galium aparine, L. — Airess, airif, airup, aparine, bedstraw,
beggar lice, beggar weed, bleedy tongues, bluid tongue,
bur, burhead, burweed, catch-rogue, catch-weed, chick-
weed, claiton, claver-grass, cleavers, cledon, cleeiton,

ji4 WEEDS or 1 ARM I- AND

cleggers, clever-grass, cliden, clider, cling-rascal, clitch-
button, elite, clitheren, clits, cliver, cly, clyclers, errif,
geckdor, geese-grass, gentlemen's tormentors, goosebill,
goose-grass, goose-heiriffe, gooseshare, goose tongue,
gosling grass, gosling scrotch, gosling weed, grass (scratch,
scurvy, Turkey), grip-grass, gull-grass, gye, hairweed,
bar if, haritch, harvest lice, hedge-burs, Jack-at-the-hedge,
Lizzie-run-the-hedge, Loveman, mutton-tops, pig-tail,
Robin-run-the-hedge, Rob-run-up-dyke, scratch-weed,
soldiers' buttons, stick-a-back, stickleback, sweethearts,
tivers, tongue-bleeder, witherspail, Willy-run-hedge.

Galium tricornet Stokes. — Rough-fruited bedstraw.

Galium verum, L. — A-hundred-fald, bedflower, bedstraw
(lady's or yellow), brum, cheese-rennet, cliver, curdwort,
fleaweed, fleawort, gallion, hundred-fold, joint grass,
keeslip, lady's beds, maiden-hair, maid's hair, our ladies'
bedstraw, petty mugwet, rennet, runnet, strawbed, wild
rosemary, yellow goose-grass.

Genista tinctoria, L. — Alleluia, base broom, broom (dyers' or
low), dyers' greening weld, dyers' weed, dyers' green-
weed, dyers' yellow-weed, dyeweed, green weed, green-
wood, widow wisse, woad, woadwax, woodwax, wood
waxen, wood wex, wudwise, yellows.

Geranium. — Crane's-bill, heron's-bill, shepherd's needle.

Geranium dissectum, L. — Cut-leaved crane's-bill, pink needle (?).

Geranium molle, L. — Culverfoot, dove's-foot, dove's-foot
crane's-bill, pigeon's foot, soft crane's-bill, starlights.

Geranium pratense^ L. — Crowfoot, crane's-bill, grace of God,
gratia Dei.

Geranium pusillum, L. — Smooth crane's-bill.

Gnaphalium uliginosum, L. — Chafeweed, cotton weed, cudweed,
marsh cudweed, wartwort.

Heracleum sphondylium, L. — Bear's breech, bear-skeiters,
beggar-weed, bilders, billers, broad-leaved keck, broad
kelk, bunnel, bunnerts, bunnun, bunwand, caddell, cad-
weed, camlicks, clogweed, cow-cakes, cow-clogweed, cow-
keeks, cow-keep, cow-mumble, cow-parsnip, cushia, dry
kesh, dryland, scout, eltrot, ha-ho, hardhead, heltrot,
hogweed, keck, kedlock, kex, keglus, kelk-kecksy, kesh,
kesk, kewsies, limperscrimp, lumper-scrump, madnq>,
meadow parsnep, old-rot, pig's bubbles, pig's cole, i
parsnip, pigweed, piskies, rabbit-meat, sweet biller, swine
weed, skytes.

POPULAR AND LOCAL NAMES OK WKKDS 215

Hieracium pilosella, L. — Erswort (?), fellon-herb, ling gowlans,

mouse-ear, mouse-ear hawkweed.
Holcus lanatus, L — Dart grass, duffel grass, grass (pluff, rot,

velvet, water), hose grass, hose gerse, meadow soft grass,

midge-grass, pussy-cats'-tails, soft grass, white hayseeds,

Yorkshire fog, Yorkshire whites.
Honieum pratense, L. — Rie grass, squirrel-tail grass.
Hypochaeris radicata, L. — Bent, cat's-ear, gosmore.
Juncus. — Rashes, resh, rexen, rish, rix, rush, ryschys, seave,

seife (?), siv, thrash, threshie, thrush, thrush-bush.
Juncus articulatus, L. — Shining-fruited rush, spart.
Juncus bufonius, L. — Coe grass, frog grass, toad grass, toad

rush, saltweed.

Juncus coininunis, Mey. — Camel's straw, common rush, floss (?).
Juncus glaticus, Ehr. — Hard rush, resh, wire rush.
Lamiiim aniplexicaule, L. — Chickweed, hen-bit.
Lamium purpureum, L. — Archangel (red or sweet), badman's

posies, black man's posies, day nettle, dead nettle, deaf

nettle, dee nettle, dog nettle, French nettle, nettle, purple

dea-nettle, purple stinking archangel (?), red dead nettle,

rabbit-meat, tormentil.
Lapsana communis, L. — Ballagan, bolgan-leaves, dock cress,

nipple- wort, succory dock cress, swine's cress.
Lathyrus macrorrhizus, Wimm. — Bitter vetch, caperoilie, cara-

meile, carmele, carmeil, carmile, carmylie, cormeille, corr,

gnapperts, heath pea, karemyle, kipper nut, knapperts,

knipper-nut, liquory-knots, mouse pea, napperty, napple,

thetch, wood pea.
Lathyrus pratensis, L. — Angleberries, craw-peas, craw pea,

lady's fingers, mouse pea, tare-everlasting, torn thumb,

vetchling, yellow chickling vetch, yellow fitchling, yellow

meadow vetchling, yellow tar fitch.
Legousia hybrida, Del. — Corn campanula, corn violet, venus

looking-glass.

Leontodon autumnalis, L. — Autumnal hawkbit, garkin pissabed.
Leontodon hispidus, L. — Rough hawkbit.
Linaria elatine, Mill. — Cancerwort, cankerwort, female fluellin,

pointed fluellen, speedwell.

Linaria minor, Mill. — Jack-by-the-hedge, small toadflax.
Linaria spuria, Mill. — Cancerwort, cankerwort, female fluellin.
Linaria vulgaris, Mill. — Bride-weed, butter-and-eggs, buttered

haycocks, chopt eggs, churnstaff, doggies, dragon-bushes,

eggs-and-bacon, eggs-and-butter, eggs and-col lops, flax

2i6 \\i:i:i)S ()!• FARM LAND

(toad, wild, yellow toad), flaxweed, gallwort, larkspur,
lion's mouth, monkey flower, pattens and clogs, rabbits,
snapdragon, yellow (or yaller) rod.

I.inum catJiarticum, L. — Fairy flax, fairy lint, flax (dwarf,
mountain, purging), laverock's lint, mill-mountains.

Lithospermum arvense, L. — Bastard alkanet, corn gromwell
lichwale, painting root, pearl-plant, salfern.

Liznla catnpestris, Willd. — Blackcaps, chimney-sweeps, crow-
feet, cuckoo grass, davie-drap, field woodrush, God's
grace, Good Friday grass, grass (black-head, peeseweep),
hair-beard, smuts, sweeps, sweeps' brushes, sweet bent

Lolium temulentum, L. — Bragge, cheat, cockle, darnel, dornel,
dragge, drake, drank, dravick, droke, drunk, drunken
plant, eaver, ivray, jum, lover's steps, ray, riely, rivery,
sturdy.

Lychnis alba, Mill. — Bachelor's buttons, bull-rattle, cockle,
cow-mack, cow-rattle, cuckoo-flower (white, wild), grand-
mother's nightcap, plum-puddings, snake flower, snake's
flower, thunder bolts, thunder-flower, white bachelor's
buttons, white campion, white robin.

Lychnis dioica, L. — Adder' s-flower, bachelor's buttons, billy
button, bird's eye, brasselty-buttons, brid-een, bull's eye,
cock-robin, crowsope, cuckoo, cuckoo-flower, devil's flower,
flea-bites, geuky-flower, gramfer-greygles, hare's eye,
jack-by-the-hedge, lousy beds, lousy soldiers' buttons,
mother-dee, plum-puddings, poor robin, ragged robin,
red bachelor's buttons, red bird's eye, red butcher, red
campion, red jack, robin or robins, red robin, robin
flower, robin hood, robin-in-the-hose, robin i' th' hedge,
robin red-breast, robin's eye, round robin, scalded apple,
soldiers, water poppies, wild geranium, wild rose campion.

Lychnis Flos-cuculi, L. — Bachelor's buttons, cock's-caim,
cock's-comb, crow-flower, cuckoo, cuckoo-flower, cuckoo
gilliflower, fair maid of France, Indian pink, marsh-gilli-
flower, meadow campion, meadow pink, meadow spink,
pleasant-in- sight, ragged jack, ragged robin, robin hood,
rough robin, wild williams.

Lychnis githago, Lam. — Bachelor's buttons, cockle, corn
campion, corn cockle, cockweed, corn-flower, corn pink,
drawk, field nigella, gith, gye, hardhead, nele, papple,
pawple, pink, popille, popple, poppy, ray, wild savager.

Lycopsis arvensis, L. — Bugloss, field alkanet, sheep's tongue.

POPULAR AND LOCAL NAMES OF WEEDS 217

Lysimachia nummularia, L. — Creeping jenny, herb twopence,
meadow-runagates, money-wort, motherwort, strings of
sovereigns, twopence, twopenny grass, wandering jenny,
wandering sailor.

Matricaria chamomilla, L. — Camomile (dog's, German or
wild), deil's apple-riennie, dog's camovyrie, horse gowan,
maithe, mather, maudlin, mayweed, whitewort.

Matricaria inodora, L. — Camomile (dog's or unsavoury),
camomile goldins, daisy (dog, horse), dog's camovyne,
dog gowan, mayweed, scentless mayweed, white gowlan.

Medicago lupulina, L. — Black grass, black medick, black none-
such, black seed, black trefoil, cinquefoil, clover, clover
(horned or yellow), croyd, hop, hop clover, hop medick,
hop trefoil, lamb's-toe, melilot trefoil, natural grass, none-
such, sanfoin, shamrock, snail trefoil, trefoil.

Melilotus offidnalis, L. — Clover (hart's, king's, or plaister),
heartwort, king's crown, melilot, whuttle grass, wild
laburnum.

Mentha aquatica, L. — Baulme mint (?), bishop's weed, bishop's
wort, fish mint, water mint.

Mentha arvensis, ,L. — Corn mint, field mint, lamb's tongue,
wild pennyroyal.

Myosurus minimus, L. — Bloodstrange, mouse-tail.

Mysotis arvensis,L.— Bird's eye, blue mouse-ear, forget-me-not.

Mysotis palustn 's, L. — Bird's eye, catter-pillars, forget-me-not,
love-me, mouse-ear, scorpion grass, snake grass.

Mysotis versicolor. — Forget-me-not.

Nepeta glechoma. — Alehoof, allhoove, allhose, alliff, bird's eye,
blue runner, cat's-foot, deceivers, devil's candlesticks,
fat hen, foalfoot, folesfoth, gell, gill, gill-ale, gill-creep-by-
ground, gill-go-by-ground, groundavey, ground ivy,
hayhofe, haymaiden, hay-maids, hedge-maids, heihow,
hen and chickens, heyhove, hove, jenny-run-ith-ground,
jill, lion's mouth, lizzie-run-the-hedge, maiden-hair,
mould, nip, robin-run-the-hedge, rob-run-up-dyke, run-
away-jack, runnidyke, tudnoore, tunhoof, turnhoof.

CEnanthe pimpinelloides, L. — Earth-nut, pig-nut.

Ononis arvensis, L. — Bomariskie, cammock, cammock whin,
cat whin, chamock, fin, fin weed, ground furze, harrow
rest, hen gorse, horse's breath, lady-whin, lewte, petty
whin, ramsey, rastylbow, rassels, rest-harrow, rust-burn,
sidfast, sitfast, Spanish root, stainch, stay-plough, stinking
tam, wild liquorice.

2i8 \\KKDS 01 FARM LAND

Orchis macitlata, A.— Adam-and-eve, adder's grass, baldhcrry,
crawfoot, crowfoot, dead man's fingers, dead man's hands,
hand orchis, hens, hen's combs, lover's wanton, man
orchis, nightcap, red-lead, spotted orchis.

Orchis nitiscula, L. — Aaron's beard, Adam-and-Kve, add<

grass, adder's-tongue, ballock grass, beldairy, bloody
butchers, bloody fingers, bloody man's finger, bloody
man's hands, bulldairy, bull's-bags, bull-seg, candlego
cling-fingers, cock-flowers, cock's kames, cowslip, crake-
feet, craw-feet, crawfoot, craw-tees, cross-flower, crow-
feet, crow-foot, cuckoo, cuckoo-flower, cuckoo orchis,
cuckoo-pint, culverkeys, dag-stone, dead man's fingers,
dead man's hand, dead man's thumb, dog's-dogger, dog-
stones, drake's-feet, fool's stones, foxstones, frogwort,
gandergoose, gander-gosses, gandigosling, Gethsemanr,
geuky-flower, giddy gander, goat-stones, goosie-gandiT,
gowk meat, gramfer-greygles, greygles, gussets, Johnny-
cocks, keatlegs, kettle case, kettle-pad, king-finger, lady's
fingers, long purples, man orchis, nightcap, paddock's
spindle, poor man's blood, priest's pintle, purples, rag-
wort, red butcher, red granfer gregors, red-lead, ring-
finger, salep, scabgowks, single castle, single-guss, skeat-
legs, snake flower, soldier's jackets, spreespinkle, stander
grass, stannen-gusses.

Orchis mono, L. — Beldairy, bleeding willow, bull's bags, bull-
segg, cuckoo, cuckoo-flower, dandy goshen, dead man's
fingers, fool's ballocks, fool's stones, frogwort, gander-
gosses, goose and goslings, green- veined orchis, green-
winged orchis, king-finger, king-fisher, man orchis, nuns,
parson's nose, puddock's spindles, rams horns, red-lead,
single castle.

Ornitlwgalum pyrenaicum, L. — Asparagus (Bath, French,
Prussian, or wild), French grass, French sparrow-grass,
sperage, spiked star-of-Bethlehem.

Ornithopus perpusillus, L. — Bird's-foot, fowl-foot

Orobanche. — Broom-rape, choke-fitch, choke-weed, herb-bane,
kill-herb, strangle-tare, strangle-weed.

Orobanche major, L. — Orobstrangler, Our Lady of New
Chapel's flower, tall or great broomrape.

Papaver argemone, L. — Cock's head, headache, pale poppy,
rough-head poppy, small poppy, wind rose.

Papaver dttbium, L. — Blaver, blind eyes, cock's-head, headache,
long-headed poppy, yedwark,

POPULAR AND LOCAL NAMES OF WEEDS 219

Papaver hybridum, L. — Rough poppy.

Papaver rhceas, L. — Blind eyes, blindy-buffs, bledewort,
canker, canker rose, cheesebowl, chesbow, cockeno, cock-
rose, cock's-comb, cock's-head, collinhood, copper-rose,
coprose, corn rose, corn-flower, corn poppy, cuprose, cusk,
darnel, ear-aches, fire-flout, gye, headache, headwarke,
joan silverpin, lightnings, maws, poison poppy, pope,
popple, poppy, puppy, redweed, ridweed, soldiers,
thunder bolts, thunder flower, wild poppy, yedwark.

Pedicularis sylvatica, L. — Cock's-comb, dead men's bellows,
honeysuckle, lousewort, red rattle.

Pimpinella saxifraga, L. — Bennet, breakstone, burnet saxifrage,
old man's plaything, pimpernel, saxifrage, self-heal.

Plantago coronopus, L. — Buck's-horn, buck's-horn plantain,,
crow-foot, hartshorn, hartshorn plantain, herb eve, herb
ive, star of the earth.

Plantago lanceolata, L. — Bent, black bent, black jacks, carl-
doddie, chimney-sweeps, clock, cock-fighters, cocks, cocks-
and-hens, cock's-head, curl-doddy, dog's-rib, grass (cock,
rib, ripple), hardhead, headman, jackstraws, kemps,
kempseed, knockheads, lamb's-tongue, lancell, leechwort,
long plantain, plantain, ramstongue, rat-tail, rib-wort,
rib-wort plantain, soldiers, soldier's tappie, tinker-tailor
grass, windles.

Plantago major, L. — Bent, birdseed, bird's meat, broad leaf,
canary-seed, carl-doddie, curl-doddy, great plantain, great
waybrede, healing blade, kemps, lamb's-foot, plant, plan-
tain, rat-tail, ripple girs, slanlas, warba leaves, wabert-leaf,
wayberan-leaf, waybread, wayfaring leaf, wayfron, wayside
bread, waybred, white man's footprint, wibrow, wybrow.

Plantago media, L. — Fire-leaves, fire- weed, healing herb, hoary
plantain, lamb's-tongue.

Poa annua, L. — Annual meadowgrass, cause-way grass, Suffolk
grass.

Polygala vulgaris, Z-. — Cross-flower, four sisters, gang flower,
milkwort, procession flower, robin's eye, rogation flower.

Polygonum aviculare, L. — Allseed, armstrong, beggar-weed,
bird's knotgrass, bird's-tongue, black strap, bloodwort,
centinode, cow grass, crab grass, crab- weed, cumberfield,
doorweed, finzach, grass (iron, knot, pig, swine's, wire),
hogweed, knotgrass, knotwort, mantie, nine joints, ninety-
knot, pig-rush, pig-weed, pink-weed, red-legs, red robin,
redweed, sparrow-tongue, stone-weed, surface twitch,

220 \VKi;i» o! I.AKM I. AN I)

swine-carse, swine's skir, tacker-grass, way-grass, wire-
weed.

Polygonuin convolvulus, L. — Bearbind, bed wine, bethwine,
bindcorn, bindweed, bindweed (black, corn, or ivy) black
withiwind, bunwede, climbing buckwheat, cornbind,
devil's tether, dodder, hay-gob, lap-love, lily, spades,
weedwind, wild hop, windweede, withwind, withwine.

Polygonmn lapatliifolium, L. — Pale willow-weed, willow-weed.

Polygonum persicaria, L. — Crab grass, crab's claw, cronesanke,
dead arsesmart, lakeweed, lover's pride, morub, peach-
wort, persicaria, red legs, red shank, red- weed, sauch-weed,
saucy Alice, spotted arsesmart, Virgin Mary's pinch,
willow-weed.

Potentilla anserina, L. — Argentina, argentine, blithran, butter-
cup, camoroche, fair days, fair-grass, goose-grass, goose
tansy, helde, marsh corn, mascorns, midsummer silver,
moor-grass, moors moss-crops, silver feather, silver-weed,
silvery cinquefoil, tansy, tansy (dog's, wild), traveller's
ease, wild agrimony.

Potentilla reptans, L. — Cinquefoil, fiflef, five-finger-blossom,
five-finger-grass, five-fingers, five-leaf, five-leaved grass,
golden-blossom, herb five-leaf, sinkfield, synkefoyle, tor-
mentil.

Potentilla tormentilla, Sibth. — Biscuit, blood-root, earth bark,
ewe daisy, five-fingers, flesh-and-blood, septfoil, setfoil,
seven-leaves, shepherd's knot, shepherd's root, sheep's
knapperty, thormantle, tormentil, turmentille.

Poterium sanguisorba, L. — Burnet, pimpernel, pimpinell, salad
burnet.

Primula veris, L. — Artetyke, bird's-eye, cooslip, coostropple,
couslop, cow-paigle, cowslap, cowslek, cowslip, cowslip
primrose, cowslop, cow's-mouth, cow-paigle, cow-stripling,
cow-stropple, crewel, culverkeys, fairy cups, galligaskins,
gaskins, herb paralysy, herb Peter, horse buckles, lady's
fingers, lady keys, may flower, paigle, palsywort, paraly-
sis, passwort, Peter, petty mullein, plaggis, plum-rocks,
St. Peterwort.

Prunella vulgaris, L. — All-heal, brown-wort, brunel, bumble
bees, carpenter (herb, proud), carpenter-grass, carpenter's
herb, fly flowers, heart of the earth, hook-heal, London
bottles, pick pocket, pimpernel, prince's feather, prunell,
self-heal, sicklewort, slough-heal, touch and heal.
Ranunculus acris, L. — Bachelor's buttons, baffmers, bassinet,

POPULAR AND LOCAL NAMES OF WEEDS 221

blister-plant, bolt, butter creeses, buttercup, butter daisy,
butter-flower, butter rose, carlock-cups, clovewort, cow-
slip, craw-foot, craw-taes, crazy, crow-flower, crow-foot,
crow-pightle, crow's-foot, crowtoe, eggs-and -butter, gil-
cup, gold crap, gold cup, gold knops, golden knobs, goldy
knob, guilty-cup, horse gold, king-cup, king's knob,
paigle, yellow bachelor's buttons, yellow caul, yellow
crees, yellow cups, yellow gowan, yellow gowlan.

Ranunculus aruensis, L. — Corn buttercup, crow-foot (corn or
urchin), crow's-claws, devil-on-all-sides, devil-on-both-
sides, devil's claws, devil's coach wheel, devil's currycomb,
dill- cup, English stavesacre, forking robin, gold- weed,
gye, hard- iron, hedge-hog, hell weed, horse gold, horse-
gould, hunger- weed, Jack-o'-both-sides, jack-weed, joy,
peagle, pricklebacks, scratchbur, starveacre, yellow crees,
yellow cup.

Ranunculus bulbosus, L. — Baffiners, bassinet, bolt, buttercup,
butter creeses, butter daisy, butter-flower, carlock-cups,
craw, craw-crowfoot, crazy, crow-flower, crowfoot, crow-
pightle, crow's-foot, crowtoe, cuckoo-buds, eggs-and-
butter, gil-cup, gold crap, gold knobs, golden knobs,
golden cup, goldy knob, guilty-cup, hillcups, horse gold,
king-cob, king-cup, king's knob, lode-wort, paigle,
pissabed, rape crowfoot, St Anthony's rape, St. An-
thony's turnip, yellow crees, yellow caul, yellow cups,
yellow gowlan.

Ranunculus hirsutus, Curtis. — Pale hairy crowfoot.

Ranunculus reptns, L. — Baffiners, bassinet, bolt, butter creeses,
buttercup, butter daisy, butter-flower, carlock-cups, cat-
claws, craw-foot, craw-taes, crazy, creeping buttercup,
crow-feet, crow-flower, crow- foot, crow-pightle, crow's-
claws, crow's-foot, crow-toe, devil's guts, gold-balls, gold
crap, gold knops, golden cup, goldy knob, granny-threads,
guilty-cup, hod-the-rake, horse gold, king-cup, lantern
leaves, meg-many-feet, paigle, ram's claws, sitfast, sitsicker,
tether-toad, toad-tether, yellow-caul, yellow crees, yellow
cups, yellow gowlan.

Raphanus raphanistrum, L. — Cadlock, charlock, charlock
(jointed or white), crawps, curlock, kedlock, kellock,
ketlock, rabone, rump, runch, skeldock, skeldick, skellie,
skellock, skillock, warlock, wild mustard, wild radish.

Reseda lutea, L. — Base dyer's weed, base rocket, crambling
rocket, wild mignonette, yellow reseda.

222 \\ K EDS OF FARM LAND

Rhinanthus crista-galli, L. — Clock, cock-grass, cock's-coml>,
cow-wheat, dog's siller, fiddle-cases, gowk's sixpence,
grass (penny, rattle), hen pen, henny penny, hen's combs,
honeysuckle, horse pens, locusts, meadow rattle, money,
money grass, pence, penny rattle, penny weed, rattle,
rattle-bags, rattle-box, rattle-penny, rochlis, rottle-penny,
snaffles, yellow meadow lousewort, yellow rattle.
Rumex. — Dock, docken, doodykye, phorams or phorans, red

dock.

Rumex acetosa, Z,. — Bread-and-cheese, cock sorrell, dock (sharp
or sour), donkey's oats, French sourock, green-sauce,
green sorrell, lammie sourrocks, ranty-tanty (?), red shank,
sallet, sarock, sooracks, sorrel, sorrel (green, sow), sorrow,
sourack, sour docken, sour grass, sour leek, sour-sabs or
sour-suds, sour sauce, sour sodge, sourocks, Tom Thumb's
thousand fingers.

Rumex acetosella, L. — Bread-and-cheese, cuckoo's meat, cuckoo's
sorrel, lammie sourocks, ranty-tanty, sheep's sorrel,
sheep's sourack, sooracks, soorocks, sourocks, sour dock,
sour leek.

Rumex conglomerate, Murr. — Clustered dock.
Rumex crispus, L. — Curled dock, dockum.
Rumex obtusifolius, L. — Batter dock, broad dock, butter dock,
celery-seed, cushy-cows, docken, kettle dock, red shank,
smair dock.

Rumex sanguineus, L. — Bloodwort, bloody dock, dock.
Scabiosa arvensis, L. — Bachelor's buttons, billy button, black
soap, blue buttons, blue caps, blue men, broadweed,
cardies, clod-weed, clog-weed, curl-doddy, Egyptian rose,
gipsy flower, gipsy rose, lady's cushion, pincushion,
scabious, scabridge, scabril.

Scabiosa succisa, L. — Bachelor's buttons, blue-ball, blue-bannets,
blue bonnets, blue buttons, blue-caps, blue-heads, blue-
kiss, blue-tops, bunds, bundweed, carl-doddie, curl-doddy,
devil's-bit, devil's-bit scabious, fire-leaves, forbete, forebit,
forebitten more, gentlemen's buttons, hardhead, hog-a-
back, lamb's ears, more-herbyw, ofbit, remcope, stinking
Nancy, woolly hardhead.

Scandix fecten, L. — Adam's needle, beggar's needle, chervil
(needle or wild), clock-needle, comb (lady's, shepherd's, or
venus's), coombs, crake-needle, crow-needle, crowpecks,
deil's or devil's darning-needle, darning needles, deil's
elshin, elshins, ground enell, hedge-hog, needle, old

POPULAR AND LOCAL NAMES OF WEEDS 223

wife's darning needles, old woman's needle, pink needle,
poke needle, pook needle, poukenel, pound needle, powk
needle, puck needle, shepherd's needle, stikpyle, tailor's
needles, throck-needle, venus'-needle, wild parsley.

Sderanthus annuus, L. — German knotgrass, knawel, knotgrass,
parsley pert or piert.

Senebiera coronopus, Poir. — Buck's-horn, cress (swine's or wart),
grass (hog, sow), hartshorn, herb Eve, herb ive, star of the
earth, wartwort.

Senecio jacobaa, L. — Agreen, benweed, bindweed, binweed,
booin, bo wens, bowlochs, bunnels, bunwede, cammock,
cankerweed, cheadle-dock, cowfoot, cradle-dock, cushag,
dock (kadle, kettle), dog-standard, fairies' horse, fellon-
weed, fizz-gigs, fleedod, fleenurt, flydod, grundswaith,
James' weed, James' wort, keddle dock, marefart, muggert,
ragged Jack, ragged Robin, rag weed, rag wort, St. James'
wort, scrape-clean, seggrom, seggy, sigrim, stagger-wort,
staner-wort, staver-wort, stinking alisander, stinking Billy,
stinking Davie, stinking elshinder, stinking-weed, swine's
cress, swine's grass, tansy, weeby, yack-.yard, yark-rod,
yellow ellshinders, yellow-wecu.

Senecio vulgaris, L. — Birdseed, chickenweed, chinchone,
grinning swallow, grinsel, groundsel, grunsel, grundsel,
grunnishule, sencion, simson, swichen.

Serratula tinctoria, L. — Saw-wort

Sherardia arvensis, L. — Allison, dodger, field madder, herb
sherard, madderlen, spurwort.

Silene anglica, L. — English catchfly.

Silene inflate, L. — Adder-and-snake plant, ben, bird's-eggs,
bladder campion, bletherweed, bull rattle, clapweed,
cowbell, cowcracker, cowmack, cowpaps, crackers, frothy
poppy, knap-bottle, rattle-bags, snappers, spatling poppy,
thunder bolts, white bottle, white cockle.

Silene noctiflora, L. — Night-flowering catchfly.

Sisymbrium ojficinale, L. — Bank cress, crambl ing-rocket,
hedge mustard, hedgeweed, lucifer matches, scrambling
rocket.

Solatium dulcamara, L. — Awfood, belladonya, bittersweet,
blue bindweed, deadly nightshade, dogwood, dwale,
fellon-wood, fellonwort, mad dog's berries, nightshade
(bittersweet, wood), poison-berry, poison-flower, poisonous
tea plant, pushion berry, robin-run-the-hedge, skaw-coo,
snake-berry, snake's poison-food, sweet bitter, terri-
diddle, terrydivle, tether devil, woody night-shade.

:-M \\ I:EDS OF FARM LAND

Solatium nigrum, L+ — Black nightshade, duscle, garden night-
shade, hound's-berry, mixplenton, morel, petty morel.

Sonchus arvensis, L. — Corn sowthistle, dindle, gutweed, hog-
weed, rosemary, swine thistle, tree sow thistle, langley
beef.

Sonchus oleraceus, L. — Dindle, hare's colewort, hare's lettuce,
hare's palace, hare's thistle, milk thistle, milk-weed, milky
dashel, milky dickies, milky tassel, St. Mary's seed, sow-
dirigle, sow thistle, swine thistle, swinies, thowthystylle.

Spergula aruensis, L. — Beggar-weed, bottle brush, cowquake,
dodder, dother, farmer's ruin, franke, granyagh, lousy
grass, make-beggar, mountain flax, perry, pick pocket,
pick purse, poverty weed, sandgrass, sand weed, spurry,
toad flax, yarr, yarrel, yawr, yur.

Spiraa filipendula, L. — Dropwort, fillyfindillan, lady's ruffles,
meadow-sweet, walwort (?).

Spiraa ulinaria, L. — Bittersweet, bridewort, courtship-and-
matrimony, goat's beard, harif, honey-sweet, maid of the
meadow, maid-sweet, meadow-soot, meadow-sweet, mead-
wort, my lady's belt, queen-of-the-meadow, sweet hay.

S tacky s arvensis, L. — Field wound wort.

Stachys betonica, Benth. — Betayne, betony, bidney, bishopswort,
Vetoyn, wild hop, wood betony.

Stachys palustris, L. — Clown's all-heal, clown's woundwort,
cock-head, dead-nettle, hound's-tongue, marsh woundwort,
rough weed, runch, sheep's brisken, swine arnut, swine's
maskert.

Stellaria graminea, L. — Heath speedwell, star-wort.

Stellaria medea, L. — Chickenweed, chickenwort, chickweed,
chuckenwort, cickenwort, craches, cuckenwort, flewort,
hen's inheritance, maruns, tongue grass, white bird's-eye,
winter- weed.

Taraxacum vulgare, Lam. — Bitterwort, blowball, blower,
canker, cankerwort, clock, crow-parsnip, dandelion, dente-
lion, dindle, doon-head-clock, fortune-teller, gowan (horse,
witch, yellow), grumsel, Irish daisy, lion's teeth, male,
milk gowan, monkshead, one-o'clocks, pee-a-bed, pismires,
piss-abed, priest's crown, stink davie, swine's snout.

Thlaspi arvense, L. — Boor's mustard, bowyer's mustard, churl's
mustard, cress (penny or wild), dish mustard, mithridate
mustard, treacle mustard, treaclewort.

Tragopogon pratensis, L. — Buck's-beard, gait-berde, goat's
beard, go-to-bed-at-noon, Jack-by-the-hedge, John-go-to-

POPULAR AND LOCAL NAMES OF WEEDS 225

bed-at-noon, Joseph's flower, nap-at-noon, noon-flower,
noontide, shepherd's clock, sleep-at-noon, star of Jerusa-
lem.

Triticum repens, L. (= Agrof>yron repens, BeauvJ]. — Cooch,
couch, couchwheat, dog-grass, felt, grass (cough, pearl,
quick, quitch, scutch, shelly, skally, spear, squitch, three-
leaved, twitch, wicken), knotgrass, lonachies, needles,
quick, quicken, q wicks, quitch, rack, ronnachs, runch (?),
scryle, scutch, shear grass, sheep's cheese, sheep's sourack,
skoil, squitch, strap grass, stroil, twike, twitch, whickenins,
whicks, white couch-grass, wick, wickens, windlestraws,
wizzards, wrack, yawl.

Tussilagofarfara, L. — Ass's foot, bull-foot, clatter-clogs, clayt,
clayweed, cleats, clot, colt-herb, coltsfoot, coughwort,
coutfit, cow-heave, dishalaga, dove-dock, dummy weed,
floatweed, foalfoot, foilefoot, hog-weed, hoofs, horse-hoof,
horse-hove, son-before-the- father, sow foot, tushalan,
tushylucky gowan.

Urtica dioica, L. — Naughty man's plaything, nettle, scaddie,
stinging nettle, stingy nettle, tenging nettle.

Urtica urens, L. — Burning nettle, dog nettle (?), ettle, small
nettle, stingy nettle.

Valerianella olitoria, Mcench. — Cornel-sallet, corn salad, lamb's
lettuce, milk grass, potherb, white potherb.

Veronica agrestis, L. — Chickweed, field speedwell, garden
speedwell, germander, germander chickweed, germander
speedwell, winter-weed.

Veronica arvensis, L. — Corn speed v/ell, wall speedwell.

Veronica chamcedrys, L. — Angel's-eyes, astrophell, base ver-
vain, billy bright-eye, bird's-eye, blue bird's-eye, blue eye,
blewart, blind flower, blue stars, bobby's eyes, bonny-
birdee, cat's-een, cat's-eyes, deil's flower, English treacle,
eyebright, flat vervain, forget-me-not, germander, ger-
mander speedwell, god's eye, lady's thimble, love-me-not,
milkmaid's eye. poor man's tea, remember me, speed-
well, wild germander, wish me well.

Veronica hedercefolia, L. — Bird's eye, botherum, corn speedwell,
dotherum, hen-bit, ivy chickweed, ivy-leaved speedwell,
morgeline, mother of wheat, winter-weed.

Veronica serpytlifolia, L. — Paul's betony, thyme-leaved speed-
well.

Veronica tournefortii, Gmel. — Bird's-eye, cat's-eyes, cuckoo's
leader, large field speedwell.

15

WEEDS O! I 'A KM l.A\l>

/ "/<•/</ ttngnstifoliti, L. — Narrow-leaved vetch.

/ "/<•/</ cr,icc,j, L. — Blue tar-fitch, cat-peas, cow vetch, huggaback,
mice pea, tar grass, tine, tine grass, tufted vetch, twine
grass, wild fetches, wild tare, wild thetch grass, wild vetch
or fitch.

I'icin hirsuta, L. — Bindweed, dill, dother, fitch, hairy tare,
lintels, strangle-tare, tare, tar-fitch, tar grass, tar vetch,
tine grass, tine tare, tine-weed, titters, wild thetch gi

snfii'(it L. — Chichelings, cichlings, fatch, fetch, fitch,
fitchacks, gore-thetch, lints, pebble-vetch, racers, tar, tare,
tere, thatch, thetch, twadgers, urles, vatch, vetch, wild
fitch.

epiniii, L. — Crow-peas, dill, hedge vetch, tare, thatch,
thetch, twadgers, vetch, wild tare, wild vetch.

Vicia tetraspcrma, Mcvncli. — Smooth tare.

Viola tricolor, L. — Beedy's eyes, Biddy's eyes, bleeding heart,
buttery- entry, call-me-to-you, cat's-faces, cull-me-to-you,
face-and-hood, fancy, flamy, garden gate, godfathers and
godmothers, heartsease, heart's pansy, heart seed, herb
trinity, jack-behind-the-garden-gate, jump-up-and-kiss-me,
kiss-me, kiss - me - over - the - garden - gate, Kitty-run-the-
streets, leap-up-and-kiss-me, live-in-idleness, look-up-and-
kiss-me, love-in-idle, love-in-idleness, love true, meet-hcr-
i'-th'-entry-kiss-her-i'-th'-buttery, monkey's face, pance,
pansy, paunce, pensy, pink-o'-my-John, stepmother, three
faces in a hood, tickle-my-fancy, tittle my fancy, two-faces-
under-the-sun, violet, violet (horse, trinity), wild love and
idle.

AUTHOR INDEX.

ADAM, J. (1789), 51, 53, 112, 115.
A. D. H. (1900), 70.
Amos, A. (1917), 50.
Anderson, J. (1779), 49, 53.
Andrews, G. H. (1853), igi, 202.
Anzibor, S. (1912), 46.
Armstrong, S. F. (1907), 176.

BARTHE, L. (1918), 106, in.

Bernatsky, J. (1015), 193.

Berry, R. A., Robinson, G. W., and

Russell, E. J. (1918), 199.
Blith, W. (1652), 46.
Borneman (1913), 108.
Brenchley, W. E. (1911), 121.

(1912), 121.

(1913), a, i2i.

(1913), b, 99-

(1915), 121.

(1916-17), 107, 112, 121, 183,

189.

- (1918), 79, 140.
(1919), «, 6.

- (1919), b, 203.

Britten, J., and Holland, R. (1886),

206.
Buckman (1855), 139, 145, 152.

CARRUTHERS, W. (1906), 66.

Clark, G. H., and Fletcher, J. (1909), 4,

12.

Cockayne, A. H. (1915), 70.
Collinge, W. E. (1913), 28, 75.

(1914), 28.

Cox, H. R. (1915), 68.

— (1918), 114.

Crichton Browne} J. (1917), 193.
Culpepper, 189.
Cushhy, A. R. (1918), 192.

DEGEN, A. (1916), 105.
Dorph Petersen (1910), 74.
Dusserre, C. (1916), 60.

EVERSHED, A. F. C. H. (1918), 29.
Ewart, A. J. (1909), 103, 104, 106, no,
"5-

Fleming, C. E. (1918), in.
Fliickiger and Hanbury (1874), 192.
F. M. (1910), 115.

GARCIA Santos (1916), 204.
Garman, H. (1903), 97.
Gerarde (1863), 187, 190, 192.
Gordon, G. P. (1916), 65.
Gumbel, H. (1912), 83.

HALL, A. D.,and Russell, E. J. (1911),

175-

Hanasek, T. Z. (1915), 191.
Hansen, K. (ign), 74.
Hansen und Mez (1916), ig8.
Hardie, W. (1904.), 49.
Henderson, T. B. R. (1909), 115.
Hendrick (1918), 204.
Henslow, G. (1901), 104, 105, in, 112'
Hill, A. W. (1917), 76.
Hiltner (1911), 57.

Hogg, R., and Johnson, G. W. (1863),
• 187-203.

Houghton (1728), 201.
Howitt, J. E. (1916), 107, no.
Hunter, A. (1803), 64.
Hutchison, H. P. (1912), 69.

D'lppOLiro, G. (1913), 95.

JAGUENAUD, G. (1912), 59.
Johnson, C. P. (1861-2), 190, 193, 194,
201, 203.

KELLERMAN, W. A. (1895), no.
Kerner, A., and Oliver, F. W. (1895),

75-

Kling, M. (1915 ?), 191, 193, 201.
Knapp, F. H. (1846), 187, 191, 193,

iQ4. *97. J98, 201.

LiNDLEY,J.,and Moore, T. (1889), 188,

190, 194-202.
Long, H. C. (1912), 50.
- (igio), 47, 139, 152-

°4, i°5. Io6» I07« "5-

FARCY, J. (igio), g6.
Fau, E. (igio), 202.

MAIDEN, J. H. (igi6), in.
Mart'n, J. B. (igi6), 57.

227

328

WEEDS OF FARM LAND

McGeorge, W. T. (1915), 59.
Milburn, T. (1916), 65.
Milne, D. (1915), 75.
Montemartini, L. (1913), 94.
Morettini, A. (1915), 59.

(I9M), 75-

Munerati, O., and Zapparoli, T. V.

(1913), 78.
NBLSON, }. C. (1917), 12.

PARKIN, J. (1918), 79.

Parkinson, J. (1629), 187.

Passerini, N. (1910), 79.

Patterson, H. J., and White, H. J.

(1912), 74.
Pliny (Holland's Translation, 1864),

187, 188, 200.
Pratt, A. (n.d.), 187, 191, 193-202,

205.
Prior, R. C. A. (1879), 207.

RABAT£, E. (1911), 58.
Rendle, A. B. (1915), n.
(1913). SI-

SMITH, J. D. (1917), in.
Stapledon, R. G. (1910), 178.

(1916), n.

Stehler and Schroeter (1908), 108.
Stephenson, J., and Churchill, J. M.

(1834), 194, 202.
Strickland, H. E., Daubeny, Henslow,

and Lindley (1850, 1857), 72.

THEOPHRASTUS (322 B.C.), 192.
UNDHRWOOD, L. M. (1912), 42.

VOELKER.J. A. (1911), 53, 191.
(1918), 54-

WALDRON, L. R. (1904), 78.
Wilson (1847), 186, 189-202, 205.
Woodruffe Peacock, E. A. (1917), a,

17-

(1917), b, 28.

(1918), 16.

Woodville, W. (1790-1792), 188, 191,
194, 195, 199, 202.

GENERAL INDEX.

Achillea millefoliiim. See Yarrow.

Acid soil, 118, 119, 120, 141, 151.

Adventitious roots, 88.

jEthusa cynapium, 73, 106, 128, 206.

Agrimonia eupatoria, 26 (fig.), 188,
189, 206.

Agrimony, 25, 26 (fig.), 116, 188, 189,
206.

Agropyron repens. See Couch-grass.

Agrostis. See Bent-grass.

A. alba, 190, 206.

A. stolonifera, 38, 151, 206.

A. vulgaris, 206.

Aira c&spitosa, 112, 178, 206.

A. caryophyllea, 206.

Ajuga reptans, 207.

Alcliemilla arvensis. See Lady's
Mantle.

A. vulgaris, 178, 207.

Alfalfa, 59, 96. See also Lucerne.

A Ilium ursinum. See Ramsons.

A. vineale. See Crow Garlic and Wild
Onion.

Alluvial areas i?7-

Alopecurtis agrestis, 154. See also
Black Bent.

A. geniculatus, 207.

A. pratensis, 27, 75.

America, 97, 115.

American Weeder, 47.

Ammonium sulphate, 69.

Anagallis arvensis. See Scarlet Pim-
pernel.

Animals, weeds distributed by, 23, 74,

75-

Annual weeds, 46, 58, 84.
Anthemis arvensis. See Corn Chamo-

mile.

A. cotula, 134, 156, 207.
Anthoxanthum odoratum, 182.
Anthriscus sylrestris. See Wild

Chervil.

Anthyllis vulneraria, 187, 208.
Antirrhinum orontium, 208.
Arabis thaliana, 129, 208.
Arable land, eradication of weeds from,

46-63.

— weeds, definition of, 2.
in grass fields, 16.

Arctium lappa, 73.

Arenaria serpyllifolia. See Sandwort.
Arnoseris pusilla, 208.
Arrhenatherum avenaceum, 27, 208.
A. avenaceum var. tuberosum, 39, 41

(fig.).

Arrowhead, 178.
Arsenite of soda, 59, 67, 96.
Artemesia vulgaris, 208.
Asparagus, Bath, 91, 196. See also

Ornithogalitm pyrenaicum.
Assimilation of carbon-dioxide, 5.
Association of weeds with all crops,
162-4.

cereals, 172-4.

peas and beans, 162, 170,

171.

root crops, 162, 164.

"seeds," 162, 166-8.

Aster tripolittm, 118.
Atriplex patula. See Orache.
Australia, 4, n, 43, 59, no.
Avenafatua. See Wild Oat.
A.Jlavescens, 27.
A. strigosa, 12.
Avens, 26, 194.
Awn, hygroscopic, 25, 188.

BALLAST, weeds distributed by, 10, 12.
Barberry, 70.

Barley, 5, 6, 7, 51, 57, 59, 99, 101 (fig.),
115, 161-74.

— meadow, 178.

— wall, 27.

— wild, 112.

Barn field, Rothamsted, 9.

Bartsia odon tiles. See Red Bartsia.

Bartsia, red, 91, 93, 102 (tig.), 148, 149,

150, 156, 165, 174.
Basic slag, 69, 99.
Bastard-alkanet, 195.
Battlefield, Somme, 76.
Beans, 58, 161-74.
Bedstraw, 94.

— ladies'. See Galium verum.

— marsh, 178.
Belgium, 112.

Bellis perennis. See Daisy.

229

\\ I EDS 01 I ARM LAND

Bent, black, 7, 8 (fig.). 52. 120, 134,
"53. 156. 170, i?', 17-4-

Alof>fctirus atfrestis and
Slender Foxtail.
Bent-grass, 38, 88, 126, 127, 151, 156,

169, 174, 176, 179, IQJ, 206.
Bii-nnial weeds, 58, 85, no.
Bilberry, 195.

Bindweed, n, 29 (fig.), 31, 36, 70, 71,
75, 89, 104, 136, 137, 153, 156,

162, 163, 176, 178, 193, 212.

— black, ii, 31, 62, 89, iii, 123, 126,

'5i, 15-:, I57, 169, 170, 173,
197, 220.

— greater, 73.

Birds, weeds distributed by, 28.

Bisulphate of sodium, 60.

Bittersweet, 31, 223.

Blue bur, 11.

Boggy soil, 117.

Bone meal, 69.

Borage, 190, 208.

Borago offtcinalis, 190, 208.

Botanical analysis, 176.

Brae hy podium pinnatiim, 63, 69, 178,

179.

B. sylvdticnm, 63, 69, 178, 179.
Bracken, 64, 65, 67, 104, 181, 198.
Brassica, 11, 20, 75, 82.
B. alba, 139, 146, 147, 156, 165, 209.
B. campestris, 56, 128, 209.
B. sinapis, 56, 76, 136, 139, 147, 151,

156, 162, 163, 173, 209.
Bread, 191, 198, 199, 201..
British Association, 11.
Briza media, 179, 180 (fig.), 209.
Broadbalk field, Kothamsted, 7, 9, 52,

138, 140.
Brome, 1 1 _>.

- false, 63, 69, 178, 179.

— field, 182, 185, 209.

— rough, 178.

- soft, 44, 178, 179.

— sterile, 27. Sec also Bronitis sterilis.
Bromus arvensis, 185, 209. See also

Field Brome.

B. asjur, 205. See also Rough Brome.
B. mollis, 44, 178, 179, 209.
B. sccali nits, 209.
B. sterilis, 27, 186, 209.
Broom, 64.

Broomrape, 20, 70, 79, 91, 93, 96 (fig.),
98, 99, 104, in, 218.

— branched, 97.

— eradication, 98.

— lesser. See Orobanchc minor.
Hryonia dioica, 73.

Bryony, white, 73.

Bugloss, small, 150, 157, 216.

Bulb, 38, 86, 90.

Bulbils, 39, 53.
Bullocks, 75.
Burdock, 73.

Burial, means of seed, 77.
Buried seeds, 64, 76, 78-83, 95, 97
Burnet, salad, 54, 178, 181, 198, 220.
Buttercup, 3; 4, 16, 26, 31, 6< .
i' 5, 115, 178, 221.

— bulbous, 37 (fig.), 38, 87, 129, 177,

— corn, 25, 26 (fig.), 27 (fig.), 57, 58,

87, n6, 120, 134, 135, 153, 158,

170, 174, 221.

— creeping, 18, 28, 38, 40 (fig.), 88,

126, 128, 151, 158, 165, 176, 187.

— tall, 148, 149, 150, 158, 177, 185,

199-

CABBAGE, field, 128.
Calamintha a-.'inos, 209.
Calcifuge, 127.
Calcium carbonate, 118, 119.

— cyanamide, 60, 61.
Calves, 105.

Cami'lina sutirti, 191, 210.
Campanula corn, 150, 157, 215.
Campion, bladder, 70, 73, 148, 158, 171,
174, 201, 223.

— reJ, 128, 216.

- white, 147, 148, 149, 153, 157, 159,
165, 167, 216.

Canada, 4, n, 12, 43, 107, 110, i

Capstlla bursa-pastoris. See Shep-
herd's Purse.

Caraway, 73.

Carbolineum, 62.

Carihimine prntcnsis, 210. See Lady's
Smock.

Cartlnns niituns, 23, 150, 156, 167, 179,
210.

Cur ex, 179, 190, 210.

C. «,'/(/ uca, 210.

C. hirta, 210.

C. vitlpina, ^i<>.

Cargoes, weeds distributed by, i
12.

Carr land, 151.

Carrot, wild, 25, 26 (fig.), 44, 5
86, 147, 148, 156, 167, 179, 212.

Cart tracks, weed flora of, 16, 183.

Carnm carvi, 73.

Catmint, 73.

Cat's ear, io«, 151, 179, 186, 215.

Cat's tail, 16. See also Phleum pru-

IfHSf.

Cattle (and cows), 74, 75, 104, 107,

InS, I Id, III, I.Sfl, 1.^7-205.

Caucalis, knotted.
Cancalis nodosa, 128, 210.

GENERAL INDF.X

Centaurea nigra, 149. See also Hard-
head.

C. scabiosa. See Greater Knapweed.

Cerastiitm vulgatum. See Mouse-ear
Chickweed.

Cereal crops, 54, 62, 99, 159-74.

Chalk, intolerance of, 132, 133.

— land, weeds of, 124, 146.

— manuring, 51.

— soil, 117, 122, 127.
Chamomile, 16, 74, 76, 87, 115, 131,

132, 157. 217.

— corn, 62, 129, 130, 151, 156, 167,

207.
Characteristic weeds, 123, 134, 135,

141, 146, 153.
Charlock, 4, ir, 16, 17, 20, 28, 56, 57,

58, 59, 60, 61, 62, 70, 76, 8r, 82, 83,

85, 87, 95, 104, 115, 136, 139, 146,

147, 151, 156, 160, 162, 163, 173.

See Brassica spp.
Chemical means, eradication by, 45,

54-63, 66-70.

Chenopodium album. See Fat Hen.
Chervil, wild, 17, 46, 64, 176, 179, 185,

207.

Chickweed, 4, 9, 18, 19, 28, 31, 46, 62,
85, 87, 112, 123, 126, 127, 151,
158, 169, 183, 201, 224.

— mouse-ear, 16, 17, 19, 28, 87, 126,

128, 156, 165, 168, 174, 181, 183,
2ir.

Chicory, 54, 117, 191, 211.
Chloride of lime, 62.
Chrysanthemum Icucanthemum. See

Dog Daisy.

C. segetum. See Corn Marigold.
Cichorium intybns. See Chicory.
Cicuta virosa. See Cowbane.
Cicntin, in.

Cinquefoil, creeping, 38, 129, 198, 220.
Circaa lutetiana, 27.
Cirsium acanlc, 65, 211.
C. arvense, 36, 179. See also Creeping

Thistle.
C. lanceolatuni, 23, 179. See also Spear

Thistle.

C. palustre. See Marsh Thistle.
Classification of soils, 122.
Ciay, 117, 120, 122, 127, 129.
Cleaning crops, 49, 161.
Cleavers, 52, 85, 116, 153, 157. See

also Goosegrass.
Climbing weeds, 89.
Clover, 6, 50, 51, 53, 5 4, 55, 67, 75, 91
93i 95> 9A 9^i in, I59. 166.

— suckling, 44.

— sweet, n, 104. See also Melilotus.

Cocksfoot, 26, 182, 185, 186.

Coffee substitutes, 189, 191, 193, 202.

Colchicine, 108.

Colchicum antumnale, 38, 91, 107, 109

(fig.), 178, 192, 212. See also

Autumn Crocus and Meadow Saffron.
Colonisation of dumps by weeds, 12.
Coltsfoot, 18, 23, 24 (fig.), 34 (fig.), 37,

53, 89, 120, 136, 137, 138, 158, 165,

166, 202, 225.
Competition, aerial, 6, 50, 159.

— between plants, 5, 68, 117, 118, 119,

120, 127, 132, 159, 160, 166. 174,
181.

— root, 6.
Compost heap, 48.
Coniine, 106, 192.

Conium maculatiim. See Hemlock.
Conopodinm denudattim. See Pignut.
Continuous cropping, effect of, 7, 9.
Convolvulus, 75.
C, arvensis. See Bindweed.
C. major, 73.

Copper sulphate, 55, 56, 57, 59, 67.
Corm, 38.

Corn cockle, 4, n, 104, 105, 106, 126,
157, 186, 216.

— gromwell, 146, 147, 157, 195, 216.

— salad, narrow fruited, 73.
Cornflower, 58, '62.
Cosmopolitan weeds, 4, 128.
Cotton-grass, 177.

Couch grass, 16, 17, 32 (fig.), 36, 48,
50, 53, 88, 120, 127, 136, 138, 156,
169, 174, 176, 179, 189, 206.

— onion, 39, 41 (fig.), 90, 208.
Cowbane, 104, no. See also Water

Hemlock. ,
Cowslip. 181, 220.
Cow-wheat, 93, 112.
Crane's-bill, 20, 214. See also Geran-
ium.
- small-flowered, 150, 157, 167.

— soft or dove's foot, 129, 130, 157,

167, 172, 173, 174, 183, 214.
Creeping jenny, 178, 217.

— weeds, 88.
Crcpis, 23.

C. taraxafifolia, 178, 212.

C. virens, 97, 212.

Crocus, autumn, 10^. See also Colchi

cum antumnale.
Cudweed, 23, 150, 156, 167, 213.

— marsh, 141, 146, 157,214.
Cultivation, weeds of, 10.
Cumarin, 115.

Cuscuta. See Dodder.
C. arvcnsis, 95.
C. epilinum, 94.
C. tfitkymitm, 94.
C. cur opira, 94, 212.
C. gronovii, 95.

232

IV] I.DS 01- FARM LAND

C. trifolii, 93 (fig.), 94, 95, 212.
Cutting, eradication of weeds by, 64,
65.

Dactylis glomerata. See Cocksfoot.
Daffodil, 181.

Daisy, 16, 28, 88, 128, 178, 181, 183,
208.

— dog or ox-eye, 63, 68, 115, 128, 178,

179, 186, 211.

Dandelion, 16, 23, 24 (fig.). 26, 28, 67,

88, 148, 149, 151, 158, 171, 179, 185,

201, 224.

Darnel, n, 104, 112, 114, 115, 216.
Daucus carota, 97. See also Wild

Carrot.

Dead-nettle, red, 87, 131, 132, 157, 169,
215.

— white, 1 88.

Destruction of weed seedlings, 3.
Digitalis pttrpurea, 97.
Discouragement of weeds by peas and

beans, 162, 171, 172.
- — root crops, 162, 165, 166.

" seeds,' 162, 168.

Diseases, fungus, 70.
Distributed weeds, 122.
Distribution of weeds, 10, 152.
Dock, 4, 21, 26, 28, 43, 44, 45, 46, 48,
69, 88, 95, 176, 177, 179. See
also Rnmex spp.

— blood-red. See Rumex sanguineus.

— broad-leaved, 16, 22 (fig.), 73, 131,

J33, 15&> *77i 183, 185, 200. See
also Rumex obtusifolius.
— curled, 47, 123, 126, 127, 151, 158,
162, 163, 164, 222. See also
Rumex crisp us.

— sharp, 177, 185. See also Rumex

conglomerate.

Dodder, 4, 20, 59, 75, 91, 93 (fig.), 94,
95. 96, 99, 104, 179.

— clover, 93, 94, 95, 96.

— eradication of, 95.

— flax, 93.

— lesser, 94.
Dog's mercury, 95.
Dog's-tail, 182.
Dominant weeds, 122.
Dominions, 43, in, 115.
Drainage, 107, 177, 181.
Dry storage of seeds, 73.
Duration of weeds, 84.

" Dutch Pink," 188.
" — rushes," 193.
Dyer's Rocket, 188.

— weed, 112.

Dyes, 188, 189, 194, 195, 197, 199,
204.

Kchium vttlgarf, 212. See also Viper's

Bugloss.

Elliott's mixture, 53,54, 191.
Epilobium, 23, 25 (fig.).
E. angusti folium, 76. See also I-'ire-

weed.

E. hirsutum, 212.
Equisetum, 106, 107, 178, 213. See

also Horsetail.

E. arvense, 107. See also Horsetail.
E. hyemale, 193.
E. palustre, 66, 107.
Eradication of weeds, 45, 71.
Erect weeds, 86.
Erigeron canadense, -215.
Erodium cicutarium, 213.
E. spp , 20, 213.
Erysimum c heir ant h aides, 213.
Euphorbia. See Spurge.
E. exigua, 152. See also Dwarf

Spurge.

E. helioscopia. See Sun Spurge.
E. peplus. See Petty Spurge.
Eiiphrasia, 93.

E. officinalis. See Eyebright.
Eyebright, 93, 179, 213.

FAIRY rings, 181, 182.

Fallowing, 52, 102.

Farm implements, weeds distributed by,

15, 45-

Fat hen, 12, 13 (fig.), 16, 31, 48, 74,
75, 85, 87, i?3, 126, 127, 140, 151,
152, 156, 169, 173, 174, 183, 190,

211.

" Fatting " pasture, 176.
Feeding value, 175, 176, 177, 179.
Fen land, 151.
Fescue, tall. 27.
Festuca elatior, 27.
Fibre, 190, 203, 204.
Filago germanica. See Cudweed.
Fireweed, 76, 83.
Flax, 94.
- purging, 104, 108, 109 (fig.), 176,

178, 216.

Flour substitutes, 189, 191! 201.
Fodder, 189, 190, 191, 193, 198, 201,

202, 204.

Fool's parsley, 17.
Forget-me-not, 17, 27, 122, 126, 128,

157, 168, 174, 217.
Foxtail, 27, 75, 185, 186.

— slender, 16. See also Alopecurus

agrestis.
France, 51, 60, 115.
Frequency of occurrence, 122, 124.

— percentage of, 125, 161.
Frittllaria meleagris, 181.
Fritillary, 181.

GENERAL INDEX

233

Fruits and seeds, weeds distributed by,

18.

Fumaria officinalis. See Fumitory.
Fumitory, 62, 85, 147, 148, 149, 156,

171, 193, 213.
Fungi, 181, 182.
Fungus diseases, 70.

Galeopsis tetrahit, 151, 213.

Galium aparine, 213. See also Goose-
grass and Cleavers.

G, tricorne, 214.

G. rerum, 181, 188, 194, 214.

Garlic, 3, 112, 113 (fig.), 114, 115, 176,
178, 207. See also Wild Onion.

Gas lime, 69.

Geese, 105, 187-205.

General occurrence, weeds of, 123, 124.

Genista tinctoria. See Woodwax.

Geranium, 20, 214. See also Crane's-
bill.

Geranium, 21, 87, 159. See also
Crane's-bill.

— cut-leaved, 134, 153, 157, 167.

Geranium dissectum, 214. See also
Cut-leaved Geranium.

G. molle, ii. See also Soft Crane's-
bill.

G. pratense, 214.

G. pusillum, 150, 157, 167, 214.

G. robertiamtm, 11.

G. sylvaticum, 65.

Geranium, wood, 65.

Germany, 68, 107.

Germination of weed seeds, 3, 7, 14,

47, 72» 74. 83, 94» 97-
Geum, 116.
G. urbanum, 26, 194.
Githagin, 105.
Glaux maritima, 118.
Gnaphalium uliginosum, 23. See

Marsh Cudweed.
Goats, 106, 108, 187-205.
Goatsbeard, 23, 24 (fig.), i8r, 224.
Gold-of- pleasure, 190, 210.
Goosegrass, 25, 26 (fig.), 27, 28, 31,

90, 136, 138, 169, 174, 193, 214. See

also Cleavers.

Gorse, 4, 71, 73, 78, 93, 202.
Grass-land weeds, definition of, 2, 176.

eradication of, 63-70.

Grazing, eradication of weeds by, 63,

64.
— with cattle, 63, 64.

geese, 64.

— sheep, 63, 64, 102, no.
Ground ivy, 104, 129, 195, 217.
Groundsel, 9, 16, 23, 24 (fig.), 28, 62,

85, 87, 126, 127, 151, 158, 162, 163,

164, 183, 200, 223.

HABITS of growth of weeds, 86.
Hardhead, 23, 63, 146, 147, 156, 171,

178, 179, 210.
Hawaii, 59.

Hawkbit, 16, 23, 24 (fig.), 70. See
also Lcontodon spp.

— autumnal, 17, 215.
Hawk's-beard, 23

— beaked, 178, 212.

Hawkweed, mouse-ear, 23, 38, 39 (fig.)i

176, 181, 215.
Heath, 78, 94.
Heating in stack, 90.
\ Heavy land, weeds of, 123, 134.
Hemlock, 4, 46, 73, 86, 104, 106, 176,
187, 192, 212.

— water, 104, no, in.
Hemp, 97.

Henbit, 150, 157, 215.

Heracleum sphondylium. See Hog-
weed.

Hieracium pilosella. See Mouse-ear
Hawkweed.

Hippocrepis comosa, 17.

Hogweed, 21, 22 (fig.), 27, 112, 147,
148, 149, 157, 179, 182, 194, 214.

Holcus lanatus. See Yorkshire Fog.

Holland, 190.

Hooked fruits, 25, 115.

Hoos field, Rothamsted, 7.

Hordeum murinum, 27.

H. pratense, 178, 215.

Horses, 74, 75, 104, 105, 107, 108, no,
in, 186, 187, 204.

Horsetail, 31 (fig.), 36, 89, 104, 106,
136, 140, 151, 153, 156, 169, 193,
213. See also Equisetum spp.

— field, 106, 107, 178. See also

Equisetum spp.

— marsh, 66, 107.
Huffcaps, 112, 178, 205.

Human beings, weeds distributed by,

23, 26.

Hygroscopic awn, 25, 188.
Hypericum hirsutum, 73.
Hypochceris radicata, 97. See also

Cat's Ear.

IMPURE seed, transport, 10.

India, 75.

Insect pests, 70, 71.

Ireland, 43.

Iron sulphate. 55, 57, 58, 59, 61, 67, 96.

Isatis tinctoria, 194.

Isle of Man, 43.

Italy. 70.

Ivraie, 115.

Juncus. See Rush.
J. articulatus, 215.

I ARM LAND

;

. btifonius. See Toad Bush.
, 215.
215.

KAINIT, 60, 61, 62, 68.
" Kcndal green," 194.
Knapweed, greater, 23, 147, 148, 156,

211.
Knawel, annual, 87, 120, 141, 142, 143

(fig.), 158, 200, 223.
Knotgrass, 16, 19 (fig.), 28, 31, 48, 53,

81, 87, 95, 124, 126, 127, 151, 157,

16^, 170, 183, 197, 219.

LADY'S mantle, 87, 131, 132, 153, 156,
168, 172, 174, 178, 207.

— smock, 178, 210.

Laniinm amplfxicatde, 150, 157, 215.
L. piirpurcnm. See Red Dead-nettle.
Lappttla cchhiatii, n.
Lapsana tommiinis. See Nipplewort.
Lathyrus macrorrhisns, 215.
L. pratensis, 215.
Lawns, 67, 182.
Laying down to grass, 52, 53.
Legislation, weed, 43, 44, 94.
Legousin hybrida, 150, 157, 215.
Leontodon. See Hawkbit.
L. auttuniHilis, 17, 215.
L. hispidus, 215. See also Hawkbit.
Lettuce, lamb's, 146, 147, 158, 225.
— wild, 95.
Ley, 87, 166.

Light land, w^-eds of, 124, 141.
Lime, 61, 62, 68, 69, 98, 118, 119, 141.

— nitrogen, 60, 61.

— requirement, 119.

— soils deficient in, 62, 69, 118, 145.
Liimria tlnthir, 215.

L. minor, 215.

L. spuria, 215. See also Round-leaved

Toadflax.

L. vnlgaris. See Toadflax.
Liniim catharliciim. See Purging Flax.
Lithospertium arvcnse. See Corn

Gromwell.
Loom, 117, 122.

— heavy, 122, 129.

— light, 122.
Lodging of cerea's, 89.

Lolitim tcmnlcntiitn. See Darnel.

Longevity of seeds, 73.

Loos. strife, purple, 178.

Lotus corniculatus, 17, 97.

Louse wort, 179.

Lucerne, 50, 95, 96, 98. See also Al-

falfa.
Lupin, 58.

Luziila (dmpcstris, 216.
Lychnis alba = L. vespertina, 216.

L. dime a, \

L. ftos-i •iicnli. See Ragged Robin.

L. xitlint;i>. See Corn Cockle.

',i!u:,i. See White Campion.
Lycopsis arvcnsis, 150, 157,
Lysimucliia niimmiilaria. See Creep-
ing Jenny.

MADDER, field, 126, 128, 158, 159, 167,

i?4. 223.
Manure heap, weeds of, 48, iSj.

— weed seeds in, 75.

— weeds distributed by, 12, 49, 75.
Manures and Manuring, 9, 48, 54, 55,

60, 62, 66, 68, 98, 182, 189, 191, 193,
198, 201, 203.

Marigold, corn, 51, 87, 117, 141, i.j5
(fig.), 156, 211.

— marsh, 178.
Marsh plants, 178.

Mntricaria clmmoniilla. See Chamo-

mile.

M. inodora. See Mayweeds.
Mayweed, 16, 31, 62, 74, 87, 95, i<>(,
115, 132, 183, 187.

— scentless, 131, 132, 151, 157, 165,

174, 217.

— stinking, 134, 156.
Meadow-grass, annual, 87, 131, 132,

151, 157, 169, 170, 174, 183, 219.

— rough-stalked, 182, 183, 184 (fig.),

I«5.

— smooth-stalked, 185.
Meadowsweet, 177, 224.
Mechanical means, eradication of weeds

by, 45. 16-54, 63-6.
Medicago, n, 58. See also Medick.
M. Itipulina, 74, 97, 217.
M. satira, 97.
Medicinal uses of weeds, 187, 188, 189,

igi, 192, 193, 194, 195, 196, 20r
202.

Medick, 58, 166. See also Medicago.

— black. See Mcdic»^o lupitliim.
Melampyrum, 93, 112.

Melilot, 112, 115.

Melilotns, 112, 115.

M. officinalis, 217.

Mcntlia aqiiatica, 217.

M. arrensis. See Corn Mint.

Mt-rfiiriulis ptrcnnis, 95.

Mignonette, wild, 124, 146, 147, 158,

167, 188, 221.
Migration of weeds, 43.
Milk, tainting of, 112, 113, 114, 115.
Milkwort, 178, 219.
Mint, 178.

- corn, 88, 136, 140, 157, 169, 217.
Mixen-weed, 48.
Moisture, weeds distributed by, 15, 16.

INDKX

235

Morning glory, 75.

Moss, 69, 70.

Mosses, 181.

Muck-weed, 48.

Mud, weeds distributed by, 15, 16.

Mullein, great, 73.

Mustard, 50, 75, 115.

— ball, n.

— hedge, 129, 223.

— mithridate, 17, 224. See also

Thlaspi arvenie.

— white, 123, 139, 146, 147, 156, 165.
Mycelium, 182.

Myosotis arvensis. See Forget-me-not.
M . palustris, 217.
M. versicolor, 217.
Myosurus minimus, 217.

Narcissus pseudo-narcissus, 181.
Nepeta cataria, 73.
N. glechoma, 129, 195, 217.
Neslia panicttlata, n.
Nettle, hemp, 151, 213.

— small, 141, 143, 153, 158, 225.

— stinging, 46, 62, 64, 65, 66, 68, 88,

94, 95, 129, 176, 179, 185, 186,

188, 194, 203, 225.
New Zealand, n, 70, no.
Nickel sulphate, 59, 60.
Nightshade, black, 31, 95, in, 224.

— enchanter's 26.
Nipplewort, 87, 136, 140, 157, 215.

OAT, tall, 27, 42, 176.

— wild, 4, 12, 15, 16 (fig.), 25, 51, 58,

71, 188, 208.

— yellow, 27.

Oats, n, 50,57, 59,61, 78, 100, 112, 161-

74-

Occasional weeds, 122.

(Enanthe crocata, 73.

CE. pimpiiielloides, 217.

Oil, 190.

Onion, wild, 17, 18, 38, 39, 53, 58, 91.
See also Garlic.

Ononis repens = O. arvensis, 18, 179,217.

Orache, 12, 14 (fig.), 62, 81, 87, 136,
140, 151, 156, 169, 183, 188, 208.

Orchard grass, 186. See also Cocks-
foot.

Orchis, early. See Orchis mascttla.

Orchis maculata, 218.

O. mascula, 195, 196, 218.

O. tuorio, 218.

Ornithogalum pyrenaicum, 38, 91, 196,
218.

Ornithopus perpusillus, 218.

Orobanche. See Broomrape.

O. major, 218.

O. minor, 96, 97, in.

O. ramosa, 97.
Oyercrowding, effect of, 5, 6.

" PANAISIE," 112.

Pansy, field, 31, 87, 147, 148, 149, 151

152, 158, 165, 167, 226.
Papaver argemone, 131, 133, 157, 218.
P. dubium, 128, 218.
P. hybridum, 219.
P. rhceas. See Poppy.
Paper-making, 189.
Pappus, 23.

Parasites, eradicat on of weeds by, 70.
Parasitic weeds, 91, 92-102, 179.
Parsley, fool's, 73, 104, 106, 128, 206.
Pasture, calcareous, 64.

— down, 63, 69.

— old, 2, 76, 77, 79.
Pea, wild, 71.
Peas, 48, 58, 161-74.
Peat, 122, 144, 177.

— soils, weeds of, 124, 150.
Pedicularis, 93.

P. palustris, 179.
P. sylvatica, 219.
Pennycress, 115. See also Thlaspi

arvense.

Pennywort, 178.
Perennial weeds, 46, 86, 88.
Persecaria, 17, 31, 62, 104. See also

Willow-weed.
Pests, insect, 70, 71.
Pheasant crops, weed seeds in, 29.
Phleum pratense, 75. See also Cat's-

tail.

Physiological conditions in soil, 83.
Pig, 74, 105, 108, 187-205.
Pignut, 38, 87, 178, 181, 185, 186, 192,

193, 212.
Pigweed, 75.
Pimpernel, scarlet, 16, 19, 31, 73, 85,

87, 104, 147, 148, 149, 156, 165, 173,

187, 207.

Pimpinella saxifraga, 219.
Plant nutrition, 92, 94, 99.
Plantago coronopiis, 219.
P. lanceolata. See Ribwort Plantain.
P. major. See Greater Plantain.
P. media. See Hoary Plantain.
Plantain, 31, 74, 88.

— greater, 9, 16, 88, 136, 157, 165, 173,

181, 183, 184 (fig.), 197, 219.

— hoary, 73, 88, 94, 120, 134, 153, 157,

181, 183, 197, 219.

— ribwort, 28, 74, 88, 123, 126, 127,

157, 167, 172, 173, 181, 197, 219,
Ploughing, deep, 51.

— effect of, 46.

Plumed fruits, 23, 24 (fig.).

— seeds, 23, 25 (fig.).

236

WEEDS OF FA KM LAND

Poa annua. See Annual Meadow-
grass.

P. pratrnsis, 185.

P. trivialis. See Rough-stalked
Meadow-grass.

Poisonous plants, 104-11, 176, 178.

Poly gala vulgaris, 178, 219.

Polygonum aviculare. See Knotgrass.

P. convolvulus. See Black Bindweed.

P. lapathijolium, 220.

P. persecaria. See Willow-weed and
Persecaria.

Poor-man's weather-glass, 149. See
Scarlet Pimpernel.

Poppy, 5, 1°, 20, 45, 56, 58, 61, 62, 70,
76, 81, 83, 85, 87, 104, 117, 128,
129, 130, 153, 154, 157, 160, 165,
173, 187, 196, 219.

— Destroyer, 47.

- pale, 131, 133, 157, 218.

red, 128. See also Pafaver

dubhim.

" Poppyland," 154.
Pot cultures, 118.
Potash, 60, 199.
Potassium chloride, 60.
Potatoes, 58.

Potentilla nnserina. See Silverweed.
P. reptans. See Creeping Cinquefoil.
P. tormentilla. See Tormentil.
Poterhtm sangnisorba, 97. See also

Salad Burnet.
Poultry, 105, 187-205.
Prairie sunflower, n.
Prevention of weeds, 43-5.
Primula veris, 181, 220.
Proclaimed plants (weeds), 4, 43.
Prostrate habit of grasses, 183, 185.
Prunella vulgaris, 129, 181, 220.
Prussic acid, 109.
Pteris aquilina. See Bracken.
Puffballs, 182.

QUAKER Grass, 178, 179, 180 (fig.),
209.

RADISH, wild, 48, 58, 60, 6r, 62, 85, 87,

104, 126, 128, 158, 221.
Ragged Robin, 151, 177, 216.
Ragwort, 16, 65, 104, 109, no, 178,
223.

— eradication of, no.

Ramsons, 38, 112, 113 (fig.), 114, 178,
190, 207.

Ranunculus. See Buttercup.

R. acris, 26, 220. See also Tall Butter-
cup.

R. arvensis. See Corn Buttercup.

R. bulbosus, 26, 221. See also Bulbous
Buttercup.

R. hirsutiis, 221.

R. repens, 221. See also Creeping

Buttercup.
Rape, 52.
Raphanus raphanistrum. See Wild

Radish.

Rapistrum rugosum, n.
Rattle, red, 93.

— yellow, 18, 21, 22 (fig.), 64, 91, 93,

98, 99, loo (fig.), lor (fig.), 102,

104, 178, 179, 199, 222.

Reproduction, sexual, 18.

— vegetative, 18, 31, 86.
Reseda, 112.

R. lutea. See Wild Mignonette.

R. lutcola, 188.

Reserve food, 85, 87, 97.

Respiration, 5.

Restharrow, 18, 179, 217.

Rhinanthus crista-galli. See Yellow

Rattle.

R. major, 99, 100 (fig.), 101 (fig.).
R. minor, 98.

Rhizomes, 88, 89, no, 138, 189.
Ribgrass, 2, 4, 182. See also Ribwort

Plantain.
Root crops, 6, 9, 49, 51, 58, 159, 161-

74-

Rose-bay, 76.
Rosette weeds, 88, 176.
Rotation of crops, 6.
Rothamsted, 7, 42, 52, 59, 74, 79, 82,

n8, 138, 139, 140, 152, 154.
Rumex acetosa, 144. See also Sorrel.
R. acetosella. See Sheep's Sorrel.
R. conglomeratus, 44, 222. See also

Sharp Dock.
R. crispus, 44, 69, See also Curled

Dock.
R. obtusifolitts, 44, 69, 179, 183, 222.

See also Broad-leaved Dock.
R. sanguineus, 26, 177, 222.
Running grasses, 49.
Rush, 66, 88, 177, 178, 179, 200, 215.

— toad, 20, 76, 183, 215.
Russia, n, 107.

Rust, 70.

Ryegrass, 16, 53, 54, 182, 185, 186.

SAFFRON, meadow, 108, 176, 187. See
also Colchicum antiinitiale, and
Autumn Crocus.

Sainfoin, 55, 96.

St. John's wort, hairy, 73.

Salep, 196.

Salicornia spp., 118.

Salsify, purple, 73.

Salt, 67, 68, 99, 102, 118.

— marshes, 118.

Sandy land, 117, 120, 122, 141.

GENERAL INDEX

237

Sandwort, 31, 129, 130.

— thyme-leaved, 85, 156, 168, 174, 208.
Scabiosa arvensis. See Scabious.

S. sttccisa, 222.

Scabious, 124, 148, 158, 171, 179, 222.

Scale leaves, 32.

Scandix pecten. See Shepherd's

Needle.

Scarce weeds, 122.
Scleranthiis annum. See Annual

Knawel.

Scour, 107, 193.
Scrambling weeds, 89.
Sedge, 178, 179, 190, 210.
Seed production, abundant, 18, 77, 84.

— Testing Station, 44.
Seedlings, destruction of, 3.

" Seeds" crops, 6, 132, 161-74.

Selfheal, 129, 181, 220.

Senebiera coronopus. See Swine-cress.

Senecio jacobcea. See Ragwort.

S. vulgaris. See Groundsel.

Serradella, 55, 58.

Serratula tinctoria, 223.

Sexual reproduction, 18.

Sheep, 107, 108, no, in, 116, 186,
187-205.

Sheep's sorrel, 4, 18, 28, 36, 44, 49, 62,
68, 69, 74, 104, in, 118, 119, 120,
141, 143, 144 (fig.), 151, 153, 154,
158, 162, 163, 174, 179, 223.

Shepherd's needle, 25, 28 (fig.), 50,
87, 126, 127, 153, 155, 158, 165,
173, 223.

— purse, 4, 16, 17, 20^ 85, 88, no,

112, 126, 127, 156, 162, 163, 164,

183, 210.

Sheradia arvensis. See Field Madder.
Silage crops, 50.
Silene anglica, 223.
S. inflata. See Bladder Campion.
S. noctiflora, 223.

Silverweed, 16, 38, 88, 104, 126, 128,
151, 158, 171, 179, 183, 184 (fig.), 197,

220.

Sisymbriiim officinale, 129, 223.
Smother crops, 50, 51, 159, 166, 170.
Sodium arsenite, 59, 67, 96.
— bisulphate, 60.

— nitrate, 96.

Soils, classification, 122.

Solamtm dulcamara, 31, 223.

S. nigrum, 31, 95, in, 224.

Somme battlefield, 76.

Sonchus arvensis. See Corn Sow-
thistle.

S. oleraceus. See Sowthistle.

Sorrel, 21, 36 (fig.), 38, 68, 104, 118,
119, 178, 179, 182, 185, 186, 188, 199,
222. See also Rumex acetosa.

Sour land, 141.

Sowthistle, 23, 62, 70, 95, 201, 224.

— corn, 9, 18, 33 (fig.), 36, 48, 136,

I5I» I58» 162, 163, 164, 224.
Speedwell, 19, 31, 62, 87.

— field, 16, 17, 81, 82, 122, 126, 127,

139, 158, 162, 163, 164, 173, 225.

— germander, 181, 225.

— ivy-leaved, 82, 85, 131, 158, 169,

225.

— large field, 136, 139, 158, 169, 170,

225.

— thyme-leaved, 150, 158, 183, 225.

— wall, 131, 158, 168, 172, 174, 225.
Spergula arvensis, 154. See also

Spurry.

Spiraafilipendula, 224.
S. nlmaria. See Meadowsweet.
" Splits," 125.
Spraying, time of, 56.
Sprays, 9, 54, 55, 59, 66, 67, 96.
Spurge, 20, 85, 87, 104, in, 213.

— dwarf, 16, 136, 138, 156, 165, 213.

See also Euphorbia exigua.

— petty, 126, 128, 156, 213.

— sun, 129, 130, 156, 171, 174, 187,

213.
Spurry, 4, 16, 19, 21, 22 (fig.), 31, 56,

62, 85, 87, 117, I2O, 123, 141, 142

(fig-). 151, 153, 158, 160, 169, 170,
173, 174, 201, 224. See also Spergula
arvensis.

Stachys arvensis, in, 224.

S. betonica, 224.

S. palustris, 224.

Stagger weed, in.

Star-of-Bethlehem, spiked, 38, 196.
See also Ornithogalum pyrenaicum.

Stellaria graminea, 224.

S. media, 130, 19 1. See also Chick-
weed.

Stinkweed, 115. See also Thlaspi
arvense.

Stitchwort, 187.

Stork's-bill, 20, 213.

Storm columns, weeds distributed by,

17-

Struggle for existence, 120.
Stia-da fniticosa, nS.
S. maritima, 118.
Sub-dominant weeds, 122.
Sulphate, ammonium, 69.
- copper, 55, 56, 57, 59, 67.

— iron, 55, 57, 58, 59, 61, 67, 96.

— nickel, 59, 60.
Sulphuric acid, 55, 58, 60, 67.
Superphosphate, 69.
Survey, weed, 121.

Swine-cress, 16, 87, 136, 137, 158, 183,
223.

•38

\\ BEDS OI I ARM I. AND

Switzerland, 108, 191.

Swollen internodes, weeds with, 90.

— stems, 38.
Symptomatic weeds, xzo1 134.

TAINTING of milk, 112, 113, 114, 115.
Taraxacum vulgare. See Dandelion.
Tares, 50, 114.
Tarred paper, eradication of weeds by,

66.

Tasmania, weeds, 4.
Tea substitutes, 189, 194, 201.
Temporary grass, 162-74.
Tendril, 90.

" Testing of Seeds " Order, 44.
Thalecress, 129, 208.
Thatch, 190, 198.

Thistle, 18, 36, 43, 45, 47, 48, 61, 64,
65, 67, 68, 89, 127, 176, 179.

— creeping, 4, 9, 16, 23, 24 (fig.), 30

(fig.), 70, 82 (fig.), 95, 126, 127,
156, 162, 163, 164, 183, 186, 211.

— marsh, 66, 86, 211.

— milk, 4.

— musk, 150, 156, 167. See also

Cardtius nutans.

— spear, 86, 128, 167, 211.

— stemless, 65, 211.
Thlaspi arvcnse, 17, 115, 224.
Threshing machines, 15, 45.
Thyme, 94, 178.

Timothy, 75.

Toadflax, 21, 31, 146, 147, 153, 157,

162, 163, 195, 215.
— round-leaved, 147, 148, 150, 157.
Toadstools, 182.
Tomato, 97.
Tor grass, 69.
Tormentil, 104, 198, 220.
Tragopogon porrifolius, 73.
T. pratensis. See Goat's- beard.
Trailing weeds, 87.
Transport of impure seed, 10.

— weeds distributed by, 10.
Transvaal, weeds, 43.
Trefoil, 166.

— bird's-foot. See Lotus corniculatus.
Trifolium, 75.

T. angulatum, 44.
T. arvense, 97.
T. (lithium, 44.
T.Jiliformc, 97.
T. parviflorum, 44.
T. pratensf, 97, 119.
T. procumbent, 44.
T. repent, 97.
T. striatum, 97.
T. strictttm, 97.
T. tubterraneum, 97.

Triticum repent — Agropyron ;<

225.

Tuber, 38.
Tufted weeds, 87.
Turnip crop, 51.

Tussilagofarfara. See Coltsfoot.
Twitch^ 47, 48, 49, 127.

UBIQUITOUS weeds, 123, 125.
Ulex cur opa us. See Gorse.
Underground stems, 9, 31, 46, 86, 88,

104, in.

United States, 4, 114.
Urtica dioica, 129, 179, 188, 194, 203,

225. See Stinging Nettle.
U. urens, 179. See a!so Small Nettle.

Vaccininm uliginosum, 195.

Valerian, common, 73.

Valeriana officinalis, 73.

V. den tat a, 73.

V. olitoria, 146, 147, 158, 225.

Vegetative reproduction, 18, 31, 86.

Verbascum thapsus, 73.

Vernal-grass, 182.

Veronica agrestis. See Field Speed-
well.

V. arvensis. See Wall Speedwell.

V. chanitedrys. See Germander Speed-
well.

V. hederce folia. See Ivy-leaved Speed-
well.

V. serpyllifolia. See Thyme-leaved
Speedwell.

V. tournefortii, 81. See also Large
Field Speedwell.

Vetch, common, 73.

— horse-shoe, 17.

— kidney, 187, 208.

— narrow- leaved, 21 (fig.), 226.

— tufted, 17, 18, 226.

— wild, ii, 20, 90. See also Vicia

septum.

Vetches, 50, 53, 58.
Vetchling, 58.

Vicia, 20. See also Wild Vetch.
V. angustifolia, 21 (fig.), 226.
V. cracca, 17, 18, 226.
V. hirsuta, 226.
V. sativa, 73, 226.
V. sepium, 226.
V. tetrasperma, 226.
Viola tricolor. See Field Pansy.
Viper's Bugloss, 104, 212.

WATER culture experiments, 5.
Watercress, n, 178.
Water dropwort, hemlock, 73.
Water grass, 47. See also Agrostis.

— logging, 66, 1 18, 133, 177.

I. INDIA

239

Water plants, 178.

Weed communities, 117, 120, 124.

— flora, introduced or alien, 4, n.

of gateways, 16, 183.

paths, 183.

- — rick sites, 185.
— shady places, 177, 185, 186.

— trodden places, 183, 184.
Weeds harmful to farm products, 112-

116.
human heings, 103-12.

— live stock, 103-12.

Wheat, 5, 6, 7, 52, 58, 70, 102, 105,

112, 114, 160-74.
Willow-herb, 23, 25 (fig.). See also

Epilobium spp.

Willow-weed, 66, 70, 76, 117, 131, 133,
151, 157, 169, 188, 220. See also
Persicaria.

Wind, weeds distributed by 17, 21.

Winged fruits, 21, 22 (fig.).

— seeds, 21, 22 (fig.), 99.

Woad, 194.

Woburn Experimental Station, 53.

Woodwax, 35 (fig.), 37, 66, 115, 176,
779, 188, 194, 214.

YARROW, 17, 28, 115, 128, 151, 179,

182, 188, 206.

Yellow Rattle, eradication, 99.
Yorkshire Fog, 2, 27, 44, 176, 179, 185,

215.

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