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DEPARTMENT OF AGRICULTURE

INSECT PESTS AND PLANT DISEASES

CONTAINING
REMEDIES AND SUGGESTIONS

“FARMERS, FRUIT-GROWERS, AND GARDENERS OF THE PROVINCE,

PREPARED UNDER THE SUPERVISION AND AUTHORITY OF THE

wee

PROVINCIAL BOARD .OF HORTICULTURE.

VICTORIA, B.C.
Printed by Ricnarp WoLFENDEN, Printer to the Queen’s Most Excellent Majesty
os 1807,.. : :

ERRATA.

Read obtaining for “obtained,” line 30, page 3.
S. Lanigera for «8. Lavigera,” line 34, page 14,
" Bembecia Marginata for « Bembicia Marginata,” line 10, page 29.
un Selandria cerasi for « Selendria cerast,” line 40, page 38,
« Aphides for “ Aiphides,” line 29, page 45,

" Oospora Seabies for « Ospora Scabies,” line 46, page 54.

60 Vict. Provincial BoarD or HorvTIcUuLTURE. 3

PREVENTION OF INSECT PESTS AND DISEASES.

ce)

The following pages have been prepared by direction of the Hon. the Minister of
Agriculture for the use of, and distribution among, farmers and fruit-growers of British
Columbia. The remedies and suggestions contained therein, which have
been compiled under the careful supervision of. the Provincial Board of
Horticulture, are recommended to their careful consideration and for
adoption. If generally acted upon they will, it is confidently asserted, prove to be effective,
not only in preventing the spread of the insect pests and plant diseases which have made
such inroads on the gardens and orchards of the Province, but in a large measure obtaining
immunity. A condition precedent is that eternal vigilance must be exercised,.and the
success of whatever precautions may be adopted is dependent upon the thoroughness with
which they are observed. The recommendations which ‘are contained in-these pages are the
result of careful study of all the conditions, and are confirmed: by experience.

The rapid spread of numerous destructive pests and hurtful plant diseases, following
upon increased cultivation and the importations of fruits and nursery stock, has been seriously
felt throughout the agricultural districts, and points to the necessity of a vigorous and rigid
énforcement of the rules and regulations of the Department and the adoption of practical
measures of suppression, in order that the pr aes agricultural resources of British Columbia
may be permitted to develop.

Mr. R. M. Palmer, Inspector of Fruit Pests, in his report to the Hon. the Minister of
Agriculture for the year ending December 31st, 1896, speaking with reference to his work in
visiting and inspecting orchards. in the different sections of the Province, says :—

“The necessity of this work has been emphasized by the discovery of the most dangerous
scale insect enemy of fruit trees known—the San Jose Scale (Aspidiotus Perniciosus)—in two

orchards on Vancouver Island, and although, so far as known, this pest has
Tis Sah Jose not spread, it is hardly possible that the infestation i is limited to these cases.
aes I propose during the coming season to give special attention to the district

in which the infested trees were found.

“Tt has cost the fruit-growers of California and Oregon hundreds of thousands of dollars

to fight the San Jose Scale, and the war against it still continues, Now it is known that this

pest will live under the conditions obtained in British Columbia (which has been considered
doubtful by some persons), there is no doubt that the most stringent’ measures should be
adopted in dealing with it when found. The: appearance of San Jose Scale in orchards and
gardens in Ontario, and some of the Eastern and Southern States, has created wide-spread
consternation amongst fruit-growers there, and a demand for Legislative assistance from the
respective governments in dealing with the pest, similar to that enacted in the Pacific Coast
States and British Columbia, has sprung up.

’ “In many parts of the lower mainland, and to a less extent on the islands, much injury
has been done to the apple crop by a pest which has been named the Apple- -Fruit-Miner. It
is a small larva or “ worm” which feeds upon the pulp of the fruit. To a slight extent, it had
been noticed in previous seasons, but the past year it has been so plentiful as to destroy or
render of no value a large percentage of the apple crop in some localities.

“In regard to the spraying of orchards, although good work has been done by many
persons, and most encouraging reports are constantly béing received of the good effects conse-

quent on spraying, still there is much room for improvement. Many owners

ee of of orchards andegardens containing fruit trees are careless or indifferent; this
pee ag especially the case with old orchards in or near the cities. Most of these

old orchards would better be destroyed altogether, as many of the trees, from various cayses,
such as neglect or being of poor or unsuitable varieties, are of no value to. their owners, besides
being infested with various insect pests and diseases, for which they serve as breeding places,
and are a constant menace to the progressive fruit-growers. ‘Those who spray and take care
of their trees are demanding that more vigorous measures be taken to enforce the cleansing of
these old, infected trees. Another year’s experience with the No. 1 spraying mixture (lime,

Introducto ry,
Remarks.

4 ProvinctaL BoaRD OF HORTICULTURE. 1897

salt and sulphur) has added further evidence of its value as a winter wash for all kinds of fruit
trees and bushes, and I might say, that this only corroborates the opinion of leading fruit-
growers in the States to the south of this Province. ; :

“Tt is generally noted that so much improvement results from its use in the health and
vigour of the trees to which it is applied, as alone to-justify the cost of the work. ;

“In some localities good work has been noted as being done by predaceous insects preying
upon those injurious to plant life—the larva of Syrphus flies and Lady-bird beetles being very

: active during the warmer months in the destruction of aphides, and proving

seen ne of great assistance in holding these pests in check. It will not, however, do

Cera to rely on this help to the neglect of spraying, as in the fall months the bene-

ficial insects cease to work, and in a short time the aphides are generally to be found again
continuing their species.

“ Experiments nade with the Leggett Powder Gun, for the distribution of insecticides
in the form of powder, demonstrate that the machine is of service in dealing with such
pests as the gooseberry or currant worm, and the cherry and pear slug, saving much time and
material.

“ My sincere thanks are due to Dr. Fletcher, Dominion Entomologist, for assistance kindly
and promptly given in the naming of specimens of insects and help in carrying on my work.
Also to Mr. E. A. Carew-Gibson, who is making a special study of economic
entomology for the Department of Agriculture, and, by collecting and observ-
ing specimens of insects through their different stages of existence, has
rendered valuable assistance.

“ As in previous years, the press of the Province have been kind enough to insert in their
issues, at appropriate seasons, items furnished them in regard to the spraying of fruit trees,
thus reminding fruit-growers of their duties in this respect—-when most necessary. In the
following pages I have compiled information from reliable sources and personal experience as
to the best methods of contending against insect attacks and diseases of fruit trees, plants, etc.,
outlining the life history of the most important pests and diseases occurring in the Province,
and giving formulas and directions for preparing the different spraying mixtures, which I trust
will prove useful.”

There is probably no one general method by which the farmer or fruit-grower can do more
to protect his crops from insect injury than by “clean culture.” A large proportion of injurious
insects pass the winter under rubbish of many sorts, and the burning of this will destroy them.

It is a safe rule, whenever a crop is gathered, to clear off the remnants and destroy. them
as completely as possible. In orchards this recommendation is of special value. In dead

mien wood on the trees, or on the grountl, many species hide or complete their
ia to development during the winter. Every dead branch or twig should be cut,
; and with other rubbish taken out and burned. Loose bark is of little or
no value to a tree, while it affords shelter to many hibernating species. Never leave an old
wood-pile near an orchard. Many insects hreed preferably in dead wood, but when it becomes
too dry or rotten, they have a sharp instinct that enables them to discover a weak or sickly
tree, and this they may attack and ruin, where otherwise it might recover. Fallen or diseased
fruit should always be destroyed or fed to hogs.

Field and orchard should contain, as nearly as possible, nothing save the crop, and certainly
neither rubbish nor remnants.

For field crops, a thorough system of crop rotation prevents the multiplication of many
insect pests and plant diseases. It is a well established general rule that plants or trees are
better able to resist insect attack when in a thrifty growing condition than when weak in
vitality; consequently, such fertilisation as will bring about the healthiest growth is desirable.

It has long been observed that some varieties of fruits, vegetables and grains are more
subject to insect attacks than others. Consequently, other things being equal, it is advisable
to select such varieties for planting. Of mechanical methods, the simplest
way. of dealing with many insects, is to pick them off by hand ; in the garden
and home grounds, caterpillars of most kinds may be easily dealt with 80, Or
their nests destroyed, in the case of those having such.

In the great majority of cases, the most effective methods of preventing insect injuries
lies in the intelligent application of insecticides, or insect-killing substances. These may be
broadly divided into two classes :—(1) internal poisons, or those which take effect by being
eaten with the ordinary food of the insect ; and (2) external irritants, or those which act from

Assistance
Acknowledged.

‘Various methods
employed.

60 Vict. PROVINCIAL BOARD OF HORTICULTURE. 5

the outside—closing the breathing pores, or causing death by irritation of the skin. Besides
these, however, various substances are used in preventing insect attacks, keeping the pests
away because of offensive odours, or acting as mechanical barriers against them.

These are dealt with in the following ways :—

SPRAYING MIXTURES.

No. 1.—Winter Spray for Woolly Aphis, Scale Insects, and Pear Leaf Blister Mite ; the
ingredients of which are as follows :—

Lime, nirislacked i icass esa sdb ae kets fiw ae RAG RE a eRe OE 30 ibs.
Sulphur, powdered 06. see en caba cane eee ese ewe dee bee we ue 20 4
Alb: COB SE vs varaaiy a wdle dak wala wee las He eteaiee aR ES canis eae 15
Water intire oS GAY Oe Rohe here 4s Yee id & Ra Nee ERTS 60 gals.

Place 10 pounds of lime and 20 pounds of sulphur in a boiler with 20 gallons of water,
and boil over a brisk fire for two hours, until the sulphur is thoroughly dissolved. It will then
ie be amber-coloured. Next place 20 pounds of lime in a cask and pour water
ee for enough over it to thoroughly slack it. Add the salt. When dissolved, add
es to the lime and sulphur and boil half an hour longer. Add enough water to

make 60 gallons. Apply lukewarm.

Spray when the trees are dormant, or as svon as the leaves fall, and again in the spring
before the buds swell. A good force-pump should be used, and care must be taken to
thoroughly cover the infected trees with the mixture, which should be constantly stirred when
applying.

To ensure freedom from lumps it is advisable to pass the mixture through a wire sieve or
strainer. Nozzles which are self-cleaning and adjustable, such as the “ Improved Bean” and
“ Bordeaux,” are best adapted for distributing this and other spraying mixtures which contain
a considerable amount of solid matter.

*

No. 2 —Summer Spray for Aphis ; ingredients :—

Qudissia Chips: ieee nda ee des Wee ue eee: Gee es eee wees 8 Ibs.
W lial. 1) SOA pi2.cGcy pals hc Seo ile A Odea ice oe ae aa ee Ton
Walter nds cct scan 6 PRL APAite, Lumines Sania ee een tant ka ey ey . 100 gals.

Boil the quassia chips in about eight gallons of water for one hour. Dissolve the soap in
hot water, strain and mix both solutions together, and dilute with sufficient water to make
100 gallons altogether. To be used with a spray pump with as much force
Directions. as possible in applying. This mixture is the standard remedy for hop-aphis,
and has given most satisfactory results against other form of aphides, with

no injury to the foliage of trees treated.

No. 4.—Bordeaux Mixture for Apple-scab and all Fungous Diseases; ingredients :—-

Sulphate of copper (bluestone) .......6. 16 eee eee ee eee 4 -Ibs.
Unslacked lime ....c22:sac8 Seseva@erw ees eedey Bee hemes 4
Water x. ocai se ocketaeie ae were tay aeves eee ..a... 50 gals.

It has been found that the method of combining the ingredients has an important bearing
on both the chemical composition and physical structure of the mixture. For example, if the
copper sulphate is dissolved in a small quantity of water and the lime milk diluted to a limited
extent only, there results, when these materials are brought together, a thick mixture, having
strikingly different characters from one made by pouring together weak solutions of lime and
copper sulphate. It is true, furthermore, that if the copper sulphate solution and lime milk
are poured together while the latter or both are warm, different effects are obtained than if
both solutions are cool at the moment of mixing.

6 PRovINCIAL BOARD oF HORTICULTURE: 1897

Briefly, the best results have been obtained from the use of the Bordeaux mixture made
in accordance with the following directions: In-a barrel or other suitable vessel place 25
eag gallons of water. Weigh out 4 pounds of copper sulphate, then tie the same
Directions for in g piece of coarse gunny-sack and suspend it just beneath the surface of
fsa the water. By tying the bag to a stick laid across the top of the barrel, no
further attention will be required.. In another vessel slack 4 pounds of lime, using care in
order to obtain a smooth paste, free from grit and small lumps. | To accomplish this it is best
to place the lime in an ordinary water pail and add only a small quantity of water at tirst, say
a quart or a quart and a half. When the lime begins'to crack and: crumble and the water
to disappear, add another quart or more, exercising care that the lime at no time gets too
dry. Toward the last considerable water will be required, but if added carefully and slowly
a perfectly smooth paste will be obtained, provided, of course, the lime is of good quality.
When the lime is slacked add sufficient water to the paste to bring the whole up to 25 gallons.
When the copper sulphate is entirély dissolved and the lime is ‘cool, pour the lime, milk and
copper sulphate solution slowly togéther into a barrel holding 50‘ gallons..’ The milk of lime
should be thoroughly stirred hefore pouring. The method described insures good mixing,’ but
to complete this work the barrel of liquid should receive & final stirring for at least’ three
minutes with a broad wooden paddle. a

It is now necessary to determine whether the mixture is perfect—that is, if it will be safe
to apply to tender foliage. To accomplish this two simple tests may be used. First insert
the blade of a pen knife in the mixture, allowing it to remain there for at least one minute.
If metallic copper forms on the blade, or, in other words, if the polished surface of the steel
assumes the colour of copper plate, the mixture is unsafe-and more lime must be added. ‘If,
on the other hand, the blade of the knife remains unchanged, it is safe to conclude that the
mixture is as perfect as it can be made. As an additional test, however, some of the mixture
may be poured into an old plate or saucer, and while held between the eyes and the light the
breath should be gently blown upon the liquid for at least half a minute. If the mixture is
properly made, a thin pellicle, looking like oil on water, will begin to form on the surface of
the liquid. If no pellicle forms, more milk of lime should be added.

The foregoing directions apply to cases where small quantities of the mixture are needed
for more or less immediate use. If spraying is to be done upona large scale, it would be found
much more convenient and economical in every way to prepare what are
known as stock solutions of both the copper and lime. To prepare a stock
solution of copper sulphate, procure a barrel holding 50 gallons. Weigh out
100 pounds of copper sulphate, and after tying it in a sack suspend it so that it will hang as near
the top of the barrel as possible. Fill the barrel with water, and in two or three days the
copper will be dissolved. Now remove the sack and add enough water ‘to’ bring the solution
again up to the 50-gallon mark, previously made on the barrel. It will be understood, of
course, that this second adding of water is merely to replace the space previously occupied by
the sack and the crystals of copper sulphate. Each gallon of the solution thus made will con-
tain two pounds of copper sulphate, and, under all ordinary conditions of temperature, there
will be no material recrystallization, so that the stock preparation may be kept indefinitely.

Stock lime may be prepared in much the same way as the copper sulphate solution.
Procure a barrel holding 50 gallons, making a mark to indicate the 50-gallon point. Weigh
out 100 pounds of fresh lime, place it in the barrel, and slack it. When slacked, add sufficient
water to bring the wole mass up to 50 gallons. Each gallon of this preparation contains, after
thorough stirring, two pounds of lime.

When it is desired to make Bordeaux mixture of the 50-gallon formula it is only necessary
to measure out three gallons of the stock copper solution, and, after thorough stirring, two
gallons of the stock lime; dilute each to 25 gallons, mix, stir, and test as already described.
One test will be sufficient in this case. In other words, it will not be necessary to test each
lot of Bordeaux mixture made from the stock preparations, provided the first lot is perfect and
no change is made in the quantities of the materials used. Special care should be taken to
see that the lime milk is stirred thoroughly each time before applying. As a final precaution,
it will be well to keep both the stock copper sulphate and the stock lime tightly covered.

Whatever kind of spraying pump is used for applying Bordeaux mixture must be provided
with a nozzle that will furnish a mist-like spray, and at the same time be easy to clean of any
obstruction that may clog the necessarily small opening. There is no form of nozzle that so
well fills these requirements as the Vermorel, which is now sold with nearly all spraying outfits,

To spray ona
large scale.

60 Vict. PROVINCIAL BOARD OF HORTICULTURE. 7

To ensure freedom from lumps of lime, it: is often advisable to pass the mixture through
a fine wire sieve or strainer before commencing to spray.

For apple scab, spray before the leaf-buds open, repeat before the blossoms expand and
again just after the blossoms fall (these two applications are most important). If necessary,
repeat again in ten days’ time; this will depend ‘upon weather conditions and variety treated.
Wooden or earthen vessels only should be used in making Bordeaux Mixture.

No. 5.—Kerosene Emutsion; ingredients :— °

Hard soap shaved fine ............ Senne Oper cette tere ee 4 b.
Waters ois dense aeds oes anise Nera heed Rare ae aOR .. I gal.
Kerosene. «i i.e ciwi wna ean ceakoraead ee ee eee ee 2 gals

Dissolve the soap in boiling water, add the kerosene to the boiling suds, then churn

with a force pump for a few minutes until the. whole forms a creamy ass,

Directions. | which wil] thicken into a, jelly-like substance on cooling. The emulsion thus
made is to be.diluted before using with nine to twelve gallons water.

It is worthy of note that the emulsion is much more easily made with soft water, and if

water is very hard it is difficult to make a permanent emulsion.

It is advisable, therefore, to use rain water, or soften hard water by adding soda or borax.

Kerosene emulsion has an established reputation in the Eastern Provinces and States as

a remedy for plant lice, but on the Pacific Coast has not proved so satisfactory, injuring foliage

in some cases, and ¢osting too much in comparison with other sprays used for the same purpose.

No. 6.—TopBacco anD Soap WaAsH :—

Soak 4 tbs. waste tobacco in 9 gals. hot water for four or five hours (or in the same
quantity of cold water for 4 or 5 days); dissolve 1 tb. whale oil soap in 1 gal. hot water; strain
the tobacco decoction into the dissolved soap and apply the mixture to
Directions. affected trees with a spray pump, using a fine nozzle and all the force possible.
‘Or the mixture may be applied directly to the insects with a swab or brush.

A good summer wash for all forms of aphides.

No. 7.—Rrsin Wasu—For Aphis and Scale’ Insects; ingredients :—

Place the resin and sal soda in a kettle with three pints of cold water (soft or rain water).

Boil or simmer slowly until thoroughly dissolved when it will look black. The sal soda will

adhere to the sides of the kettle and must be scraped down. When sufficiently

Directions. boiled, the resin being completely dissolved, add enough hot water to make

50 gallons. After adding the water it will become thick, but after boiling

again it becomes thin. The above is ready for immediate use and should be used lukewarm.

If desired for future use, make as directed above, but add only five gallons of water and boil

until thick. When required for use, dilute with boiling water as follows and stir
thoroughly, when applying :—-

5 For hop-louse............ ..000. 1 gallon compound to 9 gallons water.
For woolly aphis ........... sees Lon " 7 "
For scale insects ............... lon " 6 "
For green aphis...............5. 1 on " 9 "

The spray is not injurious to the tree, for after three or four days sunshine it dissolves
and leaves the pores of the bark open.

8 ‘PROVINCIAL :BoaRD. OF HORTICULTURE. 1897

No. 8—HE.LLeBorE Spray—For Pear and Cherry Slugs, Gooseberry and Currant Worms;

ingredients :— ;
PUM Sierey 5a aan Mobs aR aed OSI SUR Ree HA Gwawintid 1 oz.
WV BODY 82 cer snatch indo Meier Ora ere uaneae Gira Zeiitiede ween lena age a 1 gal. ;
dxdt: Steep the hellebore for an hour in one pint boiling water, then add the. bal-
Directions.

ance af water cold. To be used with spray pump.

Nortr.— Hellebore may be applied as a powder, dusted on the trees or plants treated. A
machine known as Leggett’s Powder Gun is a very efficient means for its use on a large scale.
In all cases, care should be taken to obtain good fresh hellebore, to ensure the results aimed at.

*

No. 9—Paris Green Spray—For Codlin Moth, Caterpillars, and other _ leaf-eating
insects ; ingredients :— ; ;

Paris AG LOG m asia) Gh x Sete a nthe ey aan ge ey aa ootiaae a a cape aetna aaa an 4 ozs
Fresh. slacked: limés eae hee acisewuaa seen ghee oan ce ewloes 1 Ib.
Water ......... aia aha ee ee at eee HONE ASO Pea at ee ye 50 gals.

Make a paste of the Paris green with a little water. Make the lime into milk of lime
of water, mix both these together, and add water to 50 gallons altogether.’ Paris green is a
heavy powder, and will not remain long in suspension, hence it must be kept
Directions. constantly stirred when using. _ Be sure that good fresh lime is used to pre-
vent the burning of foliage. Apply with spray-pump. London purple may

‘be used in place of Paris green, but is not usually so reliable.
Paris green can generally be used to advantage with Bordeaux mixture, making a com-
bined fungicide and insecticide, in the proportions given above, viz. :—4 ozs. Paris green to 50

gallons Bordeaux mixture. Apply with spray-puinp.

Spray No. 10—Ammontacat Copper Carsonars:—This will not be used so freely as the
Bordeaux mixture, on account of its greater cost and the increased labour of preparing it;
but for spraying late in the season, when there is risk of staining the fruit with Bordeaux

mixture, it is the most useful agent which has yet been tried :—

Copper carbonate 0... 0 .......... A Ahan waniaae ath nate naan 5 ozs.
Ammonia...... PEERS waa a atte Ta Aeeena asada arabes ce 2 quarts.
Water ....... ee ee ee ee eee 50 gallons.

Home manufacture of copper carbonate.—As the precipitated form of carbonate of copper
is not always obtainable, the following directions are given for its preparation :—

In a vessel capable of holding two or three gallons, dissolve 1} lbs. of copper sulphate in

4 pints hot water. In another vessel dissolve 1} tbs. sal soda (washing soda) in 4 pints hot
j water. When both are dissolved, pour the second solution into the first and

How to use it. stir briskly. When effervescence ceases, fill the vessel with water and stir

thoroughly. Allow this to stand 5 or 6 hours, when a precipate or sediment
will have settled at the bottom. Now pour off the clear liquid without disturbing this
sediment, fill up the vessel again with water and stir as before, then allow this to “stand
until the sediment has again settled, and then pour of the clear liquid carefully as before;
the residue or sediment is carbonate of copper, and from the quantities given there should be
formed 12 ounces weight. Instead of drying this (which is a slow process), add ‘to it 4 quarts
strong ammonia, stirring well, and then add water to bring the whole quantity up to 6 quarts.
This may be kept in an ordinary stone jar, but should be closely corked.
Hach quart will contain two ounces carbonate of copper, which when added to 20. gallons
water will furnish a solution ready for spraying, of the same strength and character as that
obtained by the use of the dried carbonate of’ copper. :

60 Vict. ProvinctaL BoarD OF HoRTICULTURE. 9

; Caution --- Most of the copper compounds corrode tin and iron. Consequently, in prepar-
ing them for use, earthen, wooden or brass vessels should be employed ; and in applying them,
the parts of pump which come in contact with the liquid should be made of brass.

No. 15—Lye anp Soap Wasu—For winter use only ; ingredients:—
1 Ib. concentrated lye.
1 lb. whale oil soap.
5 gallons water. ~

Dissolve the lye and soap in the water heated.
This mixture may be applied with a swab or brush, or with the spray pump, if used
warm. One thorough application in the fall, and another before growth
Directions. | commences in the spring, should be made when used against woolly aphides.
This is also an excellent wash to remove moss and lichen from trees and
bushes, and if used for this purpose alone, half the amount of soap is sufficient.

INSECT PESTS.

pelle

GREEN APHIS. (Greatly magnified.)

Apple Aphis (Aphis Malt) is reported from all parts of the Province ; very injurious to

apple trees in some districts, especially in the interior. This pest is so well

Green Aphis. known and has been so often described that it is hardly necessary to repeat
its life history at length. They injure trees and plants by sucking the sap.

-The eggs of Green Aphides are deposited in the fall, usually on the extremities of the
new growth, or around the buds. Two thorough applications of the No. 1 spray, according to
the directions given, or of the lye and soap wash (No. 15), will destroy the eggs, and this is by
far the best method of dealing with the pest, in the first instance. In a natural way the eggs
hatch off just when growth commences in the spring, and the leaves of infested trees soon
become curled and rolled up, making it very difficult to reach them with any spraying
mixture,

They multiply at an enormous rate, those first hatched giving birth to living young,
which in their turn reproduce in the same way, and so on for several generations, so that as
fast as new leaves expand, they are attacked, if the weather conditions are favourable to the
aphides. i

The most successful summer sprays are Nos. 2, 6, or 7, any one of which, if used as
directed, will give good results. The spraying should be repeated at intervals, and care taken
to do the work thoroughiy, as the washes kill only by actual contact with the insects.

During the summer winged broods of the pests are born ; these should be looked out for,
and prevented from establishing themselves by a timely use of one of the spraying mixtures
referred to.

f
10 PROVINCIAL BOARD OF HORTICULTURE. 1897

Black Aphis (Myzus cerasi) is also common throughout the Province, often seriously

checking the young growth of the cherry trees. It winters over in the: egg

Cherry Aphis. stage, and its life history is similar to that of the green aphis. It is found

more difficult to kill by spraying than green aphis, but a thorough use of any

one of sprays 2, 6, or 7 will keep it in check. Spray No. 1 should be used to destroy the
eggs during the dormant season.

The Currant Aphis (Myzus ribis) is another form of aphis very common in Lower British

Columbia and generally reported. It is yellowish in colour, and is found on the under sides

of the leaves of currant bushes, which become: curled and _ blistered.

Currant Aphis. They migrate during the summer, but return later on, and their eggs are

deposited on the stems, especially around the buds. Spray with the No. 1

mixture to destroy the eggs.in the winter months, and with either of sprays No. 2, 6, or 7 in

the growing season, directing the spray so that the under sides of the leaves are reached. It

is most important that the work should be done early in the season, before they become too
numerous, and the leaves roll up so that sprays cannot reach them.

The Mealy Plum Aphis (Aphis prunifolia) is a species of aphis which attacks the young
shoots and under sides of the leaves of plum and prune trees. It is widely
Plum Aphis. distributed throughout the Province, and is particularly injurious in the
Okanagan ‘District ; many trees were found completely, covered with the
pest during the two past seasons, checking the growth of the trees and the development of
the fruit. : .
When first hatched they are whitish in colour, but as they increase in size they become
darker. The insects and infested leaves are covered with a whitish powder.
Their life history is similar to that of the green aphis, and the remedies used for that
pest should be applied, taking care to wet the under sides of the leaves, and repeat the _
spraying to insure the destruction of the pests.

‘

The Cabbage Aphis (Aphis brassicw) is generally reported and is the most injurious
insect enemy of plants of the cabbage family found in the Province. The past two seasons
TheCabhars have been very dry and favourable to the development of this pest, so that
Aphis, large quantities of cabbage, cauliflower, turnips, etc., have been completely
ae je ht by it seen! on fe Islands. It : also found on wild cruciferous

plants, such as wild mustard. as much the same general appeara i
with the addition of a whitish, mealy coating. - q Leet nae
During the summer months the young are born alive, but in the fall true males and
females are developed, and eggs deposited upon the leaves and stalks of its food plants. From
this it follows that cabbage stalks and other plant remnants should be used up or destroyed, as
well as weeds upon which the pests feed, as a preventive measure : ‘

The most useful summer spray against this pest is the quassia and’ soap.wash (No 2)

No. 6 is also effective, but these remedies, while quite practical for garden crops, would be too
costly for use on field crops, especially in dry seasons. In the garden plenty of water can‘
generally be used to keep the plants in » thriving condition, and this is quite as important as

the spraying. ,

60 Vict. PROVINCIAL BoARD OF HORTICULTURE.

Hop Apuis (Phorodon humult).

: (Fic. A.)

Winter egg of the hop plant louse, and the shrivelled skin of
the sexual female which laid them. (Enlarged.)

(Fic. B.)

The hop plant louse, third generation on plum—the generation which flies
to the hop plant. Head below at right. (Both enlarged.)

ag (Fre. C.)

The hop plant louse, true sexual
female. (Enlarged.)

)
12 ProvinctaL BOARD oF HORTICULTURE. 1897

(Fic. D.)

The hop plant louse, male. (Enlarged.}

The above are reported from Okanagan, Mission, Hazelmere, Shortreed, Kamloops Alder
grove, Steveston, Squamish and Saanich.

Wherever it occurs, whether in England or on the continent of Europe, in New York,
Wisconsin, or on the Pacific Coast, the Hop Plant Louse (Phorodon humuli) has substantially

the same life round. The eggs are laid in the fall on different varieties and
Hop Aphis. species of the plum, both wild and cultivated. They are small, glossy, black,
ovoid, and are attached to the terminal twigs, especially in the more or less

protected crevices around the buds.

From an egg hatches in the spring, about the time when the plum buds begin to burst, a
stout female plant louse, known as the stem-mother, which differs from the summer individuals
by having shorter legs and shorter honey tubes.

She gives birth, without the intervention of the male, to living young, and this method
of propagation continues until the last generation of the season. The second generation grows
to full size and gives birth to a third, which becomes winged, and develops after the hops have
made considerable growth in the yards. The winged lice then fly from the plums to the hops,
deserting the plum tree entirely and settling upon the leaves of the hops, where they begin
giving birth to another generation of wingless individuals. They multiply with astonishing
rapidity. Each female is capable of producing on an average about one hundred young, at
the rate of three per day, under favourable conditions. Each generation begins to breed about
the eighth day after birth, so that the issue from a single individual runs up, in the course of
a summer, to trillions. The issue from a single stem-mother may thus, under favourable circum-
stances, blight hundreds of acres in the course of two or three months. From five to twelve
generations are produced in the course of the summer, carrying us in point of time to the hop-
picking season. There then develops a generation of winged females (seaupara), which fiy
back to the plum tree and give birth to the true sexual females, which never acquire wings and
never leave the plum tree. By the time this generation has matured, which requires “Whe a
few days, varying according to the temperature, belated winged individuals, which are the
true males, fly in from the hop fields. These fertilize the wingless true females upon the plum
leaves, and these soon thereafter lay the winter eggs. Thus there is but one generation of
sexed individuals produced, and this at the close of the life round—the females wingless on
plum trees; the males winged on hops. All intervening generations are composed of virgin
females only (parthenagenetic). This is the invariable round of the insect’s life.

60 Vict. PROVINCIAL BOARD OF HORTICULTURE. 13

From the life history just given, three important facts are obtained: (1.) It will pay to
make a preventive application of some of the mixtures mentioned further on, with apparatus
-before described, to all plum trees in the neighbourhood of hop yards, either
Remedies. in the spring, before the appearance of the first winged generation and its
consequent migration to hop, or in the fall after hop picking and after the
lice have once more returned to the plum, and are making their preparations for the laying of
winter eggs. The latter time will, perhaps, be preferable, for the reason that in the fall the
plum trees will be less susceptible to the action of the washes, and a stronger solution can be
applied without danger to the trees. (2.) All wild plum trees in the woods through a hop-
_ growing country should be destroyed. (3.) The hop vines should be either burned or thoroughly
drenched with kerosene emulsion as soon after the crop is harvested as possible, with a view of
killing the males, and thus preventing the impregnation of the females. (4.) If the above
measures have been neglected and the lice have attacked the vines, the crop can still be pro-
tected by spraying with insecticide mixtures, which, if- thoroughly applied will prove effective,
and there will be no danger of reinfestation from neighbouring untreated yards, since during
the summer the lice cannot migrate except by crawling from one yard to another.

Mr. Chas. Whitehead, F.S.A., etc., etc., Agricultural Adviser to the Privy Council, says
in reference to the formula given below: ‘There are no actual proofs that any other remedy
or treatment than washing is at all effectual against the aphis blight. Lime has been thrown
up over the plants without any results. Soot has been tried. Insecticides are dead failures,
and manurings have had no marked influence.”

Spraying with any of the well-known insecticides by means of a horse sprayer up and down
the rows. The following formula for a spray is recommended by the Board of Agriculture of
England and is found to be most effectual: A decoction of 10 tbs. of quassia chips made by
boiling; 7 Ibs. soft or whale oil soap, and 100 gallons of water. The chips may be used twice,
the second decoction being of course weaker. The hops should be sprayed at least five times
during the summer, and if the insects are very bad, oftener.

WOOLLY APHIS (Schizoneura lanigera). After Riley.

(a), an infested root ; (b), the larva—colour brown ; (¢), winged adult—colours,
black and yellow ; (d), its leg ; (e), its beak ; (/), its antenne ;
(9), antennz of the larva; all highly magnified.

This aphis is also widely distributed in the lower parts of the Province, and is firmly
established in most of the old orchards in and near the cities. It is generally considered the
most troublesome insect pest of apple trees we have, from the difficulty
Woolly Aphis.’ experienced in cleansing an orchard infested with it, and its harmful effect
upon the trees. Its name of woolly aphis is derived from the secretion
resembling fine cottony fibre, which more or less covers its body. The insects appear on
infested trees during the summer in masses like tufts of cotton, attached to the twigs or leaves,
beneath which will be found the bodies of the insects.
In the winter months they shelter under the bark or in cavities in the wood of the trees,
-or descend to the roots; large numbers will often be found at or near the collar of the root.
-The eggs of woolly aphides are stated by Dr. Smith’ “to be found singly in crevices of
the bark, enveloped in the dry skin of the female.”

14 PROVINCIAL BOARD OF HORTICULTURE. 1897

During the summer months they reproduce in the same manner as green aphides, but

winged forms appear only in the fall. ; eo te a

’ During our mild winters in the coast districts, woolly aphides may be found in different
stages of development, showing that if egg laying takes place, the eggs probably hatch off at
once, and new colonies are started, or that viviparous reproduction goes on without the
‘necessity of egg laying. The prevalence of dead-spot or bark disease in apple trees gives just
the condition of the bark which favours the pests, by providing them with shelter, and
increases the difficulty of reaching them with spraying mixtures. A

It is therefore important that, as far as possible, dead and decayed bark and all superfluous
limbs and branches of infested trees should be removed before spraying is done, to allow the
mixture used to penetrate all parts of the trees. mn ae ae eek

The best winter wash is the No. 1 spray; the lye and soap wash (No. 15) is also. effective.
At least two applications should be made to badly infested trees, and. the spray applied warm,
with all the force possible, by means of a good spray pump. During the summer months,
masses or colonies of the aphides occurring on the trunk or limbs may be destroyed by .touch-
ing them with a swab or brush dipped in coal oil, or either of sprays No. 6 or 7, applied with
the spray pump. It will be neeessary to repeat the treatment at intervals to keep:.the pests in
check, until the strong winter washes can be used. For the root form of woolly aphides the
No. 1 spray is effective, or the lye and soap wash used freely, especially where the stem and
roots join. These substances will also act as fertilisers to the trees. ‘To increase their effect, the
roots of infested trees should be uncovered as far as possible before applying. Refuse tobacco
dug in about the roots will also help to keep down the pests. ‘ . :

The Missouri Experimental Station have made extensive experiments with. different
methods of killing woolly aphides, particularly the root form of the pest, and a bulletin issued
by the station states that the root form may be cheaply and easily killed, and kept away from
the roots of apple trees by a liberal use of tobacco dust, applied by removing the earth from
around the trunk for a distance of two feet, and four inches in depth, evenly filling the space
with tobacco dust, and covering it with earth. 3

As a preventive measure, tobacco dust should be used freely among and over the roots of
newly planted trees and nursery stock.

Specimens of woolly aphides of different species were sent by Mr. E+ A. C. Gibson to Dr.
Fletcher, who writes in regard to them as follows :—-‘‘In the box of which you describe the
specimens as taken off an apple twig badly infested with woolly aphides ; these were the true
S. lavigera, but amongst thera were some other specimens of aphis malifoliw, which has the
venation very similar to that given of aphis mali, on page 163 of my last report. The differ-
ence between these two last named species are chiefly colourational and in the size of the insect.
The other box containing specimens of the woolly aphis, which has given you so much trouble
to identify, and which are flying in such myriads in your woods, are neither the alder aphis
nor the true woolly aphis, but a species called Pemphigus pyri, which belongs to the same
genus as the alder woolly aphis. |

“The difference between these two genera is very easy to recognise when once pointed
out, and that is, in the genus Schiz oneura, the third discoidial vein is forked, while in
pemphigus all the veins are simple.

“Pemphigus pyri probably is a native species with you, and occurs through your woods on
different species of pyrus and crategus.”

—_——_—__

This species of woolly aphis (Pemphigus tessellata). is very common upon alder trees in

lower British Columbia, and is often confounded with the woolly aphis of the apple, from

THe Woolly which it is quite distinct. Like other aphides, they reproduce by giving

, Alder Aphis, birth to living young. Vast numbers of winged specimens appear in the

} fall and spread over the country, the air sometimes appearing full of the

insects moving with the wind. They have not been found injurious to fruit trees, although

many of these winged specimens are found on them. They do not seem to reproduce except on
their proper food plant.

60 Vict. PROVINCIAL BoaRD OF HORTICULTURE. 15

Ants (Formicide) are reported from all parts of the Province. There are many different
varieties of ants, the most generally troublesome one being the small red ant (monomorium
pharaonis.) Ants are well known to most fruit-growers in connection with

Ants as a Pest. green and other aphides, and will be noticed running up and down trees or
plants infested with them ; by some persons they are supposed to destroy the

aphides, while the true facts are that the ants, while feeding upon the sweet fluid or honey-
dew which exudes from the bodies of aphides, protect and care for them, will carry them from
tree to tree, defend them if possible from predaceous insects which would destroy the aphides,
and so are directly instrumental in increasing the damage done by these pests.

To destroy ‘ants, their nests should be located, then one or more holes, according to the
size of the nest, poked into it with a stick and three or four ounces of bisulphide of carbon
poured in, and the holes closed again with the foot. The fumes will penetrate the chambers
of the nest and will usually kill all or most of the inmates.

Dr. Riley recommends the following: ‘A number of holes are punched in the nest by
means of a pointed stick ; a teaspoonful of the bisulphide carbon is then poured down each
hole, and a damp blanket thrown over the nest for a few minutes; then the blanket is
removed, and the bisulphide exploded at the mouth of each hole by means of a light at the end
of a pole. The slight explosions which follow drive the poisonous fumes of the gas generated
down through the underground tunnels, killing off the ants in immense numbers.”

As bisulphide of carbon vapour is very inflammable, care must be observed in its use.

Ants may be prevented from ascending fruit trees by painting a narrow circle of tar
around the trunk, near the ground. _It is also worth noting that the common guinea fowl] is
very fond of their eggs, and will destroy their nests to get them.

For ants in houses Dr. Smith writes that he obtains good results by dipping a sponge in
sweetened water, which should be placed where the'ants run. The news of its presence will
spread and the ants will swarm to fill the sponge ; when this takes place the sponge should be
taken up and dipped in boiling water. 1f this process is repeated for two or three days the
insects are seized with terror from the sudden lessening of their numbers and will abandon the
house and their nest as well.

Fresh bones, from which the meat has been roughly scraped, may be used in the same
way and with the same effect.

Specimens of tingis (Zingitide) have been sent in for identification and reported as in-

jurious to the leaves of fruit trees. They are found on the undersides of the leaves—small,

; whitish, flat insects with gauze-like broad wing covers, usually in masses

Tingis. together. They suck the sap of the leaves. The insects are black or brown

in colour. Some of the adults usually live through the winter, and the

females deposit their eggs in the spring, but sometimes eggs are laid in the fall and the winter

passed in that stage. For shelter in the winter fallen leaves are used, or the adult insects’

creep under loose bark scales or into crevices. In the summer the insects may be destroyed by

using either of sprays No. 2, 6, or 7 with the spray pump, taking care to reach the undersides
of the leaves.

Of this species of insects there are many members, some of which do considerable harm

to fruit and ornamental trees, and bushes. Rose bushes are especially subject to attack in

Victoria and adjoining districts. They usually feed on the undersides of

Thrips (Thripidce) leaves, and take their food by suction, the infested leaves lose their colour

in spots. They are small in size, slender, and active, with the head so

narrow that they seem to be pointed at both ends. The wings are laid longitudinally on the

back, are narrow and transparent. They run and fly readily ; some of them jump or spring
when disturbed.

These insects thrive in hot, dry weather, hence become more injurious, as plants are less
able to resist them, so that in addition to destroying the pests the plants should, if possible,
be well watered and fed.

Either the tobacco and soap (No. 6) or the quassia and soap wash (No. 2) will give good
results against these pests, but care must be taken to wet the undersides of the leaves.

16 PROVINCIAL Board OF HORTICULTURE. ° "1897

As many of these insects. winter in the adult stage under rubbish or loose bark, ete.,
clean culture in the garden is indicated as a means of lessening their numbers.

Of this family (Capsida), the four-lined plant bug has been noticed and reported ‘from

several places, and several other varieties are also found in the Province, some of which are,

at least in a measure, beneficial, as they have been noticed feeding upon

Plant Bugs. caterpillars. Plant bugs, however, are gencrally very unwelcome visitors,

on account of their very unpleasant odour, and still more nauseous taste if

they are inadverently taken into the mouth with fruit, as often happens when they are pres-
ent on raspberries or blackberries.

Tn addition to feeding upon the juice of the fruit, they also suck the sap of the leaves
and young twigs. They are not easily dealt with, the application of insecticides being satis-
factory. They winter in different stages of development. Their numbers may be reduced by
collecting them in the morning before they become active, by shaking them off the bushes
into some sort of a receptacle and then destroying them. As the eggs of some are. laid upon
the young twigs of currant and other fruit bushes, pruning off and burning these has been
suggested as a partial remedy.

This dreaded pest of fruit and other deciduous trees, Aspidiotus Perniciosus, has made its
appearance in two orchards on Vancouver Island, and it is most important that all fruit-
growers should be on the watch for the pest and report to the Inspector of

San Jose Fruit Pests, or the member of ‘the Board of Horticulture for his district, if

Scale. : ye si
; its presence is known or suspected, so that vigorous efforts can be made to
stamp out the pest before it becomes firmly established.

It is important that there should be no half measures adopted in dealing with the San
Jose scale. It has cost the fruit-growers of Oregon and California hundreds of thousands of
dollars to fight the pest, and the war against it is likely to continue; its habit of feeding upon
almost all kinds of trees and plants renders -it almost impossible to get rid of the pest if
neglected at first appearance.

It is scarcely possible that the infestation is limited to the instances referred to, and I
propose during the coming season to give special attention to the districts where the infected
trees were found, but I also hope the importance and necessity of all fruit-growers keeping a
sharp watch upon their own and adjacent orchards, so far as possible, so that it may be
detected before it is too late.

The appearance of San Jose Scale in the orchards and nurseries of some of the Eastern
and Southern States has created wide-spread consternation amongst fruit-growers there, and a
demand for legislative assistance in dealing with the pest similar to that existing in British
Columbia and the Pacific Coast States has sprung up.

Apparently the pest had become well established before its presence was known or
suspected. Vigorous efforts are now being made to deal with it, but for reasons previously
stated, this is proving a very difficult task.

_, The life history and habits of the San Jose Scale have been studied to perhaps a greater
extent than those of any other fruit pest, and following is given a concise account of these, to
assist our fruit-growers to recognise it. as

It belongs to the same group of armoured scale insects as the common oyster shell scale,
but differs from that species in that the scale is perfectly round, or at most, very slightly

The Scale elongated and irregular ; it is flat and pressed close to the bark of the tree

‘described. 2 or near the centre of each scale is a small, round, slightly raised black

point, or sometimes this point may appear yellowish.
e

60 Vict. PRovinciAL Boarp oF HoRTICULTURE. 17

(Fre 2.)

Appearance of Scale on bark; a, infested twig, natural size; b, back as it appears under
hand-lens, showing scales in various stages of development and young larva.

(L. O. Howard and C. L. Marlatt, Bulletin No.3, New Series, Division of Entomology,
U.S. Department of Agriculture. )

When occurring upon the bark in large numbers the scales lie close to one another,
frequently overlapping, and are difficult to distinguish without a magnifying glass. The
general appearance which they present is that of a grayish, roughened, scurfy deposit. When
the scales are crushed a yellowish oily liquid will appear coming from the bodies of the insects,
and this will indicate to one not familiar with their appearance the existence of living insects
beneath the scaly covering.

The majority of the scales do not exceed one-sixteenth of an inch in diameter, but where

‘only a few are found they become larger, and the females may reach an eighth inch.

Upon young shoots and leaves where the scales are not so thick the circumference beyond
the scales frequently becomes changed in colour to a somewhat purplish or crimson shade.

The insect is also found on the fruit, and one of its most characteristic points in this case
is the bright reddish or purplish discolouration around the edge of each scale. So far as
known, this result is confined to this one scale insect. Upon the leaves of infested trees the
insects have a tendency to collect along the midribs on the upper sides, in one or more quite
regular rows. Infested leaves turn brown, but do not have a tendency to drop as a result of
the damage done.

18 PROVINCIAL BOARD OF HoRTICULTURE. 1897

(Fie. 3.)

Young larvee and developing scale ; (a), ventral view of larva showing sucking beak with setz separated,
with enlarged tarsal claw at right ; (b), dorsal view of same somewhat contracted, with the first
waxy filaments appearing ; (c), dorsal and lateral view of same still more contracted, illustrating
further development of wax secretion ; (d), later stage of samc, dorsal and lateral views, showing
matting of wax secretions and first form of young scale—all greatly enlarged.

(L. O. Howavd and C. L. Marlatt, Bulletin No. 8, New Series, Division of Entomology,
U.S. Department of Agriculture. )

“There are two points of interest’ and importance to be noted in this life history. The
first. is, that the insect passes the winter beneath the scales in a partly grown condition.
s Usually they are about half grown ; but some will be younger and some will
ome 5 : : : ;

Biaeaclersetios be older. They seem to continue reproduction until the tree is entirely

dormant, and no further food is obtainable. On the other hand, they do not
seem to renew growth very early in spring, but are slow to begin reproduction ; no larve
being noted until June. The second point is, that once they begin there is practically no
period during the summer at which the young, active crawling lice are not to be found upon
the tree. The length of time during which a given female will continue to reproduce has not
been ascertained ; but it seems likely from what has been observed that breeding continues
for quite a long time, and that the female scales that: have lived during the winter may con-
tinue to live on and reproduce during the greatest portion of the summer, when their
daughters and grand-daughters are already full grown, with nearly full grown progeny. There
may be, therefore, upon a plant at one time, young born of as many as three or even four
distinct generations.”

60 VicT. ProvinclaL BoarD oF HorvTICULTURE. 19

Fig. 4.

Development of male insect; (a) ventral view of larva after first molt ; (J) same after second molt (propupa
stage); (c) and (d) true pupa, ventral and dorsal view, all greatly enlarged.

(L. O. Howard and C. L. Marlatt, Bulletin No. 3, New Series, Division of Entomology,
U. S. Department of Agriculture. )

The male of this species is a winged insect. It is very minute, scarcely noticeable with-
out a lens, very light and frail, at the mercy of the least puff of wind, and incapable of any
great journey. The female has no perceptible legs, and is utterly incapable
of motion. She resembles a yellowish or orange, flattened seed, in bulk
many times that of the male; but firmly fixed to one point by the scaly
covering which is at once her protection and her grave. The young are active for a very brief
time, two or three days at most, and they crawl with considerable rapidity and great
persistence, so that they might possibly descend from one tree and crawl for a number of
yards to another; but the spread in this manner is insignificant. Where trees are close
together they may pass from the branches of one to the branches of another; but they rarely
crawl long in any one direction; they rather move around, rapidly enough, yet irregularly and
at random. Usually they do not go further than is necessary to find a good place to fix, and
at once begin to form a scale. This process is rather interesting and can be watched. As
soon as the young louse has inserted its beak into the plant and has begun to feed, a change
comes over it, and within a few hours it is entirely covered by a fine, white, waxy film. This
turns first yellow and then grey or even black, and the creature is a fixture, absolutely
incapable thereafter of shifting its location under any possible circumstances. Strong winds
may carry the young bodily from one tree to another; but the principal method of spread is
by means of other insects which are winged, and by birds. The active young lice will soon
craw] upon any small winged insect, particularly if the latter is of dark colour, and they
may be carried by it to considerable distances. They also crawl upon the feet of birds which
visit the trees, and thus may be carried for miles. They are often found upon ants, and ants,
as everyone knows, are great travellers. :

Process of
Development.

20 PROVINCIAL BOARD OF HORTICULTURE. 1897

Fie. 5.

Adult male, greatly enlarged.

(L. 0. Howard and C. L. Marlatt. Bulletin No. 3, New Series, Division of Entomology,
U.S. Department of Agriculture. )

(Fia. 6.)

Adult female before development of cggs ; (a), ventral view, showing very long sucki :
showing characteristic ornamentation of Biles peel Aiisegede sae piste
(L. 0. Howard and C. L. Marlatt, Bulletin No. 3, New Series Division of Ent
U. 8S. Department of ‘Agriculture. ) : Renan

\60 Vict.
__

a

PROVINCIAL BoaRD OF HorRTICULTURE. 21

In Oregon and California the No. 1 spray is largely used in fighting this pest, but in our
case there is no question that the most strenuous efforts should be made in the first instance
to completely extirpate the pest by cutting down and burning any trees found to be infested.
As a measure of protection, all other trees or plants in the neighbourhood should be sprayed

at least twice in the dormant season. As a summer wash, spray No. 3 is recommended in
Oregon and California.

PARASITES AND NATURAL ENEMIES OF SAN JOSE SCALE.

The most important parasite, perhaps, is Aphelinus fuscipennis (How.), a common enemy

of armoured scales. The general characteristics of fuwscipennis are well shown in the accom-

‘ panying figure of a closely allied species. (Fig. 7.) This parasite has been

A. Fuscipennis. raised in large numbers in California. Mr. Alex. Craw reports it as doing
very effective work in the neighbourhood of Los Angeles.

(Fic. 7.)—Aphelinus diaspides. )

(L. O. Howard and C. L. Marlett, Bulletin No. 3, New Series, Division of Botany,
U. S. Department of Agriculture. )

29 ProvinciaAL Boarpd oF HoRTICULTURE. : 1897,

(Fie. 8.)

Pentilia (Similia) misella ; (a) beetle ; (b) larva; (c) pupa ; (d) blossom end of pear, showing scales
with larve and pup of Pentilia feeding on them, and pupa of Pentilia attached
within the calyx. All greatly enlarged.

(L. 0. Howard and C. L. Marlett, Bulletin No.3, New Series, Division of Botany, |
U.S. Department of Agriculture. )

Of predaceous insects, perhaps the most interesting is the little coccinellid Pentilia Misell

(Fig. 8). Both larvee and beetles feed upon the scales. The beetles seemin

Pentilia Misella. to prefer the full grown female scales, and their larve the young scale
Pentilia misella is found both in the Eastern States and the Pacific slope.

The Oyster Shell Bark Louse (Mytilaspis Pomorum) is reported from Beaver Poi
Nanoose Bay, Okanagan Mission, Notch Hill, Hazelmere, Sumas, Chilliwhack, Tawa
Victoria, Nanaimo, and New Westminster.

60 Vicr. ProvinctaL Boarp or Horticunture. 23

This is a very destructive and pernicious insect, which prevails throughout the Northern

United States and Canada, and in sone of the Southern States also. It was introduced from

O ‘ Europe more than eighty years ago. It appeared in the form of- minute
yster Shell 1 alaat = : : :

Bark Louse. ‘ales, about one sixth of an inch long, of a brownish or greyish colour,
closely resembling that of the bark of a tree, and somewhat like the shell of
an oyster in shape, adhering to the surface of the bark, and placed irregularly, most of them
lengthwise of the limb or twig, with the smaller end upwards. In some instances the branches
of apple trees may be found literally covered and crowded with these scales; and where thus
so prevalent they seriously impair the health and vigour of the tree, and sometimes cause its
death.

Under each of these scales will be found masses of eggs varying in number from fifteen
or twenty to one hundred or more. These during the winter or early spring will be found to
be white in colour, but before hatching they change to a yellowish hue, soon after which the
young insects appear. This usually occurs late in May or early in June, and if the weather is cool
the young lice will remain several days under the scales before dispersing over the tree. As it
becomes warmer, they leave their shelter and may be seen running all over the twigs looking
for suitable locations to which to attach themselves. Their actual length being only about one-
hundredth (of an inch), to the unaided eye they appear as mere specks. When highly magnified,
they appear as at 2. A large proportion of them soon become fixed around the base of the
side shoots of the terminal twigs, where, inserting their tiny sharp beaks, they subsist upon
the sap of the tree. In a few days a fringe of delicate waxy threads issues from their bodies,

ae, as at 3. Gradually the insect assumes the form shown at 4. 5 and 6 pre-
Bal elo oo sent the larve as nearly full-grown, and when detached from the scale, before
reatmen'- the end of the season the louse has secreted for itself the scaly covering in
which it lives and matures, shown at 7. 8 represents one of the antenne of the young lice
1 shows the egg highly magnified.

By the middle of August this female louse has become little else than a bag of eggs, and
the process of depositing these now begins, the body of the parent shrinking day by day, until
finally, when this work is completed, it becomes a mere atom at the narrow end of the scale
and is scarcely noticeable. :

The scales of the male louse are seldom seen ; they are most frequently found upon the
leaves, both on the upper and under sides ; they are smaller in size than those of the female
and different also in shape.

In the orchard and its immediate neighbourhood it may be spread by being carried on the
feet of birds, or attached to the larger insects, or may be aided by the wind in passing from
tree to tree, while it is itself so brisk in its active state that it can travel two or three inches
in a minute, and hence might in this way reach a point two or three rods distant before it
would perish. Although this insect essentially belongs to the apple tree it is frequently found
on the pear, and sometimes on the plum.

During the winter the trees should be examined and the scales scraped off, and the trees
sprayed with No. 1 spraying mixture, and thus a large proportion of the insects may be
destroyed. Still, it is almost impossible to cleanse the trees entirely in this way, especially
the smaller branches, and hence the insect should be fought also at the time when the eggs are
hatching and the young lice crawling over the limbs, as then they are tender and easily killed.
With this object in view, the time of hatching of the remnants left after the winter or spring
scraping should be watched, and while the young larve are active the twigs should be brushed
with a strong solution of soft soap and washing soda, or sprayed with the resin wash. Spray
No. 7.

As this scale (Lecaniwm armeniacum) has been found on two or three occasions in the
Province, and will feed upon other deciduous trees, as well as the apricot, it should be looked

; out for by fruit-growers. The scale is boat-shaped, when matured somewhat
alan i sa wrinkled. The colour is a shiny brown, darker in the centre than at the
iain edges. It hatches from eggs during May and June. The treatment advised

for the Oyster Shell Scale should be followed in dealing with this pest.

24 Provincia, Boarp or HorvicuLruRE. 1897

This insect (Macrodactylus subspinosus) feeds in the beetle stage upon a great variety of

trees and plants, injuring the flowers and foliage. It has been very troublesome at Agassiz.

The beetle is a hard, brown insect about half an inch long, and makes its

The Rose Beetle. appearance in early summer. According to Dr. Riley’s observations, the

eggs are deposited usually in the soil of open land or cultivated fields,

particularly where the soil is light or sandy. In two or three weeks the eggs hatch, and the

larvee feed upon the roots of grass and other plants. They winter in the soil and change to
the pupal state there, emerging as the perfect beetle in early summer.

This is considered one of the most difficult insect pests to fight. Spraying with Paris
green (Spray No. 9) has given good results in some cases, but hand-picking the insects in the
cooler hours of the day, while slow, has proved the surest method of dealing with the pests
when not too numerous. Where they are present in large numbers, Dr. Smith reports good
results from collecting the beetles by means of funnel or umbrella-shaped collectors. The
beetles drop readily when the infested plants are jarred, and the collectors are so inade that
the insects roll to the centre and into a pail containing kerosene.

The Potato Blister Beetle (Zpicanta maculata) is reported from.Ashcroft and Chilcotin,

and is found generally in the interior valleys. This pest is very destructive in potato and

garden patches, generally appearing in May and lasting till the middle of

Potato Beetle. August. It is a greyish-black beetle; in cool weather it is sluggish and can

be readily hand-picked or brushed off the plants into some convenient vessel.

Mr. Fletcher recommends as a remedy one pound of Paris green to 100 gallons of water, or

one pound to 50 pounds of ashes or other fine powder sprinkled over the leaves. It should be

mentioned that these beetles in their larval state feed, so far as known, exclusively upon the
eggs of locusts (grasshoppers), and are thus of great benefit.

Turnip Flea or Beetle (Phyllotreta vittata—Fab.). Prevalent in all parts of the Province
where the crops it feeds upon are grown. It attacks turnips, cabbages, mustard, radish, and
other plants of the same family; especially injurious to the young plant
Turnip Beetle. when it first appears above ground, often necessitating a re-sowing of the
crop.
It is a small, shiny black beetle, with a yellow, longitudinal stripe on each wing-cover.
The eggs are deposited on the roots of the plants it feeds upon, and the larvee which hatch
feed upon the roots, so that it is injurious in both stages of its existence. The beetles pass
the winter beneath rubbish or clods of earth, and make their appearance early in spring.
Dr. Fletcher says: ‘I have found the most successful treatment of this insect to be the
sowing of perfectly dry land plaster or ashes, with fifty parts of which one part of Paris green
had been mixed.. Other experimenters speak highly of a decoction of waste
Preventatives. factory tobacco, one pound in two or three gallons of water. This latter
remedy is useful upon garden cress, where Paris green cannot be used.”
Fresh slaked lime dusted on the young plants is a good preventative of injury, and good
results have been obtained by using the well-known Bordeaux mixture sprayed on the plants
to be protected.

The larvee of this beetle (Polyphylla decemlineats) has done much damage to nursery
stock and strawberry plants on the grounds of Mr. J. A. Knight, Mount Tolmie. The beetle

Western itself is 1} inches in length by over 4 an inch wide. It is shaped like the

Ten-lined ordinary June bug, is of a tawny brown appearance, with four white stripes

June Bug. and a short dash from the shoulders on each wing case. The colour of the
wing-cases is really black, but they are so covered with tawny scales as to give the beetles a
brown appearance. The larva of this beetle, when full grown and stretched to its full length,
is 2} inches in length, by § in. wide. The body is curved and white, the head pale chestnut,
the mandibles black.—[ Fletcher. ]

60 Vicr. PROVINCIAL BoaRD OF HORTICULTURE. 25

This is a very difficult pest to deal with, ordinary insecticidal remedies not being appli-
cable. Prof. Smith advises fall ploughing of infested land, with heavy top-dressings of kainit
or muriate potash and nitrate of soda. Chickens should be encouraged to follow in the fresh
turned furrows to pick up the grubs. Although this pest is only reported from one point, it
is probably not confined to that place, and should be looked out for.

The larvee of click.beetles (Hlateride) are well known as “ wire-worms.” The species

troublesome to us appear early in spring in the beetle form, and in some localities on the lower

Mainland have been very injurious, destroying the blossoms of fruit-trees.

Wire-worms. In this stage the only practical remedy so far has been to jar infested trees,

which causes the beetles to fall, and remain quiescent for a short time, so that

they may be collected on a sheet, spread for the purpose and destroyed. Mr. E. Hutcheson
found this plan quite éffective.

To wire-worms in the soil, the direct application of insecticides is usually impracticable.
Methods of cultivation calculated to avoid injury are more satisfactory.

Grass land known to be infested should be fall ploughed, and while this will not destroy
any large proportion of the larve, it will kill most of the pups and beetles then in the ground,
so if the practice be continued for a series of years, the insects will gradually run out.

Frequent change of crops is also advised, and the growing of crops which require clean
cultivation. Miss Ormerod recommends the growing and ploughing in of mustard as a good
preventative measure. :

Mr. Fletcher says (Report 1885, page 17) :—“ Most of my correspondents agree that the
attacks from wire-worms (sometimes called yellow worms) are much less severe upon well

What Or manured, highly cultivated and well cleaned ground. Mr. William Miller,
Pistaher ~ e of Bridgetown, N.S., a gentleman of large experience and a successful farmer,

YS: tells me he can clear any ground from wire-worms by high culture and careful
cleaning by the third crop. Where potatoes are grown they should be picked up immediately
they are dug, and most of the wire-worms will be taken out with them and can be destroyed.
He mentioned an instance of a piece of land he had just cleared which, when he took it, was
so full of wire-worms that he had been able to gather them up by the handful from the bottom
of the cart in which the potatoes were drawn from the field. In confirmation of this, I give
the following quotation froin the report which has just been issued by Mr. C. Whitehead for
the Agricultural Department of the Imperial Privy Council Office in England : ‘ First and fore-
most among means of prevention (of wire-worms attacks on crops) is the abolition of weeds
from the land and from the outsides of fields.’ This has been recognised and adopted long ago
by some agriculturists, for we find the following passage in Vol. XV. of the Journal of the
Royal Agricultural Society of England, in an essay upon the farming of light land, which is
always more liable to attacks of wire-worms. ‘There is a farm in the neighbourhood of Guild-
ford which presents an instance of a perfectly clean farm, and kept so by deep ploughing and
unsparing use of horse and hand hoes. It has often been remarked that root crops and corn
are unmolested by wire-worms upon this farm. The owner asserts that he starved them long
ago by growing no weeds to sustain them in the absence of a crop.’ ”

The following is taken from the American Garden, and will do for horticulturists :—

« Add three or four pounds of unslacked lime to every bushel of soil. This will make the
wire-worms so sick that they will give the seedling carnations a wide berth in the future ;

besides the health and colour of the plants will be so much improved that we

Re medy for vill think that they belong to a new race of pinks. The best way to use
Wire Worms: jinne isto spread the soil in a flat heap ten or twelve inches thick, then place
the desired amount of lime in lumps on the top. When the latter has become slaked and
pulverised the soil should be turned over two or three times and thoroughly mixed. It is

then ready for use.”

The parent beetle of the round-headed apple trec borer (Saperda candida) is easily
recognised by the brown colour of its body, and the two conspicuous, longitudinal, whitish
stripes along its back. It appears early in the summer, and deposits its eggs on the tree

26 ProvinciaL BoaRD oF HoRTICULTURE. 1897

The trunks, in or under the bark, within a few inches of the ground, frequently
Round-headed placing them just above the soil surface, or even below it where the ground
Apple-tree is cracked open so that the beetle can descend without difficulty. The insect
Borer. makes a slit-like opening in the bark into which the egg is pushed. A few
days later the egg hatches into a larva or grub, which gnaws its way into the inner bark or
sapwood, where it continues to feed throughout the season. As winter approaches it frequently
burrows downward below the surface of the ground, and rests there until spring, when it
again works upward and outwards to the bark, lining a cavity at the end of its burrow with
dust-like castings, and there rests until spring, when it changes to the dormant chrysalis state.
The adult beetle emerges from the chrysalis about a fortnight later, eats a hole through the
bark with its strong jaws, and comes forth to continue the propagation of the species. Thus
three years are required for the development of the insect.

The place where the larva enters may frequently be detected, especially in young trees, by
the sawdust-like castings that are pushed out. The eggs also-may often be seen, and are easily
destroyed hy pressing on the bark surrounding with a knife-blade or some similar instrument.
The presence of the larva is shown later by the discolouration of the bark where it is at work.

It is about an inch long, wholly without feet, whitish, with a chestnut brown head and
black jaws. The pupa or chrysalis is lighter coloured than the larve, and has numerous small
spines on its back.

The injuries of this insect. may be prevented by applying late in May, or early in June,
and twice later at intervals of three weeks, with a strong solution of soft soap, to which has

been added a little crude carbolic acid. This mixture may be conveniently
Remedies. made by mixing one quart of soft soap, or about a pound of hard soap, with

' two gallons of water, heating to boiling, and then adding a pint of crude car-
bolic acid. It will be made more effective and permanent by the addition of a small amount
of Paris green and lime. The solution should be thoroughly applied (a scrub brush is excellent
for the purpose) to the trunk and larger branches of the tree. If the bark of the tree is
especially rough, it should be scraped before the wash is applied, and the soil should be
smoothed down about the base of the trunk, so that there will be no cracks for the insects to
enter to deposit their eggs. Of course, the object of this application is to prevent the laying of
the eggs from which the grubs hatch. As additional precaution, it is well to examine the trees
during the late summer and early autumn months for eggs and young grubs, which are readily
detected, and can easily be destroyed with a knife. In this way one man can’ go over an
orchard of five hundred or more young trees in a day.

FLAT-HEADED APPLE-TREE BORER (Chrysobothris femorata).
(2), shows larva; (b), chrysalis ; (c), primary stage ; (d), the perfect insect.

This insect is very different, both in its adult and larvee stages, from the one just discussed.

The adult beetle, instead of being cylindrical in form and brown in colour, is flattened and
greenish-black. It appears, however, at about the same season as the other,

ee and the life histories of the two species are in general much alike, the prin-
peal cipal difference being that the present species requires less time to develop,
and attacks the tree higher up, being found all the way up the trunk, and

frequently in the larger branches. The front end of the larva is enlarged and flattened, while

60 Vict. ProvinctAL BoarD or HortTICULTURE. Pi

the rest of the body is much narrower, and tapers slightly towards the posterior extremity.
It is of a pale yellow colour, and has no feet. The pupa is at first whitish, but becomes darker
as the beetle develops. As noted above, the adult beetle is of a shining greenish black colour,
and has short stout legs. It may often be seen basking in the sunshine in summer, on the
sides of the trees and logs. The eggs of this insect are deposited early in summer in crevices,
and under the scales of the bark, being fastened in place by a glutinous substance. In a few
days the larva hatches and bores through the bark to the sapwood, in which it cuts broad, flat
channels, and sometimes completely girdles the tree. As it develops it bores farther into the
solid wood, and when fully grown again approaches the surface. When ready to become a
pupa, it gnaws partially through the bark, and then casts its last larval skin. About a fort-
night later the pupa changes to a beetle, which gnaws its way through the bark, and thus
completes the cycle of development.

The directions given above for the round-headed borer are also applicable to

Remedine: this insect.

The Small Bark Borers (Magdalis cenescens), identified by Dr. Fletcher, are reported

from all parts of the Lower Mainland, especially injurious on Vancouver and other islands.

They are the larvee of small beetles of the weevil family (Curculionide).

Bure Su The larvee are found under the bark of apple trees, destroying the inner bark

“and young wood, usually several close together; sometimes they are so

numerous that the entire bark of the trunk and principal limbs is infested with the larve,
and for all practical purposes the tree is valueless and had better be destroyed.

The methods advised to prevent the ravages of the larger borers are advised to be used as
preventives; and as it is usually noticed that trees in an unthrifty condition are particularly
liable to be attacked, measures should be taken by drainage, cultivation and manuring to
induce vigorous healthy growth of the trees.

The Pea Weevil (Bruchus pisi) is reported from Foster's Bar and Lytton. The parent
beetle deposits eggs on the outsides of the young pea-pods in summer. These hatch in a few
days, and the larve bore through the pods into the peas, which they enter
and eat out the substance of, leaving the germ, however, untouched. When
full-grown, the larve eat holes on one side of the pea, leaving only the outer covering, before
entering the pupal state. Most of these remain in the peas till the following spring, emerging
as the perfect beetle; but some complete their life cycle the same season.

Seed peas infested with these pests should be enclosed in tight vessels, and a little bisul-
phide of carbon poured in, covering up closely. The fumes will destroy them. Another plan
has also been tried with good effect; this is to heat the peas, as soon as ripe, to a temperature
of 145° Fahrenheit, when the partiaty grown larve will be killed without injuring the
germinating quality of the seed.

On no account should peas infested with weevils be sown without treatment.

Pea Weevil.

28 : PROVINCIAL BoaRD oF HORTICULTURE. 1897

THE PLUM CURCULIO (Conotrachelus nenuphar—Herbst).

The different stages are shown in the engraving above: (a) represents the
grub much magnified; (b) the chrysalis, and (c) the beetle, both
magnified ; (d) the young fruit, showing the crescent-shaped mark
made by the insect, and the curculio, life size, at its work.

So far as known, this pest of plum growers in Eastern States and Provinces does not

occur in British Columbia, but it is advisable that our fruit-growers should know the appear-

ance of the insect. It belongs to the family of snout beetles, so called from

eee the shape of the head, which is elongated into a beak. The beetle is a small,

‘ rough, grayish insect, about one-fifth of an inch long. The female deposits

eggs in the young fruit of plums and cherries, causing them to drop prematurely, generally
before the larvee are full grown:

The Imported Currant Borer (Sesia tipuliformis) is reported from New Westminster,
Burnaby, Vancouver, Vernon and Victoria. In the injurious stage of its existence this insect
is a small whitish larve that burrows up and down the stems
of currant and gooseberry bushes, stunting the growth and
rendering them unfruitful. It hatches from eggs deposited
singly on the young stems near the buds, early in summer, by a clear-winged
wasp-like moth, with a bluish-black body and three yellow bands across the
abdomen. The wings are transparent except at the borders, where they are
brownish black. The young larve gnaw through the stem to the centre, where Parent Moth.
they feed on the pith all summer, making a burrow several inches in length. When full grown
the larvae eat through the. stem wall almost to the outside and then change to chrysalides.
When-these are ready to transform, they burst through and the moths crawl out. So far only.
one brood has been noticed in the year.

All dead and weak shoots of infested bushes should be cut off and burnt, just as soon as
leafing out shows where the attack is located, and every wilted shoot seen at any time should

be cut off below the point affected and burnt. Another preventive measure

Remedies. which has been found effective by Mr. M. J. Henry, is to sprinkle the bushes

and the ground adjacent with a mixture of air-slacked lime and carbolic acid,
at the time when the parent moth is active, usually about the middle of May to the first week
in June, varying somewhat with the locality.

Imported
Currant Borer.

The Raspberry Cane Borer (Oberea bimaculata) is reported from New Westminster, Halls
Prairie, and Victoria.

The adult of this insect is a slender-bodied, black beetle, with a yellow collar just behind
the head. It appears early in summer, usually during June in the Northern States, and
deposits eggs in the green canes of raspberries and blackberries. The process
of oviposition is peculiar. The beetle makes two transverse rows of punctures,
about half an inch apart, in the cane; towards the tip and midway between -
these she deposits the egg. The rows of punctures make up a kind of girdling, which causes

Raspberry
Cane Borer.

60 Vict. ProvinctaL BoarpD or HORTICULTURE. 29

the tip of the cane to wither. A short time after the egg is deposited it hatches into a small
cylindrical larva, that bores downwards through the pith. By autumn they have frequently
reached the bottom of the cane, where they change to pups, and the following June emerge
again as beetles. The larva is footless.
Soon after the canes are punctured by the beetle they wilt; consequently, if they are
examined ahout midsummer, affected canes can easily be distinguished, and they should then
be cut off below the lower ring of punctutes and burned. If the injury is
Remedies. _ noticed later, the whole cane should be pulled up and destroyed, to be sure
and get the larva. ,

This pest (Bembicia marginata) has become very prevalent in the vicinity of Victoria,
where it has wrought great damage to the raspberry canes. It is not reported from other parts
of the Province. It is quite distinct from the cane-borer, having in the larval
state sixteen legs, six of which are fully developed, the others not being very
well defined. The parent moth is clear-winged, with a black body, prettily
banded and marked with yellow. The eggs are deposited in July on the leaves of the rasp-
berry, and the young larve, when hatched, find their way to the canes and feed upon the pith
in the interior, gradually working down to the root, where they winter. In the following
spring they work up again, usnally through a fresh cane, to a height of six inches or more above
ground, and eat the cane nearly through, in preparation for the exit of the future moth.
Within the cane and near this prepared spot the change to chrysalides takes place, and these,
when the time approaches for the moth to escape, burst through the outer skin of the canes,
and the moths soon take their flight and commence to lay their eggs, as previously stated.

Little can be done towards the destruction of this pest, other than destroying the infested
roots as soon as they are noticed. The application of boiling water to infested roots is advised
by a California writer.

Raspberry
Root Borer.

ath ‘ — rr }

The APPLE-TREE TENT CATERPILLAR (Llisiocampa).

(a), Side view; (b), back view, full grown at about six weeks old; (c), cluster
of eggs; (d), cocoon, oval of pale yellow colour.
Three varieties of these pests of the fruit-grower have been identified in the Province,
differing somewhat in appearance, but having the same destructive habits, and well known by

30 PROVINCIAL BoARD OF HORTICULTURE. 1897

their habit of building webs or nests from which they issue to feed. The
Tent Cater- eee of these pests are deposited upon the twigs of fruit and other trees in
Pilar ring-like clusters or patches and covered with a viscid liquid, which dries
into a sort of varnish, by the parent moths ; this takes place during July and August.
On the principle that an ounce of prevention is worth a pound of cure, the easiest way
of dealing with this pest, especially on small trees, is to destroy the egg masses, either remoy-
ing them for the purpose, or cutting off the twigs on which they are found.
How to Deal Qareful searching is required to do this, but the work can be accomplished
MHNSEN a the dormant season, when there is not so much press of work in other
ways. If the caterpillars are allowed to hatch out, they are easily detected by their. con-
spicuous web or nest. In the early and late portions of the day they will all be found in
these nests, and can be readily destroyed by crushing the nests and their contents with the
gloved hand, by trampling under foot, or by using a torch to burn them out. Sometimes
when a nest has been destroyed some of the caterpillars will be absent feeding, and within a
few days the nest will be repaired and the remnants of the colony reestablished, so that
repeated visits should be made to the orchard in order that all may be destroyed. N: eglected
trees are soon stripped of their foliage and become exhausted by having to reproduce foliage
at an unseasonable time, so that little or no fruit will be produced the following season.
Where these pests have been neglected till they become mature, it may become necessary
to use the Paris green spray (No. 9) to prevent them from spreading. As egg clusters are
very numerous this season, we may expect that the pests will give considerable trouble during
the. summer, and fruit-growers should be on the alert to reduce the number as far as possible
by destroying them. -

Fall Web-Worm (Hyphantria textor) is reported from Chilliwack and the Spallumcheen
Valley. The moth of this species deposits her eggs in broad patches on the under side of the
leaves, near the end of a branch, during
the latter part of May or early June.
These hatch during June and July. As
soon as the young larve appear they
begin to eat and to spin a web over themselves for protec-
tion. They devour only the pulpy portion of the leaves,
leaving the veins and skin of the under surface untouched.
When full grown they are an inch or more in length, and
vary greatly in their markings ; some examples are pale-
yellow or greenish, others much darker, and of a bluish-
black hue. The head is black, and there is a broad, dusky
or blackish stripe down the back, along each side is a yellowish band, speckled more or
less with black. The body. is covered with long straight hairs, grouped in tufts, arising from
small black or orange-yellow protuberances, of which there are a number on each segment.

The moth is of a milk-white colour, without spots. When expanded, the wings measure
about 1} inches across. From their birth the web-spinning habits of the larve promptly leads

to their detection, and as soon as seen they should be removed by cutting

The Remedy. off the twig or branch and destroying it. As they remain constantly under

the web for so long a period, the removal of the branch insures in most

instances the destruction of the whole colony. See also remedy recommended for Apple-Tree
Tent Caterpillar.

Fall Web-Worm.

60 Vict. PROVINCIAL BOARD OF HORTICULTURE. 31

The larvee of the Tussock Moth (Orgyia antigua), identified by Dr. Fletcher, are reported
from Victoria, New Westminster and adjoining districts—feeding upon the leaves of fruit and
other trees. When mature, the caterpillars are very pretty, having bright

Tussock Moth. red heads, and yellowish bodies, bearing a series of dense, abruptly cut-off

; brushes on the middle of their backs, with two pencils of black hair on the
anterior, and one on the posterior of each.

‘The eggs from which the caterpillars hatch are often noticed in winter on dead leaves
which are fastened to the trees, with usually the empty cocoon attached. The injury from
these pests is best prevented by the destruction of these egg masses during the winter.

The caterpillars may be killed by using the Paris green spray, or, if not too numerous,
picking might be resorted to.

This insect (Plutella cruciferarum), the enemy of cabbages and allied plants, is reported
from Duncan’s and Burgoyne Bay, and is probably present to a greater or less extent in
The Diamond adjoining districts. The caterpillars are green in colour, and about } inch
Back Math ~ in length, and very active ; they eat holes through the young leaves and the
* under surface of older leaves of their food plants. Whén disturbed they run
backwards, wriggling their bodies violently from side to side, and fall to the ground by means
of a silken thread, where they lie quite still.
The moth is very variable in size and colour—the general colour being ashy-gray, with
a light stripe of somewhat diamond-shaped marks on the back, more or less distinct, though
sometimes wanting. The upper wings are freckled with black dots and small blotches of
yellowish scales.
There are two or three broods of this insect during the season.
Hellebore gives good results against this pest, used either dry or as a spray, but Dr.
Fletcher reports better results from the use of kerosene emulsion. A plentiful use of water to
keep plants in a thriving condition, is also a good means of dealing with the
Remedies. pest, which thrives especially well in dry seasons. Being remarkably subject
to the attacks of parasites, it is seldom troublesome during successive seasons,
periodical attacks being the rule.

The Red-humped caterpillar (Hdémasia concinna) is reported from Lytton and Chilli
whack, feeding upon the foliage of apple and other fruit trees.

The head of this caterpillar is red, and there is a hump on its back of the same colour,
on the fourth ring or segment ; the body is marked lengthwise by slender black, yellow and

white lines, and has two rows of black prickles along the back and other
pad a shorter ones upon the sides, from each of which there arises a fine hair.
arerptiar. The hinder segments taper a little, and are always elevated, when the insect

is not crawling. It measures, when full grown, about 1} inches in length.

The caterpillars feed together in numbers, usually stripping the branches of leaves as they
proceed. When handled, they emit a transparent fluid having a strong acid smell. When
full grown they descend to the ground and conceal themselves under leaves or slightly below
the surface, after a time changing to brown chrysalids.

The moths usually appear about June, and are described as follows :—The fore-wings are
dark brown on the inner and grayish on the outer margin, with a dot near the middle, a spot
near each angle, and several longitudinal streaks along the hind margin, all dark brown.

The hind wings of the male are brownish, or dirty white ; those of the female dusky
brown. When expanded, the win8s measure | to 1} inches across.

The female deposits her eggs in a cluster on the under side of a leaf; these soon hatch
into small caterpilars, which at first feed on the substance of the under side of the leaf ; later

on they consume the entire leaves. When not eating, they remain close
Easily Destroyed. together, sometimes completely covering the branch they rest upon. On

account of this habit they can be easily gathered and destroyed, or the
limb cut off and trampled under foot. They are also easily destroyed by using the Paris
green spray, No. 9.

32 PROVINCIAL BoargD of HORTICULTURE. 1897

The Mottled Umber Moth (Hibernia defoliaria) is reported from Victoria and the sur-
rounding district as injurious to the foliage of fruit-trees, especially plums and cherries. The
larve are slender loopers or measuring worms, 1} inches in length, with
U ea ry h, Chestnut red heads, dark reddish-brown backs, mottled with broken narrow
HARE ON peak: lines, the lowest distinct and waved; the sides bright yellow, paler
beneath. There is a dark reddish patch shaded with black, surrounding each spiracle. The
male moth is of a dull ochre-brown hue, expanding 1 inches, and has the upper wings dotted
and crossed diagonally by two dark waved bands; the space between these is pale and bears
on each wing a dark discal spot; the lower wings are paler than the upper, and like them
sprinkled with brown dots, and they have a dark spot near the middle. ‘The female moth is
brown, with two rows of conspicuous spots down the back. The wings are almost entirely
aborted. When the moths appear in the autumn, the females crawl up the trunks of trees
and lay their eggs on the branches. In this condition the insect passes the winter. ;
The usual remedies for the canker-worms are applicable for this species, and consist of
tying sticky bandages or mechanical contrivances around the trunks of fruit trees to prevent
the females from crawling up to deposit their eggs, or what will be found far
more effective, spraying the trees in spring when the young caterpillars hatch,
with Paris green and lime, 1 pound of each to 200 gallons of water.

Remedies.

The Bud Moth or Worm (Tmetocera ocellana) is reported froni Okanagan,
Nanaimo, Victoria, and Ladner’s Landing.

As svon in spring as the buds begin to open, the little caterpillars may com-
mence work upon them, gnawing the miniature leaves and blossoms, but the

attack is more likely to begin after the buds are about half open, <==,
Bud Moth. The larve then eat out the centres of the buds, where the leaves and flowers
are least developed. The caterpillar forms for itself a protecting case, by
using silken threads to bind together the leaves. As the season advances some of the leaves
are killed, become detached at the base, and turn brown; the blossoms’ also are more or less
webbed. The life history of this insect may be summarized as follows :—The moths appear in
the orchard early in summer; during daylight they rest upon the bark of trees or other
shelter ; at night they fly about and deposit their eggs, one in a place on the underside of
the leaves. About ten days later these eggs hatch into small green larve, which feed upon
the epidermis of the leaves, each making for itself a silken tube and a thin layer of silk for
protection and concealment. In a day or two the green colour changes to brown.

As the larva increases in size and the area over which it feeds becomes larger, the tube
is enlarged and lengthened along the mid-rib, sometimes becoming nearly one inch in length.
The silken web under which the larva feeds covers the entire field of operations, but is so thin
near the edges where the larva has last fed as to be scarcely visible. The excrement of the
larva being retained by the web, appears as little black pellets scattered here and there over
the feeding ground. The green portion of only one side of the leaf is eaten, the veins and
veinlets being left untouched ; these and the green on the opposite side die and turn brown,
and thus become conspicuous. Late in summer, or early in autumn, the half-grown cater-
pillars desert the leaves and crawl upon the twigs, where they form little silken cases, generally
near the buds or in creases in the bark. In these they remain throughout the winter. The
following spring they emerge to feed upon the opening leaves. They again make tubes, which
serve as protective cases. After feeding six or seven weeks they become full grown ; then
they form silken cocoons, generally in a rolled leaf or between two leaves, in which they
change to pupa, to emerge a short time later as moths. ‘The full-grown larve are cinnamon
brown in colour, with the legs, head and shield behind dead black. They are about half an
inch long and of the general form. The moth has a general resemblance to the common
codlin moth. It is dark ashen gray, with creamy white blotches on the front wings, which
expand a little more than half an inch.

These little pests can most successfully be destroyed by spraying with the arsenites early
in spring, when the buds are opening and the larve just’ beginning the season’s work. It is

Renvedias: advisable to use the Bordeaux mixture and Paris green combination, in order

to prevent injury by apple scab or other fungus maladies, as well as by
insects. (See Spraying Mixtures.)

60 Vict. PROVINCIAL BoarD OF HORTICULTURE. 33

The Oblique-Banded Leaf Roller (Cacecia rosaceana) is reported from Victoria, injuring
the buds and young leaves of apple and other fruit trees. This moth is a member of the
Tortricide or leaf-rollers, so named on account of their habit of rolling up

Leaf-Roller. the leaves or portions of them into hollow cylinders, within which they live

and feed. The larve commence operations as soon as the buds begin to
expand ; when full-grown they are about three-quarters of an inch in length, of a green or
yellowish green colour, with the head and top of the first segment brown; there is usually a
darker stripe along the back, and a few smooth dots on each segment, from each of which
arises a fine short hair.

The ravages of the larvee are often quite serious, as they check the new growth and
destroy the blossoms. Spraying, to be effective, requires to be done early in the season, using
the Paris green spray. After the cases are formed, hand-picking and crushing of these is
advised.

(a), Nest of larva on outside of tree, under the old
bark ; (b), pupa; (c), larva exposed from nest ;
(d), old nest ; (e), larva about to build nest ; (/),

the moth at rest ; (7), moth with wings spread ;
CODLIN MOTH. (h), head of larva.

(Carpocapsa pomonella. )

The puncture made by the moth is represented at (b),
the borings of the larva at (a), the mature worm
at (e), the moth with wings closed at (/), the
moth with wings expanded at (g), and the cocoon
at (¢); (d), the chrysalis, and (h), the anterior
part of the body magnified.

This pest (Carpocapsa pomonella) continues to be reported from different portions of the
Province, and although no specimens have been as yet positively identified as occurring on
Codi fruit grown in the Province, larve have been found in apples which at least
odlin Moth or ae: 5 : ae
Apple Worm. 2@ very similar in appearance. Codlin moth appears in infested pears and
apples as a reddish white grup or worm. The larva is whitish when young,
but becomes pinkish or flesh coloured as it approaches full growth. When young the head is
blackish, but in the full grown larva it is brown, with darker markings along the sutures.
The shield on the back of the first segment is of the same colour as the head. The body is
furnished with a few very small hairs, which arise from minute elevated points, of which there
are eight on each segment, two on the back, each side of the middle line, and a somewhat
larger one above and below each spiracle. The full-grown larva is 3 of an inch in length.
The cocoon is white inside and grayish outside, usually covered somewhat with bits of
bark or minute fragments of whatever substance the worm happens to spin on. The enclosed
pupa is yellowish brown, with rows of minute teeth on the back of the abdomen. The moth
is grayish brown in general appearance, but examined closely, we see that the fore wings are
marked with alternate irregular transverse streaks of gray and brown, and that there is a
large rounded tawny spot on the outer hind angle. This spot is marked with streaks of
bronze or gold and there are similar streaks just above it. The hind wings are brown, grading
from light to dark from base to tip. The two sexes can be distinguished by a black pencil of

34 PROVINCIAL BoaRD OF HORTICULTURE. 1897

hairs on the upper surface of the hind wing of the male only. This ‘tpencil” is not easily
distinguished but is always present. It runs in a furrow, which is noticable from the under-
side as a slight keel. °
Observations made during the past season by Prof. Slingerland have demonstrated that
the eggs of the codlin moth are not deposited in the calyx of the fruit, as has been the gener-
ally accepted belief, but are usually laid on the side of .the fruit. The eggs
The eggs. are a little smaller than the head of a pin, are flattened and transparent, so
that the colour of the apple shows through them. Under the microscope
the surface of an egg is seen to be marked with lines, and it looks somewhat like a fish scale.
Careful observation in orchards by Prof. Slingerland showed hundreds of eggs, scattered any-
where over the surface of the fruit, sometimes several on one fruit. As observed in the
insectary, the worm, which at first was little larger than a hair, was hatched in about ten days
time, and remained on the surface of the apple for several hours after emerging from the egg.
It then crawled about until the calyx of the fruit was reached, where it worked its way
between the lobes and entered the cavity. Here it remained for a number of hours, eating
the surface of the calyx lobes, and then gnawed its way into the apple. It will be seen from
what has been related, that the practice of spraying the trees with Paris green as soon as the
blossoms falls, which has been found effectual by practical growers, is entirely rational. At
this time the calyx lobes are open, and the Paris green will be readily deposited in the eye,
the fruit being turned upwards, and the poison will be eaten by the larva when it hatches 10
days or so later on. The closing of the calyx is also of advantage, as it covers the eye and
prevents the washing out of the Paris green by heavy rains. There are two or more broods of
the insect during the season. :

Usually the castings from the larva are pushed out through the hole by which it has
entered, the passage being enlarged from time to time for this purpose. Some of the castings
commonly adhere to the apple, hence before the worm is full grown, infested
fruit may generally be detected by the mass of reddish-brown exuvie pro-
truding from the eye. Sometimes as the Jarva approaches maturity, it eats
a, passage through the apple at the side, and out of this opening it thrusts its castings, and
_ through it the larva, when full grown, escapes. In three or four weeks from the time of hatch-

ing the early brood of larve attain full growth, when the occupied apples generally fall
prematurely to the ground, sometimes with the worm in them, but more commonly after it
has escaped. The larvee which leave the apple while still on the trees, either crawl down the
branches to the trunk of the tree, or let themselves down to the ground by a fine silken
thread, which they spin at will. In either case, whether they crawl up or down, the greater
portion of them find their way to the trunks of the trees, where, under the rough bark, and in
cracks and crevices, they spin their cocoons.

Having selected a suitable hiding-place, the larva constructs a papery-looking, silken
cocoon, which is white inside, and disguised on the outside by attaching to the silky threads
small! fragments of the bark of the tree or other available débris. ,

After the cocoon is completed, the change of the chrysalis takes place in the early brood
in about three days. At first the pupa is of a pale yellow colour, deepening in a day or two to
a pale brown. The insect remains in this condition about two weeks, when the moth escapes.

Each moth is capable of laying on an average probably not less than fifty eggs, but
these are not all matured at once. By careful dissection they may be found in the body of the
moth in different stages of development. Hence they are deposited successively, extending
over a period probably of from one to two weeks or more. Add to this the fact that some of
the moths are retarded in their development in the spring, and it is easy to account for the
finding of larve of various sizes at the same time ; indeed, sometimes the later specimens from
the first brood will not have escaped from the fruit before some of the young larve of the
second brood make their appearance, the broods thus, as it were, overlapping each other and
very much extending the period for the appearance of the winged insects.

The moth conceals itself during the day-time and appears only at night, and since it is
not readily attracted by light is seldom seen. The second brood of moths are usually on the
wing during the latter half of July, when they pair, and in a few days the female begins to
deposit her eggs for the later brood of larve, generally selecting for this purpose the later
apples. These larve mature during the autumn or early winter months. If they escape
before the fruit is gathered, they seek some sheltered nook under the loose bark of a tree, or
other convenient hiding-place ; but if carried with the fruit into the cellar, they may often be

*

Development
Stages.

60 VIcT. PROVINCIAL BOARD OF HORTICULTURE. 35

found about the barrels and bins in which it is stored. A favourite hiding-place is between
the hoops and staves of the apple barrels, where they are found sometimes by hundreds. If
thus provided with snug winter quarters, and through negligence allowed to escape, the fruit-
grower must expect to suffer increased loss for his want of care.

Having fixed on a suitable spot, the larva spins its little tough cocoon, firmly attached to
the place of attachment, and within this it remains in its larval state until early the following
spring, when it changes to a brown chrysalis, and shortly afterwards the moth appears to begin
the work of the opening season. i‘

The moth is a night flier, but is not readily attracted by light, and is so seldom captured
by poisoned baits as to render this method of destruction impracticable.

One of the most effective methods yet devised for reducing the number of this insect is
to trap the larve and chrysalides and destroy them. This is best done by applying bands
around the trunks of the trees, about six inches in width; strips of old
sacking, carpets, cloth, or fabric of any kind will serve the purpose, and
although not so durable, many use common brown paper. Whatever
material is used, it should be wound entirely around the tree once or twice, and fastened with
a string or tack. Within such enclosures the larve hide and transform. The bands should
be applied not later than the first of June, and visited every eight or ten days until the last of
August, each time taken off and examined, and all the worms and chrysalides found under
them destroyed; they should also be visited once after the crop is secured. Some persons
perfer to use narrower bands, not more than four inches wide, and fasten them with a tack,
while others secure them in their place by merely tucking the ends under. Usually the
cocoons under the bandages are partly attached to the tree and partly to the bandages, so that
when the latter is removed the cocoon is torn asunder, when it often happens that the larva
or chrysalis will fall to the ground, and if it escapes notice may there complete its transforma-
tions. ,

Paris green has been found the best poison to use, either in combination with lime or with

Bordeaux mixture, at the rate of 4 ozs. to 50 gallons of water or Bordeaux

Spraying. mixture. If water is used in diluting, add 2 ibs. fresh lime to each 50

gallons. See spray No. 9.

Under favourable circumstances a single spraying is sufficient, but usually two sprayings
are required at intervals of about a week, and a third if rain interferes. The first spraying
should always be made as soon as the blossoms have fallen and the fruit is set. The second
spraying is made to allow for the irregular hatching of the larve, and to make certain that all
are reached. To be efficient, the spray must reach every fruit to be protected.

The fallen fruit should be promptly gathered and destroyed. It has been recommended
that hogs be kept in the orchard for the purpose of devouring such fruit, and where they can
be so kept without injury to the trees or other crops, they would no doubt be useful.

Remedies—
Trapping.

Canker or Measuring Worms (Anisopteryx—undetermined) are reported as injuring the

foliage of fruit trees at Nanaimo and Victoria. The caterpillars feed upon the pulp of the leaf,

leaving the network of veins, so that the foliage appears brown and scorched.

Canker Worms. There are two distinct species. They are, when full grown, about an inch in

length, and vary from a greenish-yellow to a dark brown colour, with broad

yellowish or paler stripes along each side. When not eating they usually assume a stiff posture,

either flat and parallel with the twigs on which they rest, or at an angle of about forty-five
degrees.

‘ The two sexes of these canker worm moths differ greatly. The male has large, well
developed wings, while the female is wingless. "When she emerges from the chrysalis state she
crawls to the base of the tree, and ascends the trunk some distance; here the male finds her,
and after mating she begins the deposition of eggs.

This habit gives control of these pests, for if we simply band the trees in such a way as to
prevent either the female or the young caterpillars from ascending the branches, they will be
completely protected. Unless the females can get upon the leaves, the eggs are laid upon the
trunk below any obstruction they cannot pass. The young larve will attempt to get to the
leaves, and will, if they find an impassable barrier, starve to death.

36 Provincia Boarp oF Horticulture. 1897

Prof. J. B. Smith recommends the use of “dendrolene” for the purpose, as it remains in

a viscid condition for a long time. It should be applied on a band of thick wrapping paper put

; round the trunk, about six inches wide, and spread a quarter of an inch in

Homedias thickness over the wrapping paper. Tar mixed with oil to prevent its drying,

‘ic caked may be used in the same manner, or printer’s ink, if the first-named substance

is not available, but to be effective must be kept sticky by frequent renewal. Fluffy wool or

cotton banded round the tree has also been used with good results, but is not so certain a pre-
ventive.

Infested trees should be sprayed with Paris green (see Spray No. 9) soon after the worms

hatch.

The name Apple Fruit Miner has been given to a small larva of one of the tortricid moths.
It feeds upon the pulp of the apple, tunnelling through it in all directions, completely spoiling
the fruit, when, as is often seen, several larve are present in one apple.

This pest was very plentiful in Chilliwhack and Mission City Districts the past season,
which is the first in which the ravages of the insect have attracted much attention, though it

., has been noticed occasionally in previous years. It is also reported from parts
Apple Fruit of Vancouver and other islands, and is apparently widely distributed, though
Miner. ; :
until the past season not noticed to any extent.

Its life history has not yet been worked out. Mr. E. A. C. Gibson, of the Department
of Agriculture, is, however, making a special study in this line.

So far the only practical way of dealing with the pest, which suggests itself, is the destruc-
tion of all infested fruit, and this should be carefully attended to. A thorough cleaning of the
orchard, and the burning of all prunings and-other rubbish is also recommended.

It is probable that this is a native insect, as it is found in large numbers on the fruit of
the wild crab, so that its natural enemies may be expected to help the fruit-grower in dealing
with the pest.

THE LESSER APPLE-LEAF ROLLER.
(a) Larva. (b) Pupa. (c) Moth. (d) Folding case of leaves.

The caterpillar of the Lesser Apple-leaf Roller (eras minuta) is a greenish-yellow larva,

smooth, with a pale brown head and whitish markings, affecting the young leaves of the

terminal twigs, with which the insect forms a protective case. This species

Lesser Apple- is remarkable in that two of the three broods of moths which appear during

, leaf Roller. the year are of a bright orange colour, while those of the third brood are
reddish gray. It is an example of what naturalists call dimorphisin.

The eggs are laid in the spring, on the unfolding leaves of apple and other trees and
bushes, the larvee soon hatching and feeding on the young foliage, some of which they roll into
a protective covering.

Here they continue feeding for about a month, when they pupate within the folded leaves,
and a week or so later emerge as small orange yellow moths. These moths lay eggs for another
brood of larvee, the moths of which are also yellow, and they in turn lay eggs for a third brood
which develops in the fall as reddish gray moths. These winter in sheltered places and in the
following spring deposit their eggs as previously stated. ~ 8

60 Vict. PROVINCIAL BoaRD OF HORTICULTURE. 37

This pest must be closely watched, as spraying to be effective should be done when the
caterpillars are quite young, before they form protecting cases of the leaves.
Either Paris green or hellebore can be used effectively against this pest, preferably the
first-named. (See sprays 8 and 9.) Other varieties of leaf rollers are also reported as
injuring fruit trees, which are not yet identified. However, the remedies
Remedies. mentioned should be used to destroy them, always taking care to spray
before the “protecting cases” are formed.

This insect (Papilio asterias) is reported from Nanaimo and Victoria ; it feeds upon the
foliage of vegetables of the parsley family, celery, carrot, parsnip, etc. The caterpillars are
very handsome and conspicuous in appearance ; the general colour is pale
green, with a series of transverse bands of black and yellow markings on
their bodies. When irritated they thrust out, from a slit just back of the
head, a pair of peculiar yellow y-shaped organs that emit a disagreeable odour, which, no doubt,
is intended to serve as a protection from enemies. The eggs of this insect are deposited upon
the undersides of the leaves of its food plants.

The adult butterfly is a handsome black insect with yellow and blue markings on the
wings. When young, the caterpillars may be destroyed by using hellebore or buhach, applied
as for the currant worm, but usually hand picking will keep them in check, as they do not
occur in great numbers.

Celery
Caterpillar.

Reported from Enderby, Sooke, Beaver Point, Victoria, Ashcroft, Bonaparte, and James
Island, and no doubt common in many other districts. As a preventive measure, the bushes
c 3 and ground adjacent should be sprinkled with a mixture of air-slacked lime

urrant Fruit z ae 3 ; a

Worm. and carbolic acid, just at or previous to the time when the parent fly is

active, probably early in May. One pint of crude carbolic acid to one bushel

of lime, well-mixed together, is strong enough for the purpose. This method is useless after

the eggs have been deposited, so careful attention is necessary. Affected fruit ripens prema-

turely and drops to the ground. These and the rubbish from under the bushes should be
gathered and burnt.

®

IMPORTED CURRANT WORM or CATERPILLAR FEMALE FLY.
(Mematus ventricosus. )

The full-grown worms are about three-fourths of an
inch long, and are shewn at (a); (b) gives the
position of the black spots upon a magnified joint
of the body. :

This well-known pest, which feeds upon the leaves of gooseberry and currant bushes, is
reported from most districts of the lower Province. Its parent isa member of the saw-fly family.

38 ProvincraL Board or HorTICcULTURE. 1897

It is a four-winged fly, with a rather deep, yellow body, and may often be
Imported seen in spring sitting upon the foliage or flying about, when the leaves of the
Currant Worm. jushes are developing. It deposits its eggs on the principal veins of the
undersides of the lower leaves. The larvee soon hatch and commence to feed ravenously ; bushes
sometimes are completely stripped of their leaves in a few days. There are two or more broods
in the course of the season, so that special care should be taken not to neglect the first. The
larve is green, dotted with black spots, when full grown, nearly an inch in length; when
mature they spin their cocoons beneath the leaves and rubbish at the surface of the ground,
within which they pupate. The cocoons are brown in colour, and not easily distinguished from
the soil and leaves.
Hellebore has been found the best remedy for this pest. It may be used in the form of a
dry powder, or in water as a spray, at the rate of 1 oz. to 2 gallons water. Ona large scale
Leggett’s Powder Gun is a very quick and economical means for applying dry
ee ie hellebore; by its use there is a great saving of time in the application as well
ii as material, one large grower stating that: three-fourths of the labour and
expense can be saved by its use over the method of distributing the powder by other means,
and this statement is fully borne out by experiments made by the writer the past season.

_ If desired, Paris green mixed with dry flour, at the rate of 1 oz. to 4 Ibs. flour, can be used
to dust the bushes for the early brood, or as a spray (see Spray No. 9), but would not be advis-
able for later use, when fruit is on the bushes. —

In fighting this pest care should also be taken to commence when the pests are quite small,
and found on the lower portions of the bushes, and so reduce the labour and expense to a
minimum,

This pest is found to a greater or less extent all through the fruit-growing districts of
the lower Province, but is not reported from the interior. Pear and cherry trees
in New Westminster District :
Pear pi Cherry especially have been very much
ug. ie
injured by the pest.

This insect passes the winter in the pupa state
under ground; the flies, the progenitors of the
mischevious brood of slugs, appearing on the wing
ahout the third week in May until the middle of
June. The fly is of a glossy black colour, with
four transparent wings, the front pair being crossed
by a dusky cloud; the veins are brownish, and the
legs dull yellow, with black thighs, except the hind
pair, which are black at both extremities, and dull
yellow in the middle. The female fly is more than
one-fifth of an inch long; the male is somewhat
smaller. When the trees on which these flies are
at work are jarred or shaken, or if the flies are otherwise disturbed, they fall to the ground
where, folding their antenne under their’ bodies and bending the head forward and under,
they remain for a time motionless.

The saw-flies have been so called from the fact that in most of the species the females are
provided with a saw-like appendage at the end of the body, by which slits are cut in the
leaves of the trees, shrubs, or plants on which the larve feed, in which slits the eggs are
deposited. The female of this species begins to deposit her eggs early in June; they are
placed singly within little semicircular incisions through the skin of the leaf, sometimes on the
under side and sometimes on the upper. In about a fortnight these eggs hatch.

The newly-hatched slug is at first white, but soon a slimy matter oozes out of the skin
and covers the upper part of the body with an olive-coloured sticky coating. After changing
its skin four times, it attains the length of half an inch or more, and is
then nearly full grown. It is a disgusting-looking creature, a slimy,
, blackish, or olive-brown slug, with the anterior part of its body so swollen
as to resemble somewhat a tadpole in form, and having a disagreeable and sickening odour.
The head is small, of a reddish colour, and is almost entirely concealed under the front
segments. It is of a dull yellowish colour beneath, with twenty very short legs, one pair

PEAR AND CHERRY SLUG.
(Selendria cerasi.)

The Pest De-
scribed.

60 Vict. ProvinciaL Boarp or Horticutturs. 39

under each segment except the fourth and the last. After the last moult it loses its slimy
appearance and dark colour, and appears in a clean yellow skin entirely free from slime. Its
form is also changed, being proportionately longer. In a few hours after this change it leaves
the tree and crawls or falls to the ground, where it buries itself to a depth of from one to three
or four inches. By repeated movements of the body the earth is pressed firmly on all sides,
and an oblong oval chamber is formed, which is afterwards lined with a sticky, glossy
substance, which makes it retain its shape. Within this little earthen cell the insect changes
to a chrysalis, and in about a fortnight finishes its transformations, breaks open the enclosure,
crawls to the surface of the ground, and appears in the winged form.

About the third week in July the flies are actively engaged in depositing eggs for a
second brood, the young slugs appearing carly in August. They reach maturity in about four
weeks, then retire underground, change to pup, and remain in that condition until the
following spring.

‘Pear and cherry growers should be on the look-out for this destructive pest about the
middle of June, and again early in August, and if the young larve-are then abundant they
should be promptly attended to, since, if neglected, they soon play sad havoc with the foliage,
feeding upon the upper side of the leaves and consuming the tissues, leaving only the veins
and under skin. ‘The foliage, deprived of its substance, withers and becomes dark coloured,
as if scorched by tire, and soon afterwards it drops from the trees. In a badly infested pear
orchard whole rows of trees may sometimes be seen as bare of foliage during the early days
of July as they are in midwiuter. In such instances the trees are obliged to throw out new
leaves, and this extra effort so exhausts their vigour as to interfere seriously with their fruit-
producing power the following year. Although very abundant in a given locality one season,
these slugs may be very scarce the next, as they are liable to be destroyed in the interval by
enemies and by unfavourable climatic influences.

Spraying with Paris green or hellebore as soon as noticed. See sprays Nos. 8 and 9, or
small trees may be treated as for the currant worm, with hellebore or Paris
green.

Remedies.

Cut-worms (Noctuide) are reported from all parts of
the Province, very destructive to garden crops. There are
many different species of these well-known
Cut-worms. enemies of the garden
and farm. They are
all larvee of night-flying moths, and are
rather thick, naked worms, which curl
up when disturbed.
Moth. In places where cutworms are Larve,
known to be troublesome, it is advisable to fall-plough sod-land as early in the season as
convenient; this will avoid egg-laying by moths of late broods. Prof. Fletcher advises the
following remedies :
(1.) As the young caterpillars of many species hatch in autumn, the removal of all
vegetation from the ground as soon as possible in autumn deprives them of their food supply,
and also prevents the late flying moths from laying their eggs in that
Clean Culture. locality. Fields or gardens which are allowed to become overgrown with
weeds or other vegetation late in the autumn are almost sure to be troubled
with cut-worms in the spring.
(2.) Large numbers may be destroyed by placing between the rows of an infected crop,
or at short distances apart on infected land, bundles of any succulent weed, or other vegetation
” which has been previously poisoned by dipping it, after tying in bundles,
Traps. into a strong mixture of Paris green. The cut-worms eat the poisoned plants
and bury themselves and die. In hot and dry weather these bundles should
be placed out after sundown, and a shingle may be placed on each to keep it from fading.
(3.)—(a.) It will be found to well repay the trouble and expense to place a band of tin
around each cabbage or other plant at the time of setting out. These may very easily be
made by taking pieces of tin six inches long and two and a half wide and
bending them around a broom handle ; the two ends can be sprung apart to
admit the plant, and then the tube should be pressed about half an inch into

Banding and
Wrapping.

40 ~ PROVINCIAL BoaRD OF HORTICULTURE. 1897

the ground. This is a useful means of disposing of empty tomato and other cans. To
prepare these easily, they need only be thrown into a bonfire, when the tops and bottoms fall
out and the sides become unsoldered. The central piece of tin can then be cut down the
centre with a pair of shears, and forms two tubes. ; ;

(6) Wrapping a piece of paper round the stems of plants when setting out will also save a
great many. :

(c.) Hand-picking or digging out the cut-worms whenever a plant is seen to be cut off
should, of course, always be practised.

Prof. J. B. Smith says that plants such as tomatoes, cabbages, etc., can be protected when
set out by putting at the base of each plant a tablespoonful of poisoned bran, using 1b. Paris
green to 50fbs. bran. This should be well mixed, dry, and then moistened with sweetened
water until the whole is thoroughly wet, but not sloppy. This mixture is very attractive to
cut-worms, being usually preferred to the plants. Against climbing cut-worms, which sometimes
injure fruit trees and bushes, dendrolene or the other preventative remedies advised for
canker-worms will afford protection.

There are two enemies which deserve
special notice and from the good service

they do should be known

Phe by sight to every culti-

: vator. They are the
fiery ground beetle or cut-worm lion
(Calosoma calidum— Fab.) and the black
wasp (Ammophila luctuosa). Both of
these are desperate enemies of the cut-
worms, the former feeding on them in
all of its stages ; the latter digging them
* out and storing its nest with them as food
Cut-worm Lion. for its young grubs. Black Ground Wasp.

Grasshoppers and locusts (Acridid#) are reported from Kamloops, Lytton, Ashcroft,

Columbia Valley, Fort Steele, Nicola, Tobacco Plains, East Kootenay,

Grasshoppers. Louis Creek, Adams Valley, in the interior, and from Surrey Centre, Sardis,
Agassiz and Vancouver Island, in the lower country.

These grasshoppers, or locusts, are of several different varieties, the most common one in
the interior probably being Melanoplus atlanis (Riley). Dr. Fletcher says:—

“The large amount of damage annually wrought by locusts is seldom appreciated. Their
habits are to frequent grass lands, where a large proportion of the crop may be consumed
without making much difference in the appearance of the fields. It is only after hay is cut,
or in seasons of unusual drought, that locust injuries are much noticed. If, however, their
numbers at all times and their voracity are considered, it will at once be seen that they must
every year destroy much produce. They do not develop wings until July, and previous to
that they pass most of their lives low down among the stems of grasses. Besides locusts, there
are many other forms of grass-feeding insects which every year levy a heavy toll unnoticed
These may all be to a large measure controlled by the use of machines called
‘hopper-dozers,’ or ‘ tar-pans,’ which were invented in the ‘West some years
ago at the time of the so-called ‘locust invasions.’ Prof. Herbert Osborn, of
Iowa, writing on means of destroying grasshoppers, says:—‘In meadows and pastures, we
believe the use of the hopper-dozer the most practical plan that can be recommended. In
many cases it can be used to capture these and the leaf-hoppers at the same time, especially
if used when grashoppers are still quite small and can be held by a thin layer of coal-tar used
on the simple flat sheet of iron. When larger they need a deeper layer of coal-tar, or a pan of
water with a covering of coal oil on it. A cheap and simple plan for this purpose, costing
from $1.50 to $2, was described many years ago by Prof. Riley. It consists of a strip of sheet-
iron 8 or 10 feet long, turned up 1 inch in front and 1 foot behind, with pieces soldered in at
the ends (or made of wood), and hooks placed in front at the ends for the attachment of ropes.
Tf to run on rough ground, it will be better to put runners 1} or 2 inches high underneath.
Into this put a layer of coal-tar half an inch deep, or water and kerosene. It can be drawn
by a boy at each end, or by horse-power if preferred.

The use of hop-
per-dozers.

60 Vict. PROVINCIAL BoarD or HorTICULTURE. 41

“To treat pastures and meadows for grasshoppers and leaf-hoppers, it would seem from
present experience the best plan to run over all grass lands early in May with the simple dozer
described for leaf-hoppers (a piece of sheet iron 84 feet long and 2 feet wide was coated on the
upper side with coal-tar, and lying flat on the sod was dragged along by means of three cords,
one fastened at each end and one in the middle). Pastures should be treated a second time,
about the middle of June. For meadows, the second treatment may follow hay-cutting, if
insects are abundant, and then, if grasshoppers appear in July in numbers, resort to the deep
hopper-dozér described above.’

“Summarising the results of his experiments with leaf-hoppers, the same writer says :—
‘Experiments with hopper-dozers for grass leaf-hoppers show that this method can be used
very successfully in capturing the insects; that the simplest form, a flat sheet of iron, was
most satisfactory ; that one application resulted in adding 34 per cent. to the crop of hay ona
plot experimented on, and in one experiment leaf-hoppers were captured at the rate of 376,000
per acre. :

“These results are most striking, and one cannot but feel convinced that it would pay
well to adopt systematically such a simple and cheap method of freeing pastures of the myriad
insects which reduce the yield every year.

“The use of hopper-dozers in the Western States for the destruction of locusts is recog-
nised as one of the standard methods of fighting these injurious insects, and has been attended
with marked success. The other method which is relied on is ploughing the land where the
eggs have been deposited, so as either to bury them deeply, so that the young cannot emerge
in spring, or so as to expose them under unnatural conditions to the frosts of winter or their
numerous predacious enemies. In the thickly settled portions of Canada where, as a rule,
stubble fields are regularly ploughed up before winter, we, as a consequence do not suffer from
locust plagues so frequently as is the case in the West.

“The use of insecticides such as Paris green for locust attacks is seldom a practical
remedy, except on limited areas. In response to some who have applied for the receipt of the
bran and arsenic remedy, I extract the following from Professor Clarence Weed’s useful little
work ‘Insects and Insecticides’:—‘ A mixture which has been successfully employed consists

of arsenic, sugar, bran and water, the proportions being one part (by weight)

Insecticides. of arsenic, one of sugar, and fifty of bran, to which is added a certain

quantity of water. The arsenic and bran are first mixed together, then the

sugar is dissolved in water and added to the bran and arsenic; after which a sufficient

quantity of water is added to thoroughly wet the mixture. About a teaspoonful of this

mixture is thrown on the ground at the base of each tree or vine (in gardens and orchards)
and left to do its work.’

“T found by experiment that the poison works slowly, but is very effectual.”

Cicadas are reported from Armstrong, Enderby and Okanagan Valley.
No injury is done by these insects in feeding, but their egg-laying habit causes consider-
able trouble. The eggs are laid in the twigs and branches of trees, a series of slits being cut
Gikadss by the ovipositor of the female, forming chambers in which the eggs are
j arranged in series. No practical remedy for this pest has been found, but
as birds are fond of the insects, they should be encouraged in the orchard as much as possible.

This well known enemy of greenhouse plants (Tetranychus telarius) is also injurious to
fruit-trees and plants in the open, especially in some portions of the Interior. In greenhouses
it is best dealt with by keeping the air saturated with moisture. Infested

The Red Spider. trees or plants in the open should be sprayed with the No. 1 wash in the
dormant season, or in summer with the tobacco and soap (No. 6) or quassia

and soap washes (No. 2) where the pest is known tv be present.

42 Provincta, Board or HortictLture. 1897

The Red Clover-mite (Bryobia pratensis) is more widely distributed in old orchards in the

lower part of the Province than is generally known, a close examination of the trees gener-

ally disclosing the eggs during the winter months. The amount of injury

Red Clover-mite. done by the insects has not been determined, nor have any complaints been

made as to its presence on clover plants. I find that two sprayings with the

No. 1 wash (lime, salt and sulphur), following the directions given, will destroy the eggs. It

is a near relative of the common red spider so troublesome in greenhouses, and feeds upon
plant tissues in the same manner.

This enemy of the pear tree (Phytoptus pyri) is found all over the Province, and is very
injurious. It appears on the leaves of pear trees in spring, causing small reddish spots on
their upper surface. As the season advances these spots become darker,
Blee bie finally almost black, the tissues of the leaves being dry and dead. _ The pest
"itself is a very minute, eight-legged mite. The exceedingly minute oval
grayish eggs are laid by the females in spring within the galls they have formed, and here the
young are hatched. Sooner or later (just how long they remain has not been ascertained)
they escape through the opening in the gall and seek the healthy part of a leaf, or more often
crawl to the new growth and start fresh galls. In autumn they leave the galls and migrate
to the. winter buds at or near the ends of the twigs. Here they work their way beneath the
outer scales of the buds and remain during the winter. In this position they are ready for
business in the spring as soon as growth begins. coe aunt
The No. 1 spray (lime, salt and sulphur) is found to exterminate this pest here; it is
advisable to make two applications, and be sure that the spraying is thoroughly done, and the
mixture warm when applied, late in the fall or early in spring.

The Cabbage Maggot (Anthomyia brassice) is reported from Salmon Arm and Surrey
Centre.

The adult is a small, two-winged fly, somewhat like the common house-fly in general
appearance, which appears in the cabbage field soon after the plants are set out, and deposits
its eggs about the stems at the soil surface.’ The little whitish maggots soon
hatch, and work their way downward to the roots, which they attack, feeding
upon the outer surface and thus making grooves, or boring into the interior
and hollowing out cavities. They sometimes cause the roots to thicken up and become mal-
formed, producing an effect similar to that of the fungus, causing the disease known as “club-
root.” In two or three weeks the maggots become full fed, and they change to the pupa. state
within hard brown puparia, to emerge some days after as adult flies. There are probably three
or four broods each season, and the insect apparently hibernates in each of its three latter
stages. These insects infest turnips and rutabaga, as well as cabbage, and some entomologists
consider the radish maggot as being also of this species.

Satisfactory remedies for this insect are few and far between. European writers recom-
mend that coal dust be scattered around most of the plants, leaving one occasionally without

the dressing to attract the flies to it for egg-deposition, and then destroying

Remedies. the unprotected plants, together with the insects about their roots. Dr.

Riley has suggested that ashes or slacked lime will probably answer the
purpose as well as the coal dust. As some of the larve or pupa appear to pass the winter
upon the old roots, it is advisable to pull up and burn such plants in autumn. Probably the
most practicable remedy is that of always putting new plantations of cabbages some distance
from where they were grown the previous year. This has been found in practice to give good
results. The flies are sluggish, and apparently do not scatter far from where they reach
maturity. The maggots may be destroyed by pouring a small quantity of kerosene emulsion
about the infested roots. In some localities the growers search regularly about the bases of

the stems for the bunches of whitish eggs, and claim it to be the best method of checking the
injuries of the pest.

Cabbage
Maggot.

,

60 Vior. ProvinctaL Board oF HorvTicuLTuRE. 43

The Onion Maggot (Anthomyia ceparum or Phorbia ceparum) is reported from Salmon
Arm and Victoria.
__ The onion maggot is closely related to the cabbage maggot, to which it is similar in life-
history and habits. The adult is a two-winged fly, which deposits its small white eggs on the
Gictan bulbs or lower leaves of the young plants. About a week later the eggs
Maggot. hatch into young larve that bore into the bulbs, absorbing the succulent
substance. When one bulb is consumed they pass on to another. The full-
grown larve are nearly half an inch long, of a dull white colour, and pointed at the mouth or
front end. They complete their larval growth in about two weeks, and then leave the onions
and enter the surrounding earth, where they change to the pupa state within brown puparia.
A fortnight later the flies emerge to lay eggs for another brood.
_ _ Professor Cook states that the most practical method of preventing the injuries of this
insect is fo change the position of the onion bed every year, putting it each time some distance
from where it was the preceding season. Wherever the conditions are such
that this can be done, this is probably the best preventative measure. Miss
Ormerod reports that if the bulbs are kept covered with earth they are not attacked by the
maggots.

Remedies.

Bot Fli Bot flies (Hstrus equi) are’ reported from Quamichan, Sooke, Metchosin,
es. sae 4 a
Okanagan and Mission, no doubt present in many other localities.

“The larve of the Wstrus equi, a species of gad-fly, are often found in large numbers,
attached by a pair of hooks with which they are provided, to the cardiac extremity of the
stomach ; they are rarely met with in the true digestive portion of this organ, but sometimes
in the duodenum or jejunum in smal] numbers. = i Sometimes nearly all the
cardiac extremity of the stomach is occupied with them, the interstices being occupied by
little projections which are caused by those that have let go their hold, and have been expelled
with the food. It often happens that a meddlesome groom, when he sees them expelled from
or hanging to the verge of the anus, as they often do for a short time, thinks it necessary to
use strong medicine, whereas, in the first place he does no good, for none is known which will
kill the larve without danger to the horse, and, in the second, if he will only have a little
patience, every bot will come away in the natural course of things, and until the horse is
turned out to grass, during the season when the @strus deposits its eggs, he will never have
another in his stomach. :

“The Gstrus equi comes out from the pupa state in the middle and latter part of summer,
varying according to the season, and the female soon finds the proper nidus for her eggs in the

hair of the nearest horse turned out to grass. She manages to glue them to

Bighacus gq, _ the sides of the hair so firmly that no ordinary friction will get rid of them,

‘and her instinct teaches her to select those parts within reach of a horse’s

tongue, such as the hair of the forelegs and sides. Here they remain until the heat of the sun

hatches them, when, being no larger in diameter than a small pin, each larve is licked off and

carried down the gullet to the stomach, to the thick epithelium, to which it soon attaches itself

by its hooks. Here it remains until the next spring, having attained full size during the course

of the first two months of its life, and then it fulfils its allotted career by letting go and being

carried out in the dung. On reaching the open air, it soon assumes the chrysalis condition,
and in three or four weeks bursts its covering to become the perfect insect.

“From this history it will be evident that no preventative measures will keep off the
attacks of the fly when the horse is at grass, and, indeed, in those districts where they abound,

' they will deposit their ova in the hair of the stabled horse if he is allowed to
Preventions stand still for a few minutes. The eggs are, however, easily recognised in
Peeters: any horse but a chestnut, to which colour they closely assimilate, and as they

are never deposited in large numbers on the stabled horse, they may readily be removed by the
groom. Unlike other parasites, they seem to do little or no harm, on account of the insensible
nature of the part of the stomach to which they are attached, and moreover, their presence is
seldom discovered until the season of their migration, when interference is uncalled for. On
all accounts, therefore, it is unnecessary to enter into the question whether it is possible to
expel them ; and even if by chance one comes away prematurely, it will be wise to avoid inter-
fering by attempting to cause the expulsion of those left behind.”

44 PROVINCIAL BoARD OF HORTICULTURE. 1897

Mosquitoes are reported from Kelowna, Spallumcheen, Bridge Creek, einer. ed:
Steele, Port Kells, Mount Lehman, Upper Sumas, Sumas, Hope, Squamish, Dew ney; an

Agassiz. Owing to high water in the Fraser River during the past ete

Mosquitoes. and the consequent overflowing of large arcas of low-lying land, these pests

have been more troublesome than usual. Stagnant water furnishes breeding —

places for them, and when it is present on such a large scale, there is no practical means of

relief from the insects. ;

° "Where the opportunities for breeding are few, they can be checked to a peenaae:
extent by keeping cisterns and rain-barrels well covered, and by pouring on the surface :

ponds or marshy places a small quantity of cheap kerosene. The vil spreads

Preventives. ina thin layer over the surface, and kills all larve and pup present. The

female mosquitoes are also killed while attempting to oviposit. Unfortun-

ately, this method is only applicable to small areas. Where exposure to mosquito attacks is
unavoidable, Dr. Smith writes that the following mixture will serve to keep off the pests:—

Oil of Pennyroyal.... 0... 0.6 eee eee eee nes 1 part.
Oil of Tari... ci ccc ee ee ee eee eee erent eee 2 parts.
Olive or Cottonseed Oil... 0.6... cece ec teen nee ees 2 4

Mixed together. ;

Rub all exposed parts with this mixture, which will secure exemption for from one to
two hours, or longer, without renewal, depending upon the temperature and the amount of
prespiration.

This may perhaps prove useful to some persons who may only be exposed to attacks for a
short time and who would suffer severely if not protected in some way.

BENEFICIAL INSECTS.

It is now generally known that in addition to what are called “injurious insects,” those

- which cause damage or loss to the fruit-grower and farmer, there are also a
great number of “beneficial insects,” which feed upon or are parasites of the
“injurious insects.”

In this connection Dr. J. B. Smith writes :—“ In the course of the ages through which
this world has existed there has been gradually established, by the influence of surroundings,
w certain ratio between all existing life, vegetable and animal. There is a struggle among
plants themselves as to which shall keep the ground, and upon the plants feed animals, includ-
ing insects, which form a factor in determining the relative abundanee of the different species.
With the development of plants their enemies also have developed. One of nature’s ways of
preventing the plant-feeding insects from obtaining control of and exterminating the plants is
to provide enemies of various kinds for them. These enemies in turn must be checked, that
they may not exterminate the species they themselves feed upon. Thus there has been estab-
lished, gradually and naturally, an elaborate system of checks and counter-checks, by means
of which a certain proportion is maintained between predaceous, parasitic, and plant-feeding
insects. Under natural conditions this ratio does not change much from year to year. Any
interference with this established course is almost certain to be disadvantageous in some
direction, and man, in his dealings with natural conditions, has persistently created for himself
a series of troubles arising from his own acts. By planting large areas of one crop, he has
favoured the increase of insects feeding upon that crop. Man has further disturbed the
natural conditions by introducing into new countries insects that have become adapted to the
surroundings in others. Sometimes an insect so introduced does not find the new circumstances

rapa eeeel to its liking ; but on the other hand, it may find them very much better
pels oreaepag than those under which it was originally developed. In such cases we get a
multiplication out of all proportion to the normal habit of the species, and

there may be destruction of the plants that they feed upon. A fascinating theory in connection

with this subject is the possibility of importing parasites or predaceous forms of insects from
other countries for the destruction of pests here.

Beneficial
Insects.

60 Vict. ProvinciaAL BoarD OF HORTICULTURE. 45

The case of the Australian Vedalia cardinalis, imported to prey upon the fluted scale
Icerya purchasi, is frequently cited as an example of what can be done. When this insect
enemy was introduced, it found nothing that it recognized except the Icerya purchasi, and in
consequence devoted itself entirely to that species, totally suppressing it in a short time.
All that was done here was to restore the “balance of nature.” Nothing can be argued from
this case as to the possibility of introducing foreign species to control strictly American pests
with which they are not acquainted. ,

We can, however, frequently do good where we have imported insects, or insects occurring
also in other countries, by finding and introducing their parasites or enemies.

In the Report of the California State Board of Horticulture for 1895-6, Mr. Alex. Oraw,

Chief Quarantine Officer, says, referring to the work of beneficial insects in that State :—“T
Extenbor would go more fully into this subject to sustain your advocacy of this method
benefit. of combating destructive scale insects, but time is rapidly proving that your

policy has been wise and correct. We do not look for, nor have you ever
stated that we can secure, complete extermination of our orchard pests by parasites ; but who
in California now fears the heretofore destructive ‘cottony cushion scale,’ the ‘pernicious
scale,’ the ‘yellow scale,’ the ‘cottony grape scale,’ the ‘soft orange scale,’ the mealy bugs, and
we can soon add all the Lecaniwms to the list.”

All the foregoing have been destructive in their time, and have been regarded with dread
by orchardists. Of course, with the disappearance of their food, the parasites naturally
disappear and the scale may show up again, but colonies of beneficial insects can again be
liberated and clean them out. Similar good results are also reported from the Sandwich
Islands.

In Oregon, Dr. Cardwell reports that the “woolly aphis” and “green aphis” gre disap-
pearing in many localities before the rapidly increasing army of lady-bugs. Mr. H. E. Dosch
reports the presence of large numbers of predaceous beetles, Podabrus comes, feeding upon green
and woolly aphides. They are ravenous feeders, and rapidly cleared orchards of these pests.

In British Columbia the number of predaceous insects is certainly increasing very fast, the
work of syrphus fly larva and ladybirds of different kinds feeding upon aiphides being especi-
ally noticed. The convergent ladybird, Hippodamia convergens, I found in the vicinity of
Victoria in October, going into winter quarters in thousands. During the coming season

_ efforts will be made to introduce species from California and Oregon likely to prove serviceable
here.

Beetle. Larva,

TWICE-STABBED LADYBIRD (Chilocorus bivulneris).

This is a beautiful little black beetle with two bright red spots on its wing-covers. The

larva is shown in the cut, and is black, crossed by a bright yellow band about the middle, and

: is armed with many soft, long, branching spines. This Ladybird preys upon

eerie a various scales, and is especially destructive to the San Jose Scale (Aspidi-
si otus perniciosus).

46 PRovINcIAL BoARD OF HORTICULTURE. 1897

This very small beetle feeds upon scale insects and delights in attacking the
red spider. To the naked eye it appears deep black and shiny, and at the touch
drops or rolls off, but before reaching the ground spreads out its

Brown-Neck wings and flies away. The colour of the body is yellowish grey,
The head is black prown-nEcK

Ladybird, and is thickly covered with mealy powder.
and the neck brown. The wing.cases are black and covered with hair. ee
marginicollis.)

AMBIGUOUS LADYBIRD (Hippodamia ambigua).

This is a blood-red Ladybird, which is very plentiful. The larva is one of the largest
of the Ladybirds, and feeds upon aphides. It also attacks woolly aphis. Its larva feeds

largely upon this aphis.

CONVERGENT LADYBIRD (Hippodamia convergens).

This beetle works destruction to aphis and scale insects, and is quite common.

A

LH
HUY)

LIL,
Gs p

Adult,
LACE-WINGED FLY (Chrysopa.) Sp. unnamed.

; While the Ladybirds are great destroyers of scale and aphi i
Flies rid trees and plants of millions of Aphid. The fly tat cee pat ak oe
Lace-Winged gauze-like wings, and its colour is generally green, with golden eyes. The
Fly. eggs are deposited on pedicles and laid in the midst of a group of aphides.
The larva is supplied with sharp mandibles, with which it attacks the aphis.

60 Vict. PROVINCIAL BoaRD OF HORTICULTURE. 47

Fig. 1. Natural size. Fig. 2. Natural size. Fig. 3,
SYRPHUS FLIES. Sp. unnamed.

In the above cuts Fig. 1 represents the fly; Fig. 2, magnified, the case in which
it transforms into a fly, and Fig. 3, magnified, the larva.

The Syrphus Flies are also great destroyers of aphides. The larve feed entirely upon
aphides, and appear and disappear as the aphides appear and disappear. The larva is a foot-
less, eyeless, flattened, transversely wrinkled, gaily coloured, green and purple
Syrphus Flies. maggot, having a very extensile body, which enables it to reach up and grasp
the aphis with its peculiar looking mouth. The single egg, deposited in a
group of aphides, hatches forty-eight hours after it is laid, and the larva becomes full-grown
and transformed into a pupa in five or six days. The reason of this extremely rapid develop-
ment in the first two stages, the egg and the larva, is explained when we consider how brief is
the existence of the aphis, and how suddenly its colonies appear and disappear. When the
larva is actively feeding it destroys dozens of aphides, one after the other, and its body changes
colour. When filled to repletion the larva falls into a lethargy, lasting two or three hours,
during which the process of digestion changes the juices of the body to varying shades of brown.
eH the process of digestion has taken place, the larva again begins its work devouring
aphides.

DEVIL’S HORSE orn WHEEL BUG (Prionidus cristatus. Linn.)

This insect feeds upon scales and aphides and destroys large numbers of caterpillars. The

female deposits her eggs in a hexagonal mass on the leaves and bark of trees, on fence rails,

etc. Generally, there are about seventy eggs ina bunch. The young are

Wheel Bug. blood-red in colour, with black marks, and resemble the adult only in form

and habits. These insects prey upon pests by inserting into them their pro-

boscis, which injects a most powerful, poisonous liquid into the wound. The victim thus pierced

dies in a very short time. They then leisurely suck the juice out. The perfect insect is of a
gray colour and has a high, semicircular ridge or projection on the crest of its throat.

48 ProvinciaL BosaRD OF HORTICULTURE. 1897

FUNGOUS DISEASES OF TREES, PLANTS, AND FRUITS.

The following excerpt, re these, is taken from Bulletin No. 23 of the Central Experimental
Farm :—

“A brief consideration of the principles underlying the practice of spraying may enable
the grower to understand the nature of fungous diseases, and this will be of service in directing
an intelligent application of the remedies which are recommended. A glance at the character
and habits of parasitic fungi will throw light upon the system of treatment. :

The word fungi is used to designate an exceedingly numerous class of plants of simple
organization; we must never lose sight of the fact that they belong to the vegetable world, |
and are therefore subject to the ordinary conditions of plant life. Some of
them derive their nourishment from living plants or animals, others from
dead plants or animals. Those which draw their food from other plants
more highly organized than themselves are termed parasites, and it is with this class that the
fruit-grower is chiefly concerned. These plants (parasitic fungi) have not the power of assimi-
lating food from the soil or atmosphere, and therefore must obtain it in a prepared condition
through the agency of the higher plants upon which they feed. The vegetative part of a
fungus-—that part corresponding to the root, stem and leaves of the higher plants—is made up
of delicate thread-like tubes, usually more or less matted together; these collectively are
termed mycelium. The term hypha is applied to a single thread-like tube. Parasitic fungi
bear no seeds or flowers, but are reproduced by spores, which are borne upon specialized
branches of the hyphz. These spores are produced in great numbers and are the principal,
though not the only, means of spreading disease. The hyphe-threads of the parasitic fungi
penetrate the tissues of the host plant—a name applied to the plant upon which they feed.

The spores are exceedingly light and easily carried by currents of air. When one falls
upon a leaf and is supplied with moisture it germinates by sending out a slender tube, which
effects an entrance into the tissues of the leaf through the breathing pores
(stomata) or intercellular spaces. After the parasitic fungus has thus
entered the interior of a leaf, it develops rapidly at the expense of the
tissues of the latter. Pushing forward from one cell to another, the contents are appro-
priated and fresh vigor is thus gained by the parasite. This goes on till the vigor of
the host plant is much impaired, or its life destroyed. Some of the principal parasitic
diseases attack both foliage and the fruit of the host plant, as in the case of the “mil-
dew” of the grape, “scab” of the apple and pear, and “rot” of the plum and peach. They
are thus doubly destructive. If this destruction were confined to a few cells, leaves, or even
toa few plants, the loss would be trifling; but the extraordinary rapidity with which fungi
multiply, and the ease with which their reproductive bodies (spores) are carried from plant to
plant, renders their extirpation a very difficult matter.

This explanation of the methods of reproduction and growth of these diseases emphasizes
the truth of the maxim that “ prevention is better than cure.” When the mycelium of the
fungus has become established within the tissues of the host plant, any remedy applied to the
exterior of the plant, it is readily seen, can at the best be only partially effective.

Fungous diseases, in accordance with natural laws, will in all probability increase in

number, in proportion as the food plants upon which they prey are multiplied, and as climatic
conditions are favourable to their development.”

Nature of
Fungi.

Germination
of Fungi.

There are many ways in which the injuries of fungous diseases may be prevented. Among
these are the following :—
___(1.) As @ general rule, not however without important exceptions, plants weakened in
vitality are more subject to the attack of parasitic fungi than those in vigorous growth. Con-
rapraliewieeraed sequently, methods of cultivation and fertilisation, which tend to produce

Culhvation, sound development and early maturity, should be adopted as far as
practicable.

60 Vict. PROVINCIAL BoarD oF HORTICULTURE. 49

(2.) It has long been observed, that with many crops certain varieties are more liable to

fungous diseases than others. The reason for this, in many cases, is not well understood, but.

Slection: wt the fact will lead the careful cultivator to select such varieties as prove most

Resistant resistant in his locality. Injurious fungi may be largely destroyed by keep-

Varieties. ing farm and orchard premises clean and free from weeds and rubbish.

Burning potato tops, old tomato vines, and similar refuse, will destroy millions

of spores of fungi attacking those plants. The same may be said of apples and pears infected

with scab of the fruit, which are too often left hanging on the trees or lying on the ground, to

propagate their spores the following season.

(3.) With diseases like the brown-rot of plums and cherries, much may be done in

Hand Picking. caenar injury by persistent hand picking of infected fruit, which should be

(4.) The most practicable way of preventing the majority of the fungous diseases of plants,

is by the use of “fungicides” or fungus killing mixtures. These act either by directly

destroying any fungus spores present at the time of application, or by

euncetue remaining on the surface, in a-condition to destroy, either before germination

’ or during that process, any spores that may alight upon the plant treated.

As treatment is preventive, great care must be exercised to have the work done at the proper

season, and to be sure that all parts of trees or, plants sprayed are wetted with the fungicide

used. Drenching is not necessary, and sometimes results in injury to the foliage or fruit.

The ain should be to deposit a thin film or coating of the spray upon the entire surface treated.
To accomplish this, the Vermorel nozzle should be used to distribute the spray used.

APPLE SCAB orn BLACK SPOT OF THE FRUIT (Fusicladiwm dendriticum ).

Reported from all parts of the Lower Province, causing great loss to fruit-growers by
rendering the fruit useless or unsaleable.

There is probably no fungous disease of fruit so familiar as the apple scab or black spot
of the fruit. The fungus which produces the well-known black spots or scabs on the fruit

also attacks the leaves and young shoots. It first appears on the leaves in

Apple scab. _ the shape of smoky, greenish spots, more or less circular in outline. These

gradually enlarge and run together, so as to form good sized blotches ; as

they grow older the colour darkens, finally becoming almost black. The young fruit is attacked
almost as soon as formed, and sometimes shrivels up and drops off.

The spores or reproductive bodies of the fungus are produced in immense numbers on the
blackened spots on the leaf and fruit, forming most abundantly during cool, wet weather.
They are disseminated by the wind, etc., and when they light upon a moist leaf or fruit they
germinate, sending out a little tube cr root, and thus form a new centre of disease. The
spores pass the winter on the bark, twigs, and stored fruit, as well as on the fallen leaves and
fruit. The mycelium or vegetative portion of the scab fungus develops just beneath the skin
of the leaf or fruit, but as a rule does not penetrate deeply into the tissues. After a while it
pushes outwards, rupturing the skin and developing fresh spores.

50 PrRovincIAL BoARD OF HORTICULTURE. 1897

In spring, just before the leaf buds open, spray thoroughly with the eae onto

mixture, or before the buds swell with the simple solution of sulphate of copper. _ Repeat ; e

application of Bordeaux just before the blossoms open, and again just after

Treatment. the blossoms fall (these two applications are most important) ; if necessary,

repeat again in ten days’ time, but do not use the Bordeaux mixture late in

the season, or it may roughen the skin of the fruit. If late spraying is required, use the
carbonate of copper mixture. (See “Spraying Mixtures.”)

Pear scab (Fusicladium pyrinum) is also generally reported from all coast districts.
This disease is very similar to apple scab, believed by many botanists to be the same species.
At any rate, the chief points in its life history and remedial treatment

Pear scab. are the same as for the “apple scab.”

Pear-leaf blight (Zntomosporium maculatwm) is reported generally from districts in the
Lower Province, and from Kelowna and Salmon Arm in the Interior. This is probably the
most generally destructive fungus disease to which the pear is subjected.

Pear-teaf = appears early in the spring, soon after the leaves develop, first as minute,

Blight: i 3 ittle later the spots
dull reddish spots on the upper surface of the leaf. A little late Pp
appear on the lower surface of the leaf, which becomes darker in colour; as the fungus
develops the spots enlarge, until nearly the entire leaf is affected and becomes sere and brown.
Very young leaves sometimes curl up when attacked ; the stems and fruit are also attacked,
the pears cracking open and becoming worthless.

The effect upon the tree is very injurious; it is unable to store up the materials of growth
properly, and becomes weak and impoverished. Hundreds of pear trees in the Coast districts,
which used to produce fine fruit, of late years have been valueless from the effects of this
disease.

Where Bordeaux mixture has been used according to the directions given, infested trees
have recovered, and are again producing healthy foliage and clear fruit. But it must be
remembered that many trees are so badly injured by this and other fungus diseases that two
seasons are required before trees will become productive again, owing to the loss of fruit spurs
and buds, which have to be reproduced.

Bordeaux mixture, used as for apple and pear scab, is the best preventive,
Remedies. and the carbonate of copper solution, No. 10, for late spraying on trees
bearing fruit. ' :

‘ Dead Spot is reported from alt districts of the Lower Provinces, as prevailing to a greater

or less extent, in many instances killing young trees. There is still great diversity of opinion

_ im regard to this disease or condition of the apple tree. Prof. L. B. Pierce,

Cece who was specially detailed by the United States Department of Agriculture

ea oS for the purpose, has been making a careful, systematic investigation regarding

the disease as it occurs in Oregon and Washington, and although the investi-

gations are not complete, it is stated that “dead spot” is the result of a parasitic fungus,

which is probably transmitted from tree to tree, by means of spores blown by the wind, or

carried by insects, &c. Mr. M. O. Lownsdale, of Lafayette, Ore., who has also studied the
disease, writes me in regard to it as follows:-— :

“ Dead Spot is caused by a deep-seated fungus that finds its sustenance in the inner tissues
of the bark and only appears on the surface for the purpose of spore formation and reproduc-
tion. The mycelium of the fungus spreads in various directions through the bark and can

generally be cut out without any injury to the tree, stripping off all the dead

Its Cause. outer bark and diseased tissue. After the fungus has attained its growth,

it produces its spores in small excrescences on the surface of the dead spots.

These little pustules burst, when the Spores escape, and are carried by the air and insects to

other trees and other portions of the same tree, They germinate in autumn, and begin to

penetrate the bark at once and repeat their cycle of growth. The spore-bearing vessels burst

during July and August, and as no Spray can reach the fungus after germination, a midsum-
mer spraying, when the trees are badly infected, is desirable.”

60 Vict. PROVINCIAL BOARD oF HORTICULTURE. 51

We have produced cultures of the canker or “dead spot” fungus and have inoculated
healthy trees, which have produced typical “spots” at the point of inoculation; these spots
have increased in size and run their cycle of growth, and in turn again produced their spores.

As an ordinary preventative, autumn spraying would probably be sufficient, but in severe
cases both should be used. All dead spots should be cut out and burned, ‘for they hold

myriads of spores that only await a favourable opportunity to produce new

Preventives. infections. The midsummer spray to use on bearing trees would be five

ounces coppper carbonate and three pints ammonia in 45 gallons water.

On young trees, or trees not in fruit, six pounds sulphate copper, six pounds lime, 50 gallons

water. The autumn spray should be six pounds sulphate copper, ten pounds lime, 50 gallons

water.” It will be noted that these sprays are about one-half stronger than the ordinary
Bordeaux mixture, as advised for use in British Columbia.

In British Columbia I have observed that dead spot does not occur in the interior valleys,
and either not at all or to a very slight extent in orchards of the lower Province situated on
soils containing plenty of lime, such as clam-shell beaches, where there is good under
drainage. It is now pretty well established that many soils on which orchards are planted
contain a very small per centage of lime, and again the question of proper drainage of orchard
land has not received the attention required. I have frequently noticed that fruit-trees are
standing in soil where the water table during the winter months is almost or quite level with
the surface. Now, whatever direct treatment is made to trees affected with “dead spot,” it is
most important that these matters should receive attention—healthy trees cannot be expected,
unless they are surrounded with what may be termed proper “sanitary conditions,” and
supplied with the elements of plant food necessary to promote healthy growth. Where wood
ashes are available in sufficient quantity, they should be used freely in the orchard, and if not
obtainable, lime and muriate of potash in their place, and, if convenient, well worked in with
the harrow or cultivator in early spring, as far as the roots of the trees extend

In planting new orchards, care should be taken not to plant the trees toodeeply. I draw
attention to this as I find it is rather a common error, and one very difficult to remedy
later on.

On soils inclined to be wet, it is better to plant on or near the surface and mound up the
soil over the roots of the trees.

For young trees, stable manure should be applied very cautiously, as it stimulates wood
growth to an undue extent. Onsome rich soils it has been observed that frequent cultivation
has had the same effect.

In regard to these matters orchardists should study their soil and local conditions, the
aim being to produce a fair amount of new wood on trees every year, which will harden and
ripen up properly in the fall, and avoid the production of overgrown sappy shoots, which
apparently indicate a condition of the trees highly favourable to the development of. ‘dead
spot.” ;

Give your fruit-trees as nearly as possible ‘ideal conditions,” by planting on soil
suitable for the purpose, and supplying proper care, cultivation and plant food ; then, if disease
appears, treat them with remedial applications designated to destroy the intruding disease or
parasitic growth.

This name has been applied to the gumming of stone fruit trees, especially of the cherry,
which prevails to a greater or less extent all over the Province, and has caused the loss of
large numbers of young trees. A great difference of opinion exists among
Gummosis. practical fruit-growers as to the disease itself or its exciting causes. In-
judicious pruning is no doubt the cause of gumming of the cherry tree in
some cases, and Downing’s rule in this respect should be followed-——that is: “ Prune as little
as possible, and only to remove a dead or crossing limb, and this should be done in midsummer.”
Over cultivation is another exciting cause, and frequently results in the production of too
luxuriant a growth, but perhaps the chief reason of the “gumming” in the lower parts of the
Province is the unsuitableness of location, the land being too wet in winter and too dry in
summer and early fall.
Many trees have been set, which were-fore-doomed to fail, being already infected, and
intending planters cannot be too careful in the selection of healthy stock, and of land naturally
fitted for cherry growing.

52 ProvinctaL BoarD OF HORTICULTURE. 1897

In Oregon, the disease exists largely, and it is there concluded—‘ That the causes of
guimmosis are not always the same, or apparently not. It is probably a disease of the physio-
logical nature, and affects nearly if not all of the stone fruits. It may appear in either of two
forms, local or constitutional. Locally in the form of gum pockets on trunk or branch in
isolated situations. The constitutional form may also show gum-pockets, but these will be
found upon examination of cross-sections of the wood to be connected with each other by a
series of gum-filled cells in the wood, which may be seen with the eye as dark brown lines or
cells. Either local or constitutional gummosis is most likely to affect trees which have been
quite dry at one time and wet at another. ;

“Mr. Newton B. Pierce suggests the following:—Cut out as much of the diseased

Treatment bark as possible, and spray the trees with Bordeaux mixture.”—Report of
Recommended. the Oregon State Board of Horticulture.

I have received very favourable reports concerning the treatment of gummosis, by a free
use of wood ashes applied to the soil on which the trees stand, especially when combined with
mulching to retain moisture, and although this may appear a very indirect way of treating the.
disease, it is one I strongly recommend. If wood ashes are not available, air-slacked lime and
muriate of potash can be used instead, in the same way.

Powdery mildew (Podosphera oxyacanthe) is reported from Victoria, Saanich, New West-
minster, Ladner’s Landing and Vernon.

Powdery mildew appears usually about mid-summer, as small round whitish blotches,
which soon enlarge and run together on the leaves and young shoots of most varieties of fruit-
trees. It spreads by means of spores, immense numbers of which are pro-
duced and disseminated; wherever there is light and sufficient moisture
present, they germinate and start the disease anew. It is usually more abundant on young
trees than old ones, and is especially destructive to nursery stock.

The powdery appearance is caused by the presence of large numbers of minute white
spores, known as conidia or summer spores. The disease is carried over winter on the leaves,
etc., in spores contained in small black cases, called perithecia, which are just visible to the
naked eye. The mycelium or vegetative portion of the fungus is external.

Spray with diluted Bordeaux mixture or the carbonate of copper solution, making the
first application when the leaves are about half grown, and repeat three or
four times-at intervals of ten days.

Powdery Mildew.

Treatment.

This well known disease (Spherotheca mors-wve) of gooseberries of English varieties, is
common all through the lower Province, and the past season has been very injurious in the
Okanagan District. It is noted that in Nanaimo there is little injury from
this disease, and as a consequence the choice varieties of gooseberries are
largely grown there. The reason of this comparative exemption has not
been satisfactorily explained. This fungus usually appears in spring upon the leaves and buds,
first showing as a sparse, cobwebby covering, which later appears white and powdery, from the
production of summer spores. The young berries are also attacked, sometimes being dwarfed
or mis-shaped. As the summer progresses, infested leaves and fruit become browned, and
covered with a thick growth of the fungus mycelium. The summer spores are very light, and
blow about with the wind; when one falls upon a damp gooseberry leaf or fruit, it germinates
by sending out a slender tube, from which the mildew spreads. As these summer spores are
unable to survive the winter, the fungus produces what are called winter spores, consisting of
small round cases, from which project about a dozen short, delicate appendages. These are
the outer spore cases, and contain flattened oval bodies called the inner spore cases, within
which are spores which germinate in the spring. Gooseberry mildew is often very difficult to
control, chiefly because preventive measures are begun too late.

Spraying with Bordeaux mixture should commence very early, just as soon as the leaf
buds burst, and be repeated at intervals of a week or ten days for three or four applications; if

further treatment is required after the fruit is well formed, use a spray made
Remedies. with sulphide of potassium (liver of sulphur), at the rate of 4 oz. to 1 gallon
of water. A winter spraying of gooseberry bushes before growth starts, with

Gooseberry
Mildew

60 Vict. PROVINCIAL BoAaRD. oF HORTICULTURE. 53

the No. 1 spray, has apparently given good results, by destroying the winter spores, and is
recommended. It will be found that after the mildew is once subdued, less spraying will be
required in following seasons. ,

Black Knot on cherry and plum trees (Plowrightia morbosa) is reported from Keremeos:
Kelowna and Victoria. —

Black knot occurs on the native choke-cherry in the Upper Country, but so far has not
attacked cultivated trees to any appreciable extent ; however, any cases that occur on orchard

trees should be summarily dealt with, and infected wild trees destroyed. The
Black knot. experience of Ontario and the Eastern States, where thousands of plum and
cherry trees have been destroyed on account of this disease, should warn us

to be prompt and thorough in dealing with it here.

The only successful treatment for a badly infected tree is tq take it out and burn it. All
knots on trees but slightly infected should be cut out and burned. Do not throw removed
knots on the ground, as spores are developed off as well as on the tree. Spots from which
knots have been cut should be painted with turpentine or oxide of iron paint, and this method
followed up until the disease is thoroughly extirpated.

Brown Rot of plums and cherries (Monilia fructigena) is reported from New Westminster,
Lulu Island, and Burnaby.

This destructive disease of stone fruits is evidently becoming more troublesome. The
annual cycle of the fungus of brown rot is outlined as follows, starting with its attack upon

the fruit :—A minute spore falls upon the plum on which there is moisture,

Brown rot. and sends out a germinating tube which penetrates the skin of the fruit.

Once inside, it grows rapidly, pushing its mycelium through the pulp in all

directions, absorbing the contents of the cells, and causing the so-called rot. Infected plums

at first turn brown in spots, these enlarge gradually until the whole plum becomes brown and

rotten. When it has reached this stage, it becomes covered with a brownish or ash-coloured

velvety coating, which consists of vast numbers of minute spores. These spores are blown
about by wind and spread the disease to other fruit, if the conditions are favourable.

The rotten plums continue hanging upon the trees, gradually shrivelling up until they
become dry aud mummied husks, and tmany of them remain on the trees through winter. On
these mummied plums some spores will adhere until the following season, and in nearly all of
them, the mycelium remains in a dormant condition, so that during the warm damp weather
of spring this mycelium is able to produce a new crop of spores, which develop on the blossoms,
young leaves, aud fruit.

The first essential to success in preventing this disease is to gather up and pick off and
burn all mummied plums. Then the lime, salt and sulphur wash should be applied while the

trees are dormant, to the ground under the trees as well as the trees them-

Treatment. selves. Then spray the trees with Bordeaux mixture before the blossoms

open; repeat this after the fruit is formed and again after an interval of ten

days, where the disease has been troublesome. If later spraying is needed, use the carbonate
of copper spray, No. 10.

In packing fruit for market, growers should be especially careful to exclude any plums or
cherries in the slightest degree infected with this disease, as it spreads very fast in the pack-
ages and there is a great risk of spoiling all the contents.

This fungus disease (Cylindrosporiun: padi) is common on the lower Mainland and parts
of Vancouver Island.

Small discoloured spots on the leaves of plum and cherry trees are first seen, usually of a
purplish colour; in a short time these spots turn brown, the tissues being destroyed, and later
: the leaves become yellow, many of the affected areas separate from the sur-
- alone hers rounding portion of the leaf and fall to the ground leaving holes in the
ad leaves, hence the name “Shot-hole fungus.” This disease may be prevented

by the use of Bordeaux mixture, as advised for “ brown rot.”

54 PROVINCIAL BoARD OF HorTICULTURE. 1897

Peach Leaf-curl (Zaphrina deformans) is reported from Agassiz, Victoria, Hatzic, New
Westminster, and found more or less all through the lower Mainland. ;
This disease is much more injurious some seasons than others, owing to differences in
climatic conditions. It causes the leaves to become curled and misshapen,
Peach Leaf-Curl. 14 later to fall off. When it is very severe, the fruit falls prematurely.
Defoliated trees will usually put out new foliage, but too late to save the ‘crop. 2
The No. 1 spraying mixture has been found to give good results, applied in early spring,
before the buds swell. It is recommended to cut off and burn affected parts

Treatment. A
eae as soon as noticed.

The disease known as Hrisyphe rubi continues to be very destructive in Victoria and

vicinity to raspberry canes, and in conjunction with root-borers has' caused the loss of many

“patches” of*canes. A fungous disease of the fruit, causing it to turn hard

Diseased when partly grown, is also reported from Duncan’s. In both cases the best

Babee sty treatment for the fungous diseases is a free use of the Bordeaux mixture.

ane Old canes should be cut out and burnt, as soon as fruiting is over. Spraying

should commence in the spring as soon as growth commences, and be repeated at intervals of
a week or ten days for three or four applications. ;

In setting out new plantations care should be taken to obtain plants free from disease,

and cut them severely back when planting to obtain a vigorous growth of new canes the first

season.

Two or three fungous diseases affecting potatoes are known by the common names of
Potato Rot and Potato Blight.

The Early-Blight or Leaf-Spot disease (Macrosporium solani) appears in summer as
small, brown, brittle spots scattered over the leaves. These spots gradually enlarge,

and finally run together to form large brown patches, the intermediate
Potato Rot, &c. tissues becoming yellowish or sickly green colour. The entire plant finally

withers and dies long before the proper period, the tubers being small,
generally less than half full size. The tubers do not rot. The spores of this disease winter
over on the dead vines. The disease is usually confined to a few plants.

The Downy Mildew or Late Blight (Phytophora infestans) generally appears later in the
season, and is most destructive during moist, warm weather. At such times it spreads very
rapidly, often entirely destroying the plants in a few days. The tubers are also commonly
affected—rotting and giving off a foul smell.

Bordeaux mixture is a preventive of this disease, and several sprayings at
short intervals should be given.

Great care should be exercised in the selection of seed tubers, the practice of planting
small potatoes having apparently led to an increase of the early blight in some cases,
probably from the use of seed grown from infected plants.

Treatment.

Tomato Rot (Macrosporium tomato) is reported from Armstrong and Duncan’s, and known

to occur in other districts. This fungous disease causes the blackish spots which form at the
blossom end of the fruit and destroys the tissues, blackening the inside of the

Tomato Rot. tomato, and often rendering the fruit worthless. It can be kept in check
by spraying with Bordeaux mixture, but to apply this effectively plants

require to be trained to stakes and pruned to a single stem. This method also lessens the
liability to attack.

Potato Scab (Ospora scabies) is reported from Sooke, Victoria, Ladner, and found in
most parts of the Province. The fungus-producing scab in potatoes can usually be seen on
partially grown tubers in the shape of fine white threads running over the

Potato Scab. surface. It reproduces by means of spores. Repeated experiments have
shown that if scabby potatoes are planted a scabby crop may be expected,

*60 Vict. PROVINCIAL Boarp oF HORTICULTURE. 55

and land which had produced scabby potatoes should not be planted to the same crop the
following season, for the same reason. It is also noticed that scabby potatoes are more
abundant in fields heavily fertilized with barn-yard manure, while crops grown on new or sod

land are usually free from scab.
Good results have been obtained when only scabbed seed tubers are available, by soaking
them for an hour in Bordeaux mixture before planting. The potatoes
Treatment. should not be cut before soaking. The selection of clean seed and new or
bs land for planting are no doubt the best means of dealing with this

isease.

_ Smut in grain. is reported from Quamichan, Alberni, Upper Sumas, Kelowna, Lower
Nicola, Bonaparte, Chilcotin, Tobacco Plains, and prevalent to a greater or less extent where-
ever grain is grown,
Smut in Grain. There are two kinds of smut affecting wheat, one known as “bunt, or stink-
ing smut,” in which the affected heads of grain retain a bluish-green colour
for some time after the sound ones begin to ripen, and afterwards take on a bleached appear-
ance. If injured kernels are broken open they are found to contain a mass of black powder—
the spores of the fungus. The other is known as “loose smut,” distinguished from the pre-
ceding by the fact that the spores are not concealed. Usually, the kernels resemble masses of
black powder; later this blows away, and leaves the bare chaff and stem. This and the smut
affecting oats are very similar in character.

As has been stated in previous reports, one of the most common reasons for smutty grain,
is the cropping of the same land year after year with the same crop. Other reasons are
neglecting to change the seed used, and to use one of the well known preventives to dress
seed grain.

Bluestone is probably the most-used remedy. One pound, dissolved in five quarts of
water, is sufficient for four bushels of seed. It should be sprinkled over the seedyand the
mass kept stirred till all is absorbed, shortly previous to the grain being sown.

The Jensen hot water method, which is so efficacious, has never come into general use,
probably on account of the difficulty experienced in keeping the water at a right temperature.
The following is the method referred to. ;

This method of treating wheat and oats as a preventive for smut was discovered by J. L.
Jensen, of Denmark, in 1887, and it has since been proved that the adhering spores of smut

are killed by dipping the seed in hot water without impairing the vitality of
taba ron the seed. The mode of precedure is as follows:—Have two kettles of water,
alee one heated to a temperature of from 110 to 130 degrees Fahrenheit, the
other to 135 degrees Fahrenheit. The first is for the purpose of warming
the seed preparatory to its being placed in the warmer water. Unless this precaution is taken
it will be difficult to keep the water in the second vessel at the proper temperature. The seed
to be treated should be placed in a sack that will allow the water to pass readily (a coarse
gunny sack is good). According to the size of the kettles, the sack may contain from one-half
to one bushel. Dip the wheat into kettle No. 1 (110 to 130 degrees), lifting it out and plunging
it in two or three times. This process will occupy about two minutes. Then dip it into the
warmer water, keeping the wheat in the bag well stirred. The best plan is to lift it out and
plunge it in several times. This should be continued ten to fifteen minutes, according to the
temperature of the water, and the grain then spread out to dry. A second person should
regulate the temperature of the water, and do nothing else. Probably it will be found best to
have a fire under kettle No. 2 sufficient to raise the water to 145 to 150 degrees Fahrenheit,
and then add cold water to reduce it to 134 or 135 degrees Fahrenheit, when the seed is put
in. If at the end of ten minutes the temperature of the water has not been reduced below 133
degrees, the seed should be removed and dipped into cold water. If below 133 degrees
Fahrenheit it should be left in fifteen minutes, or even longer if the temperature should fall
betow 130 degrees Fahrenheit.

The treatment is essentially the same for oats, except that the temperature of the water
in kettle No. 2 should be 130 or 140 degrees Fahrenheit when the oats are put in. If at the
end of ten minutes the temperature is not below 135 degrees they should be
left in fifteen minutes, or even longer if the temperature falls below 130
degrees. When taken out the grain should be dipped in cold water.

Oats.

56 ProvinciaL BoaRD OF HORTICULTURE. 1897

Rust in grain is reported from Quamichan, Nanaimo, Steveston, and no doubt common
in other sections, especially where grain is sown late, and consequently late in ripening.
The cultivation of vigorous, early ripening varieties of grain is recommended
Rust. as the best method of dealing with rust, combined with proper drainage of
the soil, and rotation of crops—matters too often neglected by farmers.

Mildew on peas is reported from Nicola, and common on late crops of
Mildew on Peas. garden peas in the lower country. The method advised for rust in grain
will apply here.

60 Vict. PROVINCIAL BoarD oF HoRTICULTURE. 57

SECTIONS OF ACTS AND AMENDMENTS RESPECTING THE
PROVINCIAL BOARD OF HORTICULTURE.

ra)

There is hereby created a Provincial Board of Horticulture, to consist of two ex-officio

members, viz., the Minister of Agriculture and the Deputy Minister of Agriculture (who shall

act as Secretary of the Board), and three members, who shall be appointed by

the Lieutenant-Governor in Council, one from each of the horticultural dis-
tricts which are hereby created, to wit :—

(1.) The First District shall comprise Vancouver Island and the Islands adjacent thereto:

(2.) The Second District shall comprise the Electoral Districts of New Westminster City,
Vancouver City, Westminster, Cassiar, and that portion of Comox lying on the
mainland of British Columbia :

(3.) The Third District shall comprise the remainder of British Columbia not included in
the two other districts.

Creationof Board
of Horticulture.

The Lieutenant-Governor in Council shall appoint, from the number of the Board or from
without their number, to hold_.office at the pleasure of the Lieutenant-Governor in Council, a
., competent person especially qualified by practical experience in horticulture,
paareeat oe. who shall be known as “Inspector of Fruit Pests.” It shall be the duty of
EP ‘ said Inspector to visit the horticultural districts of the Province to see that
all the regulations of said Board be made known to the people of the Province, and to enforce
this Act and the said regulations in the manner therein, or in this Act prescribed. The
Inspector shall, fromm time to time, and whenever required by said Board, report to it such
information as he may secure from observation, experience, and otherwise, as
to the best method of diminishing and eradicating fruit pests and diseases
from orchards, and also suggestions as to practical horticulture, the adoption of produce suit-
able to soil, climate, and markets, and such other facts and information as shall be calculated to
advance the horticultural interests of the Province. The Inspector shall, from time to time,
under the direction of the Board, hold meetings throughout the Province in the interests of
horticulture, and impart such information and instruction to fruit-growers and farmers as may
tend to the improvement and expansion of the fruit industry of the Province.

Duties.

Any member of the Board, their Inspector or agent, upon the complaint of interested
parties, or upon his own motion, may inspect, or cause to be inspected, fruit, trees, plants,
grafts, scions, nursery stock of all description, orchard débris, empty fruit

Member of boxes or packages, and.other material, orchards, nurseries, and other places,

| sence - suspected or believed to be infested with fruit pests, or infected with con-
inspect. tagious diseases injurious to trees, plants, or fruits, and for the purposes
thereof he shall have full power and authority to enter in and upon any farm,

orchard, nursery, or garden, or any barn, warehouse, storehouse, shop or other place or
building, and if he shall find that the said fruit, trees, plants, grafts, scions, nursery stock of
all description, orchard débris, empty fruit boxes or packages, and other material, orchards,
nurseries and other places are infested with fruit pests, or affected with contagious diseases
injurious to trees, plants, or fruits, as aforesaid, such member, or Inspector, or agent, shall
notify in writing the owner or person having charge of such premises or

Notify owner property, within a time to be prescribed in such notice, to treat and disinfect

to disinfect. said premises or property in the manner presented in such notice; and such
property shall not be removed after the owner or person in charge of the

same shal] have been notified in writing as aforesaid, without the written permission of a
member of the Board or the Inspector ; and if the person so notified shall neglect or refuse to
treat and disinfect the said premises or property, in the manner and within the time prescribed
in the said notice, such person shall be deemed guilty of a violation of this Act; and if it
appears on the trial that any orchard, trees, nursery, building, or any other structures,
premises or property in charge of or belonging to the defendant referred to in said notice, or
any part of such structures, premises, or property, is infested or affected as aforesaid, the Court

58 PRovINCIAL BOARD OF HORTICULTURE. 1897

may order whatsoever of the same is so infested or affected to be disinfected or
Destruction of destroyed within a time to be mentioned in said order, or may make any other
disinfected order that it shall deem fit; and if such order be not obeyed within the time
propery therein specitied, it shall be the duty of the Board, or of some member there-
of, or of their Inspector or agent, to execute such order, and the costs and disbursements of

the prosecution shall be adjudged against the party convicted as aforesaid.
(a.) In case, upon inspection as herein provided, the member of the Board, Tnspector, or
agent, finds any of the premises to be infested with fruit pests or affected with con-
tagious disease, but is unable to take the proceedings herein provided by
Inspector may yeason of there being no person in charge, or either the owner or his where-
aisintect: abouts being unknown, he shall be at liberty to cause the same to be dis-
infected, and the costs and expenses thereon shall be a lien upon the property, which
may be enforced by seizure and sale of a sufficient quantity thereof to satisfy
Costs tobe a thesame: Provided, however, that no property shall be destroyed under this
Mee sub-section until an order therefor has been obtained from a Justice of the
Peace, which order any Justice is hereby authorised to make upon proof of the
urgency of the case or of reasonable efforts having been made to ascertain the owner

or person who should be in charge of the infected property.

For the purpose of preventing the spread of contagious diseases in orchards and gardens
and among fruits and fruit trees, and for the prevention, treatment, cure, and extirpation of
fruit pests and the diseases of fruits and fruit trees, and for the disinfection
of grafts, scions, or orchard débris, empty fruit boxes or packages, and other
suspected material or transportable articles dangerous to orchards, fruits and
fruit trees, said Board may make regulations for the inspection and disinfection or destruction
thereof, or of non-fruit-bearing trees or shrubs which may carry contagion, and also for requir-
ing all cases of contagious diseases, or fruit pests, as aforesaid, to be reported to the Board,
which regulations shall be circulated in printed form by the Board among the
fruit-growers and fruit dealers of the Province, and shall be published in the
British Columbia Gazette and, at the discretion of the Board, in papers of
general circulation in the Province, and shall be posted in three conspicuous places in each
district, one of which shail be a Court House therein; and every such regulation, when
*Hasulat published in the British Columbia Gazette, shall, so far as the same shall

gulation to have eect . i
force of law, | 20t have been in like manner repealed or varied, be deemed to be and have
the force of law, and be so recognised in the Courts in the Province.

Board to make
Regulations.

To be reported
and published.

The power to make regulations for inspection shall include the power to establish
Inspection to 22d vary places and quarantine stations where such inspection shall be
include carried out, and to make regulations in regard to the forwarding thereto
Quarantine. and detention thereat of articles requiring inspection :
(a.) In and by any such regulations, the Board may fix and impose any fine or penalty
for the enforcement of the provisions thereof, not exceeding in amount the fines and
penalties hereinafter provided in case of the evasion of any of the provisions
of this Act, and may fix a scale of fees to be taken for inspection, or other
services under the regulations, by officers carrying out the same from the
owners or persons in possession of any premises or property :
(6.) All fines and penalties imposed or fees fixed by any such regulations may be
Recovery tlersog recovered, with costs, in accordance with the provisions of the “Summary
Convictions Act, 1889,” and when collected shall be paid over to the Treas-
urer of the Board for the purposes of this Act.
Peale Geter oe hee songs or other peace officers shall, when called upon by any member
#0 assist. of the Board, or any authorised agent thereof, aid and assist such member
or agent in carrying out the provisions of this Act.

Fines.

The powers and duties devolving by this Act upon the said Board and the Inspector of

Duties of Board ETuit Pests, in relation to fruit and fruit-trees, shall extend to hops and hop

extended to Hops, Plants, for the purpose of preventing the spread of disease among hops and
hop plants, and of extirpating any pests affecting the same.

Every person violatin
Penalty. before o

g the provisions of this Act shall be liable, upon summary conviction
ne Justice of the Peace, to a penalty not exceeding fifty dollars.

5

we

ee Nt Oe

60 VICT. PROVINCIAL BoaRD oF HORTICULTURE. 59

PROVINCIAL BOARD OF HORTICULTURE.
0

Rules and Regulations made and published under authority of Section 7
of the “Horticultural Board Act, 1894,” and of the
amendments thereto.

oO

Title.

1. These Regulations may be cited as the “ Horticultural Regulations.”

Definitions.

2. In these Regulations the word “pests” shall mean and include woolly aphis, apple
tree aphis, scaly bark louse, oyster-shell bark louse, San Jose scale, red scale, borers, codlin
moths, currant worms, caterpillars, or other known injurious insects, and all fungous diseases.
The “ Board” shall mean the Provincial Board of Horticulture.

Notification of the Presence of Pests.

3. All nurserymen, fruit-growers, and all persons owning, occupying or managing an
orchard, garden or nursery infected with any pest, shall notify the member of the Board for
the district in which such orchard, garden or nursery is located, or the Secretary or Inspector,
or the agent of the Board in the district, of the fact that such orchard, garden or nursery is so
infected.

Inspection of Nursery Stock.

4. All importers of nursery stock, trees or plants must give notice to a member of the
Board, or his agent, or the Inspector of Fruit Pests, upon the arrival of any nursery stock,
trees or plants, before the removal of such nursery stock, trees, or plants from any dock, wharf,
mole, station, or warehouse where such nursery stock, trees, or plants have been landed, and
if such nursery stock, trees or plants are found to be free of insect pests and fungous diseases,
the said member of the Board, his agent, or the Inspector of Fruit Pests, shall issue a certificate
to that effect ; and all such nursery stock, trees or plants, if found to be infected with any
insect pest or fungous disease, shall be dealt with according to the Rules and Regulations of
the Board. All dealers, nurserymen, or persons selling or distributing nursery stock, trees, or
plants for which no clean certificate is in force shall, before distributing or offering for sale any
article above mentioned, notify the member of the Board, his agent or representative, in whose
district any such article is found, or the Secretary of the Board, or the Inspector of Fruit
Pests, who shall inspect or cause to be inspected such nursery stock, trees, or plants, and if
they are found to be free from pests shall issue a certificate to the owner or person in charge,
stating that said articles appear to be free from pests. Such certificate shall be in force for
three months from date of issue, unless revoked by further inspection.

Disinfection of Nursery Stock, Trees and Plants.

5. All persons owning or having in their possession nursery stock, or trees and plants of
any kind, infected with insect pests of fungous disease, shall cause the same to be disinfected
and cleansed by using the remedies herein prescribed, or such other insecticides and fungicides
as may be found effective, and are approved of by a member of the Board or the Inspector of
Fruit Pests, and no such infected nursery stock, trees, or plants shall be sold, forwarded,
distributed, or parted with until a certificate of the satisfactory cleansing thereof shall have

‘been obtained from a member of the Board or his agent, or the Inspector of Fruit Pests. Any

member of the Board or the Inspector of Fruit Pests may order the destruction, by rooting
out and burning, all infected nursery stock, trees, or plants of any kind, if, in the opinion of
such member of the Board or Inspector of Fruit Pests, such a course is considered expedient
in the interest of the fruit-growing industry.

60 PRrovinciAL BoaRD OF HORTICULTURE. 1897

Inspection of Imported Fruit.

6. All importers of fruit must give notice to a member of the Board or his agent, or the
Inspector of Fruit.Pests, upon the arrival of any and all shipments of fruit ; and all fruit and
fruit packages imported into this Province shall be inspected, and if found to be free from
insect pests and fungous disease a clean certificate shall be issued therefor in conformity with
the Rules and Regulations, of the Board: Provided, however, that no fruit or fruit packages
imported into this Province shall be removed from any dock, wharf, mole, or station where such
fruit and fruit packages have been landed, before inspection and such clean certificate thereof
shall have been obtained, and all such fruit and fruit packages as may be found infected with
any insect pest or fungous disease shall be either destroyed by the importers thereof, by such
process and within such time as any member of the Board, the Inspector of Fruit Pests, or
any agent appointed by the Board, may direct, or shall be re-shipped, within such time as
any member of the Board, the Inspector of Fruit Pests, or any agent appointed by the Board,
may direct, by the importers thereof to some point without the Province.

ce

Inspection of Imported and Home-grown Fruit.

7. All fruit, whether imported or grown in this Province, or exposed for sale, shall be
subject to inspection under the authority of the Board, and if found to be infected with any
injurious insect pest or fungous disease shall be quarantined, or may be destroyed at the
expense of the owner of said fruit, by such methods as the Board or its agents may direct.

Stencilling and Labelling.

8. All persons shipping, sending, or delivering any fruit, fruit trees, scions, cuttings, or
plants within the Province shall place upon or securely attach to each box, crate, or other
package or parcel containing the same, a distinct stamp, mark, or label showing the name of
the producer and shipper or sender, and the locality where grown, but boxes and barrels
containing fruit shall be stencilled or stamped with letters not less than three-quarters of an
inch in length. ;

Treatment of Nursery Stock.

9, All infected nursery stock shall, before being distributed, be disinfected by dipping in
a solution of one pound caustic soda (concentrated lye) and one pound whale-oil soap to every
five imperial gallons of water, thoroughly dissolved, and applied at 103° Fahrenheit in a vat
or any suitable vessel, or the said nursery stock may be disinfected by covering with an air-
tight tent or box, and for each and every 100 cubic feet of space therein one ounce of fused
cyanide of potassium (58 per cent.), one fluid ounce of sulphuric acid, and two fluid ounces of

10. (For sprays see preceding pages, 5, 6,7, 8, and 9.)

11. Where pests or fungous diseases are found to exist during the growing season
the trees are in leaf, Spraying must be done and 6 st
mended by or under authority of the Board from ti
can at least be held in check ‘until the stronger was
applied.

while
such remedies applied as shall be recom-
me to time, so that the insects or diseases
hes of the dormant season can be safely

Destruction of Packages.

12. All boxes, crates or other packages or wra

ings which h Ol i
nursery stock shall be destroyed by fire immediately af ee sb Neier naa

ter the removal of the contents thereof.
Hop-fields.

13. Where hop-fields are infected with the hop-lous ayi
edimatetin Cle ee Op-louse, spraying must be done as the Board

-60 Vict. PRovINcIAL BoarRD OF HORTICULTURE. 61

‘

Inspection at points other than Quarantine Stations.

14. Importers or owners of nursery stock, trees or plants, desiring to have such nursery
stock, trees or plants inspected at points other than regular quarantine stations, may have
such inspection done where required: Provided, however, that such importers or owners shall
pay all charges of inspection and expenses of the officer employed in such inspection. Such
charges and expenses to be paid before a certificate is granted.

Quarantine Regulations.

15. Svartons. QUARANTINE OFFICERS.

ae ee The Inspector of Fruit Pests, any member of the Board, and
E. A. Carew-Gibson.

Vancourer, New Westmin-{T. Cunningham, any other member of the Board, and the
ster and Liverpool.... Inspector of Fruit Pests.

(Geo. Pannell, any member of the Board, and the Inspector of

Nanaimo... 0.50.02. ee. \ Pies Weds.
ee George H. Roe, any member of the Board, and the Inspector of
sigue ae ity Sa Tait Paste.

eT re A" tere aga member of the Board, and the Inspector of

V, Herbert Francis Denison, any member of the Board, and the
SED ye RE ee Clore aa a Inspector of Fruit Pests.

0 ; C. A. R. Lambly, any member of the Board, and the Inspector
SOYOOS . 6... wee ; at Feuih Pasta,

R. R. Gilpin, any member of the Board, and the Inspector of
Fruit Pests.

F. C. Lang, any member of the Board, and the Inspector of
{ Fruit Pests.

R. L. T. Galbraith, any member of the Board, and the Inspector
POPES 0: mies a aR : of Fruit Pests.
fJohn F. Costello, Northport, any member of the Board, and the
Waal Mootereay aces sans \ Inspector of Fruit Pests.

Kettle River ...... 0.44.

Golden ....... Paterna ihe tt dv

Transportation companies or persons shall deliver and cause to be detained all nursery
stock, trees, plants and fruit, at one or other of the quarantine stations for inspection, as pro-
vided by the Rules and Regulations of the Board,and all such nursery stock, trees, plants and
fruit shall not be removed without the consent of the quarantine officer having been first
obtained.

A quarantine officer may also, if in his opinion such a course is necessary, detain any
nursery stock, trees or plants, for the purpose of disinfection, at a quarantine station, until such
quarantine officer is satisfied that all infection is removed: Provided, however, that in no case
shall the inspection of nursery stock, trees, plants and fruit be done by a quarantine officer
having any pecuniary interest in the same.

Inspection Fees.

16. The fees for inspection of apple, pear, plum, cherry and other fruit trees, shall be as
follows :—

On all consignments numbering— e
Under 100 trees ........ cee cee ee ny Besresinee de echbeatin’ $2 50
100 trees and under 250 ......... 0 0..... nays 3 50
250 on. it. BOO: daae xen aware cowed 4 50

And for every additional 500 trees or fraction thereof over 500, $1 additional.

For other nursery stock the fees shall be as follows :—

$2.50 on $25.00 in value or fraction thereof.

$3.50 on any consignment over $25.00 and up to $50.00 in value; and 5 per cent.
additional on the value over $50.00.

62 PRovinciaL BoarD or HORTICULTURE. ; 1897

"When nursery stock, trees or plants are found to be infected with insect pests or diseases,
a charge of 50 per cent will be added to the foregoing rates, to pay expenses of the quarantine
officers for supervising, disinfection, and subsequent inspections.:

On fruit, viz. :—

Apples, pears and quinces, the minimum fee shall be $1.00 on any sum up to $33.00, and
3 per cent. on any sum over $33.00 in value. ; ; :

It is furthermore provided that all-other varieties of fruit shall be subject to inspection,
if deemed necessary, on the same terms, and subject to the same fees as those above mentioned.

Certified invoices will be required.

Penalties.

17. Every person violating the provisions of the “ Horticultural Board Act, 1894,” or any
amendments thereto, or the Rules and Regulations adopted by the Board, is liable, upon sum-
mary conviction before a Justice of the Peace, to a penalty not exceeding fifty dollars for
each offence.

Repealing former Rules and Regulations.

18. All Rules and Regulations heretofore adopted and published under the authority of
the “ Horticultural Board Act,” or any amendments thereto, are hereby repealed, and the fore-
going Rules and Regulations substituted in lieu thereof.

Recommendations.

Horticultural and Agricultural Societies, and all those interested in advancing and pro-
tecting the interests of fruit-growing, are requested to co-operate with the Board in the enforce-
ment of the provisions of the “ Horticultural Act,” and the regulations thereunder, as adopted
by the Board.

Correspondence,

All correspondence relating to the extirpation of fruit pests should be addressed to the
Inspector of Fruit Pests, or the member of the Board whose district may be affected. Corres-
pondence relating to other matters should be addressed to the Secretary of the Board.

By Command,
J. R. ANDERSON,

Secretary.
Office of the Provincial Board of Horticulture,

Victoria, 25th June, 1897.

MEMBERS OF THE Boarp.

The Honourable the Minister of Agriculture.

Jas. R. Anderson, Deputy Minister of Agriculture.

R. M. Palmer, Inspector of Fruit Pests, of Victoria, to represent the First Horticultural
District, which comprises Vancouver Island and the islands adjacent thereto.

Thomas Cunningham, of New Westminster, to represent the Second Horticultural District,
which comprises the Electoral Districts of New Westminster City, Vancouver City, Westmin-
ster, Cassiar, and that portion of Comox lying on the Mainland of British Columbia,

Thomas G. Earl, of Lytton, to represent the Third Horticultural District, which comprises
the remainder of British Columbia not included in the two other districts,

INDEX.

A.
Page.
Ambiguous Ladybird ....... 2.2... ......0..05. 46
Ammoniacal Copper Carbonate, ingredients. .... 8
ANS) c.0) baste naiageaated Bin weoearceea aed ee 15
Aphelinus Fuscipennis ..... 0 .........0...000: 21
Aphis, Apple (see Green Aphis) ................ 9
“ Black? piecs's aivdssaarats mated Wedel ee haa 10
" Cabbage’ wits sicv ain taide tenis ae eee Gems BB es 10
» Cherry (see Green Aphis) ............... 10
e Currant, wos chs ageaave Bue nlaneedacees 10
pe Green aestssaaaesdecsaakenmes hoes) 9
u" Hop Se a ee 12
” Menly PUM tia sdiicune esis gad aches ts 10
” Woolly ae Blan ie elaanee | wisectsaeeaciaCibiaeiadieds nena. Hatsil'a elduesd 13
de a Woolly ALGO Pfs casscciansyecdasastnnacten daase RAR eles 14
pple DB AG oS hig siayaybathar iy tanianemusearnen saa 9
” Fruit MING sissies ssa asrdnssutecatoueoiysisy sisted ZOeee 36
« Roller, Lesser ..... 0 ........ ce ceee eee 36
» Seab, or Black Spot.............. 0.204. 49
» Tree Tent Caterpillar .................. 29
B.
-Banding and Wrapping ...................000- 39
Beetle; Potatoes occas ciaaea noes. apherune ada 24
wy ROSC s. ccecssansgantanarcremeneeane os 24
UMA as ces sees tence aeons “euowaeinte auc 24
Beneficial Insects................... ...4, 21, 44
Black Ground Wasp ....... 4 AN wC ReeR re. 40
Black Knot sicseccccsg ase ehe danny iewdaeeess 53
Black Spot, or Apple Scab ............. ..000. 49
Blight, Potato... scccsctaesisedens weted wees 54
we ~Pear-leaf peungssaxaqe48e4 es daa peohes 50
Blister Mite, Pear-leaf...... Sag esesaaccnts 42
Bordeaux Mixture, ingredients................. 5
Borer, Flat-headed Apple Tree................. 26
» Imported Currant ............ -....0.. 28
a» Raspberry Cane.................. -... 28
» Raspberry Root................ 0... eee. 29
» Round-headed Apple Tree .............. 26
w Small Bark................ pees ete 27
Bot Flies ........ pedvidtslethin disks CROs ChAT RAS» Rte 43
Brown Apricot Scale.. ........ .... PIS Cieaan Bites 23
nw Neck Ladybird .................0..000. 46
Rots eicce ep ienaacemianey Atadacye pare es 53
Bud Moth: oncuie deci sie aiitwaseanaatergs qanawie 32
Bug, Devil’s Horse or Wheel .................. 47
C.
Cabbage Aphis ........... 0.6 cece eens i Setatetas 10
” MaBBOti rc cee succkmaenerdnuedoumadebiitsy 42
Canker! Worm: i026): 0 bh neweveccacma nie pases 35
Caterpillar, Black Diamond ........ .......... 31
" Celery Pree ee ee eget er ee erie er rer 37
” Imported Currant Worm or ........ 37
” Red-humped ......... 20.20.0800. .. 31
" Went: 2 24¢s44y e408 se eee nee ee 30
” Tussock, ¢c2seceu sain aneraeas oxen 31
Celery Caterpillar... 9 .......... sicgubinior a apledidnd 37
Cherry Aphis 2.0.00 066.66 css eee eens ceeneees 10
CICADAS. ecsesdniewo: Se SRTRETHTSREREES OA OH 41
Click. Beetles :......i.2 6.826002 0b esas ome ewedaies 25
Clover Mite, Red...........--22.0 ce eee eee eee 42
Codlin Moth or Apple Worm .............-... 33
Convergent Ladybird ... ........-.-- 0 eee ee eee 46
Curculio, Plum. .... 2.2... 0.660 cree eee eeeee 28
* Currant Aphis ....... 06.6 scene eee eee een eee 10
Currant Fruit Worm ........... 0.5 0e cee eee 37

—
Page
Currant Worm, Imported ..............-20000+ 37
Cut Worms, traps for........... 0.0.0 eee ee eee 39
Cat Worn Midi inser stay weeceacessucucen ss 40
Cut: WOrimidis incised ahiierig Matted Cela Bek 39
D.
Dead Spot ticiremaein saves ogee wea aati aes 50
” 10S: CAUSE iucieje-scenieuiats iain ce vee ARR 50
” preventives ........ 0.2... cece eee eee 51
Devil’s Horse or Wheel Bug..... ...,...-.-.-. 47
Diamond Back Moth ..... 1.0.2 ....5 cee eueee 31
Diseased Raspberry Canes.........+---20ee eee 54
Diseases of Plants, fungous...............20055 48
Downy Mildew, Potato ................. -... 54
E.
Early Blight, Potato...... 02... cece cece 54
F.
| Ball Web Wott ...c. cco ccc meena ee nee nes 30
| Flat-headed Apple Tree Borer ............... eae 26
HUES; Bobi sce oi tne sa nhin ine aarebelomainar laters 43
nw Lace-Winged......... cece cee eee ee eee 46
ff SCENE seiriadee sn’ svasl.n isans calevodty ahaa ulate dices 47
Fungi, Fertilization and Cultivation............ 48
” Germination of ............0 cece eee eee 48
” Hand-picking ........... 0... eee eee 49
” Nature Of joc canwsates aapoe aoa anienais 48
” Selection of Resistant Varieties ......... 49
Fungicides, Use of... ...... 0.0. ce eee e cece eees 49
Fungous Diseases of Plants.................4.. 48
Fungus, Shot Hole ...... 6 ..........5.. eee 53
G.
Grain; Smuteine. . co. i ea eis sen cae eas 55
Grasshoppers and Locusts :.. 40
| Green Aphis ...... .... egeigaiamiaan aewgicaD 9
Ground Wasp, Black ........ ..........0000- 40
GUMMOSIS 2. caaycts Cee rate nee eae e2euaseese 51
H.
Hellebore Spray, ingredients .................. 8
Hop Aphisias cosieveerieveas aevaetenenaae es 12
Hopper Dozers, STE GE Ol epee acny seed ewes 40
Horse, Devil’s, or Wheel-bug .......... ... 22. 47
Hot Water Treatment, Jensen or .............. 55
L
Imported Current Borer....,.......2.....00005 28
Imported Currant Worm and Caterpillar ....... 37
Insects, Beneficial ......... 0.0.00. ccc e eee eee 44
Insect Pests siciiad basa naisdinans smmmarnmasus saa nas 9
Insecticides..... ......-.... pai e ae yee we ES 4]
Introductory Remarks .................. eee eee 3
J.

Jensen, or Hot Water Treatment .............. 55
June Bug, Western Ten-Lined................. 24
K.

Kerosene Emulsion, ingredients. ........ ..:.. 7

INDEX.

64
L.
Page,
Lace Winged Flies ..... 1.0... 0... e eee ee eeee 46
Ladybird, Ambiguous............:. 00 ceeeeeee 46
” Brown Neck.......... Bechavaiaseyeate aeons 46
" Convergent ...........6 eee eee eee 46
” Twice-stabbed...........5 000-0065 45
Late Blight, Potato. .......... 00... cee eee eee 54
Dea Curl, POA cieciecacavoeienrn draenei aniene ccenased 54
fii, WOM OR Yas issues adived aaaseDia a in Gutiansiem se aetna 33
" Spot, PRD site caiee cia ead watee saws WOR 54
Leggett’s Powder Gun........- 0.0.0.2 e eens 8, 38
Lesser Apple Leaf Roller................00000- 36
Lye and Soap Wash, ingredients...... ........ 9
Ligh, CUE WO ccccsccenn sever cnccat Ohana es 40
Locusts, Grasshoppers and ...............5-05+ 40
Louse, Oyster Shell Bark.......... 00... -2. => 23
M.
Maggot, Cabbage. ........... 0c cece cece eee 42
Es Guion” eo te a ee 43
Mildew, Downy, Potato........... ee 54
” Gooseberry 52
” ON RODS: siciiatewanc aie saat angen
” Powdery ssisisccars cosine inivesearinseacsomyaa niin
” Remedies :..iis.c arava vader ace senenaiess
Miner, Apple Fruit
Mosquitoes ..........0 0. ese eee
Moth; {Bud «oh aides hcecsntoves sidlicronta laut Rununaramasssears
tan Codlin... 2.0.0.0...
‘» Mottled Umber ................. issaasedzasndas 32
Mottled Umber Moth.... Seidashsbucvind Matta sarnstounatiae 32
, N.
Nozzle, Vermorel ........ 00... ee cee eters 49
; 0.
Oblique-banded Leaf Roller ............... ree BD
Onion Maggot.............. 0.0. ce eee te Saati 43
Oyster-shell Bark Louse................-.. 22, 23
P.
Parasites, &c., of San Jose Scale............... 21
Paris Green Spray, ingredients ....... ee 8
Pa: WEVA. cinssaiain veicwaaed Aikikai Gaba 27
Petchi Leak: Cur as. «a cascvaasysdoavcege lei daocd eva ateosswnana 54
Pear and Cherry Slug........... . cs. e eee ee ee 38
Pear Leaf Blight ..... 20.0... . cece cece ee eee 50
Pear Leaf Blister Mite.....................00. 42
POAT ISCAS sd casi coucreratiacevststanensyatintieheare lqanenscaielieans 50
Peas, Mildew on ......... 0... cep cece ee eens 56
Pentilia Misella ............-. 20s cess cece eee 22
PLAIN BOBS). ccissns cutis coausinsnnars a eliun tale on wynnauien 16
Plants, Fungous Diseases of ................... 48
PUG APHIS saislscsdasnsiee Siesecnrvee 9 Sora arsasenn eee docen
Plum, Curculliol. .....ceceviag edad sie ates ne as
Potato Beetle, the........ ee
Potato Blight ..............
u Downy Mildew
» Early Blight..... .. momlcnnies Mea eaan fe
» Late Blight ......... 46 HORA MARTE AS Sat 54
* oe Leaf Sp0tewecsasraccncsaeseoes eas smug D4
" Roti svcxsesosseadewre ORAS BAT EES. 54
Btabspsrcaiwne vrcawnaretanwnenenesieas 54
Powder Gun, Leggett’s................ eee 8, 38
Powdery Mildew..........:0sscecccceneeee sees 52
R.
Raspberry Cane Borer .......... 0 .. eee ee eeeeee 28

y Page,
Raspberry Canes, diseased ..........-.-.-. 000% 54
” Root Borer .......6.. 0650 cece ee nee 29
Red Clover Mite ....... 0... cee cece ere teens 42
Red-humped Caterpillar........... Rhames vues 31
Red Spider, the .......2..-- 6 see eeee ee eeee eens 41
Resin Wash, ingredients ............-..---.0+5 7
Roller, Lesser Apple sisecst rach tetccksgesccesa Rave Retreat 36
» Oblique-banded Leaf............... --5 33
Rose Beetle, the...........-.- 0: ee eee teres 2A
Roots Dro wr sscse- che Pacis tec swasrinrs cain Aigadeeecmata mbna 53
Re Og sce Kaki MRR eR Ra ; 54
Be POM AOS sass: erste Be ravarageyere Advaita on nobitaalonmme ann 54
Round-headed Apple Tree Borer..... ...-2.5+. 26
Rust) xi snasg aoe ss eee en nee eee nee 56
s.
San Jose Scale, description of...... ....... 16, 21
” » natural enemies of ............- 21
” n reference to .... ...... .- ase 8
” n” POUQOCIO® cs 5avucy deg ye rey eeewus Qt
Scab; Pettive: 4 cscougsves seer ave aremgeme etwas 50
“an ‘Potato nia + etree deseeline cies meeddinn es ghee 54
n Brown Apricot ......-....0 cece ee eee eee 23
Shothole Fungus ......... 0.0. e cece eee eee 53
Slug, Pear and Cherry ..............5seeee sees 38
Small Bark Borer . cece cues save eusrieees 27
SmuUbin Grain ccwesisisese geen veavaeneygeetas 55
Soap Wash and ra, ingredients........... 7
n Lye and We ated esa wre 9
Spider, Reds. cisc4 dsngae est euingaincna aera 41
Spots.Deadvavayinecesanave seve y Ga aadeweers 50
Spraying, importance of....... Cee ee re 3
” MIXUUNES: w vie cctaeare enarscatisnicia dekard 5-9
Sprays Nos. 1525 4c secs eaien winleroscin, soascuccs iets 5
" Nos. 5, 6, EY | xe lésacoant ta Oe Wash cei, armen eree 7
aH Nos. 8, 9, MO be cschAuy ocacapenahneueaveves: entered hed 8
" ING TDG tector ccpauin ae ceteacneceanauurialahiiia ites 9
Summer Spray, ingredients.................... 5
SV nphus: BCS) csnueicsandzanansmre wemdunminnduiadads 47
T.
Tent Caterpillar sc. cecessedany sasdsaoneavadues 30
DOYIP: sacieeteenrnanseesumesenesaue weaeesawse 15
TINGS) geion oxkd ove pawn sense cre eee eEE 15
Tobacco and Soap Wash, ingredients........... 7
Tomato:-Rot: scx is ayer aeeye ease Seen Sees 54
Trapping, remedy for Codlin Moth ............. 35
Traps for Cut Worms. ........... cece eee eee 39
Turnip Beetle, thes icca neon nnga eoun igre x sae 24
Tussock Moth........ .........- disidSgoalioteiecien 31
Twice-stabbed Ladybird ..... ..........0.0005 45
Vv.
Vermoral Nozzle ...... biafend sae dniatitiaodag aera 49
Ww.
Web Worm, Fall........0 0000 6c ee seee eee e nes 30
Weevil, eat tater ee oe tee 7
Western Ten-lined June Bug ...............065 24
Wheel Bug, or Devil’s Horse ...............-4- 47
Winter Spray, ingredients...................4 5
Wire Worms.. ..............4. npekimeyeaer aie 25
Woolly Alder Aphis .......... ewnhie asin senate 14
n Aphis... ...... ACAD RAaEEAR aR AMias . 13
Worms, Raniee GRIGLORRATS ROT TARRAGS FOR AORE 35
” Currant: Fruits cos ssuconseerasten saws 37
Wrapping, Banding and................ Aeaaiy as 39

VICTORIA, B.C.:
Printed by Riettarp WOLFENDEN, Printer to the Queen’s Most Excellent Majesty
1897,