IRLF
i
'
-
THE
DIAMONDS, COAL AND GOLD
OF
INDIA
BALLANTYNE, HANSON AND CO., EDINBURGH
CHANDOS STREET, LONDON
THE
DIAMONDS, COAL AND GOLD
OF
INDIA
THEIR MODE OF OCCURRENCE AND
DISTRIBUTION
BY
V. BALL, M.A., F.G.S.
OF THE GEOLOGICAL SURVEY OF INDIA
AUTHOR OF
"JUNGLE LIFE IN INDIA; OR, THE JOURNEYS AND JOURNALS OF AN
INDIAN GEOLOGIST "
LONDON
TRUBNER & CO., LUDGATE HILL
1881
All rights reserved
TN 103
PREFACE.
A GROWING spirit of inquiry in reference to Indian
mineral deposits has led me to prepare a series of
Papers descriptive of the mode of occurrence and dis-
tribution of several of the more important among
them.
Three of these Papers on the Diamonds, Coal, and
Gold, which were first published in the journals of
learned societies,* are now offered to the public in
a more compact and accessible form.
The design of this work is that it may be used
as a handbook to the detailed accounts published by
the Geological Survey of India, and by other autho-
rities, in numerous scattered publications, to which
full references are given.
That a plain and, at the same time, comprehensive
statement of the Geology of the more useful mineral
deposits of India was urgently wanted is amply
testified by the scanty and too often erroneous manner
* Report of the British Association for 1879, "Journal of
the Scientific Proceedings of the Royal Dublin Society,"
and " Journal of the Royal Geological Society of Ireland " for
1880.
M347252
vi PREFACE.
in which the subject is dealt with in standard works
on Geology. In spite of the fact that the systematic
exploration of the Geology of India has been in
operation for a quarter of a century, old exploded
hypotheses have been passed on from one text-book
to another, and their statements regarding the age
of the coal, the diamonds, and many other mineral
productions far from represent the present state of
our knowledge.
While these pages were passing through the press, I
have succeeded, I believe, in identifying the mine
where the Koh-i-nur was discovered. The results of
this inquiry, together with a proposed explanation of
the myth regarding diamond mining in India, as
described in the travels of Marco Polo, Sindbad the
Sailor, &c., will be found in the Appendix.
CONTENTS.
CHAPTER I.
DIAMONDS.
DIAMONDS, i ; Distribution of Diamonds in India, 3 ;
Geology, 5 ; Origin of the Diamond, 1 1 ; Kadapah
or Cuddapah District, 13 ; Chennur or Chinon, 14 ;
Cunnapurtee or Condapetta, 14; Karnul Dis-
trict, 16: Banaganpilly, 16 ; Munimadagu, 18 ;
Ramulkota, 1 9 ; Raolconda, 1 9 ; Kistna and Go-
daveri Districts, 20; Golapilly, 21 ; Mulaily or Mala-
villy, N.E. of Bezwarra, 21; Partial or Purteeali,
22 ; Gani-Colour = Kollur, 23 ; Central Province or
Mahanadi-Godaveri Tract, Sambalpur, 25 ; Sou-
melpour, 26 ; Weiragurh or Weiragud, eighty miles
South-east of Nagpur, 39 ; Chutia Nagpur, 41 ;
Bandelkhand, 44 ; Panna, 45 ; Kumerea or
Kahmura, 46 ; Udesna,48 ; Sakeriya, 48 ; Mujgoan,
49 ; Boghin, 49 ; on the Prospects of Diamond
Mining in India by Europeans, 55.
CHAPTER II.
COAL.
COAL, 58 ; Talchir Group, 60 ; Karharbari Group, 60 ;
Barakar Group, 62 ; Ironstone Shale Group, 62 ;
Ranigunj (Kamthi) Group, 62 ; Age of the Plant-
Bearing Series of Rocks included in the Gondwana
System, 63 ; Origin of the Gondwana Rocks, 65 ;
via CONTENTS.
Areas of Gondwana Rocks, 65 ; List of Separate
Coal Fields, 66; Lower Bengal, 68; Rajmahal Area,
68 ; Birbhum, Deogurh, &c., 69 ; Karharbari or
Kurhurbali, 69 ; Ranigunj, 70 ; Jeriah, 73 ; Bokaro,
74; Ramgurh, 75; Karanpura, North and South,
75 ; Chope', 76 ; Itkuri, 77 ; Aurunga, 77 ; Hutar,
78; Daltongunj, 78; Tattapani, 79 ; South Re wah
and Sohagpur. 79; Jhilmilli, 80; Bisrampur, 80 ;
Lukanpur, 81 ; Rampur, Si; Raigurh and Hingir,
Udaipur and Korba, 82 ; Orissa, 83 ; Talchir, 83 ;
Satpura Basin, 84 ; Mopani, 85 ; Tawa, 86 ; Pench,
86 ; Godaveri Valley, 86 ; Bandar, 86 ; Wardha or
Chanda, &c., 87 ; Kamaram, 89 ; Singareni, 89 ;
Sikkim, 90; Darjiling District, 90; Assam, 91;
Present Out-turn of Coal in India, and Impor-
tations of Coal from Foreign Countries, 93.
CHAPTER III.
GOLD.
GOLD, 95 ; Madras, 98 ; Wynaad District, 98 ; Kolar
(or Colar) District, 105 ; Gold Mining in Mysore,
106 ; Bombay, 106; Dharvvar District, 107;
Belgaum District, 108 ; Bengal, 108 ; Central
Provinces, 109; Orissa, 1 1 o ; South-Western Bengal
or the Chutia Nagpur Province, 1 1 1 ; North-
West Provinces, including the Himalayas and
the Punjab, 119; Ultra-Peninsular Areas, Assam,
Burmah, 120; Afghanistan, 123; Thibet, 124.
APPENDIX.
Identity of the Great Mogul Diamond with the Koh-
i-nur, p. 130 ; Note on the Myth regarding
Diamonds described in the travels of Marco Polo,
" Sindbad/' &c., p. 134.
THE
DIAMONDS, COAL AND GOLD
OF INDIA.
CHAPTER I.
DIAMONDS.
To say that India has for many years been famous for
her diamonds would be to enunciate a truism with
which every one is familiar. It is not an easy matter,
however, to determine for how long this has been the
case, still less so to fix with approximate accuracy any
period of the world's history as being that when the
precious gem first came to be esteemed in the East.
At least 3,400 years have elapsed since the first
account of it in the " Mahabaratta" (B.C. 1500) was
written — and it may have been known long previous
to that. By some it is thought that the Koh-i-nur
belonged to King Vikramaditya (B.C. 56), a personage
who seems to have been most ubiquitous, if a tithe of
all that is said of him could be believed.
I show below, when describing the diamond locali-
ties of Sambalpur, that Ptolemy possessed a remark-
able amount of information regarding them. Tavernier
2 DIAMONDS.
was of opinion that those of Soumelpour, a distinct
locality, were the oldest workings in India.
In this account I have attempted to give references
to the most important authorities* on the subject of
Indian diamonds and diamond workings both ancient
and modern, but my knowledge of the ancient litera-
ture of India is too limited to enable me to give a resume
of what may be recorded on the subject in native
writings. The late Professor Blochmann had. I know,
culled from many sources notices in Arabic, Persian,
and Urdu on the subject of the mineral productions
of India, but these have, unfortunately, never been
published.
According to Captain Burton, the Indian diamond
was first made famous in Europe by the French
jeweller, Jean Baptiste Tavernier (born 1605, died
1689), who made six journeys to India in order to
purchase precious stones. Tavernier himself, however,
alludes to a previously existing trade, which at least
dates back to the time of Marco Polo. Before the year
1728, the production of diamonds was practically
limited to India and Borneo, but in that year the first
diggings were opened in Brazil.
Tavernier did not visit Borneo, he tells us, in
consequence of having been informed that the queen
of that island would not permit the removal of any
gems out of her dominions. But the courageous old
traveller seems to have been ready to go anywhere in
the pursuit of his trade, undeterred by risks and
dangers. He seems to have fared well in India, and
* One of the most complete accounts of the diamond deposits
of India is by Karl Ritter ("Erdkunde Asien," vol. vi. Berlin,
1836).
DIAMONDS. 3
often alludes to the courtesy, and even the loving-
kindness, of the natives.
I had intended to add to this Paper an account of
all the famous diamonds which have been found in
India;* but, at the very outset of my investigations, I
have met with so many contradictory and conflicting
statements, that I find it will require more time than
is available to me at present .to hunt up authorities
and attempt a reconciliation.
As an example, I may state that, according to some
authorities, the Pitt or Regent diamond is said to have
come from Borneo; by others, from the mines at
Purtial. Similarly the true history of the Koh-i-nur
is enveloped in much obscurity.
DISTRIBUTION OF DIAMONDS IN INDIA.
There are in India three extensive tracts, widely
separated from one another, in which the diamond has
'been sought for from the earliest periods of recorded
history. Besides these principal tracts there are
others where, although the fact of the occurrence of
diamonds has been recorded, our knowledge as to the
circumstances connected therewith is less perfect.
But, with regard to the three principal tracts, it may
now be fairly claimed that our knowledge of the
geology of India enables us to fix the limits with
approximate accuracy within which the diamond-
bearing strata occur, and outside of which it would be
useless to look for them. Moreover, we may venture
perhaps to extend within those limits very considerably
* The works on " Diamonds and Precious Stones," by MM.
King, Streeter, Dieulafait, and Harry E manual, may be referred
to for information on these points.
B 2
4 DIAMONDS.
the areas in which it may reasonably be anticipated
that the gem may be sought for successfully.
The most southern of these tracts is one which
has long borne a familiar name, which, however, must
be characterized as being to a certain extent a mis-
nomer. It falls to the lot of those who live in these
modern days of accurate research to be called upon
to give up some of their earliest and most cherished
beliefs, and it will be unacceptable to some, perhaps,
to hear that Golconda itself never produced diamonds,
and that it was in fact merely the mart where diamonds
were bought and sold.
The name originally applied to the capital, now
represented by a deserted fort in the neighbourhood
of Haidrabad, was extended to the surrounding dis-
trict, and seems to have been used for the whole king-
dom,* which included many of the diamond localities,
and in this way the popular belief on the subject
arose ; but Golconda Fort, it should be remembered,
is many miles distant from the nearest of these.
At the present day there is a totally distinct tract
of hilly country lying to the north of the Godaveri
river, which also bears the name Golconda ; whether
it at any time formed a portion of the ancient
kingdom I cannot say, but it is not, I believe,
at present included in the territories of the Nizam o
Haidrabad.
The districts included in this southern tract in the
* " Golconda is the most famous of the six independent
Moslem kingdoms which, in A.D. 1399, rose on the extinction
of the Toghlak (Delhi) dynasty, and it survived till 1688, when
Aurungzebe brought all India under one sceptre." — Captain
BURTON, Quarterly Journal of Science, N.S. vol. vi. 1876.
DIAMONDS. 5
Madras Presidency in which there are or have been
diamond mines are the following : — Kadapah, Karnul,
Kistna, and Godaveri ?
Proceeding northwards, the next locality at which
there were mines was at Bhadrachellum on the
Godaveri.
The second great tract occupies a considerable
area between the Mahanadi and Godaveri rivers.
Although diamonds are known but from two neigh-
bourhoods within it, still, from our present knowledge
of their geology, to which I shall presently allude, it
is not improbable that the diamond-bearing strata may
have a wide range. The two neighbourhoods referred
to are Sambalpur, with the bed of the Mahanadi for
many miles above it, and Weiragurh or Weiragud,
eighty miles to the south-east of Nagpur.
Again, as an outlier to this second tract, there are
two or three localities within the province of Chutia
Nagpur where diamonds are known to have been
found.
The third great tract is situated in Bandelkhand,
near the capital of which, Panna, some of the principal
mines are situated; but there are others scattered
about in various parts of that province or kingdom.
Some authorities make allusion to a discovery of
diamonds in the bed of the Ganges, but I have failed
to trace this statement to its source, and I am not in
possession of any particulars.
Lastly, about ten years ago some small diamonds,
stated to have been found in a hill-stream near Simla,
were forwarded by Sir E. C. Bayley to the Geological
Museum at Calcutta.
DIAMONDS.
GEOLOGY.
Although in the following pages I shall, for each
locality, give a sketch of the mode of occurrence of the
diamonds, it will be well, perhaps, by way of intro-
duction, to give a general account of the formations
which include the diamond-bearing beds, and likewise
attempt to correlate those of the several localities
respectively.
Up to the year 1855 Indian geology was in a
condition of extreme confusion, for although much
excellent work had been done, chiefly by amateurs,,
still it was, from the nature of the case, of a scattered
and disjointed character, and the attempts at correla-
tion of deposits situated at wide intervals had led to
very erroneous conclusions, none of which were
further from the truth, as now known, than those
having reference to the diamond-bearing deposits.
In the year 1857 a collection of geological papers
on Western India, &c., with a summary of the
geology of India generally, were printed by the
Government, under the editorship of Dr. Henry J.
Carter. Valuable as this publication was, its day is
now gone by, and it is, therefore, to be regretted that
it should still continue to be quoted, not only by
discursive writers on India, but even in standard
works on general geology.
The publications of the Geological Survey of India,
as now constituted, which commenced to appear more
than twenty years ago, have from time to time for
different areas successively replaced the confusion
and incorrect correlation by an orderly arrangement
based upon solid evidence. Erroneous conjectures
DIAMONDS, 7
and unsound hypotheses have been overturned by
work of that kind, which, especially in a country like
India, can only be accomplished by professionals,
whose whole time can be devoted to the subject, and
whose operations are systematized under the leader-
ship of one central authority.
The issue of the "Manual of the Geology of India"
last year places the work of the Survey and our
present < knowledge of Indian geology in a more
accessible and condensed form than it possessed
when scattered through the now voluminous publica-
tions of the Survey. It is to be hoped that writers of
geological text books will in the future refer to it for
their facts rather than to the old sources of information,
and that we shall never again see the "diamond sand-
stone," so called, classed as an Indian representative
of the European Oolite.
Among the authorities quoted by Dr. Carter in
reference to the diamond-bearing strata, the following
are the principal : — Heyne, Jacquemont, Franklin,
Voysey, and Nevvbold.
Some of these, especially Heyne, maintained that
the diamond occurred only in a superficial recent con-
glomerate, formed of a great variety of fragments of
the surrounding rocks, and resting indiscriminately on
old rocks of different ages. Others recognized that in
some cases the matrix of the gem was a conglomerate,
which was a member of the clay slate formation, so
called. This " clay slate formation," which included
sandstones and limestones, and all their varieties now
embraced in the Vindhyan formation, were considered
to be the altered representatives of the Oolite, this
being the age assigned to the coal-measures and
associated plant and reptilian fossil-bearing sand-
8 DIAMONDS.
stones. The alter were in fact held to constitute
the unaltered portion of the rocks of the same period.
The work of the Survey has demonstrated that this
clay slate, or diamond sandstone, or Vindhyan forma-
tion, is separated by a wide break in time from the
fossil-bearing rocks, being itself, so far as is known,
absolutely azoic, and occupying a position in the
geological sequence which may range from Lower
Silurian to Carboniferous.
Further reference to the fossiliferous rocks will
therefore be unnecessary here.*
Dr. Carter arrived at the conclusion that the
diamond-bearing conglomerates, described by various
authorities, occurred at least in the neighbourhood of,
if they did not constitute members of, the Oolite
formation. If for Oolite the term Vindhyan be sub-
stituted, the conclusion is probably in the main
correct, and borne out by the most recent researches.
But these researches have demonstrated that the
principal diamond-bearing strata of the northern and
southern areas respectively occupy distinct horizons,
in those cases where the beds are not merely recent
or sub-recent accumulations of debris.
It is due to Captain Newbold to say that he dis-
agreed with the conclusions of many of the previous
authorities, and he appears to have been inclined to
regard the " sandstones " as being of Devonian age —
a supposition probably not very far from the truth.
The Vindhyan rocks of Northern India are sepa-
rated into two formations or sets of groups, distin-
guished as Upper and Lower.
* They will be found described in the chapter on " Coal."
DIAMONDS. 9
In Southern India, and possibly also in the Central
Mahanadi-Godaveri tract, it is considered that the
lower set of groups is alone represented, and the two
have been correlated as follows : —
On the southern rocks the local title of Karnul
formation has been conferred.
Upper.
Lower.
NORTHERN INDIA. MADRAS.
Vlndhyan Formation. Karnul Formation.
Bhanrer Group.
Rewah ,, (diamonds).
Kaimur ,,
Tirhowan Limestones | =Khundair Shales and
Palkoa Shales j Limestones.
Dalchipur Sandstones = Paneum Quartzites.
Semri Shales and Limestone =Jamalmadgu Shales and
Limestone.
Semri Sandstone =Banaganpilly Sandstone
(diamonds}.
At Panna, in Bandelkhand, diamonds are only
known certainly to occur in situ in a conglomerate
which is referred to the Rewah group. There are,
however, as elsewhere, numerous workings in alluvial
or superficial deposits ; but the greatest amount of
labour is spent in mining in this the bottom bed of
the group, which, though it has a wide extension, has
only as yet been ascertained to be diamond-bearing in
the neighbourhood of Panna. Although diamonds
have not been obtained directly from any lower
group, it would appear that this conglomerate is largely
made up of pebbles derived from the lowest or
Semri sandstone group, and since it is stated* that
* Mr. Medlicott, from whom I quote, states that this needs
confirmation. The statement was made to him by a native
miner. — Manual, p. 92.
io DIAMONDS.
diamonds are sometimes found in these pebbles
when broken up, it would seem that the latter must
include an earlier if not the original matrix of the gem.
This point is of great interest, since it brings us to a
horizon, the base of the formation, which is strictly
comparable with that of the Banaganpilly group, which
includes the lowest known matrix in Southern India.
The order of succession of the rocks in the Mahanadi-
Godaveri tract has not yet been ascertained ; but from
the fact of the only known localities where the diamond
occurs being situated on the margin of the area, it may
with a considerable degree of probability be assumed
(notwithstanding possibly faulted boundaries) that the
matrix is in a bed close to the base of the formation.
With regard to the minor areas, the Bhadrachelum
diamonds may perhaps have been derived from some
of the Karnul or Vindhyan rocks in the neighbourhood
of the Godaveri.
The geology of the Chutia Nagpur localities is not
yet known, but it is probable that in their vicinity an
outlier of the Mahanadi-Godaveri rocks may exist
The Simla diamonds, if the find be authentic, are
of considerable interest, for although, as has been
shown, diamonds per se do not afford evidence suf-
ficient for exact correlation, still when it is remembered
that according to some authorities the older Palaeozoic
rocks of the Himalayas present many points of resem-
blance with those of the Peninsula, the possibility of
the matrix containing these diamonds being on a
horizon comparable to that in the Banaganpilly group
of the Karnul (L. Silurian ?) formation cannot fail to
suggest itself.
As particulars regarding the exact locale whence the
DIAMONDS. ii
diamonds were brought is not available, it would be
useless to enter further here into any account of the
geology of the neighbourhood of Simla.
Mr. Griesbach, of the Geological Survey of India,
has recently published some interesting remarks upon
the correlation of the Vindhyan rocks of India with
certain series occurring in South Africa, to one of
which the sandstones of the Table Mountain belong.
The possibility of the Cape diamonds, therefore, be-
longing to a period or horizon directly comparable to
that which includes the Indian diamonds, offers itself
as a subject worthy of future investigation. A com-
parison of the geology of Borneo with that of India
may also prove productive of interesting results in this
respect.
But the incorrect conclusions of the earlier writers,
drawn from imperfect data, which I have noticed
above, as to the age of the diamond-bearing strata in
India, afford a sufficient warning of the danger of pre-
mature attempts at correlation.
ORIGIN OF THE DIAMOND.'
The examination of the diamond-bearing strata of
India has not resulted, so far as I know, in throwing
any definite light on the yet unsettled question as to
the conditions under which the crystallization of
carbon took place, thus forming the precious gem
which has occupied so important a position in history.
Light regarding the subject seems to be destined to
reach us, indeed, from another quarter, and it is to
the synthetical operations of the laboratory, which, it
is needless to point out, have made such great
12 DIAMONDS.
advances in this direction of late years, that we must
look for the true explanation.
But the absence of any clear evidence on the
subject may be due to the fact that it is still a matter
of doubt whether, in any single recorded case in India,
a diamond has been found in its original matrix.
The lowest diamond-bearing stratum, at the base of
the Karnul series, is itself a detrital conglomerate,
and it is not unreasonable to suppose that the
diamonds may, like the other ingredients, have been
derived from some older metamorphosed rocks.
Mr. King* discusses some apparent cases of mines
in the Kadapah series of rocks which underlie the
Karnuls, but he says there is "still a doubt as to
whether true rock-workings in these beds were ever
successful."
Elsewhere, I.e., p. 101, however, he states of the
diamonds shown to him at Banaganpilly that —
Nearly all the specimens were more or less perfect
modifications of the octahedron, with curved facets; one
of them had each of its facets crowned with a little
pyramid of tables.f
They were smooth, tolerably bright and shining, and
did not look as if they had been worn ; in fact, they
seemed to me to have been crystals in situ in the rock.
In colour they were pale blue, or green and yellow.
Captain Newbold, in discussing this subject, with-
out much difficulty disposes of Captain Franklin's
suggestion that the beds containing the diamonds of
* " Memoirs of the Geological Survey of India," vol. viii.
p. 88.
f Newbold speaks of the diamonds shown to him at the
same locality as being "but imperfectly crystallized." —
J. R. A. S. vol. vii.
DIAMONDS. 13
Panna may have been roasted by the ignition of coal
seams, which, he believed, existed below. He then
remarks : — " It is fully proved, I think, from the ex-
periments of Sir David Brewster, that the diamond has
once been in a soft state, like amber, opal, or the
tabashir. Minute cavities, surrounded by a com-
pressed structure analogous to those in the Laske
diamond, are seen in several specimens of the Indian
gem which have been brought me by the diamond
merchants." He appears to be disposed to favour
the native idea that the diamond is reproduced in the
soil. " The old miners stated to me that a term of
fifteen or twenty years was requisite for the reproduc-
tion of the gem." They were in this belief led to
re-wash old tailings, and accounted for the fact of the
diamonds found in them being so small by saying that
they had not had time to grow larger. The same
idea was favoured by Dr. Heyne. An unbeliever
in this hypothesis would be inclined to suggest that
the smallness of the diamonds accounted for their
having eluded the searchers in the first washings.
Indeed, Franklin mentions that some of the miners
he spoke to said that diamonds escaped notice in the
first washings owing to their being encrusted with
dirt.
KADAPAH, OR CUDDAPAH, DISTRICT.
Within the limits of the Kadapah district the prin-
cipal localities where diamonds have been worked .for
are, according to Mr. King, Cunnapurtee and Wobla-
pully, or Obalumpally, near Chennur, on opposite
banks of the Pennair river and Lamdur and Pinchet-
gapadu, west of Chennur.
I4 DIAMONDS.
These mines are generally by authors referred to
under the title
CHENNUR, OR CHINON.
This is a village near Kadapah town, where there
are deserted pits, which were sunk in gravels, derived
from the disintegration of the Banaganpilly quartzites.
and lying below the black cotton soil (or regur). These
have recently been reopened by a Mr. Richardson, of
Madras, who applied to the Collector of Kadapah for
permission to work the mines in 1869, at the favourable
rent of 100 rupees per annum. The result has not
been successful, but there are accounts of two diamonds
having formerly come out of this field which were
eventually sold for 5,000 and 3,000 rupees each.*
CUNNAPURTEE, OR CONDAPETTA.
This locality appears to be identical with the Con-
dapetta of Captain Newbold, whose detailed account
is, perhaps, of sufficient interest to be quoted in extenso.
He says if—-
At Condapetta the mines are generally of a square
form, and from four to twelve feet deep. The stratum
cut through is of cotton soil, mixed with small grains of
quartz, generally from three to ten feet thick, which rests
immediately on a bed of rolled stones of various sizes,
from that of a paving-stone to a nut, in which the
diamonds are found, generally loose, but sometimes
adherent. The stones are mingled with mud and gravel.
The pebbles most commonly met with are ferruginous,
gritty, and schistose sandstones, sandstone conglomerates,
* King, "Records Geological Survey," vol. ii. p. 9; and
" Memoirs Geological Survey," vol. viii. p. 106.
t J. R. A. S. vol. vii. p. 226.
DIAMONDS. 15
embedding rolled pebbles of quartz, chert, and jasper;
claystone porphyry, with crystals of felspar ; blue jasper,
veined with oxide of iron ; coarse red jasper, and quartz
crystals. Some of these pebbles have evidently been
transported from the adjacent hills, but the porphyritic
and felspathic pebbles must have travelled a much
greater distance. Near the base of the hills the cotton
soil is covered with red gritty earth, arising from the dis-
integration of the sandstone rock.
The process of mining consists merely in digging out
the rolled pebbles and gravel, and carrying them to small
square reservoirs raised on mounds, having their bottom
paved with stones, and washing them carefully. At the
foot of the mound is a clear space surrounded by heaps
of refuse, where the washed gravel is again carefully
spread out and examined in presence of the diamond
contractors ; the diamonds are easily recognized in the
moist state by their peculiar lustre. These mines are let
out by the Government to native contractors, who gave
me the following information on the spot. In 1834 the
mines proved profitable, but in the following year the
miners lost a considerable sum. The sum paid to
Government by them for the privilege of mining a piece
of ground 100 yards long by 50 broad, for four months, is
200* rupees.
Dry weather is selected to carry on operations to avoid
the inconvenience and expense of draining. In former
days all the diamonds produced were carried for sale to
Golconda. In those times very large diamonds were
found ; but subsequent to British ascendency — which
according to the superstitious natives is by no means
pleasing to the tutelary deities of the mines — few of any
* In 1840, the contract rose to about 250 rupees. When a
diamond of more than a gold pagoda in weight (= 52-56 grains
at Madras) is found it is sold by public auction, and one-third of
the proceeds goes to Government, the remainder to the mining
contractor.
1 6 DIAMONDS.
value have been found, probably in consequence of their
being less looked after. However, lately in 1839, a fine
diamond of the Kshatriya or roseate caste was dug from
the Obalumpally mine, exceeding a gold pagoda in
weight, which was sold for 1,450 rupees.
KARNUL DISTRICT.
Mr. King's list of diamond localities in the Karnul
District* is as follows : —
BANAGANPILLY . 37 miles S.S.E. of Karnul. Rock work-
ings. Worked.
MUNIMUDAGU . 16 miles W. by S. of Banaganpilly. Rock
workings. Deserted .
RAMULKOTA . . 18 miles W. by S. of Karnul. Alluvial
washings. Worked. Rock workings
deserted.
TIMAPOORAM. . 6 miles E.S.E. of Ramulkota. Rock
workings. Deserted.
YEMBYE . . . . ^ 24 miles S.S.E. of Karnul. Rock work-
BYANPULLY . . t ings. Deserted. (Capt. J. G. Russell,
GOORAMANCONDA . \ /«/<?.)
GOODYPAUD . . } Nund tkoor tal Doubtful localities.
BANNOOR . . .r (Capt. j. G. Russell, to*.)
DEVANOOR . . . '
SHAITANCOTAH . Right Bank of Toongabudra, E.N.E. of
Karnul. Deserted.
DEOMURROOH . . Left bank of Toongabudra. Deserted.
TANDRAPAD . . „ Alluvial.
Deserted.
BUSSWAPOOR . . Nullamullays. Rock workings and al-
luvial washings. Deserted.
BANAGANPILLY.
The diamond mines at this locality have been visited
and described by many writers. Heyne, Newboldr
* "Memoirs of the Geological Survey of India," vol. viL
p. 1 06.
DIAMONDS. 17
Malcolmson, and Voysey, have all left on record ac-
counts of them.
Mr. King's already mentioned report containing the
latest and most authentic account of them, it will be
best, perhaps, to quote from it a few passages verbatim,
at the same time stating that Mr. King refers those
who are likely to be specially interested to Dr. Heyne,
for an account of the mines as they appeared in his
day.
Mr. King writes : —
The quartzites of the Banaganpilly group form a cap,
resting uncomformably on the denuded surface of a much
older set of shales and traps with some limestone bands.
.... The quartzite covering is from 20 to 30 feet in
thickness ; and it is pierced here and there over the
Banaganpilly end of the hill, by shafts of 15 feet or less,
from the bottoms of which nearly horizontal galleries are
run to get at the seams of diamond gangue. The cap-
ping is composed of compact grits and sandstones in
thickish beds above, and somewhat thinner bedded
towards the bottom.
Externally the rocks are hard and vitreous. At the
level of the galleries there are beds of coarse pebbly con-
glomerate, occasionally a breccia, which are sandy and
clayey, and with these run seams of more shaley and
clayey stuff. There is no trace of the clayey constitution
on the outside along the outcrop, nor are there any dis-
tinct bands of shales ; there are only some sandy shales
down at or near the bottom of the series
In the mines the coolies were picking out a seam
of about six or eight inches in thickness, occurring
with thicker and harder beds of sandstone, and which
they said was the diamond layer ; this rock when brought
to light turned out to be an easily broken up damp clayey
conglomerate and partly breccia, of small rounded frag-
ments and pebbles of black, red, green, and pale-coloured
shales and cherts, and of quartzite with large and small
c
1 8 DIAMONDS.
grains of dirty and pellucid quartz. This was the rock
extracted in all the mines then being worked. The
gangue is then pounded up, washed, sifted and laid out to
dry on prepared floors, after which the residue of clean
sand is carefully examined in the hand, by the women
and children of the working parties, for the precious
gems. I saw no diamonds in situ, nor did I see or hear
of any diamond being found during my stay at Bana-
ganpilly for four or five days at a time. Diamonds were
brought to me which were reported to have been found in
the mines ; but these were most disappointing in their
minuteness, flaws, and dirty colours.
I have already quoted Mr. King above as to the
crystalline forms of these samples.
He says that the good specimens were valued at
only ten rupees by the merchants. But one specimen,
said to have come from the Bellary district, but which,
he thought, had probably been found on the spot, was
valued at 350 rupees.
Neither the Nawab of Banaganpilly nor his followers,
nor the Tehsildar of the place, nor the merchants, could,
or would, tell me of any better diamonds having been
found for many years.
Mr. King tracked the diamond-bearing strata for
some miles westward beyond the region wherein it is
worked.
MUNIMUDAGU.
In the neighbourhood of Munimudagu, sixteen
miles west-by-south of Banaganpilly, there is a con-
tinuation of the diamond-bearing strata, which cover
the older Kadapah rocks as with a thin skin. The
locality is described both by Mr. King and Captain
Newbold. The mines have long been deserted, but,
according to the last-named authority, there was in his
time a colony of diamond polishers in the town.
DIAMONDS. 19
RAMULKOTA.
The position of these mines is variously stated as
being from eighteen to twenty-one miles from Karnul,
in a southerly direction. They are also described by
Mr. King and Captain Newbold.
They are now merely alluvial washings in the debris
of the Banaganpilly group, but formerly there were
regular mines. Captain Newbold says ; —
The pits, though not occupying so large a superficies,
are deeper and far more extensive than those near
Kadapah ; the old excavations in the rocks resemble those
of Banaganpilly and Moonimudagu. The diamonds that
were shown me here, one in the parent rock, the conglo-
merate, were of an inferior size and but few crystallized in
the octohedral form. They had severally white, grey,
yellow and greenish tints, but it was told me that those
found in the conglomerate rock are generally of a superior
description, with a fine roseate tinge.
Mining and washing was carried on as at Kadapah.
There were 300 natives at work in the wet season, but
only 20 when visited by Newbold.
The contractors leased the mines for 750 rupees from
the Nawab of Karnul, and sublet to minor speculators.
The hire of a labourer was four pice — or about three
halfpence — and a meal of rice per diem.
RAOLCONDA.
This was the first mine visited and described by
Tavernier,* who stated that it was in the Karnatic,
five days' journey from Golconda and eight or nine
from Visapour.
* "Travels," Book II. pt. ii. chap. xii. "Of Diamonds
and the Mines and Rivers where they are found, and first of the
Author's Journey to the Mine of Raolconda."
C 2
20 DIAMONDS.
Since, however, he elsewhere gives a list of nine
stages between this locality and Golconda, the aggre-
gate distance being 68 French leagues, or, say, 189
English miles, I was at first inclined to believe that the
distances from Visapour and Golconda had been
transposed. This being admitted, there was no difficulty
in identifying Raolconda with the modern Rawdu-
conda, in Lat. 15° 41', Long. 76° 50' in the Nizam of
Haidrabad's territory. But after consultation with
Mr. King, I now think that the place must have been
near to, if not identical with, Ramulkota. Tavernier
says : —
The strata containing the diamonds ranged from half
an inch to an inch in thickness, and the gangue was
hooked out with iron rods. Some of the stones were
valued at from two to sixteen thousand crowns. The
steel wheel was used for cutting.*
Tavernier gives an account of the polishing of the
gems as practised here. His account of the great (
security of property and system, with reference to the.
sale of diamonds, together with the courtesy with
which he was treated, will be read generally with
interest.
KlSTNA AND GODAVERI DISTRICTS.
The principal mines in these districts are situated
on the banks of the Kistna, or Krishna. They
are named Golapilly, Malavilly, Purtial, Gani-
Coulour = Kollur, &c.
* Quoted from Capt. Burton, "QuarterlyJournalofScier.ee,"
N.S., vol. vi. 1876.
DIAMONDS. 21
GOLAPILLY.
The diamond pits at this locality, according to
Mr. King, were sunk in conglomerates and pebble
beds of tertiary age* (Rajahmundry sandstone group).
Mr. Blanfordf says that the
Diggings appear not to have been in the sandstone itself,
but in the very gravelly laterite which rests upon the
sandstone, but the surface is so much broken and altered
by the pits that it is difficult to say. The workings cover
a very considerable area.
At the time of Mr. Blanford's visit (1871) these
mines had the appearance of having been long aban-
doned, being covered with bush jungle.
Dr. Heyne (Tracts) stated that
In the Ellore district the diamond stratum is covered
by a thick stratum of calcareous trap.
This does not appear to have been confirmed by
any subsequent writer, and is apparently a mistake.
The thickness of the conglomerate is said to be from
two to six feet thick, perhaps more in some 'places.
MULAILY, OR MALAVILLY, N.E. OF BEZWARRA.
As at Golapilly, the mines here also were in tertiary
conglomerates (King). Captain Newboldl describes
the bed of gravel in which the pits were sunk as being
" composed chiefly of rolled pebbles of quartz sand-
stone, chert, ferruginous jasper, conglomerate sand-
stone, and kankar, lying in a stratum of dark mould
about a foot thick." He appears, according to Mr.
* " Records of the Geological Survey of India," vol. x. p. 58.
*r Idem, vol. v. p. 27.
£ Geological Notes, p. 67 of Carter's " Collection of Geo-
logical Papers."
22 DIAMONDS.
King, to have been wrong in identifying this deposit,
which rests on gneiss, with the true old diamond con-
glomerate of Banaganpilly, of which it should, there-
fore, not be regarded as an outlier — though, doubtless,
there is some similarity in the component pebbles,
&c., which form both rocks.
Dr. Benza believed the conglomerate to be con-
tinuous from hence through Ellore and Rajahmundry
to Samulcotah, where also diamonds are said to have
been found.
PURTIAL OR PURTEEALI.
The mines so called are situated near a village of
the same name, which is not far from
Kondapilly, about 150 miles from Haidrabad, on the
road to Masulipatam. The property of them was reserved
by the late Nizam when he ceded the northern circars to
the English Government. They are superficial, not
extending ten or twelve feet deep in any part. For some
years past the working of them has been discontinued.
Mr. Briggs, the author of the above, who is quoted
by Captain Burton,* adds : —
And there is no tradition of their ever having produced
very valuable stones.
Captain Burton remarks upon the statement that it
is full of error, as the Pitt or Regent diamond came
from Purtial, but Captain Newbold says it came from
Borneo, being bought by Mr. Pitt, from a merchant of
Bencoolen, in Sumatra.
Regarding the origin of these diamonds from the
various localities bordering the Kistna river, near
Kondapilly, Captain Newbold expresses his belief
that the materials of the beds were brought down
* " Quarterly Journal of Science," N.S., vol. vi. 1876.
DIAMONDS. 23
from the hills of sandstone and limestone through
which the river has recently passed, and Voysey
remarks the persistency of the same kind of con-
glomerate at all the mines.
GANI-COULOUR = THE MODERN KOLLUR.*
This locality appears to be identical with Kollur, 24
miles west of Partial on the Kistna. Tavernier's
route, a seven days' journey eastwards from Golconda,
can be traced on modern maps and several of the
stages identified. On the last day he crossed a river
(the Kistna) and found himself at the mines.
Capt. Burton (I.e.) appears, therefore, to have been
misled when he placed Gani-Coulour on the Bhima,
to the west of Golconda.
Tavernier's account of the mine at this locality is
as followsf : —
It is not above a hundred years since this mine was
discovered by a countryman, who, digging in a piece of
ground to sow millet, found therein a pointed stone that
weighed above twenty-five carats. He, not knowing what
the stone was, but seeing it glisten, carried it to Golconda,
where, as it happened well for him, he met with one that
traded in diamonds. The merchant informing himself of
the place where the stone was found, admired to see a
jewel of that bigness, not having seen before one that
weighed ten or twelve carats. However, his report made
a great noise in the country, inasmuch that the moneyed
men in the town set themselves to work, and causing the
ground to be searched they found, and still do find, bigger
stones and in greater quantity than in any other mine, for
* Written Garree by Dieulafait, "Diamonds and Precious
Stones." London : Blackie. 1874. Gani is, however, merely
a prefix meaning Kan-i or " mine of."
t "Travels," chap. xii.
*4 DIAMONDS.
they found a great number of stones from ten to forty
carats, and sometimes bigger, among the rest that large
stone that weighed 900 carats, which Mirimgola presented
to Aurengzeb.*
After the miners have pitched upon the place where
they intend to work they level another place close by, of
the same extent, or else a little bigger, which they enclose
with a wall about two feet high. In the bottom of that
little wall, at the distance of every two feet, they make
small holes to let in the water, which they stop up after-
wards till they come to drain out the water again. The
place being prepared the people that are to work meet all
together, men, women, and children, with the workmaster
in the company of his friends and relations. Then he
brings along with him some little image of the god that
they adore.
After worship of this and a feast of rice, Tavernier
continues : —
When the feast is over the men fall to digging, the
women and children to carry earth to the place prepared
in that manner as I have already described. They dig
ten, twelve, and sometimes fourteen feet deep, but when
they come to any water they leave off.
All the earth being carried into the place before men-
tioned, the men, women, and children throw the water
which is in the drains upon the earth, letting it soak for
two or three days according to the hardness of it, till it
comes to be a kind of batter, then they open the holes in
the wall to let out the water and throw on more water
still, till all the mud be washed away and nothing left but
the sand. After that they dry it in the sun, and then they
winnow the sand in little winnows as we winnow our
corn.
.... The earth being thus winnowed, they spread it
with a kind of rake, as thin as they possibly can ; then
* This by some authorities is thought to have been the Koh-i-
nur. If so it was found about the year 1550.
DIAMONDS. 25
with a wooden instrument, like a paviour's rammer, about
half a foot wide at the bottom, they pound the earth from
one end to the other two or three times over. After that
they winnow it again then, and spreading it at one end of
the van, for fear of losing any of the earth, they look for
the diamonds. Formerly they were wont to pound the
earth with great flintstones instead of wooden rammers,
which made great flaws in the diamonds, and is, there-
fore, now left off.
The first time I was at the mine there were about
60,000 persons at work — men, women, and children ; the
men being employed to dig, the women and children to
carry the earth.
CENTRAL PROVINCE OR MAHANADI-GODAVERI
TRACT. SAMBALPUR.
In Ptolemy's map* the Adamas river flows into the
Gangeticus sinus (Bay of Bengal), midway between
Cosamba on the north (Balasore?) and Cocala (Sicacole
of Arrowsmith's map, the modern Chicacole). The
Dosaron and Tyndis rivers probably represent the
Godaveri and Kistna, so that it is very likely that the
Adamas may safely be identified with the Mahanadi.
Ptolemy represents the Adamas as flowing through the
district of Sabarse, across which runs the following
description : Apud quos adamas est in copia, which
is otherwise given in an earlier edition of the map.f
Sabarcz i his habundat Adamas. [In Sabarse the
diamond occurs in abundance.] The upper portion
of the river passes through a district named Cocconage,
which would include Chutia Nagpur.
* Asiae, x. tab. " Geographic, " libri octo, Gr. et Lat. Opera
P. Bertii Lugduni. Bat. 1618. Fol.
t Tab. x. " Cosmographice," libri viii. Lat. Justi di Albano,
Ulmae. 1486. Fol.
26 DIAMONDS.
The first visit to the latter region by a European of
which I have been able to find a record was made
by the already-mentioned French jeweller Tavernier,*
who appears to have gone there somewhere about 1665.
He says : —
I come to the third mine, which is the most ancient of
all, in the kingdom of Bengala. You may give it the
name of Soumelpour, which is the name of the town next
to the place where diamonds are found, or rather Gouel,
which is the name of the river in the sand whereof they
seek for the stones. The territories through which this
river runs belong to a Raja who was anciently tributary
to the Great Mogul, but revolted in the time of Sha
Jehan and Gehan Guir, his father. So soon as Sha Jehan
came to the empire he sent to demand his tribute of this
Raja, as well for the time past as to come, who, finding that
his revenues were not sufficient to pay him, quitted his
country, and retired into the mountains with his subjects.
Upon his refusal, Sha Jehan, believing he would stand it
out, sent a great army against him, persuading himself
that he should find great store of diamonds in his country.
But he found neither diamonds, nor people, nor victuals —
the Raja having burnt all the corn which his people could
not carry away, so that the greatest part of Sha Jehan's
army perished for hunger. At length the Raja returned
into his country, upon condition to pay the Mogul some
slight tribute.
Then follows an account of the route travelled over
by Tavernier from Agra, vid Allahabad and Rhotas,
to Soumelpour. He continues : —
Soumelpour is a great town, the houses whereof are built
of earth, and covered only with branches of cocot trees.
* "Travels." London. 1678. Book ii. chap. xiii. p. 139.
•f Probably the leaves of the Tal palm. The cocoa-nut does
not occur there at present. Elsewhere, however, it has been
found at as great a distance from the sea.
DIAMONDS. 27
All these 30 leagues (i.e., from Rhotas to Soumelpour) you
travel through woods, which is a very dangerous passage,
as being very much pestered with robbers.
The Raja lives half a league from the town, in tents
set upon a fair rising ground, at the foot whereof runs the
Gouel, descending from the southern mountains, and fall-
ing into the Ganges.
In this river they find the diamonds. For after the
great rains are over, which is usually in December, they
stay all January till the river be clear, by reason that by
that time in some places it is not above two feet deep, and
in several places the sand lies above the water.
About the end of January or the beginning of February,
there flock together out of the great town, and some others
adjoining, about eight thousand persons, men, women, and
children, that are able to work. They that are skilful know
by the sand whether there be any diamonds or no, when
they find among the sand little stones like to those we
call " thunderstones." They begin to make search in the
river from the town of Soumelpour to the very mountains
from whence the river falls for fifty leagues together.
Where they believe there are diamonds, they encom-
pass the place with stakes, faggots and earth, as when they
go about to make the arch of a bridge, to drain all the
water out of that place. Then they dig out all the sand
for two feet deep, which is all carried and spread upon a
great place for that purpose prepared upon the side of the
river, encompassed with a little wall about a foot-and-a
half high.
When they have filled this place with as much sand
as they think convenient, they throw water upon it, wash
it, and sift it, doing in other things as they do at the mines,
which I have above described.
From this river come all those fair points which are
called natural points ; but a great stone is seldom found
here. The reason why none of these stones have been
seen in Europe, is because of the wars that have hindered
the people from working.
28 DIAMONDS.
An ingenious suggestion by Karl Ritter (Erdkunde
Asieri)\&& led me to inquire into the identity of Soumel-
pour of Tavernier with the modern Sambalpur. There
can be little doubt that they are not identical. The Gouel
river, which runs into the Ganges, is doubtless the Koel,
and, according to Tavernier's indication, Soumelpour
must have been in the district of Palamow, in Chutia
Nagpur. Perhaps the present town of Semah marks
the spot.
The first visit of importance to the true Sambalpur on
the Mahanadi is described in the narrative of a journey
which was undertaken by Mr. Motte in the year 1 766.*
The object of this journey was to initiate a regular trade in
diamonds with Sambalpur, Lord Clive being desirous
of employing them as a convenient means of remitting
money to England. His attention had been drawn to
Sambalpur by the fact that the Raja had, a few months
previously, sent a messenger, with a rough diamond
weighing i6i carats as a sample, together with an
invitation to the Governor to depute a trustworthy
person to purchase diamonds regularly. The Governor
proposed to Mr. Motte to make the speculation a
joint concern, " in which," writes the latter, " I was to
hold a third ; he 'the other two ; all the expenses to be
borne by the concern. The proposal dazzled me ; and
I caught at it, without reflecting on the difficulties of
the march, or on the barbarity of the country," &c.
In spite of his life being several times in danger
from attacks by the natives, the loss of some of his
followers by fever, and a varied chapter of other
disasters, Mr. Motte was enabled to collect a consider-
able amount of interesting information about the
country. Owing to the disturbed state of Sambalpur
* "Asiatic Annual Register." London. 1799.
DIAMONDS. 29
town, however, he was only able to purchase a few
diamonds. After much prolonged negotiation, he was
permitted to visit the junction of the rivers Hebe
(Ebe) and Mahanadi, where the diamonds were said
to be found. A servant of the Raja's, who was in
charge there, informed him that " it was his business
to search in the river Hebe, after the rains, for red
earth, washed down from the mountains, in which
earth diamonds were always found. I asked him
if it would not be better to go to the mountains and
dig for that earth. He answered that it had been,
done, until the Maharattas exacted a tribute from the
country ; and to do so now would only increase that
tribute. He showed me several heaps of the red
earth — some pieces of the size of small pebbles, and
so on, till it resembles coarse brick-dust — which had
been washed and the diamonds taken out."*
Mr. Voysey, on his last journey from Nagpur to
Calcutta, in 1824, visited the diamond washings of
Sambalpur. He mentioned that the gems were
Sought for in the sand and gravel of the river — the
latter consisting of pebbles of clay slate, flinty slate, jasper,
and jaspery ironstone of all sizes, from an inch to a foot
in diameter.t
The next mention of Sambalpur diamonds is to be
found in Lieutenant Kittoe's account \ of his journey,
* This description suggests laterite as the matrix from which
the diamonds were proximately derived. Messrs. Hislop and
Hunter, vide infra* describe the diamonds of Weiragurh as
occurring in laterite gravel. In this connexion it may be noted
that one of the sources of Cape diamonds is said to be a super-
ficial ferruginous conglomerate.
t Vide Carter's " Summary of the Geology of India," p. 724.
% "Journal Asiatic Society, Bengal," vol. viii. p. 375. 1839.
30 DIAMONDS.
in the year 1838, through the forests of Orissa. He
speaks of the people as being too apathetic and
indolent to search for diamonds. His remarks on the
localities where they occur seem to be derived from
Mr. Motte's account, to which, indeed, he refers.
Although published in the same number of the
Asiatic Society's Journal,* we find a Paper, dated two
years later, or 1840, which was written by Major
Ouseley, on the " Process of Washing for Gold-dust
and Diamonds at Heera Khoond." In this we meet
the following statement : —
The Heera Khoond is that part of the river which runs
south of the islands. The diamonds and gold-dust are
said to be washed down the Ebe River, about four miles
above the Heera Khoond ; but as both are procurable as
far as Sonpur, I am inclined to think there may be veins
of gold along the Mahanadi.
The occurrence of diamonds in the river so far below
Sambalpur as Sonpur must have been very excep-
tional. No mention is made by Major Ouseley of
the system of throwing an embankment across one of
the channels, which is described below ; but from my
inquiries I gathered that that method of washing was
in practice for many years before the period of Major
Ouseley's visit. He describes the operations of
individual washers — not the combined efforts of the
large number — which made that washing successful.
The diamonds found became the property of the Raja,
while the gold was the perquisite of the washers, who
sold it for from twelve to fifteen rupees a tola.
Captain Newbold says,t that " diamonds of con-
siderable value are also found in the bed and alluvium
* "Journal Asiatic Society, Bengal," vol. viii. p. 1057. 1839.
t "Jour. Roy. Asiatic Society," voL vii.
DIAMONDS. 31
of the Mahanadi River, especially at Sambalpur, and
about the mouths of the Hebe, Khelu, and Mand
streams, but their beds have not hitherto, I believe,
been traced." Captain Burton mentions* that, accord-
ing to some authority not named, the Majnodi, a
tributary of the Mahanadi, contained diamonds.
In the Central Provinces Gazetteer it is stated that :
During the period of native rule some fifteen or twenty
villages were granted rent-free to a class called Jhiras, in
consideration of their undertaking the search for dia-
monds. When the country lapsed in 1850, these villages
were resumed.
So far as can be gathered from the various sources
of information, large and valuable diamonds have been
occasionally met with ; but the evidence on this point
is somewhat conflicting. I do not think, however,
that what we know is altogether consistent with the
statement in the Gazetteer, that *' the best stones ever
found here were thin and flat, with flaws in them."
Local tradition speaks of one large diamond, which
was found during the Maharatta occupation. Its size
made its discovery too notorious ; otherwise it would,
in all probability, like many other smaller ones found
at that time, never have reached the hands of the
Maharatta agent. It is said to have weighed two tolas
and two mashas (at ten mashas to the tola)f which
would be about 316*2 grains troy, or, expressed in
carats, 99-3. It would be impossible, of course, to
make any estimate of the value of a rough stone of
this size, regarding the purity, colour, &c., of which
* "Quarterly Journal of Science," N.S., vol. vi. p. 351. 1876.
t (One masha= 14-37 grains troy): properly speaking there
are 12 mashas in a standard tola.
32 DIAMONDS.
nothing is known.* Another diamond, in the posses-
sion of Narain Singh, is said to have weighed about a
tola, the equivalent of which, calculated as above,
would be 45 '35 carats. Already one of 16-5 carats
has been mentioned as having been sent to Calcutta
in 1766. One large but slightly flawed diamond,
which I saw in the possession of a native in Sambalpur,
was valued in Calcutta, after cutting, at Rs. 2,500.
Mr. Emanuel, in his work on " Diamonds and
Precious Stones," gives some particulars regarding the
diamonds of Sambalpur. He records one diamond
of 84 grains having been found within the period of
British rule. There are said to be a good many
diamonds still in the hands of the wealthier natives in
Sambalpur. Of course, large diamonds such as those
above mentioned, are of exceptional occurrence;
those ordinarily found are said to have weighed,
however, two to four rutties, equal on an average, say,
to the thirtieth part of a tola, or 4*7 grains = 1-48
carats. In the Geological Museum at Calcutta there
is at present a diamond which was sent to the Asiatic
Society of Bengal, from Sambalpur, by Major Ouseley.
It weighs only '855 grains = -26 carats.
As is usual, I believe, in all parts of India, the
diamonds were classed as follows : —
i. Brahman. — White, pure water. 2. Kshatrya —
Rose or reddish. 3. Vasiya. — Smoky. 4. Sudra. —
Dark and impure.
Since the above was first published, as the result
chiefly of local and personal inquiries, I have had an
opportunity of consulting a work by Surgeon Breton,
* Ta vernier's method of ascertaining the value of any
diamond was to square the number of carats, and then multiply
the result by the value of a one-carat stone of equal purity.
DIAMONDS.
33
dated 1825,* which contains a considerable amount of
interesting information in reference to Sambalpur
diamonds. The following Table gives the history of
the diamonds found between the years 1804 and 1818.
The large diamond which fell into the hands of the
Mahratta agent weighed 672 grains troy, not 3 16-2,
as I was told by the washers ; it is said to have been
of the third, or Vasiya, quality. The 84-grain diamond
was handed over to the British agent by the finder, in
1818. Its value was stated to be 5,000 rupees.
•\
Weight.
t
Years.
No.
Mashas.
Rutties.
Grains
Troy.
By whom received from
finders.
?
20
4
288
Rani Ruttun Coher
1804
4
o
56
Do. Do.
1805
7
0
98
Do. Do.
1807
22
308
Do. Do.
1808
I
14
Do. Do.
1809
48
672
Chanderji Bhunsla
»
O
34
7
Do. Do.
5>
I
o
H
Sacca Ram Gopal
1810
aj
35
Chanderji Bhunsla
1811
4
56
Do. Do.
1813
2
28
Mahadeo Rae
1815
2
28
Do.
1816
6i
J3
Do.
1817
2
28
Do.
t
2
4
Do.
1818
6
O
84
Do.
it
I
O
H
Do.
With regard to the origin of the Sambalpur diamonds,
the geological structure of the country leaves but little
* " Medical Topography of the Districts of Chota Nagpur,
Serguja and Sambhulpore, Calcutta." 1826.
t According to this Table the Sambalpur Masha = nearly
14 grains troy, and the Rutti a fraction under two grains.
D
34 DIAMONDS.
room for doubt as to the source from whence they
are derived. Coincident with their occurrence is that
of a group of rocks, which has been shown to be
referable to the Vindhyan series, certain members of
which series are found in the vicinity of all the known
diamond-yielding localities in India, and, in the cases
of actual rock-working, are found to include the
matrix of the gems.
In several of the previous accounts, the belief is
either stated or implied that the diamonds are brought
into the Mahanadi by its large tributary, the Ebe.
It would not, of course, help the point I am
endeavouring to establish as to their origin, to say
that the Ebe, at least within ourarea, except indirectly,*
is not fed by waters which pass over Vindhyan rocks,
but I have the positive assurance of the natives that
diamonds have not been found in that river, although
gold is and has been regularly washed for. On the
other hand, diamonds have been found in the bed of
the Mahanadi as far west as Chanderpur, and at other
intermediate places well within the area which is
exclusively occupied by the quartzites, shales, and
limestones of Vindhyan age.
The fact that the place, Hira Khund, where the
diamonds were washed, is on metamorphic rocks, may
be readily explained by the physical features of the
ground. The rocky nature of the bed there, and the
double channel caused by the island, afforded unusual
facilities for, in the first place, the retention of the
diamonds brought down by the river, and secondly,
for the operations by which the bed could on one side
* By a few small streams which rise in an isolated outlying
hill, called Gotwaki.
DIAMONDS. 35
be laid bare, and the gravel washed by the simple
contrivances known to the natives.
It is impossible to say at present which the actual
bed or beds of rock may be from whence the diamonds
have been derived, as there is no record or appearance
of the rock ever having been worked ; but from the
general lithological resemblance of the sandstones and
shales of the Barapahar hills and the outlier at Borla
with the diamond-bearing beds, and their associates
at Panna, in Bhandelkand, and Banaganpilly, in
Karnul, I have very little hesitation in pointing to
these rocks as, in all probability, including the matrix.
Above Padampur, the Mahanadi runs through rocks
of this age, and I should therefore strongly urge upon
any one who may hereafter embark upon the under-
taking of searching for diamonds in Sambalpur, to
confine his operations, in the first instance, to the
streams and small rivers which rise in the Barapahar
hills and join the Mahanadi on the south. Besides
the obvious advantage of being — as I believe would
be found to be the case — close to the matrix, these
streams would, I think, be found to contain facilities
for obtaining a sufficient head of water for washing
purposes. Such works would require but a few
labourers, and could be carried on for a much longer
period every year, say altogether for eight or nine
months, than would be possible in the case of the
washings in the bed of the Mahanadi itself.
According to the accounts received by me, the
southern channel of the Mahanadi used not to be
emptied in the Raja's time ; but from various causes
I should expect it to yield, proportionately, a larger
number of diamonds than the northern. In the first
place, the stronger current in it would be more efficient
D 2
36 DIAMONDS.
in removing the substances of less specific gravity than
diamonds, while the rocks and deep holes in it afford
admirable means for the retention of the latter. Owing
to the greater body of water to be dealt with, it would
be found to be more difficult to divert than that which
flows in the northern channel ; but the result in a
greater harvest of diamonds would probably far more
than compensate for the greater expenditure incurred.
In the country to the south of Sambalpur, in Karial
and Novvagarh, where rocks of similar age occur to
those of the Barapahar hills, I have failed to] find
any traditional record of diamonds having ever been
found or searched for. It is just possible, however,
that the names of several villages in which the word
Hira (diamond) occurs, may have reference to some
long-forgotten discovery.
In addition to diamonds — pebbles of beryl, topaz,
carbuncle, amethyst, cornelian, and clear quartz used
to be collected in the Mahanadi ; but I have not seen
either sapphires or rubies. It is probable that the
matrix of these, or most of them, exists in the meta-
morphic rocks, and is, therefore, distinct from that of
the diamonds.
Method of Working. — From personal inquiry from
the oldest of the Jharas, or, washers, at the village of
Jhunan, and from various other sources, I have gathered
the following details as to the manner in which the
operations were carried on in the Raja's time : — In
the centre of the Mahanadi, near Jhunan, there is an
island, called Hira Khund,* which is about four miles
long, and for that distance separates the waters of the
river into two channels. In each year, about the
beginning of March or even later, when other work
* Lif., diamond mine.
DIAMONDS. 37
was slack and the level of the water was approaching
its lowest, alarge number of people — according to some
of my informants, as many as 5,000 — assembled and
raised an embankment across the mouth of the northern
channel, its share of water being thus deflected into
the southern. In the stagnant pools left in the former
sufficient water remained to enable the washers to
wash the gravel accumulated between the rocks in
their rude wooden trays and cradles. Upon women
seems to have fallen the chief burden of the actual
washing, while the men collected the stuff. The im-
plements employed and the method of washing were
similar to those commonly adopted in gold-washing,
save only that the finer gravel was not thrown away
until it had been thoroughly searched for diamonds —
at least, I was given so to understand, but Tavernier's
account of this part of the process is probably correct.
Whatever gold was found became the property of the
washer, as already stated. Those who were so for-
tunate as to find a valuable stone were rewarded by
being given a village. According to some accounts,
the washers generally held their villages and lands
rent-free; but I think it most unlikely that all who
were engaged in the operations should have done so.
So far as I could gather, the people did not regard
their (in a manner) enforced services as involving any
great hardship ; they gave me to understand that they
would be glad to see the annual search re-established
on the old terms. Indeed, it is barely possible to
conceive of the condition of the J haras having been
at any time worse than it is at present. No doubt the
gambling element, which may be said to have been
ever present in work of the above nature, commended
it to the native mind. According to Mr. Emanuel
38 DIAMONDS.
these people show traces of Negro blood, and hence
it has been concluded that they are the " descendants
of slaves imported by one of the conquerors of India."
They are, however, I should say, an aboriginal tribe,
showing neither in their complexions, character of
their features, nor hair, the slightest trace of Negro
origin.
When Sambalpur was taken over by the British, in
1850, the Government offered to lease out the right
to seek for diamonds, and in 1856 a notification
appeared in the Gazette describing the prospect
in somewhat glowing terms. For a short time
the lease was held by a European, at the very low rate
of two hundred rupees per annum ; but, as it was given
up voluntarily, it may be concluded that the lessee
did not make it pay. The facts that the Government
resumed possession of the rent-free villages, while the
Raja's operations had been carried on without any
original outlay, materially altered the case, and rendered
the employment of a considerable amount of capital
then, as it would be now, an absolute necessity.
Within the past few years statements have gone the
round of the Indian papers to the effect that diamonds
are now occasionally found by the gold-washers of
Sambalpur. All my inquiries failed to elicit a single
authentic case, and the gold-washers I spoke to and
saw at work assured me that the statements were in-
correct. Moreover, they did not appear to expect to
find any, as I did not observe that they even examined
the gravel when washing.
DIAMONDS. 39
WEIRAGURH OR WEIRAGUD, EIGHTY MILES
SOUTH-EAST OF NAGPUR.
This locality, in Lat. 20° 26', Long. 79° 31' 30", has
been ascertained to be identical with Beiragurh in the
Sobah Berar, which is mentioned in the "Ain-i-
Akbari" * as possessing a diamond mine. It is also
alluded to as yielding diamonds in the year 1425 by
Ferishta.f
Weiragurh has not as yet been mapped geologi-
cally, and information regarding the rocks is some-
what incomplete. The Rev. Messrs. Hislop and
Hunter, in their well-known Paper! describing the
formations of the Central Provinces of India, merely
say that the matrix of the diamonds is a lateritic grit,
the only rock in its vicinity being quartzose and
metamorphic. Hence they argue that Malcolmson,§
and after him Newbold, were wrong in inferring the
identity of the sandstones of Central with that of
Southern India from the supposed occurrence of the
diamond in the former, and they enlarge upon the
supposed fact that most of the diamond-bearing
deposits, though resting on rocks of various ages, are
merely superficial and recent, and that therefore the
diamond does not afford a safe guide for correlating
the older rocks.
The whole discussion shows misconceptions on both
sides, which our present knowledge enables us, perhaps,
to clear up. It is quite true that the sandstones of
* Glad win's translation. London : 1800. Vol. ii. p. 58.
+ History. Ed. J. Briggs. London : 1819. P. 406.
J "Journal of the Geological Society," vol. xi. p. 355.
§ "Bombay Branch Royal Asiatic Society's Journal," vol. i,
p. 520.
40 DIAMONDS.
the Central Provinces which are referred to are not of
the same age as the sandstones of Southern India
which accompany the diamond-bearing strata; they are
in fact very much younger, and Messrs. Hislop and
Hunter were no doubt correct in asserting that the
diamonds of the lateritic gravel had not been derived
from them. But the mention of the quartzose meta-
morphic rock confirms what is independently probable
— namely, that the great basin of lower Vindhyan or
Karnul rocks which occupies the upper portion of the
Mahanadi valley stretches into the neighbourhood of
Weiragurh, and it may, therefore, be suggested with a
considerable degree of probability that the ultimate
derivation of these diamonds is from a stratum occupy-
ing a horizon identical with that which constitutes the
matrix of the Sambalpur diamonds, and as that in a
general way has already been correlated with the
diamond horizon in the Karnul rocks, the theories of
both sets of observers contained hypotheses partly
correct and partly erroneous, the correct portions
respectively supplementing one another. Malcolmson
and Newbold were right in supposing that the diamonds
of Weiragurh indicated the existence of rocks of the
same age as those of Southern India (the Karnul
formation), but were wrong in supposing that the
fossiliferous sandstones which they referred to included
the source of the gems. On the other hand Messrs.
Hislop and Hunter, while pointing out the latter
mistake, did not realize the existence of another for-
mation close by from which the gems probably did
originally come. They seemed to regard the diamonds,
both here and elsewhere throughout India, as being a
product of superficial deposits, without reference to the
nature of the beds upon which they rested.
DIAMONDS. 41
In the Central Provinces Gazetteer it is stated that
" good sandstone and granite are obtained near the
town ; and mines of diamonds and rubies were for-
merly worked in the vicinity." The statement that
rubies were found requires confirmation. The exami-
nation of the geological structure of this neighbourhood,
and a comparison of it with that of Sambalpur, will,
doubtless, be undertaken ere long by the Geolo-
gical Survey. If the stratum which contains the
diamonds should be identified, and if its lateral ex-
tension should prove equal to the known area occu-
pied by the Vindhyan (or Karnul) rocks, then we shall
have a diamond-bearing tract probably greater in area
than either those of Karnul or Bandelkhand.
CHUTIA NAGPUR.
As already stated above, on page 25, the upper
portion of Ptolemy's Adamas flus passes through a
district named Cocconage, which would include Chutia
Nagpur. Independently of this, however, there are
good reasons for believing that diamonds were found
in Chutia Nagpur. The following notices on the
subject I quote from a Paper by the late Mr.
Blochmann :* —
Kokrah (the ancient name of Chutia Nagpur) was
known at the Mogul Court for its diamonds, and it is
evidently this circumstance which led the generals of
Akbar and Jahangiri to invade the district. I have found
two notices of Kokrah in the Akbarnamah, and one in
the Tuzuk-i-Jahangiri, from which it appears that Chutia
Nagpur was ruled over in 1585 by Madhu-Singh, who in
that year became tributary to Akbar. He was still alive
* "Journal Asiatic Society of Bengal/' vol. xi.
42 DIAMONDS.
in A.D. 1591, when he served under Man Singh in the
Imperial army which invaded Orissa. "Tuzuk-i-Ja-
hangiri (p. 155) : — On the 3rd Isfandiarmuz of the loth
year of my reign (A.D. 1616) it was reported to me
(Jahangiri) that Ibrahim Khan (Governor of Bihar) had
overrun Kokrah and taken possession of its diamond-
washings. This district belongs to Subah Bihar, and the
river which flows through it yields the diamonds. When
the river contains t little water, tumuli and hollows are
formed. The diamond diggers know from experience
that chiefly those tumuli contain diamonds over which
insects hover called by the Hindus Jhingah* They pile
up stones on all sides of the tumuli, and then cut into
them with hatchets and chisels and collect the diamonds
from among the sand and stones. Sometimes diamonds
are found of the value of a lac of rupees each. The
district and the diamond river are in the possession of
Zamindar Durjan Sal. The Governors of Bihar fre-
quently sent detachments inLo Kohrah ; but as the roads
are fortified and the jungles impenetrable, the governors
were generally satisfied with a tribute of two or three
diamonds. When I appointed Ibrahim Khan Governor
of Bihar, vice Zafar Khan, I told him at the time of
departure to invade the district and drive away the
unknown petty Rajah. No sooner had Ibrahim entered
on his office than he prepared himself to invade Kokrah.
The Rajah, according to custom, sent a few diamonds
and elephants ; but Ibrahim was dissatisfied, and invaded
the district before the Raja could collect his men. When
he received news of the invasion he was already besieged
in the pass where he used to reside. Some of Ibrahim's
men who had been sent out to look for him found him
with several persons, among them his mother, another wife
of his father, and one of his brothers, concealed in a cave.
They were deprived of the diamonds in their possession.
Twenty-three elephants besides were taken The
district is now subject to me. All diamonds found in the
* Can these be Tavernier's " thunderstones ?" (vide p. 27).
DIAMONDS. 43
river are forwarded to Court. Only a few days ago a
diamond arrived which had a value of 50,000 rupees, and
I hope many more will be added to my store of jewels/
The diamond river alluded to is the Sunk.
To the present day a spot in the Sunk river ' is
pointed out by the inhabitants as the place where the
diamonds were washed for. • In the year 3878 Captain
Lowis, Guardian of the Chutia Nagpur estate, pointed
out to me this locality on the map.
As I have pointed out on a previous page,
Tavernier's Soumelpour on the Gouel was probably
a town on the Koel, in the district of Palamow.
Mr. Blochmann also gives a quotation from a history
of the Maharajas of Chutia Nagpur, in which is de-
scribed a method of testing diamonds for flaws by
affixing them to the horns of fighting rams, and states
that :—
Jahangiri says the diamonds which Ibrahim Khan had
brought from Kokrah had been given to the grinders.
" They were now submitted to me, and among them is
one which looks like a sapphire. I have never seen a
diamond of such a colour. It weighs several rattis, and
my lapidaries fix its value at 3,000 rupees, though they
would give 20,000 for it if it were quite white and stood the
full test."
Colonel Dalton ("Ethnology of Bengal," p. 1631*),
states that the Raja of Chutia Nagpur's family still
possesses a diamond valued at 40,000 rupees, from
these now fabulous mines. As illustrating the methods
by which English officials in the olden time shook the
pagoda tree, the following will be read with interest.
In the year 1772 the Raja appeared before Captain
Camar, commanding a force in Palamow, and after
exchange of turbans acknowledged himself as a vassal
of the Company.
44 DIAMONDS.
In regard to this exchange of turbans (writes Colonel
Dalton) the family annals tell a strange tale. In the
Raja's turban were some very valuable diamonds, which
it is insinuated had excited the cupidity of Captain
Camar. The proposal for the exchange emanated, it is
said, from him. He declared it was the English method
of swearing eternal friendship, but the Captain had no
diamonds in his head-dress, and the Raja evidently con-
cluded that he had been rather "done" by the Company's
officer.
In Gangpur, the Icha river, which is a tributary of
the Ebe, is believed to have been the site of diamond
washings. I have, however, myself heard the Ebe,
near its sources, spoken of as the Hira (diamond)
river. An early reference to Gangpur diamonds
occurs in Dalrymple's " Oriental Repertory," vol. ii.
1808, p. 261.
Geology. — The geology of the localities on the Sunk
and Icha rivers is not yet known. Possibly it may
be found that there are outliers of the [Mahanadi-
Godaveri] Vindhyan formation in their vicinity.
BANDELKHAND.
The writers who have described the diamonds and
diamond mines ofBandelkhand from personal observa-
tion are many ;* besides them there are also not a fewf
* Franklin, Captain, " Asiatic Researches," vol. xviii. p. 100 ;
Jacquemont, M. V., "Voyage dans 1'Inde," tome i, p. 399;
Adam, Dr., "Jour. Asiatic Soc. Bengal," vol. xi. p. 399 ;
Hamilton, Dr., " Edinburgh Phil. Jour.," vol. i. p. 49; Medlicott,
H. B., " Mem. Geol. Survey of India," vol. ii. p. 65 ; Mallett,
F. R., ibid., vol. vii. p. 113; Rousselet, M., "L'Inde des
Rajahs," &c. &c.
t Carter, Dr., "Geological Papers on Western India;" Burton,
Captain, Quarterly Journal of Science, N.S., vol. vi. p. 351. 1876.
DIAMONDS. 45
who have written on the subject without having had
the advantage of visiting the spot.
Franklin and Jacquemont give ample details of the
mode of working and extraction of the gems, their
varieties, &c. The most recent contribution on this
subject is by M. Rousselet; but for the geology
reference should be made to the Memoirs by Messrs.
Medlicott and Mallett of the Geological Survey of
India, as the more popular writers have given
currency to very incorrect views on this aspect of the
question.
The following is an abstract of these geological
accounts : —
The diamond bed proper, a conglomerate, belongs
to a group at the base of the Lower Rewahs,* which
is distinguished as the "Panna shales." Outlying
patches of these rocks occur as remnants of old spurs
and outliers from the table-land. Occurring thus, with-
out the usual covering of sandstone which is found on
the flanks of the table-land, earlier observers were
puzzled to account for the difference, and hence arose
some of the confusion I have already described.
Mr. Medlicott gives the following account. At the
time of his visit, the Panna miners had not got down
to the diamond-bearing seam, which is not laid bare
till about March in each year : —
PANNA.
The rock diggings near Panna do not cover a surface
of more than twenty acres, they are on a low flat rising
ground at the base of the slope from the Kymore scarp ;
there were five or six pits in progress. The section is —
three feet of soil, on a smooth surface of boulder clay ;
* Vide supra, p. 9,
46 DIAMONDS.
this latter contains large and small rounded boulders of
sandstone, possibly the remains of masses fallen from the
retreating cliff of the Rewah ridge ; its thickness is very
variable, from two to twelve feet, due to the uneven sur-
face of the subjacent rock ; pebbles of the laterite iron
ore are common along the bottom of the boulder bed.
The top three feet of the hard rock looks more like a
reconstruction of materials than a rock in situ. It is an
irregular streaked mass of clay, with occasional strings
of broken grit bands ; the crushing action which is so
manifest in these upper layers extends itself to those
below ; contortion and fracture on a small scale are evi-
dent throughout, &c. £c.
These appearances are considered to be due to the
falling of heavy masses of rock from the cliff face,
which formerly existed, as it was undermined from
below.
In the Panna mines, although the diamond seam is
deeper than elsewhere, owing to the broken nature of
the overlying strata, it is not reached by a shaft, but the
miners go to the immense labour of excavating great
pits, 25 feet in diameter and often over 30 feet deep,
for the sake of the small patch of diamond conglome-
rate thus uncovered.*
KUMEREA OR KAHMURA.
This locality, which is situated to the east of Panna,
was visited by Mr. Racket, who describes it as follows.
Here the matrix, locally called Kakru, is —
A conglomeratic sandstone made up of pebbles, one-
eighth to one-half inch diameter, imbedded in a rather
fine matrix which also includes clay galls. The lower
Rewah sandstone here stretches out a considerable dis-
* Vide infra, p. 53.
DIAMONDS. 47
tance in front of the scarp, and the pit was just on the
northern edge of this terrace, some twenty feet below the
summit, and itself about ten feet deep. On the top of the
diamond bed was a foot or so of hard thin flaggy sand-
stone and about seven feet of the same mixed with shale.
A little further to the south and west on this terrace was
an old pit between thirty and forty feet deep, but the
bottom filled with water, so that the rocks immediately
above the diamond bed could not be seen, but there were
certainly ten to fifteen feet of shale between it and the
lower Rewah sandstone. In all the pits examined there
must have been ten to twenty feet of shale intermediate.
The Pannas are here very thin, so that this position is
not much above the top of the Kaimurs (the lowest group
of the upper Vindhyans). There are some small outlying
hills to the north at the village of Bungla and north of
Babupur. The former is about fifty feet high, with
Kaimurs at the base, then fifteen to twenty feet of shale
capped in turn by the lower Rewah sandstone ; this was
the only outlying hill in which the shales were seen (on
account of the northern overlap). A few hundred yards
to the north-east another little hill has been excavated in
every direction by the old diamond searchers. Again at
Babupur are numerous old pits, and some sufficiently
well preserved to admit of examination. They are about
fifteen feet deep, exposing sandstone with thin flaggy beds
at the top, but no shales.
A bed of fine brown sandstone, including fragments of
a green silicious rock, and bits of red and green shale,
was traced from Bumbhen to Kissengurh, which is not
impossibly the continuation of the diamond bed ; that
the natives do not work to the east is no proof that the
beds do not continue in that direction. This is evident
from the fact of there being no pits at Bungla, notwith-
standing the hills all round, even to the north, having
been extensively worked.
It is, therefore, almost certain that at Bungla the
diamond bed exists, though untouched.
48 DIAMONDS.
Mr. Medlicott notices the transition of the con-
glomerate from its position among the shales to its
condition as a pure fine sandstone conglomerate.
In reference to the extension of the conglomerate,
he remarks that from the nature of the case — its
occurrence among fine beds — it has per se a pre-
carious existence. He finds it difficult to determine
the reasons why the deposit has not been worked in
some localities, as at the base of the hills. In some
•cases, in the outlying patches, the margin of the
deposit has been reached, in others it may have died
out ; the latter state of things might be readily ascer-
tained were a few trenches dug in selected localities.
Mr. Medlicott makes some suggestions as to the
original matrix of the gem, which I have already
quoted. Besides the mines, he enumerates several
localities where there were workings in accumulations
of superficial detritus ; these are at Udesna, Sakeriya,
Mujgoan, and Boghin.
UDESNA.
The mines were being worked at Udesna : —
There was water in all the pits, at what appears to be
the level of the top of the boulder bed, under an irregular
thickness of yellow clay, variously charged with kunkur
and laterite gravel ; the gangue is a stiff gravelly clay.
SAKERIYA.
As at Udesna, there is a variable depth of clay, the
middle third being kunkury and the lower lateritic ; below
this, the clay becomes charged with gravel, pebbles, and
boulders, these rapidly increasing in size to great angular
blocks of sandstone, scarcely moved from their original
beds ; it is from between these that the best stuff is got,
a stiff unctuous clay, with quartz gravel through it. Above
DIAMONDS. 49
these deep pits, which are never far from the stream, and
well up on the slope of the Rewah sandstone, are diggings
in the surface lateritic gravel.
MUJGOAN.
This, as suggested by Franklin, is probably the
deserted gorge of a stream. Mr. Medlicott writes : —
The filling in is certainly peculiar ; the structure is like
course foliation, a network of strings of calc spar, en-
closing laminae and small lumps of green clay.
In the only hole I saw they were working the yellow clay
from the crevices of this ; but the men told me that at a
greater depth there are alternating layers of green mud, and
of its mixture with calc spar in which diamonds are found.
BOGHIN.
The mines of Boghin are thus described by Mr.
Medlicott : —
At the upper end of the gorge of the Boghin river there
are two falls of 200 feet each, and there are workings
throughout the whole length to Kalinjer, The principal
diggings were at the lower end of the mine valley ; they
were removing some twelve feet of dark brown clayey
sand to get at the boulder bed, in the base of which the
diamonds are found, but both here and below the narrow
gorge the gravel at the surface of the river bed is much
worked. The natives spoke to me of a European who,
some twenty years ago, had made an attempt at mining
on a large scale. His diggings were on the flanks of the
limestone hill, some fifty or one hundred feet over the
river, the ore being a jasper gravel gathered from the
deep surface crevices of the limestone. As well as I
could understand their pronunciation, the man's name
was Berkeley, but I have not seen any written account of
his experiment ; the remains of his wash pits and picking
floors are there still.*
* It is probable that the European referred to is the same as
the one mentioned in the extract below.
E
50 DIAMONDS.
Mr. Medlicott declines to believe in the instinct of
the natives, as evinced by the capricious distribution
of these surface diggings. There are many valleys in
which the relation to the underlying rocks is such as
to make it almost certain that the alluvial deposits
contain diamonds, and yet there are no traces of
workings. On the other hand, some of the workings
prove the former extended range of the rock matrix,
which has been broken up by denudation. He believes,
further, that the occasional occurrence of diamond-
bearing deposits at higher levels than the original
rock matrix may be accounted for by a distribution of
the materials which took place under a general sub-
mergence of the country.
The following account of the Panna mines, which
seems to be well worthy of reproduction, I have
extracted from an Indian newspaper. I am unable
to give the author's name : —
The finances of the Maharaja are principally derived
from his diamond and iron mines, and the following par-
ticulars as to how the mines are worked will prove
interesting : —
In granting licences to natives the invariable rule of the
Raja is to restrict the claim to diamonds below six rattis
in weight, on which a percentage of Rs. 25 or upwards is
charged. The party is then allowed to search in any spot
within the territory, excepting such as are given to
Brahmins for sacred purposes or are reserved for the
Ranis or other relatives of the chief. The mines of
Kahmura and Panna are the most celebrated, and are
excavated at a depth of fifteen to fifty feet. They lie
within the bounds of the rocky matrix. Those at Maj-
gouan have also been very imperfectly used, the mining
not going below fifty feet, at which depth the water over-
flows, and the tuadars (or masters of the mines) are com-
DIAMONDS. 51
pelled to stop at this limit for want of a method to pump
them dry. The chila and superficial mines are to be
traced all over the diamond-tract, manual labour being
cheap, as the poorest subjects of the State work them.
From the commencement of the rains to the beginning;
of the cold season the mining goes on, since a plentiful
supply of water can be had in all parts of the State — an
article highly necessary to facilitate the search, as the
matrix, after being dug out, is placed by small quantities
in a trench, and then washed to clear it of the clay which
adheres to it. A spot on the surface of the mine is leeped
smooth with the hand, and on it the gravel is spread,
and a diligent search made for the diamonds. Almost
three-fourths of the people of Panna and the adjacent
villages derive their living by working either for them-
selves or as hired labourers for others. When employed
on their own account, it is not unusual to hear them com-
plain of " no luck for months and months." Indeed, I
never knew a native, during the short time I was in the
State, who said he had found a diamond, but I was told
that the following is the way natives carry on when at
the mines. The avarice of the predecessor of the present
Maharaja of Panna knew no bounds. The mines being
the chief source whence his revenues were obtained, the
native tuadars were never spared when they found dia-
monds, but had the most unreasonable taxes imposed
upon them. This mischievous system, and the impolitic
rule that all diamonds above six rattis became the bond,
fide property of the Maharaja, seem to have engendered
in speculators a vindictive spirit, not only to evade the
heavy duties but to cheat the State of the produce of the
mines altogether. Every poor tuadar has a petty banker,
who supports his constituents and his family with the
necessaries of life, on the understanding that every dia-
mond found by them should be sold to him, out of the
amount of which he is to pay himself. In fact, a tuadar of
the lower order is but an instrument to enable the Mahajans
to rob the Maharaja, and it is a well-known fact that
E 2
52 DIAMONDS.
though these harpies hoard up wealth through the medium
of their artful constituents, they will, on all occasions, in
order to evade suspicion, plead poverty and distress,
whilst they carry on a clandestine trade of diamonds
between Mirzapur, Banaras, Allahabad, and Jabalpur.
Some years ago, one of these Mahajans was detected in
defrauding the State of diamonds to the amount of
Rs. 43,000 for a long series of years. He was impri-
soned and threatened with punishment, and to avert this
he refunded Rs. 16,000, and acknowledged having em-
bezzled to the extent mentioned. It is well known that
the Maharaja is robbed of large and valuable diamonds
yearly. I believe only one European has ever tried
working at the Panna mines, and this was in 1833, when
a licence was granted him, and the following were the
terms in his licence — On diamonds of I to 7 rattis, 1 5 per
cent, on the value ; from 7 to 10 rattis, 33 per cent. ; from
10 to 15 rattis, 50 per cent. ; from 15 to 20 rattis, 66 per
cent. ; from 20 rattis and upwards, bond fide the property
of the Maharaja, he having the option to reward the
tuadars as he pleases. The expenses for working the
mines at that time were as follow : —
For one month, with 20 sets of labourers —
20 bildars at Rs. 2 per month . . Rs. 40
20 water women do „ 30
4 sepoys at Rs. 3 „ 12
Implements for digging, &c. . . . „ 40
Total Rs. 122
It shows how cheap labour was in those days, whereas
at this time bildars are getting Rs. 12 and 14 a month.
The European (his name is not given, and I copy from an
old Government record) says :— " In embarking in this
enterprise the chief evil to be guarded against is theft ; a
strict eye should be kept over the labourers during the
hours of their work, as they not only pilfer and conceal
DIAMONDS. 53
these stones in the very mines they are working, but will,
in cases of emergency, swallow them ! It is said that,
before the British supremacy became paramount in these
parts, delinquents of this description have suffered death
rather than confess their having stolen the gems, which
have afterwards been discovered in the ashes of their
remains.
The early accounts by Franklin and Jacquemont
have been, perhaps, to some extent supplanted by that
by M. Rousselet. Captain Burton, in his already-
mentioned Paper, gives the following abstract with
some remarks of his own. While quoting from
Captain Burton, I cannot omit to say that it is to
be regretted that he should not have referred to the
official geological publications on the subject. Had
he done so he would have seen that very much more
has been accomplished with regard to fixing the
horizon of the matrix and its distribution than he was
led to suppose, and, moreover, he would not have then
rehabilitated several old theories which have been
shown to be erroneous.
M. Louis Rousselet ("L'Inde des Rajahs." Paris:
Hachette. 1875), in his splendid volume, pp. 440, 443,
gives an illustration, and an account of the world-famous
mines of Panna (the Panasca of Ptolemy ?), a little king-
dom of Eastern Bandelkhand erected in 1809. The Raja
sent a Jemadar to show him the diggings, which are about
twenty minutes' walk from the town. The site is a small
plateau covered with pebble heaps, and at the foot of a
rise somewhat higher than usual yawns the pit, about 12 or
15 metres in diameter by 20 deep.
It is found in alluvial grounds, divided into horizontal
strata, debris of gneiss and carbonates,* averaging 30
* What is intended to be conveyed by the term "carbonates"
I cannot say, since, other than diamonds, there are no traces of
carbon in these recks.
54 DIAMONDS.
metres ; at the bottom is the diamond rock, a mixture of
silex and quartz in a gangue of red earth (clay ?). The
naked miners descend by an inclined plane, and work
knee deep in water, which the noria, or Persian wheel,
turned by four bullocks, is insufficient to drain ; they heap
the muddy mixture into small baskets, which are drawn
up by ropes, whilst a few are carried by coolies. The
dirt is placed upon stone slabs sheltered by a shed ; the
produce is carefully washed, and the silicious residuum is
transferred to a marble table for examination. The work-
men, each with his overseer, examine the stones one by
one, throwing back the refuse into a basket. It is a work
of skill on the part of both men, as it must be done with
a certain rapidity, and the rough diamond is not easily
distinguished from the silex, quartz, jasper, limestone,
corundum, &c.
Tradition reports that the first diamonds of fabulous
size were thus found, and the system of pits was per-
petuated ; when one is exhausted it is filled up and another
is opened up hard by — a deplorable system, as 100 cubic
metres must be displaced to examine one — and around
each well a surface of twenty times the area is rendered
useless. Moreover, much time is lost by the imperfect
way of sinking the shaft, which sometimes does not strike
the stone.
This diamond stratum extends more than 20 kilo-
metres to the north-east of Panna. The most important
diggings are those of the capital of Myra, Etawa, Kama-
riya, Brijpur and Baraghari. The mean annual produce
ranges between ,£40,000 and ,£60,000 — (M. Rousselet him-
self says 1,500,000 to 2,000,000 francs) — a trifling sum, as
the stones are the most prized in the world and sell for a
high price in the country.
They are pure and full of fire ; the colour varies from
the purest white to black with the intermediate shades,
milky, rose, yellow, green, and brown. Some have been
found reaching twenty carats, and the Myra mine yielded
one of eighty-three which belonged to the Crown jewels of
DIAMONDS. 55
the Mogul. Of course the real produce must be taken at
double the official estimate. Despite all precautions such
is the case everywhere. The Rajah has established an
approximate average amount, and when this descends too
low he seizes one of the supposed defaulters and beheads
him or confiscates his goods.
He sells his diamonds directly to Allahabad or Benares,
and of late years he has established ateliers for cutting ;
these are the usual kind — horizontal wheels of steel
worked by the foot.
ON THE PROSPECTS OF DIAMOND MINING IN
INDIA BY EUROPEANS.
As I have already related, in each of the three great
tracts at Chennur, at Sambalpur, and at Panna,
attempts have been made by Europeans to mine for
diamonds, but in no instance have their operations
proved to be successful. How far success was deserved
by the manner in which the operations were carried on
it is impossible to state. Regarding the question,
however, from a general point of view, I think it is
easy to see that there are many causes which must
tend to have an unfavourable effect upon the success
of undertakings of this nature.
In the first place, however, it may be well to pre-
mise that there is not the least ground for supposing
that there has been any real exhaustion of the localities
where mining is possible. On the contrary, the result
of the systematic geological examination of the diffe-
rent areas has been to show that the diamond-bearing
strata have a wider extension there than the actual
miners could have ever supposed — though not so wide
as some writers have concluded, by a process of
including the most distant localities in one tract, and
then computing the total area.
56 DIAMONDS.
That the ancient miners possessed and acted on a
kind of rule-of- thumb knowledge of the characteristics
of the diamond-bearing strata in different tracts re-
spectively, is almost certain ; but that they applied such
knowledge inductively to distant tracts is extremely
doubtful. The probability is that in each neighbour-
hood operations were commenced in consequence of
chance discoveries.
The following is a recent example culled from a
newspaper : —
DISCOVERY OF A DIAMOND. — The Collector of Karnul
reported on the lyth December last, for the information
of the Revenue Board, the discovery of a large raw
diamond by one Mala Nagi of Karnul, one of the coolies
employed in excavating earth in B. Class land of the Irri-
gation and Canal Company in Jaharapuram near Karnul.
The diamond weighs 44 grains, and is said to have been
purchased by Amboji, a merchant of Karnul, for Rs. 116.
The real value is, of course, much higher, probably not
less than Rs. 1,000. There are no diamond mines in
Jaharapuram.
Prospecting far and wide, we may be sure, was never
undertaken by natives, and it is doubtful whether there
was any intercourse or communication between the
workers at distant localities.
With scientific guidance, backed by capital and
proper mining appliances, it may appear at first sight
that mining by Europeans ought to succeed, but, from
what has already been said in reference to Bandel-
khand, it will be gathered that there are in diamond
mining certain peculiarities which distinguish it from
most if not all other forms of commercial enterprise.
The facilities for peculation, in consequence of the
readiness with which the gem may be conveyed, is of
DIAMONDS. 57
course the principal of these. There must necessarily
be a considerable amount of individual hand-work.
It would almost seem, in fact, that, except under a
system of slavery, the diamond cannot be worked for
profitably in India. The present system, though not
so called, practically amounts to much the same thing,
the actual operatives are by advances bound hand and
foot to the farmers of the mines, and these are content
to wait for months together without any return. Their
outlay, too, is very small, no heavy expenditure of
capital being involved.
The case is, in a measure, parallel to that of manu-
facturing iron. The native iron-smelter, with no
expensive plant, manages by a most wasteful process
to keep himself alive by making iron. The English
company turns out iron by the most approved methods,
and after a time goes into liquidation. Such has
hitherto been the case, but I am hopeful of the iron
industry yet proving a success in India.
I would lay no particular stress on the fact that the
several attempts in Southern India, at Sambalpur and
at Panna, to work mines under European management,
have hitherto failed. These failures may have been
due to causes with which the conditions I have above
alluded to have nothing to do ; they may have resulted
from simple incompetency. death, or sickness, &c.
My colleague, Mr. King, in writing of the South of
India mines, says that it is not to be expected that
diamond mining would, except by a mere chance,
prove a rapid road to fortune. But for those content
with a slowly-paying occupation and a hard life,
involving close personal supervision of the workers, it
would pay, provided such persons possessed capital
sufficient to last them some years.
58
CHAPTER II.
COAL.
MY principal reason for preparing this account is
that I find that a considerable degree of misconception
exists as to the extent and value of our Indian coal
fields. At the same time, from the frequency of the
inquiries which have been made of me, I conclude
the subject is one which many regard as being of
great interest and importance.
To India, indeed, it is one of vast imperial importance,
since the development of her natural resources, and
the increase of local manufactures consequent thereon,
seem to offer a remedy the most efficient towards
establishing the equalization of the exchange.
Broadly speaking, it may be said that there are two
geologies in India — namely, that of the Himalayas and
that of the Peninsula proper. The former conforms in
character with the recognized classification adopted in
reference to European formations, while the latter differs
from that of any other well-known region in the world.
Several of the formations occurring in peninsular
India spread uninterruptedly over hundreds of thou-
sands of square miles. It would, in fact, be possible
to mark out areas within the limits of which two of
these formations respectively prevail which would be
equal to that of the British Islands.
On the present occasion it will be unnecessary to
offer any sketch of the general geology, my object
being to direct attention to one formation, or rather to
a system of formations, and to them more particularly
in reference to the coal which they contain.
COAL. 59
The following is the classification of the subdivisions
of the Gondwana system, which is at present recog-
nized by the Geological Survey of India : —
f Cutch and Jabalpur \ Thickness
Upp ( Rajmehaland Mahadeva* j 1 1,000 feet.
MESOZOIC •
PALAEOZOIC -
Lower
Panchet
Damuda ; Ranigunj or
Kamthi ]
Ironstone Shales and L 13,000
Barakar
Karharbari and Talchir '
Dr. Feistmantel, the palaeontologist of the Geo-
logical Survey of India, has, on the evidence afforded
by the fossil plants, offered the following detailed
correlation with European formations : —
Upperj
Cutch and Jabalpur = Lr. Oolite
Rajmehal = Lias
{ Panchet = Keuper 1
- Buntsandstein |Trias
( Talchir \
How far such identifications between parts of the
world so remote from one another are to be relied on
is perhaps open to question. There is much, no
doubt, to be said upon both sides. It will only be
possible for me to allude very briefly to the principal
points at issue ; but, before doing so, I propose to
describe the leading characteristics of the several
groups which constitute the lower portion of the above
classification.
The Upper Gondwanas being of little economic
importance, though of great interest otherwise, may be
passed over in this communication. The two are
probably separated by a very distinct break in time, as
the lower are often much disturbed while the upper
maintain their original horizontal positions. Taking
* The Kota Maleri beds alluded to below in the account of
the Wardha field may be interpolated here.
60 COAL.
the groups successively in ascending order, the lowest
is the
TALCHIR GROUP. — The rocks composing this group
consist of sandstones, fine shaly silts, and boulder beds,
all of which are commonly of greenish or buff colours.
The maximum thickness is 800 to 1,000 feet, but in
many of the fields it does not amount to more than
about one-fourth of that amount. These rocks are
found at the base of all the coal fields, and also in
many outlying tracts where they are not in contact
with newer deposits. Of especial and general interest
to geologists is one variety of boulder bed, as it affords
evidence of the existence of floating ice at the time of
its deposit in latitudes running as low as 16° 30' N.
It is of importance, however, to reiterate the fact,
that in these rocks we find the first traces of life in
India, the vast thicknesses of rock deposited in
previous periods being, so far as we know, azoic.
These first forms consist chiefly of equisetaceous plants
and ferns — all of them, I believe, such as might have
existed in a moderate temperate climate.
The area through which, often at widely separated
intervals, exposures of these beds are scattered, may
be roughly indicated by saying that it occupies the
higher central parts of the Peninsula, being bounded
by the 77° and 88° of east longitude, and the 16° 30'
and 25° parallels of north latitude.
The Talchir beds are of no economic importance,
save that they contain several varieties of easily
worked, durable, and sometimes ornamental building
stones. Limestones are rarely found ; generally they
occur merely as concretionary masses in other rocks.
From their scattered distribution and limited extent
they can scarcely be expected ever to prove of much
value.
COAL. 6 1
KARHARBARI GROUP. — This group of beds, which
consists of conglomerates, sandstones, and coal, was
long considered, in consequence of the strong litho-
logical resemblance which its members bore to the
Barakar rocks, to belong to that group. Recent
palseontological investigations, by Dr. Feistmantel, are
considered to be of sufficient weight to cause it to be
classed in closer proximity to the Talchir group, a
number of species of plants having been found
common to both ; but the physical relations between
the Karharbari beds and those of the Talchir group
seem to be identical with those existing between the
Barakars and the latter, and there is not any sign in
the lithological characters, or in the conditions of
deposit thence deducible common to the Talchir and
Karharbari groups. Attempts to point lithological dis-
tinctions as existing between the Karharbari and Bara-
kar beds appear to me to be somewhat strained, and
not very successful. The differences are simply such
variations as might have been determined by local
conditions of deposit. I believe, therefore, that the
fossil evidence merely proves a survival of certain
species, and cannot be taken to counterbalance the
geological evidence as to a marked separation between
the deposition of the Talchir and succeeding groups.
The Karharbari rocks were named after the coal
field bearing that title ; they have also been identified
at Mopani. Their thickness is 500 feet.
BARAKAR GROUP. — This group of rocks, from which,
as I have said, I believe the Karharbari beds cannot
be separated, consists of sandstones, grits, pebble con-
glomerates, conglomerates with angular fragments, car-
bonaceous and other shales, and coal. Except in some
of the eastern fields of the Damuda valley series, this
group includes all the valuable coal of Peninsular India.
62 COAL.
The thickness attains its maximum in the Jeriah
coal field, where it is estimated to be 3,800 feet. In
the Ranigunj field it is 2,000 feet ; in most of the
other fields it is much less.
IRONSTONE SHALE GROUP. — This group, consisting
of bands of ironstones, running through grey and
black (carbonaceous) shales, overlies the Barakar
group with general conformity. It is only found in
the Damuda Valley fields, wholly disappearing further
west.
In the Bokaro field it attains its maximum thick-
ness of 1,500 feet.
RANIGUNJ (KAMTHI) GROUP. — The Ranigunj
group consists of sandstones — which are fine-grained
and often calcareous — carbonaceous shales, and coal.
The coal is generally of better quality and more
uniform in composition and in the thickness of seams
than is that of the Barakar group. In the easternmost
field of the Damuda Valley series — namely, the
Ranigunj, which has given the name to the group — the
principal coal seams which are worked belong to this
group. In the more western fields it steadily thins
out, the coal becoming of less and less importance.
In the central fields of the Peninsula it is very
much changed in lithological characters, and is so
greatly increased in thickness, amounting to from
5,000 to 6,000 feet, that the true identity with it of
these latter deposits which constitute the so-called
Kamthi group is established only by general geological
relations aided by fossil evidence.
The rocks of the Kamthi group are largely made up
of coarse sandstones and conglomerates, in which
there is a prevailing reddish colour due to the amount
of iron always present. Coal rarely occurs as a
member of this group ; its importance is insignificant.
COAL. 63
For fuller accounts of the lithological characters
and fossil contents of the above beds I must refer the
reader to Mr. Blanford's account of them in the
" Manual of the Geology of India."
The groups of the Upper Gondwanas do not
contain workable coal, but their presence in the several
fields covering and sometimes wholly concealing the
coal-measures confers on them indirectly a consider-
able economic importance.
AGE OF THE PLANT-BEARING SERIES OF ROCKS
INCLUDED IN THE GONDWANA SYSTEM.
I have already given the proposed correlations of
the several series or groups of Gondwana rocks with
European formations, but it may be well to add a few
general remarks on the subject.
Some of those now present who are readers of the
Geological Magazine may, perhaps, have scented the
battle which has been waged afar off as to the homo-
taxy and correlation of these rocks with those of the
recognized European sequence.
Perhaps the most important recent result of the
examination of the fossil plants has been the discovery
that Glossopteris (a genus of ferns), which was formerly
thought to be characteristic of the Lower Gondwanas,
has been found to occur in the very highest group of
the Upper Gondwanas — viz., Jabalpurs. On the other
hand, several species of Cycadaceous plants, which
order was supposed to be restricted to the upper groups,
have been found to exist in the lower or Damuda
groups,* thus to a great extent binding the whole
* The Damuda Cycadaceous plants zre—Noeggeratkia His-
lopi., Bunb., Macropterygium Comp. Browni, Schimp., Ptei'o-
phyllum Burdiiianense,¥s\.m., Glossazamites Stoliczkanus^ Fstm.,
vide " Records Geological Survey of India," vol. x. pt. 2.
64 COAL.
system of groups or series together, and drawing them
away from the floras characteristic in other countries
of palaeozoic periods.
But what have been called palseontological contra-
dictions occur in these rocks, for it has been found,
with reference at least to some of the Pigher or
younger groups, thatthe marine faunas, where present,
do not always point to the same conclusions as the
floras.
In the Annual Report of the Survey for 1876, this
state of things was summarized by Mr. H. B. Medlicott
in the following words : —
The facts of our Gondwana rocks are certainly puzzling
to systematists. On the west, in Kach, we have the flora
of the top Gondwana group, which has a Bathonien_/^raVj
associated with marine fossils of Tithonien affinities ; while
on the S.E., in the Trichinopoli beds, with a flora, so far
as known, like that of the Rajmahal group, which is taken
to be liassic, have been described by Mr. H. Blanford as
overlaid in very close relation by the Otatoor group, the
fauna of which has been declared upon very full evidence
to have a Cenomamenfaaes.
Another instance of these contradictions I quote
from the "Manual," p. 100 : —
The Kota beds, with their liassic fish, have now been
so closely connected with the Maleri clays and sandstones,
containing triassic reptiles and fish and Jurassic fish, that
both are classed in the same group.
The occurrence of several genera of Damuda plants,
more particularly Glossopteris, in the higher Australian
coal-measures, passing thence downwards into beds
containing carboniferous marine fossils, and, lower
still, typical carboniferous plants, has been used as an
argument in favour of the view that our Indian coal-
COAL. 65
measures are Palaeozoic. Dr. Feistmantel maintains,
however, that the Australian upper coal-measures are
triassic, while the lower are undoubtedly carboniferous,
Glossopleris having survived. Some of the Australian
sections, however, scarcely support the view of a
distinct separation being possible.
Mr. W. T. Blanford is of opinion that
The whole evidence, so far as it goes, both of animals
and plants, tends to connect the whole of the Gondwana
series with formations ranging from the upper Palaeozoic
(Permian) to the lower Jurassic.
It is clear that floras alone afford but an unsafe
guide to correlation, and for this reason, that they, as
well, also, as some land animals, appear to have often
survived the wholesale changes which have affected
the faunas of the neighbouring seas and oceans.
Although, therefore, it may be dangerous to attempt
a close correlation of the Indian formations with those
of distant countries by the evidence afforded by
fossil plants, still the advantage of employing such
evidence as a means of identification between widely-
separated deposits within the limits of India cannot
be doubted.
ORIGIN OF THE GONDWANA ROCKS. — From the
evidence afforded by the fossils, and the lithological
characters of the rocks, it is probable that the
Gondwana strata were deposited in a series of river
valleys not unlike those which constitute the Indo-
Gangetic plains at the present day. The rivers were
generally sluggish in their movements and occasionally
may have formed lakes.
AREAS OF GONDWANA ROCKS. — The following Table
of the areas of the Indian coal-measures and associated
F
66
COAL.
younger rocks which may conceal coal-measures has
been drawn up by my colleague, Mr. Hughes :* —
Godaveri and affluents . ;.
Sone -. • •
Sirguja and Orissa, &c. . . .
Assam . . . . . . . .
Narbuda and affluents . . . :
Damuda
Rajmahal area
Unsurveyed, &c. . ...
35,000
For the sake of comparison other countries with
greater areas are enumerated : —
United States 500,000 square miles.
China v • . :- 400,000 „
Australia 240,000 „
India comes next or fourth on the list. Although I
believe Mr. Hughes' estimates require some modifica-
tions in detail, still the total cannot be far from
correct, and 30,000 square miles might, I think,
perhaps be safely adopted as a minimum.
List of Separate Coal fields.
Bengal.
1. Rajmahal Hills .
2. Birbhum ....
3. Deogurh . . . h North of Damuda River.
4. KARHARBARI,f .
5. RANIGUNJ . . .
6. Jeriah ....
7. Bokaro ....
8. Ramgurh . . .
9. Karanpura, N.
10. Karanpura, S. . .
* "Records," vol. vi. p. 65.
+ Fields which are worked printed in small capitals.
" Damuda Valley.
COAL. 67
11. Chope*
12. Itkuri
13. Aurunga \ West of Damuda Valley.
14. Hutar
15. DALTONGUNJ . . .
1 6. Tattapani ....
17. S. Rewah and Sohagpur
1 8. Jhilmilli
19. Bisrampur . . '^^••-\
20. Lukanpur ....
21. Rampur ..... J S one and Mahanadi Valleys.
22. Raigurh and Hingir .
23. Udaipur and Korba .
Orissa.
24. Talchir . . . ,t. ,,
Central Provinces.
25. MOPANI . V V- . \
26. Tawa [ Satpura Region.
27. Pench J
28. Bandar -\
29. WARDHA or CHANDA I Godaveri Valley.
30. Kamaram ....
31. Singareni . . . . )
Sikkim.
32. Sikkim.
Assam.
33. Makum \
34. Jaipur
35. Nazira L Valley of the Brahmaputra.
36. Jangi
37. Disai J
In the above list, localities, chiefly situated in the
North-West Provinces, Assam and Burmah, where ter-
tiary coal occurs, but not in sufficient quantity to con-
stitute workable coal fields, have not been included.
F 2
68 COAL.
Of the thirty-seven separate coal fields only five are
at present worked with regularity. These are Ranigunj,
Karharbari, and Daltongunj in Bengal, and Mopani
and Wardah in the Central Provinces.
In the following abbreviated notes I endeavour to
give the chief points of importance regarding each
field, while the references to the publications of the
Geological Survey will indicate the sources from
whence fuller details may be obtained : —
LOWER BENGAL.
I. RAJMAHAL AREA.*
The Rajmahal hills form a series of low plateaus,
which are situated at the point where the Ganges turns
southwards to form the head of its delta.
The formations in this area, which are connected
with the coal-measures, are, in descending order,
as follows: — i. Laterite. 2. Rajmahal Group, con-
sisting chiefly of contemporaneous traps, with beds
containing fossil plants, 1,500 feet. 3. Dubrajpur Group
( = Mahadevas), 450 feet. 4. Barakar Group ( = coal-
measures). 5. Talchir Group. These cover a total
area of about 4,000 square miles. The coal-measures
are exposed over seventy square miles, but doubtless
extend over a vastly greater area underneath the
younger formations. Separated by these overlying
rocks, five distinct areas or fields may be enumerated
— i. Hura; 2. Chuparbhita; 3. Pachwara; 4. Mho-
wagurhi; 5. Brahmani. These are all on the western
margin of the hills. It will be an interesting and
economically important point to decide, whether the
coal-measures extend underneath the traps, &c., to the
* " Mem Geol. Survey of India," vol. xiii. Also " Manual,"
pp. 165, 171.
COAL. 69
east. If so, they would be close to the water carriage
of the Ganges.
The coal is, for the most part, stony and bad. It
is not now regularly mined, but a large quantity was
extracted during the construction of the East Indian
Railway.
II. & III. BIRBHUM, DEOGURH, &c.*
A number of small detached basins or outliers occur
in the districts of Birbhum and Deogurh where meta-
morphic rocks mainly prevail. They are of little or no
economic importance, and may be passed in this record
without farther notice.
IV. KARHARBARI OR KURHURBALI.!
This small field, having an area of only 1 1 square
miles, and which is situated in the district of Hazari-
bagh, at a distance of 200 miles from Calcutta by
rail, is one of great importance, both from its position
and the quality of its coal. The sedimentary groups
of Gondwana rocks represented in this area are
Barakar and Karharbari, 500 feet ( = coal-measures),
and Talchir, 600 feet.
The coal occurs in three principal seams, which
have an average total thickness of 16 feet. They
spread over an area of 8J square miles. The
amount of coal may therefore be estimated at
1,360,000,000 tons, and the available portion of this
at 80,000,000.
A sample assay gives the following results — carbon,
66*3; volatile matter, 23; ash, 107. In working
power, the Karharbari coals are to those of the
Ranigunj field as 1:3 : 100.
* Hughes, "Mem. Geol. Survey of India," vol. vii. pp. 247,
255. "Manual," p. 17 r.
*h Hughes, loc. cit., p. 299.
70 COAL.
Several companies are engaged in working mines in
this field — namely, the East Indian Railway, the
Bengal, and the Ranigunj Coal Association. Owing
to the want of any proper system of registration in
India, it is impossible to give accurate statistics, but I
believe that up to June, 1875, tne East Indian Rail-
way had extracted 350,000 tons. The following I
quote from the Report of the Company for the year
1878 :—
The out-turn of steam coal and rubble from the Com-
pany's collieries, during the year 1878, was 208,790 tons.
The quantity consumed on the main line was 162,370 tonsv
at an average cost (exclusive of carriage) of $s. $d. per
ton ; and on the Jabalpur line, 17,600 tons, at an average
cost of £i 2s. 4f<£ per ton (carriage included). Regular
mining was not commenced in this area till about ten
years ago, when a branch from the Main Trunk Line
brought the coal into successful competition with that from
Ranigunj, twenty-three miles being saved in the journey
up country.
V. RANIGUNJ.*
This field is situated on the rocky frontier of
Western Bengal, at a distance of from 120 to 130
miles from Calcutta.
The groups represented, with their respective thick-
nesses, are as follows : —
Upper Panchet or Mahadeva ;j>;^!*o: 5°°
Panchet 1,500
Ranigunj . . •.?,-. \~.ii, • 5,000
Ironstone shale ... . . "?-'..«,,- IA°°
Barakar 2,000
Talchir i '?~«31; • '^.' 800
Total . . 11,200 „
* Blanford, "Memoirs Geological Survey of India," vol. iii.
COAL. 71
The Ranigunj coal-field is the largest and most
important of the areas in which coal is worked in
India. Its proximity to the main line of railway, and
also to the port of Calcutta, tends to give it pre-
eminence over other less favourably situated localities.
The total area of coal-bearing rocks which is exposed
is about 500 square miles; but it is possible that the
real area may be even double that, since on the east
the rocks dip under and are completely concealed by
alluvium. Throughout this area a central zone
includes the principal mines, and the chimneys which
dot this tract constitute it the Black Country of India.
In the year 1774 coal was known to occur there, and
so long ago as 1777 was actually worked. In 1830
several collieries of considerable extent had been
opened out and were, we have reason to believe, in a
flourishing condition.
In 1872, forty-four mines were at work, nineteen of
which turned out upwards of 10,000 tons each per
annum. At the present time (1879) there are about six
principal European companies engaged in the extrac-
tion of coal, while many minor firms and native associa-
tions contribute to swell the total amount raised.
Formerly a large proportion of the coal was obtained
by open workings and quarries; but at the present
day most of the seams which were accessible in this
way have been exhausted, and regular mining is now
carried on with more or less system.* The miners
are, however, individually, in some cases, allowed a
degree of freedom, or rather licence, which would
never be permitted in European mines. They chiefly
belong to two races, the Bhowries and the Sontals —
the former using the pick, while the latter cannot be
* Some of the mines are now admirably managed.
72 COAL.
induced to work with any other tool than a crowbar,
with which they produce an altogether dispropor-
tionate amount of small coal and dust. The pillar and
stall is generally practised in preference to the long
wall system of "getting" the coal. None of the mines
are of great depth, and a perfect freedom from fire
and choke damp render it possible to carry on the
work without its being necessaiy to adopt the pre-
cautions which in England only too often fail to
secure the object aimed at. Many of the seams are of
considerable thickness ; one which is worked contains
nearly 40 feet of coal. As a rule, however, the thick
seams, especially those in the lower measures, do not
contain the best coal. Compared with ordinary English
coal, the Ranigunj coals, and Indian coals generally,
are very much inferior in working power. Still they are
capable of generating steam in both locomotive and
other engines. In 1868 the total amount of coal
raised in the Ranigunj mines was 564,933 tons; but
in 1872 the total amount was only 322,443 tons.
I quote the following from the resolution on the
subject by the Lieutenant-Governor of Bengal for the
year 1879 : —
The year was a prosperous one for the coal companies
of Ranigunj. There was a large demand, and production
was greatly stimulated. The output is estimated to have
been 523,097 tons against 467,924 tons, the average of the
three previous years. The number of persons employed
was 388,931 men, 194,647 women, and 27,277 children.
The coal, which is fairly representative of Indian
coals, may be described as a non-caking bituminous
coal, composed of distinct laminae of a bright jetty
and of a dull, more earthy rock.
COAL. 73
The average of thirty-one* assays of samples from
different mines gave the following results : —
Moisture 4'8
Volatile 25-83
Carbon (fixed) ...... 5 3 '2
Ash 16-17
100'
The cost of steam coal at the pit's mouth is from
2^ to 3 rupees, say 5 to 6 shillings. In Calcutta the
same coal costs 14 to 16 shillings, and in Lahore
about ^5.
VI. JERIAH.J
The Jeriah coal field is situated in the valley of
the Damuda river, sixteen miles west of the Ranigunj
field. Its area is about 200 square miles.
The following groups only occur, the highest groups
of the Ranigunj field being unrepresented : —
Ranigunj 2,200 feet.
Ironstone shales . . . 700 „
Barakar 3,ooo „
Talchir 900 „
6,800 „
The thickness and quality of the seams vary a
good deal, but there is no doubt whatever that this
field contains a vast quantity of valuable fuel. One
seam has a maximum thickness of 60 feet. The
estimated available coal in this area is 465 millions
of tons.
* Vide "Records Geological Survey of India," vol. i. p. 155.
t Hughes, " Memoirs Geol. Survey of India, "vol. v." Manual,"
p. 185.
74 COAL.
Whether this field will ever be worked depends
very much upon the laying out of a new line of
railway communication. The exhaustion or partial
exhaustion of coal in the Ranigunj area, an event
still far distant, may lead to special arrangements for
working it.
VII. BOKARO*
The Bokaro field is situated in the valley of the
Damuda, commencing at a point two miles west of
the termination of the Jeriah field. Its area is about
220 square miles. A
The groups represented in this field are precisely
identical with those of the Ranigunj field, namely : —
Mahadeva . . . .:?*';
Panchet ,«r —
Ranigunj . . . . y .* r • —
Ironstone shale .... 1,500 feet.
Barakar • .
Talchir .... . -^'
Some of the coal seams are of large size, one, of
eighty-eight feet, having been measured. The quality
is generally inferior. Still there is no doubt that the
field contains a vast store of valuable fuel. The esti-
mated available coal is 1,500,000,000 tons. Except
by outcrop workings nothing has been done to develop
the resources of this field. Owing to its position
it is not likely, unless by the establishment of some
local industry, that it will ever become available for
useful purposes.
* Hughes, "Mem. Geol. Survey of India," vol. vi. " Manual,"
p. 187.
COAL. 75
VIII. RAMGURH.*
This field is situated to the south of the Bokaro
field in the valley of the Damuda. Its area is 40
square miles.
The following groups only occur, as in the case of
the Jeriah field ; it is uncertain whether the higher
groups were denuded or were never deposited : — ,
Ranigunj ? feet.
Ironstone shale ... . 1,200 „
Barakar 3,ooo „
Talchir 850 „
The coal is, for the most part, of poor quality and
limited in extent. There are, however, a good many
seams ; possibly when opened up they may prove to
contain better fuel than any which is now exposed in
natural sections. But the field is unfavourably situated
with regard to lines of communication.
IX. & X. KARANPURA, NORTH AND SOUTH. f
These fields are situated at the head of the Damuda
valley. Their areas respectively are 472 and 72 square
miles.
The groups occurring are the same as in the Bokaro
field, save that in the southern field there has been
no trace of Panchets yet discovered : —
Mahadeva 300 feet.
Panchet ; <v°? -P v ' . . ? „
Ranigunj ? „
Ironstone shale ... . 600 „
Barakar i)5°Q »
Talchir 400 „
* "Mem. Geol. Survey of India," vol. vi. " Manual," p. 190.
"T Hughes, "Mem. Geol. Survey of India," vol. vii. "Manual/'
pp. 191-196.
76 COAL.
The following is an assay of a sample of the better
class of coals in these fields : —
Carbon 64*5
Volatile 27*0
Ash 8-5
JOO*
The estimated amounts of coal are, for the larger
field (North Karanpura), 8,750,000,000 tons, the
estimated total thickness of seams being 38 feet. In
the South Karanpura field the estimated amount is
75,000,000 tons, the thickness being 70 feet.
The situation of these fields in a deep valley sur-
rounded by hills, renders it improbable that this vast
amount of coal will ever become available for economic
purposes.
XI. CHOPE.*
This is a small field of less than one square mile in
extent. The chief point of interest about it is its
position, which is on the Hazaribagh plateau, at an
elevation of about 2,000 feel above the sea, or nearly
1,000 above the nearest fields in the valley of the
Damuda.
The groups represented are the Baak ar and
Talchir.
There is only one seam of coal, and it is of poor
quality.
* "Mem. Geol. Surv. India," vol. viii. "Manual," p. 196.
COAL. 77
XII. ITKURI.*
This field is situated about 25 miles north-west of
Hazaribagh. The Barakar coal-measures, which
include a few seams of inferior coal, are exposed only
over half a square mile. The remainder of the area
is made up by rocks of the Talchir group.
XIII. AURUNGA.f
This field is situated in the district of Lohardugga,
to the west of the sources of the Damuda, in the
valley of the Koel, a tributary of the Sone. The area
is 97 square miles, and the groups represented are : —
Mahadeva 1,000 feet.
Panchet 700 „
Ranigunj 1,000 „
Barakar ^>S°° »
Talchir , . . 300 ,,
4,500 „
There are numerous coal seams, some of large size,
the estimated amount of coal which they contain being
20,000,000 ons.
The following average proportions of constituents,
derived from the assays of seven samples from
different localities, indicate a very poor quality of
fuel.
Moisture 67
Volatile 29*3
Carbon 36*5
Ash. . . ;.. 27-5
lOO'O
* Hughes, " Mem. Geol. Survey of India," vol. viii. p. 321.
"Manual," p. 197.
t " Mem. Geol. Survey of India," vol. xv.
78 COAL,
Valuable and extensive deposits of iron ores and
limestones occurring in and near the coal field, this
inferiority of the coal is to be lamented, as, should a
project for manufacturing iron there ever be adopted,
fuel, it seems probable, will have to be obtained from
some of the neighbouring fields.
XIV. HUTAR.*
This field lies to the west of the Aurunga, being
situated more directly in the valley of the Koel.
The area is 78*6 miles, and the following groups
occur : —
Mahadeva 1,000 feet.
(Ranigunj?)(
Barakar J ..... 2,750 „
Talchir . 300 „
4,050 „
Data for the estimation of the quantity of available
coal are wanting, but there is a considerable number
of seams, and the average of eight assays gives the
following favourable result : —
Moisture 5*95
Carbon 55-35
Volatile 28-
Ash 107
IOO'
XV. DALTONGUNJ.f
This field is also in the valley of the Koel, in the Dis-
trict of Lohardugga. The area is 200 square miles. Two
* " Mem. Geol. Survey of India," vol. xv.
t Hughes, " Mem. Geol. Survey of India," vol. viii.
COAL. 79
groups only are represented — viz., the Barakars and
Talchirs, the latter being about 500 feet thick.
Seams of coals are not numerous. One, which has
a thickness of about 5 or 6 feet, contains excellent
fuel, according to the Indian standard, as the following
average of four assays amply testifies : —
Moisture 3*45
Volatile 21.05
Carbon 64*8
Ash 107
100'
The estimated total of available coal is 1 1,600,000
tons.
This field has been worked to a small extent from
time to time. There is some prospect of its being
now opened up in connection with the Sone river
canal system.
XVI. TATTAPANI.*
Besides a few notes by myself, the result of a day
devoted to the examination of its eastern frontier,
nothing is published yet regarding this field, but a
detailed account is, I understand, about to appear.
The formations found in the Aurunga Field all occur
there, and there is some coal. On the southern
faulted boundary there is a remarkable series of hot
springs, from which the locality has received its name
Tattapani (boiling water).
XVII. SOUTH REWAH AND SoHAGPUR.f
This is a wide tract in the Sone valley, covering
perhaps 8,000 square miles. The geology is imper-
* "Mem. Geol. Survey of India," vol. xv.
t "Manual" vol. i. p. 201.
So COAL.
fectly known ; it is probable that nearly all the re-
cognized groups of the Gondwana formation are
represented within the area. Coal occurs, but little
information has as yet been ascertained regarding its
average quality and total amount.
XVIII. JHILMILLL*
This is a small area of about 35 square miles,
which has not yet been fully examined. Besides
Talchir and Barakar rocks, one or more of the younger
groups are represented.
Coal seams of some promise have been observed in
the Barakars. Traces of coaly matter, forming a seam
of six inches, were also discovered in the Talchirs, a
quite exceptional circumstance.
XIX. BlSRAMPUR.f ,4*|
This field occupies the central basin of Sirguja at
an elevation of about 1,800 feet above the sea. Its
area is about 400 square miles. The formations met
with are :—
Mahadeva 1,000 feet.
Barakar 500 „
Talchir 200 „
t
A large number of coal seams has been discovered,
somer containing good coal, but, so far as at present
known, they are not of great promise. This is of less
importance, since the locality is so landlocked that it
is never likely to be the scene of mining operations.
* " Manual," vol. i. p. 204.
f " Records Geological Survey of India," vol. i. p. 205.
COAL. 8 1
XX, LUKANPTJR.*
This field lies to the south of the Bisrampur area,
from which it is separated by a fault and a belt of
Talchirs, with inliers of metamorphic and sub-meta-
morphic rocks. Its total extent has not yet been
ascertained, but it is probable that it is continuous
with a large area of coal-measure rocks, believed to
exist far to the westward.
Several seams of coal have been discovered, one
of which is five-and-a-half feet thick and contains
good coal. The rocks belong to the Barakar and
Talchir groups.
XXI. RAMPUR.f
This area adjoins the last on the north, and it is
probable is more or less connected with that which
follows, but it is partly situated in a different catch-
ment area near the sources of the Rer river, a tributary
of the Sone, while the field about to be described is
wholly within the limits of the Mahanadi basin. The
rocks of this portion consist of Mahadevas, Barakars,
and Talchirs. No good coal has been observed yet.
The most remarkable seam is situate at the base of
the massive square block of Mahadevas known as the
Ramgurh Hill.| Above it issues a perennial fountain
of water, which, with some other peculiarities, have
caused the spot to be regarded as one of great sanctity
by the natives.
* MS. Notes, "Manual," vol. i. p. 206.
t Ibid., vol. i. p. 207. £ "Jungle Life in India," p. 324.
82 COAL.
XXII. RAIGURH AND HINGIR. — UDAIPUR
AND KORBA.*
The above-named places are situated in a wide
extent of coal measures and associated rocks, which
cover an area of not less than 1,000 square miles.
The country is very wild and difficult of access,
and our knowledge of the field is as yet imperfect.
Especially this is the case as to the identity of the
rocks younger than the Barakar coal measures. . There
appear to be two distinct groups, one containing fossil
plants, which serve to correlate it with the Kamthi-
Ranigunj group, the other being probably of Mahadeva
age, but, owing to the great similarity in lithological
characters, separation has been attended with great
difficulty and uncertainty.
The coal seams are sometimes of enormous size,
thicknesses as great as 90 feet, and even 168 feet,
having been measured; but, although containing
good coal, tliese are often largely made up of car-
bonaceous shale, which is incapable of supporting
combustion.
In one locality, the Samarsota river, the coal seams
have been greatly disturbed, being bent into an anti-
clinal, at the crest of which the lowest rocks of the
area are exposed.
Should a direct line ever be made, connecting
.Calcutta with the Central Provinces, this field will
doubtless be opened up, and may, in that contingency,
become of great importance.
* Blanford, " Records G. S. I.," vol. iii. p. 54. Ball, id. v.
pp. 101, 107; viii. pp. 102, 121; andx. pp. 170, 173; "Manual,"
pp. 206, 210.
COAL. 83
ORISSA.
XXIII. TALCHIR.*
The Talchir coal field is situated in the valley of
the Brahmani, which may be regarded as a tributary of
the Mahanadi, since it anastomoses with it in the con
joined deltas. The field is really the south-eastern
extension of the last-mentioned area, the separation
being inconsiderable.
The area is about 700 square miles in extent
The groups represented are similar to those found
in the last area, and have the following estimated
thicknesses : —
Mahadeva) 1,500 to 2,000 feet.
Kamthi J
Barakar about 1,800 „
Talchir 500 „
The Talchir group received its name from this
locality, where it was first discriminated.
The coal is of inferior quality, one large seam being
similar in character, being largely made up of car-
bonaceous shale, to that described above in Hingir.
The demand for coal in Orissa is too limited to
render it probable that under present conditions of
communication the field will ever be of much value.
Further to the south-east, near the town. of CuttacK.
there is an area of sandstones and conglomerates in
which fossil plants of the Rajmahal type occur.
* Blanford and Theobald, " Mem. Geol. Survey of India.."
vol. i. pp. 33,38. Also see " Records," Lvol, x, pp. 170, 173;
and "Manual," vol. i. p. 210.
G 2
84 COAL.
SATPURA BASIN.*
The Satpura region, so called from one of the ranges
of hills, consists of a hilly tract separating the valleys
of the Narbada and Tapti rivers.
It is difficult to speak of this area as a single
expanse of coal-measures, since, as a matter of fact,
they only appear at intervals under the margins of
younger groups, covering a wide extent of country,
which stretches for a distance of about 170 miles;
Accordingly, the estimated dimensions of the basin
vary much according to different authorities.
About 2,000 square miles appears to be a safe
minimum, but besides this it should be remembered
that there is a considerable tract in which the under-
lying formations are concealed by the tertiary Dekan
traps, and a large area towards. Jabalpur, in which no
coal-measures have been proved to exist under the
younger formations which prevail there.
In this region the several groups of the Gondwana
system are developed to their maximum extent. They
have been named and classified by Mr. H. B.
Medlicott as follows : —
Upper Gondwana,
Jabalpur group 1,000 feet.
Mahadeva ,n
c . < Middle — Denwa .
»D eries. i
V Lower — Pachman
Forward . . 11,000
* J. G. and H. B. Medlicott, " Memoirs Geological Survey
of India," vol. ii. pp. 97, 267; x. pp. 133, 188. "Records
Geological Survey of India," vol. iii. pp. 63, 70, and viii.
pp. 65, 86.
COAL. 85
Lower Gondwana*
Forward . . 1 1,000 feet.
( ( Bijori group . 4,000 „
Damuda 1 Pper \ Motur „ . 6,000 „
Series. ) Lower — Barakarand
( Karharbari group . . 500 „
Talchir group 1,000 „
22,500
It is not contended that this enormous thickness of
rock was ever successively deposited in vertical order
in any one locality. The figures are to be taken as
the maxima of the deposits of successive periods.
The principal localities where coal measures occur
are near Mopani and in the valleys of the Tawa and
Pench rivers. The former is on the northern boundary.
XXIV. MOPANI.*
This field is one of high importance, in consequence
of its position with reference to the railway. It is
situated 95 miles (by rail) W.S.W. of Jabalpur, and
322 miles from Allahabad, or 83 miles nearer than the
Karharbari field to the same place.
The area in which coal has been proved to exist is
small, though recently an important addition appears
to have been made. The old area is much cut up by
faults, and the largest seam has been destroyed by fire.
The seams are : —
1. Inferior coal 12 feet, not worked.
2. Good cooking coal . . . 18-20 feet, on fire.
3. Good coal 3 feet 4 inches ) worked
4. 10 feet good coal .... 12 feet ) together.
* Medlicott, " Memoirs Geological Survey of India," vol. ii.
1859; vol. x., 1873. "Records," vol. iii., 1870; vol. iv.,
1871; vol. v., 1872; vol. viii., 1875; vol. xii., 1879.
86 COAL.
These seams are, and have been, worked for many
years by the Narbada Coal and Iron Company. In
1874 the out-turn ranged from 700 to 1,000 tons per
month. It was sold to the railway company at about
ten rupees, or at from three to four times the price of
Ranigunj and Karharbari coals. It " could command
this price in consequence of the cost of carriage
respectively of Karharbari, and of English coal from
Bombay.
In 1878, the average cost of Karharbari coal on the
line between Jabalpur and Allahabad amounted to
£i 2s. 4%d. per ton.
XXV. TAWA *
The coal seams of the Tawa valley are of no great
promise; they are of irregular thicknesses and the coal
is generally inferior.
XXVI. PENCH.f
There are many seams in this area, some of which
are of considerable thickness, and the coal is often of
fair quality. The position of the field, surrounded by
hilly country, renders it improbable that it will ever
be of much commercial value.
GODAVERI VALLEY.
XXVII BANDAR.|
This field is situated near the village of Chimur,
thirty miles N.E. of Warora, in the Chanda district.
* " Manual," vol. i. p. 218. f Loc. cit.
J Hughes, "Memoirs Geological Survey of India," vol. xiii.
pp. 145-154. " Manual," vol. i. p. 226.
COAL. 87
The existence of coal measures under a small tract of
Kamthi beds, 5 to 6 miles square, has been proved
by boring. Three seams of coal have been ascer-
tained to exist, and these have a maximum total
thickness of 38 feet. The coal is similar in character
to that of Warora.
XXVIII. WARDHA OR CHANDA, &c.*
This coal field constitutes the northernmost ex-
tremity of an immense tract of Gondwana rocks,
which extend for about 285 miles from north-west to
south-east in the valleys of the Wardah, Pranhita, and
Godaveri basins.
The groups of rocks exposed are as follows : —
Upper Gondwana.
Kota Maleri 1,500 feet.
Kamthi 2,500 to 3,000 „
Barakar 250 „
Talchir . . %, . ^ 500 „
Any attempt to give an idea of the distribution of
coal measures throughout this area, without employing
a mass of detail unsuited to this Paper, would certainly
fail. I shall therefore confine myself to quoting Mr.
Hughes' estimate of the amounts of coal, in several
of the particular tracts, where its existence has been
proved by actual outcrops or by borings : —
* Hughes, loc. dt., pp. 1-145.
88 COAL.
Actual quantity. Amount available.
Tons. Tons.
Warora basin .... 20,000,000 ... 14,000,000
Ghugus 90,000,000 ... 45,000,000
Wun 2,100,000,000 ... 1,500,000,000
Between Wun and Papur 105,000,000 ... 50,000,000
„ Junara and Chicholi 150,000,000 ... 75,000,000
Sasti and Paoni basins . 60,000,000 . . . 30,000,000
2,525,000,000 1,714,000,000
The following assays will serve to convey some
idea of the quality of the coals : —
Warora. Pisgaon. *Ghugus.
Fixed carbon . . . 45*4 ... 65*1 ... 45'6i
Volatile combustible 26'; )
Water ,3-9 1 '" '9'2 - 33'49
Ash 14-2 ... 157 ... 20-90
In Mr. Hughes' report assays of samples from other
localities are also given.
The Warora coal is deficient in fixed carbon, a
larger percentage of which is essential where great
heating power is required. It also is deficient in
combustible volatile gases. Pisgaon coal, however,
contains a more considerable proportion of fixed
carbon — viz., 65*1 per cent.
The only pits in this wide area which are worked
are at Warora, where the out-turn was, in 1878, 1,500
tons per week. The great outlay by the Government
in connexion with the exploration and testing of the
fieldf has not yet been nearly repaid, the cost of
extraction being heavy.
* Average of sixteen assays.
f ;£ 600,000 is stated to have been already expended at Warora
alone at the time Mr. Hughes' report was printed.
COAL. 89
A special branch line conveys the Wardha coal to
the Nagpur branch of the Great Indian Peninsula
Railway, by means of which it is distributed both for
use on this line and in factories.
Several other small areas of coal-bearing rocks
occur farther down the course of the Godaveri valley
at Dumagudium, Mudavaram, £c. &c., to which much
interest has attached, as it was hoped that they might
yield a supply of coal for the Madras Presidency, but
the prospect of their -doing so does not appear to
be a good one.
XXIX. KAMARAM.*
This name has been given to two small fields
situated near the village of Kamaram, which lies
forty miles a little north of east from Warangul, in the
Haidrabad territory.
The larger one is six miles long by about one mile
broad; it consists of Talchir, Barakar, and Kamthi
rocks. It includes two coal seams of fair coal,
measuring respectively 9 feet and 6 feet. The
available coal is estimated at 2,265,1204-2== 1,132,560
tons, and it is stated to be equal to the average coal
of the Wardah fields. Its position is unfavourable to
its development, water carriage being too far distant.
The smaller field, which is about half a square mile
in area, is of no importance.
XXX. SlNGARENI.f
This field is situated near the village of Singareni, in
the Haidrabad territory, about thirty miles to the
* King, " Records Geological Survey of India," vol. v. p. 50.
"Manual," vol. i. p. 240.
f King, loc. tit., p. 65. "Manual," vol. i. p.. 241. .
90 COAL.
south-east of the Kamaram field. Its area is nineteen
square miles, the coal measures being found throughout
about eight square miles. The groups represented are
Kamthis, Barakars, and Talchirs. One coal seam was
discovered, but, being much concealed, its thickness was
not ascertained ; an assay of a sample from it gave : —
Fixed carbon 62^4
Volatile 22*6
Moisture (6)
Ash 15
IOO'
Additional seams, one of them 21 feet thick, have
since been proved by boring.
This field may possibly become of some economic
importance, as there is a prospect of there being a
railway constructed at no great distance from it.
SIKKIM.
XXXI. DARJILING DISTRICT.*
This field occupies a narrrow zone, which stretches
along the foot of the Himalayas from Pankabari to
Dalingkote. The rocks are probably Barakars, which
have been much crushed and tilted, dipping at angles of
from 40° to 90° to N.N.E., or towards the main mass
of the hills. Frequently the sandstones have been
converted into quartzites, and the shales into splintery
slates. Much of the coal is in the condition of powder,
and some of it has assumed the character of graphite.
The effect of the compression has been to reduce it
by removal of the volatile portions to the condition of
an anthracite. Some experiments were made with a
* Mallet, "Memoirs Geological Survey of India," vol. xi.
" Manual," vol. i.
COAL. 91
view to utilizing it in the manufacture of artificial fuel,
but the process found to be requisite was too expen-
sive, and the difficulty of boring in these crushed
rocks is so great as to render it improbable that this
coal will ever be commercially available.
One seam is 1 1 feet in thickness. The average of
five assays of the coal gives the following composi-
tion : —
Carbon 70*66
Volatile 9*20
Ash 20' 14
IOO'
Into a description of the complicated geological
relations of these beds with those forming the
adjoining mass of the Himalayas I do not now
propose to enter. Mr. Mallet has arrived at the
conclusion that the coal measures are older and
underlie the highly metamorphic rocks of the outer
slopes. To do justice to his arguments would require
more space than is at present available for the purpose.
The fact that this locality is the principal one north
of the Ganges where Gondwana rocks occur is of great
interest in connexion with any discussion as to the
early relations which existed between the Peninsular
and Himalayan regions, and, indeed, the formation of
the Himalayas themselves.
ASSAM.*
Five distinct coal fields have been explored and
reported on in the valley of the Brahmaputra, in
* Mallet, "Mem. Geol. Survey of India," vol. xii. pt. iL
" Manual," vol. ii. p. 701.
92 COAL.
the province of Assam. They are distinguished
by the following names : — XXXII. Makum ;
XXXIII. Jaipur ; XXXIV. Nagira ; XXXV. Janji;
XXXVI. Disai. Besides these fields there are also
other coal-bearing tracts, the details regarding which
have not yet been ascertained. It will be convenient
ill this abbreviated account to treat of them collec-
tively.
Some uncertainty exists as to the age of the rocks,
but the balance of evidence seems to favour the view
that it is middle tertiary (Miocene), and therefore
distinct from the cretaceous and nummulitic coals of
the Khasi hills.
The coal differs from that of the Peninsular coal
fields in having a homogeneous structure and in the
absence of a laminated structure. The average of the
assay of twenty-three samples gave : —
Moisture ''.;/ . 5*
Carbon 56-5
Volatile ........ 34/6
Ash 3.9
This indicates a high quality of fuel as compared
with the coals of the Peninsular fields.
The opening up of these fields is a point of the
highest importance, since at present coal is carried
1,000 miles from ^Bengal for the navigation of the
Brahmaputra, this causing a ten-fold increase on the
prime cost.
It is possible that some of the coal of the Khasi
hills above alluded to may prove of value ; but the
same does not seem probable in reference to the
tertiary coals of the North-West Provinces, although
hopes in that direction have often been expressed, and
COAL. 93
a project for the exploration of one of these deposits
has, I understand, recently assumed a tangible form, a
company having been formed, the results of whose
operations will be watched with interest.
PRESENT OUT-TURN OF COAL IN INDIA, AND
IMPORTATIONS OF COAL FROM FOREIGN COUNTRIES.
An interesting Paper on the " Coal Importations into
India," by Mr. Hughes, of the Geological Survey of
India, was published in the year 1879.* I quote from
it the following general remarks, but must refer to the
original tables for details : —
Beginning with the year 1853, the shipments of coal
and coke to India were 43,562 tons. Since then, after the
lapse of a quarter of a century, they have risen to 609,735
tons. The ratio of increase has not been by any means
steady; wars, rumours of wars, famines, and improved home
freights have always exercised an irregular influence ; as
during the past two years, the importation having jumped
from 399,887 tons in 1876, to 539>533 tons in 1877, and to
609,735 tons in 1878. Our main supply has hitherto been
derived from the United Kingdom ; the contributions
furnished by other countries, with the exception of
those from Australia and France, during spasmodic
periods, being insignificant.
Australian coal has been imported since 1857, but
the amount has fluctuated much from year to year ;
in 1858, 14,061 tons went to Bengal and 8,998 to
Bombay. In 1874, 14,677 tons went to Bengal and
apparently none to Bombay. In 1877, only 799 tons
went to Bengal and none to Bombay, so that the
trade is probably coining to an end.
* "Records of the Geological Survey of India," vol. xii.p. 83.
94 COAL.
As Bengal has her own coal she imports less than
Bombay,* the returns being : —
1870. 1877.
Bombay. . . 239*651 . . . 368-937
Bengal. . . 42'433 • • • 76*278
Burmah . . 20*198 ... 4777Q
Madras . . 11*648 . . . 22*544
Sind . . . 1*995 . . . 7'855
315*935 . . . 523*384
Add coke . . 21*088 . . . 16*149
337-023 . . . 539*533
That a certain amount of foreign coal will always
be in the Indian market is certain, since owners of
outward-bound ships find it convenient to make use
of it as ballast, and carried in this way it is sometimes
sold at very low prices j thus, on one occasion English
coal was quoted in the Calcutta market at sixteen
shillings a ton, and it seldom, I believe, rises to much
above £2 a ton. The trade in Indian coal between
Calcutta and Bombay by sea is not yet fully developed,
and it is uncertain whether it will ever assume such
dimensions as seriously to affect the imports of foreign
coal into Bombay.
In conclusion, it may be said that the annual con-
sumption of coal in India, for sea-going and river
steamers, railways, factories, domestic and other pur-
poses, amounts now to upwards of one million-and-
a-half tons, and that, in round figures, two-thirds of
this amount is raised in the country and the other
imported.
* I have (pp. 70, 86 supra] pointed out that there is a varying
point on the railway where Bengal coal meets coal imported
into .Bombay at equal prices, their relative value as fuel being
taken into consideration.
95
CHAPTER III.
GOLD.
THE subject of Indian gold is one of vast extent.
Not only does the precious metal occur under varying
circumstances over many more or less detached areas
of country, but the methods of extraction practised by
the natives seem to have originated long before the
Christian era, and the out-turn gradually accumulated
through long periods of time, even by such imperfect
operations, may not impossibly account for the great
stores of gold which, according to historians, were
undoubtedly possessed by the Rajas in some parts of
India formerly.
Thus there may be said to be two wholly distinct
aspects of the question : I. The geological. II. That
which belongs to the province of the antiquarian,
historian, and political economist. It will be possible
for me to allude only very briefly to the second aspect,
since not only are many of the necessary works of
reference inaccessible to me at present, but also
because such a topic requires the hand of a specialist
in that kind of inquiry for its adequate treatment.
The ultimate derivation of the gold throughout
India is chiefly from the quartz veins which occur in
the different series of more or less metamorphosed
rocks which are recognized as existing in that country.
I say chiefly, because I have reason to believe that in
some localities gold is contained in certain chloritic
schists, and possibly, too, in some forms of gneiss.
96 GOLD.
Proximately it is occasionally derived from rocks
belonging to various formations which range from
Permian through tertiary periods up to recent alluvial
deposits. To some of the facts under this last heading
which will be found in the following detailed accounts,
I would invite particular attention, as they are of
considerable interest when placed in comparison with
similar facts in other gold-producing countries.
Gold-washing, as practised in India, affords an
example, I believe, of human degradation. The
colonies of washers who are found plying their trade
in most of the areas where, geologically speaking, the
occurrence of gold is possible, must be regarded as
the remnants of a people possessing special know-
ledge ;* for although the former may have some
acquaintance with the appearance of the rocks in the
neighbourhood of which gold occurs, still, so far as I
could ascertain from a close examination of the opera-
tions of two gold-washers who were in my service for
about three months, such acquaintance, if possessed, is
rarely availed of. Indeed I doubt if they ever look
upon the rocks as being really the source from whence
the gold has been derived. They know of its occur-
rence in the sands and alluvial soils, but whence it
ultimately came from they do not trouble to consider.
But it cannot always have been so, for their earliest
progenitors must have ascertained the existence of
the gold by the application of experimental research
* I have often been struck with the traditional knowledge of
such subjects as materia medica possessed by individuals of semi-
savage tribes, who never seem to discover a new idea for them-
selves, nor to modify in the slightest degree, when uninfluenced
by superior races, their method of performing any one single act
in their domestic economy.
GOLD. 97
in localities where, from theoretical considerations, they
believed it to exist
It is scarcely possible that the non-gold-producing
areas in which the Dekan trap or basalt and the rocks
of the Vindhyan formation prevail, and which aggregate
a total area of about one-fourth of the peninsula, were
ever systematically prospected, and for this reason,
if for no other, that the washers, if they were com-
parable to those of the present day, could not have
devoted months and years to the exploration of, for
them, barren tracts, simply from the fact that they
could not subsist under such circumstances.
By what means, soever, they were led to select and
settle in these gold-producing tracts, it is certain that
within such limits a process of segregation has been
going on towards the richest points.
In a part of Western Bengal* I found that genera-
tions of washers had demarcated limits within which
washing was remunerative, and these limits corre-
sponded in a striking degree to the well-defined
boundaries between two formations — the metamorphic
and the sub-metamorphic. In the area occupied by
the former, gold was not absent, but its abundance as
contrasted with that in the latter I ascertained, by
two independent methods of calculation which are
described below, was in the proportion of i to 3.
Hence, as the washers only managed to eke out a
bare subsistence in the sub-metamorphic area, they
confined their operations to it.
The detailed accounts of Indian gold-producing
tracts admit of the following geographical arrangement,
proceeding from south to north : —
* Vide infra, p. 114.
H
98 GOLD.
MADRAS.
i. Wynaad, and 2. Kolar.
BOMBAY.
i. Dharwar, 2. Belgaum, and 3. Kaladgi.
BENGAL.
i. Central Provinces, 2. Orissa, 3. S.W. Bengal,
4. N.W. Provinces, including Himalayas and Punjab.
ULTRA-PENINSULAR AREAS.
i. Assam, 2. Burmah, 3. Afghanistan, 4. Thibet.
MADRAS.
WYNAAD DISTRICT. — The recent contributions to
the literature of the gold-fields of the south-eastern
portion of the Wynaad are ' so voluminous that I ex-
perience a difficulty in preparing a sufficiently complete
epitome of their contents. Among these contributions
the principal are the reports by Mr. William King,
jun.,* Deputy Superintendent of the Geological Survey
of India, and Mr. Brough Smyth, f who was specially
deputed by the Government of India to explore and
report upon the gold in Southern India.
The Wynaad forms a terrace of mountain-land
intermediate in position between the low country of
Malabar and the lofty plateau of the Nilgiri Moun-
tains. It is separated into three portions, which
are locally known as North, South, and South- East
Wynaad ; the latter portion has recently been trans-
ferred from the official limits of the Malabar jurisdiction
* "Records of the Geological Survey of India," vol. viii.
p. 29, and vol. xi. p. 235.
t " Report on the Gold Mines of the South-Eastern portion
of the Wynaad."
GOLD. 99
to those of the Nilgiri district, and in it the principal
gold tracts are situated.
The principal rocks of the area are granites, gneisses,
and other forms of metamorphic rocks, which are
traversed by numerous quartz reefs.
In the tract to which Mr. Brough Smyth gave his
particular attention, and which covers about 500
square miles, 200 out-crops, not necessarily distinct
reefs, were counted ; they are, in short, stated to be
more numerous, and proportionately wider and richer,
than in almost any part of Australia. Mr. King, first,
and subsequently Mr. Brough Smyth, pointed out
that throughout the area there are no accumulations
of drifts or deep leads covered by volcanic formations
such as characterize the Australian fields. Operations,
therefore, have been hitherto, and must be in the
future, confined to " surfacing" and quartz mining, a
regular hydraulic system of mining being inapplicable.
By all the authorities it is considered that the native
processes of washing, as practised to-day by the
Korumbas and Moplas, is of high antiquity, dating so
far back as 500 years B.C. There is evidence, how-
ever, that operations were not limited to mere washing,
but that mining was carried on by one or more classes
of people who have no representatives at the present
day. Mr. Brough Smyth enumerates the traces of this
higher skill under the following heads : —
1. Quarrying on the outcrops of the veins.
2. Vertical shafts.
3. Adits.
4. Vertical shafts with adits.
5. Shafts on underlie.
And remarks that they show different degrees of
knowledge of the miner's art.
H 2
ioo GOLD.
The vertical shafts, though not considered to afford
evidence of the highest degree of mining skill, offer a
problem difficult of solution. They are, even when in
solid quartz, sometimes 70 feet deep, with smooth
sides and quite plumb; what the tools were which
enabled the miners to produce such work in hard
dense quartz no one appears to be able to suggest.
The fragments of stone obtained from these various
mines were pounded with hand mullers, the pounding
places being still seen, and the pounded stone was
then, it is believed, washed in a wooden dish and
treated with mercury.
The Korumbas or gold washers, who are admitted
to be skilful, do not regard the gold as being derived
from the reefs, though they generally select spots near
the reefs for washing. Their earnings amount to from
two to three annas (3^. to \\d^) a day, but it is
possible that at an earlier period of the industry it
may have been more profitable, since Mr. Brough
Smyth says that the present condition of the country
is, that it is covered with " tailings," and corresponds
to that of an abandoned Australian washing. Still it
is the case that : —
On washing a few dishes of the surface soil anywhere a
few streaks of very fine gold will be found. In the vicinity
of the reefs rather heavy gold is got by sluicing ; and if a
suitable spot be selected the native miners will obtain,
even by their methods, sufficient gold to remunerate them
for their labour.
I cannot quote here a tithe of the evidence which
exists as to the former wealth of Southern India,
but the following extract from a letter by Mr. E. B.
Eastwick will be read with interest. Mr. Eastwick
quotes from Dr. Burnell : —
GOLD. 10 1
It has always been a puzzle whence the great wealth
came which enabled the Rajahs of Southern India to
construct enormous works, which collectively must have
cost millions. The marvel is increased by the fact that,
so far from these Indian princes having been impoverished
by this expenditure, they were still possessed of vast
treasures, which fell into the hands of the Moslems in the
fourteenth century and were carried away to Delhi. The
famous Tarijore Temple inscription speaks of a great
abundance of gold which can only have arisen from
mines. Dr. Burnell writes : — " It proves that in the
eleventh century gold was the most common precious
metal in India. Silver is little mentioned, and it thus
appears that the present state of things, which is exactly
the reverse, was only brought about by the Portuguese in
the sixteenth century. I submit that the great abundance
of gold spoken of in the inscription can have arisen only
from mines, and that in the terrible convulsions caused by
the irruption of Moslem invaders from the north, and
Europeans from the west, the position of these gold fields
was lost sight of."*
The History of Tippoo Sultan further gives definite
accounts of vast accumulated treasure ingold.f
To my mind, as an occasional visitor to the Madras
Presidency, there is a noteworthy and remarkable fact
which seems to have been overlooked by writers on
this subject, and that is that the total amount of gold
in the possession of the poorer classes of the inhabi-
tants of Southern India must be enormous, and pro-
portionally much greater than in other parts of the
* Times, January 2nd, 1879.
+ It may be well to point out that gold working in these early
times was in all probability carried on by slave labour, or what
amounted very much to the same thing, and that peculation met
with pretty summary treatment.
102 GOLD.
country. Men, women, and children even of the
coolie class are commonly to be seen wearing orna-
ments of pure gold. Golden nose ornaments are worn
almost universally by the women and children. In
the northern parts of India the ornaments which are
worn are generally made of the baser metals or of
glass, &c. In times of famine or distress in Southern
India these golden ornaments are disposed of in order
to procure food. Throughout India the use of jewel-
lery by the higher classes is sufficiently notorious not
to require special comment ; but the use of pure gold
by the lower orders is in a great measure, I believe,
peculiar to Madras.
In the year 1831, the Government appointed a
Commission to make inquiries into the gold-yielding
district of the Wynaad, but the matter was for a time
allowed to flrop. During the last decade, however,
largely in consequence of the number of Europeans
attracted to the coffee plantations, interest in the
subject was again aroused, and several pioneer com-
panies were formed ; but although favourable per-
centages were obtained by assays the practical results
of quartz crushing were counted only in pennyweights
per ton, and owing to defective management and
imperfect machinery, the time expended, and conse-
quently the cost of production, proved greater than the
receipts.
Mr. Brough Smith is of opinion that if proper care
be taken under skilled management the working of
gold in Southern India must ultimately become a
profitable undertaking : —
The average yield out of 137 samples assayed was
2 oz. 13 dwts. 2 grs. per ton, or, if one exceptional sample,
GOLD. 103
which yielded 204^ oz. and another which gave 25^ oz. to
the ton be left out, the average yield was I oz. 8 dvvts. 22 grs.
per ton.
At the present time (May, 1880) there are two or
more companies in London, one in Glasgow, and
several in India, which have for their object the working
of mines in the Wynaad, and it is said that already
favourable news has been received of the preliminary
operations, and the shares are now quoted at a high
premium.* As I ventured to predict in my recently-
published work, "Jungle Life in India," when speaking
of mining enterprise generally in India, some of the
undertakings seem destined to be hampered seriously,
on the threshold of their operations, by vexatious
litigation, which is in part due to the absence of
definite mining laws in India.
The following, which I extract from the Pioneer
Mail, of the 22nd of April last, is the very latest infor-
mation I have received on this subject : —
Since public interest in the gold-mining prospects of
Southern India waxes stronger day by day, both at home
and in this country, and men have made up their minds
that the development of vast mineral wealth is merely a
question of time, capital, and machinery, it is discouraging
to hear that enterprise is likely to be checked in certain
parts of the Wynaad in consequence of litigation. This
has been anticipated for some little time. It was known
that the right of ownership of certain blocks was chal-
lenged, and that the dispute was likely to culminate in
legal hostilities. It is now currently reported that the
* Extract from William Abbott's Monthly Price List, dated
6th May, 1880. Indian Glenrock Gold Mine — Capital ^100,000,
Shares £i ; Paid all ; Price j£i|-if. South Indian Gold Mine
— Capital ,£100,000, Share £i ; Paid all ; Price ;£if-2.
104 GOLD.
"fat is in the fire," and that actions and cross-actions are
pending. If this rumour prove true, work will of course
be brought to a deplorable stand-still, and the general
high opinion formed of the field at home will suffer.
Nothing could exercise a more deterrent effect upon the
minds of English speculators than to hear that the legal
title to the land was doubtful. For this, and indeed for
every reason, the best endeavours will no doubt be made
to settle ground-right disputes by arbitration, and to
preserve "peace with honour" among the various
claimants. *
I am tempted to add the following extract from the
Pioneer also, which illustrates the shortsighted policy
of the native landholders, and the manner in which
they can in India — unrestrained by such regulations
as exist to limit the powers of landed proprietors in
Australia — effectively cripple mining enterprise : —
The Ootacamund paper learns that "the Nellambur
Raja is determined to make those who want the mining
rights on their coffee estates pay well for them, and all
this comes out of the Alpha lease having been extended
for a large sum of money, some Rs. 10,000, for ten acres
of land, the vein stone of which, it is expected, will be
worked out before the present lease, some eight years
more, expires. It appears also that the mining conces-
sions lately acquired by the trustees of Messrs. W. Nicol
and Co. limit them to the selection of fifty acres within a
certain area of his territories, and that owners of estates
within these boundaries are not to be interfered with.
The Raja has offered to grant mining rights to all desir-
ing them, but upon terms which will simply drive away
capitalists. We certainly think a deputation of the Raja's
tenants should wait upon His Highness and impress upon
him the folly of demanding such exorbitant and prohibitive
rates, or making them sign agreements which can never
be fulfilled."
GOLD. 105
The question of climate is by no means an un-
important one, and has not been overlooked by Mr.
Brough Smyth. It is a factor known to exercise an
appreciable influence in all commercial undertakings
in India, as, for instance, the cultivation of tea in
Assam : —
Though the climate of the Wynaad has been repre-
sented as unhealthy, it is not uncommon for Europeans
employed in connexion with coffee gardens to remain in
the district with their families throughout the whole year.
Fever is prevalent in March, April, and May, and some of
the residents become seriously ill. But it must be borne
in mind that a coffee-planter who attends carefully to his
business is subjected to exposure to the sun during the
hot months and to the heavy rains during the monsoon.
He has to walk or ride for many hours each day, when
the solar radiation is at its maximum, and during the
monsoon his clothes are rarely dry.
KOLAR (OR COLAR) DISTRICT. — The Kolar district,
situated in Mysore, is also at the present moment
attracting a considerable amount of attention in con-
nection with its gold. Unlike the Wynaad it does
not appear to have been as yet systematically ex-
plored by any geologist or mining expert, and my
information regarding it is therefore limited to what I
have been able to collect from notices in the Indian
newspapers. However, the general fact is known that
the rocks are similar to those of the Wynaad, belonging
to the metamorphic series, but as to the abundance
of quartz reefs I have no information. As in the
AVynaad, gold has long been sought for by the natives
in Kolar, and it is claimed for this area that it was
largely instrumental in supplying the wealth of Southern
India spoken of above. Indeed, it is stated that Hyder
io6 GOLD.
and his son Tippoo erected their mints, the ruins of
which are to be seen to this day, in the district close to
the spot where the Ooregaum Company is at present
working. The climate is said to be good, quite
equal to that of Bangalore, the elevation being 3,800
feet above the sea, and the arrangements made by the
Government for leasing the land are described as
being favourable to enterprise. The following extract
is from the Pioneer of the 291)1 of April, 1880 (quoting
the Bangalore Spectator) : —
GOLD MINING IN MYSORE.— From a notice issued by
Messrs. Arbuthnot and Co. it appears that a company is
being formed to work a portion of the land in the gold-
yielding region of Ooregaum, in the Kolar district. The
Ooregaum Company is now hard at work, and the analyses
of quartz from its mines, by Mr. Brough Smyth, show con-
clusively that the auriferous yield is exceedingly good, and
that the results to be obtained are all that can be desired.
The gold-fields are not far from the Colar Road "Station
(six miles) and have everything in their favour — climate
as good as Bangalore, food and labour cheap and plen-
tiful, and there is every reason to believe that the gold-
mining industry will be a great success in the Mysore
country. Those who wish to invest in a good speculation
have now such an opportunity placed within their reach,
while the well-known name of Messrs. Arbuthnot and Co.
is a sufficient guarantee that the Madras Gold-mining
Company will be carried on properly. Judging by our
English contemporaries, it would appear that there will be
no difficulty in allotting the whole of the shares in the
London market, where the gold mining companies are
highly thought of as safe investments.
BOMBAY.
Within the limits of the Bombay Presidency the
districts of Dharwar, Belgaum, and Kaladgi are the
GOLD. 107
principal in which gold is known to exist, and where
native gold-washers, locally called Jalgars, derive a
livelihood from searching the auriferous sands.
DHARWAR DISTRICT. — In a Paper entitled " The
Auriferous Rocks of the Dambal Hills, Dharwar
District,"* Mr. R. B. Foote, F.G.S., of the Geological
Survey of India, has given an account of his researches
when tracing the source from whence the alluvial
gold of the region has been derived, together with a
description of the system adopted in washing for gold
in the streams which'flow through the auriferous tracts.-
Mr. Foote considers that the gneissic rocks of this
area belong to three distinct series, each characterized
by certain lithological peculiarities. He distinguishes
them by the following local names : — i. Dhoni, 2. Kap-
patgode, 3. Soortoor : —
All the streams said by the natives to be auriferous
rise within the limits of the tract occupied by the Soortoor
series, and the upper course of the Soortoor Nullah. The
richest of all lies entirely within the area occupied by the
pseudo-diorite and associated chloride schists.
" Quartz reefs occur in all the rock series above enume-
rated, but those lying within the limits of the Soortoor
series are the best defined The surface of the
principal reefs has been much broken up, doubtlessly by
gold seekers.
Mr. Foote obtained a trace of gold in a fragment
of quartz from the principal reef in the Kappatgode
series.|
* "Records Geological Survey of India, 1874," vol. vii. p. 133.
t Other authorities on this region are, as quoted by Mr. Foote
— Lieutenant Aytoun, "Trans. Bombay Asiatic Society," voL
xi. p. 8 ; Dr. Carter, "Geological Papers on Western India;"
Capt. Newbold, No. 4 of " Papers on the Mineral Resources of
Southern India."
io8 GOLD.
BELGAUM DISTRICT. — Mr. Foote (loc. at.) mentions
several localities in this district where gold was for-
merly washed for, or was reported to occur, in the
sands of various streams. It appears to have been
derived from quartz reefs which traverse some chloritic
schists and pseudo-diorite. In certain localities gold
is still obtained in small quantities, but the district
does not appear to be one of much promise.
The gold-washers (yalgars) are stated to be Ma-
homedans, which is exceptional, probably they are
converts.
In reference to this district Mr. Foote""' has also
written a follows : —
Gold is found in very small quantities in some of the
streams flowing into the upper part fof the Malprabha,
from both sides, through a region occupied by chloritic
schists, with rather poor haematite schist intervening.
The exact source of the gold supply remains to be
determined. The yield is so exceedingly small that these
streams are now but very rarely visited by the Jalgars, or
gold-washers. Very few quartz veins occur in this region,
and none were noticed with a north to south course. A
small stream a little westward of the village of Belowaddi
appears to be the most auriferous, but I failed in getting
an appreciable quantity of gold in a number of carefully-
selected samples of sand and gravels collected in pro-
mising places in the bed.
BENGAL.
Using the term Bengal in its widest acceptation
the gold-producing areas included in it may be classi-
fied as follows : —
1. Central Provinces.
2. Orissa.
* "Memoirs Geological Survey of India," vol. xii. p. 259.
GOLD. 109
3. South-Western Bengal, or the Chutia Nagpur
Province.
4. North-West Provinces, including the Himalayas
and Punjab.
i. CENTRAL PROVINCES. — In the extensive region
known as the Central Provinces, and throughout a
considerable portion of which metamorphic rocks
prevail, gold-bearing rocks and their natural product,
auriferous sands, are probably widely distributed ; but
on this subject little has been published, and at
present I am only able to refer to a Paper by
Colonel Ouseley,* and to my own notes which
apply to the district of Sambalpur, where I made
inquiries regarding gold in connection with those
which I instituted in the same locality in reference to
diamonds.
The following remarks I have already published,!
but I reproduce them here only slightly modified, as
they serve to epitomize all that is at present known on
the subject.
Gold in all probability occurs pretty generally
throughout those portions of the district of Sambalpur
in which metamorphic rocks prevail. So far as I have
been able to gather from personal observation, the
washers confine themselves to the beds of the Ma-
hanadi and Ebe • but in the rains they are said to
leave the larger rivers and wash in the small jungle -
streams.
In the Ebe, below Tahood, I saw a party of gold-
washers encamped on the sand. The places where
* "Journal Asiatic Society of Bengal," 1839, vol. viii.
f "Records of the Geological Survey of India," vol. x.
p. 190; and "Jungle Life in India," p. 529.
no GOLD.
they were actually washing were within the area
occupied by rocks of Talchir (Permio-triassic) age ;
but whether the gold was proximately derived from
them, or had been brought down by the river, as is
possible, from the metamorphic rocks a short distance
higher up, I am unable to say.
There is, of course, no primti facie improbability in
the Talchir rocks containing gold. On the contrary,
the boulder-bed, including as it does such a large
proportion of materials directly derived from the
metamorphic rocks, might naturally be expected to
contain gold. In this connection it may be men-
tioned that in Australia, a conglomerate bed of car-
boniferous age has been found to be auriferous,* and
the same has been recorded in Nova Scotia, j
As to the methods employed by, and the earnings
of, the gold-washers, the remarks about to be made
on the gold of Singbhum apply equally to Sambalpur,
and need not be anticipated here.
It may be added that to the north-west of Sam-
balpur there are a number of parallel quartzite ridges
which, in places, have much the appearance of veins ;
they are, I think, worthy the attention of the pro-
spector for gold.
Fine quartz reefs also occur in many parts of the
district.
ORISSA. — In the province of Orissa gold is reported
to occur in the sands of the river Brahmani, in the
Pal Lahara, where it is said to be worked to a con-
siderable extent.J
* Vide " Geol. Mag.," 1877, p. 286.
t "Jour. Geol. Soc.," vol. xxxvi. p. 313.
J "Mem. Geol. Survey of India," vol. i. p. 88.
GOLD. in
Similarly, it is believed to exist in various rivers in
the native States of Dhenkenal and Keonjhar.*
The above rivers drain areas in which metamorphic
rocks are alone believed to prevail ; but the already-
quoted memoir, however, contains the following
passage, which may be read in connection with the
passage above as to the occurrence of some of the
gold in Sambalpur : —
Gold is occasionally washed in the Tikaria river, and
was also, a few years since, obtained from the sands of
the Ouli. The latter case is rather interesting, since the
localities are in a sandstone country through which the
Ouli mainly flows.
SOUTH-WESTERN BENGAL, or THE CHUTIA NAGPUR
PROVINCE. — In giving an account of this area I think
it well to quote in full a Paperf by myself, which
records the results of my researches in the districts of
Singhbhum and Manbhum.
I do so because I believe this area has not received
the attention from prospecting companies which it
deserves. In the neighbourhood of Chaibassa, the
chief town of Singhbhum, I have been especially struck
with the auriferous aspect of the rocks. The earthy
slates and shales with magnesian schists, and numerous
small quartz reefs, are precisely the rocks which,
judging from all experience, ought to yield gold : —
The existence of gold in the districts of the south-west
frontier of Bengal and in the neighbouring tributary States
has long been known. It is found not only in the sands
* Sterling, "Asiatic Researches of Bengal," 1825, vol. xv.
p. 163.
t "Records Geol. Survey of India," vol. i. 1869.
H2 GOLD.
of many rivers and streams, but in some instances it has
been mined for in the alluvial and other superficial
deposits.
Colonel Haughton, in his interesting memorandum "On
the Geological Structure and Mineral Resources of the
Singhbhum Division,"* has given an account of the gold
washing, and enumerated several localities where gold
mining had been, or was at the time of his visits, carried
on. He also quotes from a letter from Mr. Robinson, in
which that gentleman states the results of his attempts to
establish gold-mining under European superintendence.
At Rabkobe, in Udipur, where operations were commenced
and showed some prospects of being fairly remunerative,
the climate proved so "hot and unhealthy " that it was
found that no European could live there, and the works
were given up.
Colonel Haughton says that "the metal was found
some years ago in considerable lumps in the Sona
Nuddee of Sonapet, in Tamar, on the the northern ex-
tremity of Singhbhum, and much is still found there." I
have invariably found that the washers have traditions of
nuggets having been found at intervals. A nugget from
the native State of Jushpur is now in the Geological
Museum. Its exact weight was, after cleaning, 199*6
grains, the per cent, composition being —
Gold 94*64.
Silver 5'i5.
9979-
The cases of gold having been found in situ are un-
doubtedly rare. Colonel Haughton speaks of its occurring
in situ " a little north of Assuntulea in Khursowa." but
farther on he states, " I have not heard of any instance in
which the metal has been found attached to a stone/' so
* "Jour. Asiatic Soc. Bengal," vol. xxiii. p. 103. 1854.
GOLD. 113
that the former statement must only mean to imply that
it is mined for in superficial deposits. Dr. Emil Stoehr
states* that traces of gold were found in the copper ores
of Singhbhum. A Mr. Emerson was specialty employed
by the Singhbhum Copper Company to investigate the
gold resources of the country. He is said to have
crushed a quantity of quartz and to have found traces
of gold in it ; but his operations do not appear to
have been sufficiently successful to encourage him to
continue. In Chaibassa, I was shown a small nugget
of gold in a quartz matrix. It was said to have been
obtained in the Kappargadi Ghat, near Kalkapur, in
Dhalbhum.
It is not within the scope of the present Paper to
write a complete resume of all that is recorded on the
subject, but rather to give an account of what has
actually come under my own observation in those
portions of the districts which have been examined
geologically.
During the season of 1866-67, I fancied that I was able
to connect the occurrence of gold in the streams with the
existence of certain sub-metamorphic rocks (magnesian
and mica schists, slates and quartzites) which were then
for the first time met with in Manbhum. Being anxious
to put this connection to as rigid a test as circumstances
would admit of, and wishing to define, if possible, the
exact boundaries within which gold certainly exists and
may be reasonably looked for, I with some difficulty
persuaded two gold-washers (man and wife) to accompany
me during my examination of the southern portion of the
district of Manbhum. They remained with me for up-
wards of three months, washing daily at such places as
were pointed out.
One of the most interesting results is, that the exist-
ence of gold in the metamorphic as well as the sub-
* Einige Bemerkungen iiber den District Singhbhum in
Bengalen : Vierteljahrschrift der naturforschenden Gesellschaft,
Zurich, 5th year, Part 4, 1 880.
I
H4 GOLD.
metamorphic rocks has been satisfactorily proved. This,
from various reasons, I was not prepared to expect.
Colonel Haughton, who speaks of the granitic gneissose
rocks as igneous, states that gold is never found in the
streams traversing them. Again, the natives, so far as
my experience goes, do not wash the sands, &c., lying on
these gneissose rocks, although they do not connect
the existence of gold in the sands with the vicinity of any
particular rock.
In Manbhiim, the experience of generations of washers
has enabled them to define the boundaries within which
washing is remunerative ; and this boundary, it is inte-
resting to observe, corresponds on the north exactly with
that of the sub-metamorphic rocks.* This coincidence I
ascertained in the following manner. On my arrival at
Dulmi (which is situated on the faulted boundary of these
two groups of rocks) when marching northwards from the
lower part of Patkum, the gold-washer asked to be
allowed to return to his own country (Dhalbhum), stating
that none of his race ever went north of Dulmi. I
induced him, however, to stop, and while we remained
north of the fault the washings were carried on in the
granitic gneiss area with comparatively poor, but not
exactly barren, results. On the day I crossed the fault
south of Sindaree, when returning southwards, the gold-
washer said that we should after that find gold more
regularly and in greater quantities than we had done
since we came north at Dulmi.
During the whole time, a record was kept of the daily
results and of the nature of the rocks in which the wash-
ings were made. The following abstract will suffice for
comparison of the productiveness of the two forma-
tions : —
* A line drawn across the southern part of Manbhum from
Simlapal on the east through Burrabazar to a little north of
Echagurh on the west, roughly indicates the position of the line
of boundary between the two formations.
GOLD. 115
SUB-METAMORPHIC OR LOWER TRANSITION SERIES.
Jan.
Feb.
March.
April.
Total.
Number of days
on which wash-
ings were made
31
9
18
8
66
Unsuccessful days
2 3
2
2
9 =13-6 per cent.
Gold in grains .
17-68
4-65
7-6
2 '45
32-38
Daily average in
grains . . .
•57
*p6
'4
'3
Daily average for
whole period
" 66
METAMORPHIC OR CRYSTALLINE SERIES.
Jan.
Feb.
March.
April.
Total.
Number of days
on which wash-
ings were made
—
20
J3
—
33
Unsuccessful days
—
13
9
—
22 =66 per cent.
Total gold in
grains . . .
—
478
7
—
5'48
Daily average .
•23
•05
Daily average for
whole period
Comparing the results by the number of successful
days first, we may say, that for gold-producing, the
sub-metamorphic rocks are to the metamorphic as
(100 — 13*6=) 86'4 to (100—66=) 34=2-5 : i ; comparing
by daily average, the proportions become '49 : *i6=q. p.
3:1. We may therefore conclude that the sub-meta-
morphics are between two-and-a-half and three times as
productive of gold as the metamorphics, so that as the
gold-washers only find a subsistence from washing in the
sub-metamorphic area, it is obvious that it would not pay
them to work in the metamorphics.
I 2
n6 GOLD.
The greatest amount found on one day was 2*2 grains,
but the daily averages given above should not be taken as
indicative of the amount of gold to be found by a regular
system of working, where the washers would of course be
set at favourable spots, and would not have to spend a
considerable portion of their time daily, as was the case
of the men I employed, in making marches before they
reached the scene of their labours.
It is conceivable that the fact of the greater quantity of
gold being found in the superficial deposits within the sub-
metamorphic area might be attributable to something in the
configuration or elevation of the ground conducive to the
greater accumulation of gold within that area. I could
not, however, discover anything of this kind ; the fall to
south is gradual throughout both formations. The origin
of the gold which is annually found in the rivers at present
is, I believe, twofold, a portion being directly derived from
the rocks, and the remainder resulting from the reassort-
ment of detritus which is the remnant of sub-aerial
action. In both formations, the evidences of extensive
sub-aerial action are numerous and prominent, and it is
obvious that Nature has been carrying on gold-washing
operations in the valleys since denudation first commenced
to scoop them out, leaving barriers of intervening ranges
of hills formed of the hardest rocks between them.
Various Papers in the "Asiatic Society's Journal" describe
the methods of gold-washing practised in different parts
of India. The instruments used, though essentially the
same in principle throughout, have local peculiarities of
shape, &c., and the manner of manipulation also varies.
At Hira Khund, in Sambalpur,* the same instrument and
manipulation served for the separation of both diamonds
and gold. In fact the diamonds were found in the middle
of the process, the iron sand with specks of gold being
the final residue. In Manbhum and Singbhum the instru-
ments used are, perhaps, more simple than those used in
* "Jour. Asiatic Soc. Bengal," viii. 1057. 1839.
GOLD. 117
any other place. The dish measures 28" by 18", it is
hollowed somewhat eccentrically to a maximum depth of
about 2\ inches. A scraper, formed of a flattened iron
hook set in a handle, serves to collect the auriferous sand
and gravel which accumulates in the angles of the rocks
in the beds of streams. The dish when filled is placed in
shallow water, and the operator working with his hands
soon separates and throws aside all the coarser gravel
and stones, while the agitation of the water serves to
carry away all the mud and lighter portions. The dish is
then balanced on the palm of the left hand and oscillated
to and fro with the right ; this serves to throw off the
greater portion of the remaining gravel, and the process
is completed by a circular motion, which is communicated
to the water in the hollow of the dish, by which even the
smallest particles of foreign matter are separated, and the
final result is a residue of black iron-sand in which the
specks of gold are readily apparent.
The gold-washers belong to the lowest and poorest
races in the country. Throughout Chutia-Nagpur the
tribes who are engaged in this occupation may be
classified as follows : —
ist.— The Dohras, or Dokras, of Manbhum, who are
allied to the Kumars, and profess to be Hindus. Among
them both sexes wash for gold.
2nd. — The Ghasis of Singhbhum, among whom the
men only wash for gold. The Ghasis are also musicians,
and only certain families, or sub-tribes, engage in the
former occupation.
3rd. — In the hilly country, west of Singhbhum, among
certain of the Kol or Munda tribes, the women wash for
gold during the rains ; but the men regard the occupation
as unworthy work for their sex.
The methods employed by these different tribes appear
to be identical in all essentials, and similar to the process
just described. Each occupies a distinct tract, and
poaching on each other's favourite streams is not in-
dulged in to any great extent.
n8 GOLD.
Their numbers were greatly reduced by the famine of
1866 ; without exception they are all in the power of the
money-lenders, for whom they work at a low rate, and are
never able to free themselves of the claims which the
latter make on account of advances.
The daily earnings of the gold-washers are small, but
might, no doubt, be increased, if it were not that they are
always satisfied when enough gold has been found for
procuring the day's subsistence.
Colonel Haughton says: — "The Ghasis can always
reckon on earning three or four pice per day, and I am
assured that a vigorous man often gets as much as
twelve annas, which, as the ordinary rate of field labour
is about one pice, must be considered a very large sum."*
Mr. Robinson found, in a trial which he made at Raobbk,
in Oodipur, that men to whom he paid one anna could
produce for him from three to four annas worth of gold.
Colonel Dalton states that the washers themselves regard
it as a very poor trade, simply yielding they say, pet bur
(bellyful). Dr. Stoehr, in his Paper on Singhbhum, states
that he found the average daily earning to be about 25
centimes (rather more than an anna and a half). The
men I met with stated that they could earn about an anna
a day, and occasionally three or four annas.
The simplest idea of the process of hydraulic mining-
which seems so nearly to approach to perfection in Cali-
fornia, is not altogether unknown to the natives. Mr.
Robinson says:f — "Another plan, and a very remarkable
one, in which the people collect the gold, is by drawing-
up small watercourses before the rains, so as to make
places for a deposit of soil carried down by the water; this
soil is cleared out several times and in it is found a
large deposit of gold."
In the shallow diggings the hydraulic system would
not, of course, be applicable ; but even in them an in^
* "Jour. Asiatic Soc. Bengal," vol. xxiii. 1854, p. 109.
f Ibid., p. 1 08.
GOLD. 119
creased yield would undoubtedly result from supplanting
the native's dish by the Californian pan, rocker, long-torn,
and sluice.
NORTH-WEST PROVINCES, INCLUDING THE
HIMALAYAS AND PUNJAB.
In the North-West Himalayas the occurrence of
gold has been alluded to by many travellers, but the
following notices, from the official publications of the
Geological Survey of India, contain the most impor-
tant facts in connection therewith : —
There are gold- washings carried on yearly in the beds
of the Himalayan rivers, and most extensively even in
streams which only drain the sub-Himalayan rocks.
The fact is rather interesting ; since in these streams the
gold must have a doubly derivative origin.*
Sana River, Gttrhwal District. — This stream rises in
the lower range of hills, and joins the Ramgunga river in
Palti Dhun. Its sands yield gold, and the bed of the
Ramgunga below the junction is auriferous. The washing
is not very profitable, scarcely averaging four annas a day
to each workman.
Again : —
The sands of the Ganges, running through Taluka
Chandi, contain gold, but the profit arising from the
washing is not greater than in the Sona river.f
Punjab : —
Gold is washed for in the Indus, at Kalabagh, some-
times also in the Bunhar river bed at the other end of
the range (Salt Range), and in several small streams
along its northern flanks, the present soiirce of the
precious metal being the tertiary sandstone formation,
* Medlicott, "Mem. Geol. Survey of India," vol. iii. p. 179.
f Lawder, " Records of the Geological Survey of India,"
vol. ii. pp. 88, 90.
120 GOLD.
and apparently among the lower beds of the Lower Siwalik
group. The process is not continuous, being only carried
on after heavy falls of rain in the smaller streams, and in
the Indus when floods permit. The amount realized can
hardly be closely ascertained, for as the industry is taxed
it is the interest of the operators to conceal their gains.
According to the best information obtainable these
fluctuate from three to four annas' worth a day per man,
this being generally thought rather above the measure of
success.*
The gold washing in the Salt Range is described in
some detail by Dr. Fleming in his Report.f
: Dr. Jameson also alludes to the gold which is found
there.:}:
ULTRA-PENINSULAR AREAS.
The principal gold-producing countries beyond,
but adjoining the limits of, Peninsular India, are en
the east : —
1. Assam.
2. Burmah.
And on the west and north : —
3. Afghanistan.
4. Thibet.
ASSAM. — In Assam Capt. Dalton and Col.
Hannay carried on researches, in reference to the
occurrence of gold, which were made public through
the medium of the " Journal of the Asiatic Society of
Bengal. "§ Subsequently the same gentlemen were
requested by Government, in the year 1855, to under-
take a farther examination of the auriferous deposits
* Wynne, "Mem. Geol. Survey of India," vol. xiv. p. 303.
t "Jour. Asiatic Society Bengal," 1853, p. 230.
% Ibid., vol. xi. p. i.
§ Vol. vii. p. 625, and vol. xxii. p. $ll.
GOLD. 121
of Upper Assam, and were supplied with ample funds
for carrying out their investigations.
From an abstract of their reports, by Dr. T. Oldham,
late Superintendent of the Geological Survey of India,
I quote the following :* —
Gold was obtained in the Brahmaputra at Parghat,
above Sudya, and in several tributaries, Noa-Dehing,
Dihong, and Hookong. "The spots selected by the
natives are those salient angles or reaches of the river
where the alluvial deposits, cut away by the stream from
the opposite bank, are partially redeposited, after having
undergone the sifting action of the current."
The gold " is derived from the crystalline rocks in the
first instance, but only becomes sufficiently concentrated
to render it worth working in the alluvium, after this
alluvium has undergone repeated washings in the river
current, by being successfully cut away, washed, and re-
deposited as the river changes its course."
The Dihong river, from the hills to the north, " yielded
gold in considerable quantity, from its junction with the
Brahmaputra to about half-way between that stream and
the hills." 5-f- tons of gravel yielded 90 grains of gold =
l&\ grs. per ton. " This stream is considered by the
natives to be the richest in Assam."
The apparatus used in these investigations were a
Californian cradle worked by four men, and which
was found to give the largest daily yield per man ;
and a Singpho washing dish worked by one washer and
one assistant.
No. i. Gold from Brahmaputra yielded 88*281 per cent, pure gold
No.2. NoaDehing „ 93*880 „ ,,
Dihong „ 90-234 „ „
Hookong „ 86-588 „
BURMAH. — The following facts are taken from a
* "Mem. Geol. Survey of India," vol. i. p. 90.
122 GOLD.
Paper, by Dr. Oldham, entitled " Notes on Specimens
of Gold and Gold Dust procured near Shue Gween, in
the province of Martaban, Burmah."*
Gold-bearing sands and nuggets were forwarded from
Shue Gween to Dr. Oldham, who obtained from the
former, amounting to about the fifth of a cubic foot in bulk,
"75 of a grain of gold by washing and '20 by the aid of
mercury ='95. The sand consisted of particles of meta-
morphic rocks. The gold on assay proved to consist of
92 per cent, of pure gold and 8 per cent, of silver.
The natives washed in the Shue Gween river from time
immemorial, and under the Burmese Government there
was a Farmer-General who paid a certain sum to the
royal treasury and sub-let the privilege of washing to
numbers of persons.
Mr. Theobald, of the Geological Survey, writes as
follows regarding gold in the Irrawadi :f —
Gold occurs in the bed of the Irrawadi, but in such fine
dust and so sparingly that few engage in the task of wash-
ing for it. I am told that it is occasionally washed before
Prome, but the only spot where I have witnessed the
process is at Shuaygyeing (gold scratching), not to be
confounded with Shuay Gyeen on the Sittoung, just above
Monyo, where a little gold is obtained. The gold is found
in a coarse gravel bank, left dry by the river when it sub-
sides after the rains.
This coarse gravel is dug out and laid on a sort of
hurdle, which permits the fine sand to pass through, the
coarse pebbles and boulders being rejected. This sand is
washed on an inclined board ; the lighter portion being
gradually swept down the incline by a stream of water
directed over it, whilst the heavy auriferous sand remains,
and is from time to time collected. The sand is lastly
* " Mem. Geological Survey of India," vol. i. p. 94.
•t Idem, vol. x. p. 343.
GOLD. 123
washed in the common wooden hand dish, of circular
form, and the gold it contains collected by amalgamation,
The profits of this pursuit are small, and the labour great ;
the men not netting more than two or three annas a day
profit, which must be regarded as a miserable remunera-
tion, where the ordinary hire for a cooly is eight annas,
or twice that at the rice ports during the shipping season,
In another Paper, on the " Metalliferous Resources
cf British Burmah," Mr. Theobald says :*—
Though of slight economic importance, gold occurs in
most parts of Burmah, but is very little worked within
British territory, which I attribute to the higher and more
certain remuneration there obtainable for agricultural or
other labour; and gold working is therefore pursued
mainly in bad seasons, or as an exceptional means of
industry taken up merely now and again.
Tavernier,| in his enumeration of the places where
gold is produced in Asia, mentions the kingdom of
Tipra (? the modern Tipperah). He says, "it is
coarse, almost as bad as that of China."
Other references to the gold of Burmah are to be
found in various works descriptive of that country.
AFGHANISTAN. — There is a gold mine a little to the
north of Kandahar city. It appears to be in quartz
veins, which are superficially excavated, gunpowder
being employed. The gold is sometimes chiselled out
in pure granules ; the stone is not taken out unless it
contains visible gold. It is taken into the city for
treatment. The mine belonged to the Government ;
had been worked anyhow for some twelve years, and
in 1872 was leased to a contractor for Rs. 5,000 a year.
As much more was spent on working the mine, and
the yearly out-turn was said to exceed Rs. 10,000.
* " Records Geological Survey of India," vol. vi. p. 95.
f "Travels."
124 GOLD.
THIBET — I include Thibet in this account as there
is every reason to believe that for many centuries a
regular supply of gold has entered India from thence,
and continues to do so to the present day. In a
Paper by Mr. A. Lawder, on the " Mineral Statistics
of the Kumaon District/'* we find the following
passage : —
Gold is found in many of the rivers of Thibet, at
Silungsakka, £c. ; it is sold at the same fairs as the salt
and borax, either in nuggets or grains. About 10 to 12,000
rupees' worth is brought down annually, some of which is
disposed of in the hill districts (Kumaon and Gurhwal),
probably about one- third, and the remainder most likely
finds its way to Delhi, Agra, £c. It is sometimes found
to contain copper.
Tavernierf mentions the occurrence of gold in
Thibet, though he was not aware apparently of its
being worked in his time in Southern India. He
says : —
Toward Thibet, which is the ancient Caucasus, in
the territories of a Raja beyond the kingdom of Cachemir,
there are three mountains close one by another, one of
which produces gold, the other granats (garnets), and the
third lapis lazuli.
Of the very highest interest are the accounts of the
Thibetan gold mines which are given by the Pundits
attached to the Indian Survey for the purpose of
exploring countries north of the Himalayas. Un-
wittingly these admirable native servants of the
Government of India have furnished facts which have
enabled Sir Henry Rawlinson, and independently
* " Records of the Geological Survey of India," vol. ii. p. 90.
+ "Travels/5
GOLD. 125
Professor Frederic Schiern, Professor of History at the
University of Copenhagen, to clear up a mystery
which has been a puzzle to the historians and philo-
sophers of many countries for upwards of 2,000 years.
A translation of Professor Schiern's Paper,* by Anna
M. H. Childers, will be found in the " Indian Anti-
quary."! It is a most remarkable example of learned
research, and one very difficult to give in abstract. It
is entitled "The Tradition of the Gold-digging Ants."
But perhaps before giving the conclusions which Sir
Henry Rawlinson and Professor Schiern have arrived
at, it will be best in this place to briefly describe the
Pundits' observations : —
During the expedition of 1867 the Pundit who had been
at Lassa fell in at Thok Jarlung, an important gold field in
the province of Nari Khossam, with a large encampment
of Thibetan miners, and took the opportunity to gain
information relative to the working of the mines. In the
third expedition, in 1 868, another Pundit passed on as far
as Rudok, at the north-west extremity of Chinese Thibet,
on the frontier of Ladak, and on his way back from
Rudok visited the gold fields of Thok Nianmo, Thok
Sarlung,$ and Thok Jarlung. The map which accom-
panies Major Montgomery's narrative of the journeys of
the Pundits gives in addition the gold fields of Thok
* " Verhand. Kgl. Danischen Gesellsch. der Wissensch." for
1870. Printed separately in Danish, German, and French.
f Vol. iv. p. 225.
% Thok Sarlung had at one time been the chief gold field
of the district, "but had in a great measure been abandoned
on the discovery of the Thok Jarlung gold field. The Pundit
passed a great excavation some 30 to 40 feet deep, 200 feet
in width, and two miles in length, from which the gold has
been extracted." — Jour. Asiatic Soc. Bengal, vol. xxxix. pt. 2,
p. 53- 1870.
126 GOLD.
Munnak, Thok Ragyok, Thok Ragung, and Thok Dalung.
.... The miners' camp at Thok Jarlung, according to
the measurements of the Pundits, is 16,300 feet above the
sea level.
The cold is intense, and the miners in winter are
thickly clad with furs.
The miners do not merely remain under ground when
at work, but their small black tents, which are made of a
felt -like material manufactured from the hair of the Yak,
are set in a series of pits, with steps leading down
to them .... seven or eight feet below the surface of
the ground Spite of the cold the diggers
prefer working in winter ; and the number of their
tents, which in summer amounts to 300, rises to nearly
600 in winter. They prefer the winter as the frozen soil
then stands well, and is not .likely to trouble them much
by falling in.
They are occasionally attacked by bands of robbers
who carry off their gold.
Sir Henry Rawlinson's remarks on these reports of
the Pundits' researches and travels are as follows :* —
Now, then, for the first time, we have an explanation of
the circumstances under which so large a quantity of gold
is, as is well known to be the case, exported to the west
from Khoten, and finds its way into India from Thibet ;
and it is probable that the search for gold in this region
has been going on from a very remote antiquity, since no
one can read the ex-Pundit's account of the Thibetan
miners " living in tents some seven or eight feet below the
surface of the ground, and collecting the excavated earth
in heaps previous to washing the gold out of the soil,"
without being reminded of the description which Hero-
dotus gives of the " ants in the land of the Indians border-
* Pall Mall Gazette, March 16, 1869, quoted in "Indian
Antiquary," vol. iv. p. 225.
GOLD. 127
ing on Kaspatyrus (or Kashmir), which made their dwell-
ings underground and threw up sand heaps as they
burrowed, the sand which they threw up being full of
gold."
Professor Schiern points out that the tradition was
mentioned in writings of the Middle Ages, and those
by Arabian authors. It survived among the Turks.
Strabo and Albertus Magnus treated the whole
story as a fiction. Xivrey supposed that the animals
had become extinct owing to the auri sacra fames.
Major Rennell supposed that the dwellers in mounds
were termites or white ants. Humboldt's observations
in Mexico on the habit of certain ants to carry about
shining particles of hyalith was quoted by those who
believed that the animals were really ants. Other
authorities suggested that they were marmots, jackals,
foxes, or hyaenas. Pliny having stated that horns of
the Indian ant were preserved in the temple of
Hercules at Erythra, Samuel Wahl, who maintained
the hyaena theory, proved equal to the difficulty by-
suggesting that the horns might have been a lusus
naturcz.
Professor Schiern most ingeniously argues that the
horns had been taken from the skins of animals
which formed the garments of the miner. I am in-
formed by my colleague, Mr. Lydekker, that a common
form of pickaxe in use by miners in Ladak and Kash-
mir consists of the horn of the wild sheep, tipped with
iron and set in a handle. The ant's horn at Erythrae was
therefore more probably one of these.
Professor Schiern further points out that ancient
writers say that the ants worked chiefly in winter, and
connects this with the statement of the Pundit above
quoted.
128 GOLD.
In conclusion he writes : —
For us the story partakes no longer of the marvellous.
The gold-digging ants were originally neither real ants,
as the ancients supposed, nor, as the many eminent men
of learning have supposed, larger animals mistaken for
ants on account of their subterranean habits, but men of
flesh and blood, and these men Thibetan miners, whose
mode of life and dress were in the remotest antiquity
exactly what they are at the present day.
I append an extract from Sir Henry Rawlinson's
translation of the passage in Herodotus, as it may be
of interest to some readers : —
Besides these there are Indians of another tribe, who
border on the city of Kaspatyrus and the country of
Paktyika : these people dwell northward of all the rest of
the Indians, and follow nearly the same mode of life as the
Bactrians. They are more warlike than any of the other
tribes, and from them the men are sent forth who go to
procure the gold, for it is in this part of India that the
sandy desert lies. Here in this desert there live, amid
the sand, great ants, in size somewhat less than dogs, but
bigger than foxes. The Persian king has a number of
them, which have been caught by the hunters in the land
whereof we are speaking. These ants make their dwell-
ings underground, and, like the Greek ants, which they
very much resemble in shape, throw up sandheaps as
they burrow. Now, the sand which they throw up is full
of gold. The Indians, when they go into the desert to
collect this sand, take three camels and harness them
together, a female in the middle, and a male on either
side in a leading-rein. The rider sits on the female, and
they are particular to choose for this purpose one that
has just dropped her young ; for their female camels can
run as fast as horses, while they bear burdens very much
better When, then, the Indians reach the place
where the gold is, they fill their bags with the sand and
ride away at their best speed ; the ants, however, scent-
GOLD. 129
ing them, as the Persians say, rush forth in pursuit.
Now, these animals are so swift, they declare, that there
is nothing in the world like them ; if it were not, there-
fore, that the Indians get a start while the ants are
mustering, not a single gold-gatherer could escape.
During the flight the male camels, which are not so fleet
as the females, grow tired, and begin to drag, first one
and then the other, but the females recollect the young
\vhich they have left behind, and never give way or flag.
Such, according to the Persians, is the manner in which
the Indians get the greater part of their gold ; some is
dug out of the earth, but of this the supply is more
scanty.
APPENDIX.
IDENTITY OF THE GREAT MOGUL DIAMOND WITH
THE KOH-I-NUR.
IT will be well to begin by quoting verbatim, and then
analysing what Tavernier has written regarding the Great
Mogul diamond. Having gone to take leave of the Great
Mogul (Aurungzeb) on the ist of November, 1665, he was
invited to return on the following morning to see the Em-
peror's jewels. He says :* " The first object which Akel
Khan (the custodian of the jewels) put in my hands was
the great diamond, which is a rose, round, very convex (?)
(haute) on one side ; at the edge of one side there is a
small notch (cran) with a flaw in it. The water is per-
fection, and it weighs 319! ratis, which are equal to 280
of our carats, the rati being -£ of a carat. When Mir-
gimola, who betrayed the King of Golconda, his master,
made a gift of this stone to Sha Jehan, from whom it is
descended, it was uncut, and weighed 900 ratis, which
are equal to 787 carats and a half, and it had many flaws.
If this stone had been in Europe it would have been
differently treated, for some good pieces would have been
taken from it, and the stone left much larger ; as it is, it
has been almost polished away. It was Sieur Hortensio
Borgio, a Venetian, who cut it, for which he was badly
paid. They reproached him with having spoilt the stone,
Avhich ought to have remained heavier, and instead of
* " Travels," vol. ii. livre ii. p. 249. Paris : Ed. 1677.
APPENDIX. 131
paying him the Emperor made him pay a fine of 10,000*
(dix inille), and would have taken still more if he had
possessed it. If H ortensio had known his work better,
he might have taken some good pieces off without doing
injury to the king, and without having expended so much
trouble in polishing it; but he was not a very accomplished
diamond cutter."
In the chapter on his visit to the mines at Gani-Colour —
i e., Kollur,f he says that the Great Mogul diamond was
found there. If this be true, and also that these mines
were only discovered about 100 years before his visit in
1665, then this diamond cannot have the great antiquity
claimed for it by some of those who consider it to be
identical with the Koh-i-nur.
Tavernier's third mention of it, accompanied by a
figure (reproduced in the " Encyclopaedia Britannica "), is
as follows : —
" This diamond belongs to the Great Mogul, who did
me the honour to show it to me with all his other jewels.
One sees the form which it received on being cut. On
my being permitted to weigh it, I have found its weight
to be 3 1 9^ ratis, which are 279T9F of our carats. In its
rough state it weighed, as I have said, 907 ratis, which
are 793TV carats. The stone has the same form as if one
cut an egg in two."
He gives us, therefore, two different accounts of its
weight in the rough : 900 ratis, or 787 carats, and 907
ratis, or 793^ carats. It is obvious that there is a mis-
take, as the two do not agree in any respect, even the equi-
valent values, calculated at I rati=| of a carat, should
be 787^ and 793!. This is one of several strange and
unaccountable defects in Tavernier's arithmetic. They
can scarcely be due to misprints.
* Even this item is variously stated by compilers, who seem
to have made much of the confusion that exists about the weights,
£c., of this historical gem.
t Loc. cit. p. 305.
132 APPENDIX.
Different weights and measures appear to have been
used in different parts of the country — the Mangelin =
if carats, or 7 grains, at Raolconda and Colour ; the
rati =| of a carat, or 3! grains, at Soumelpur.
If we could with appropriate accuracy fix the value of
the rati, or rutti, mentioned by Tavernier, we might suc-
ceed, perhaps, in instituting a fair comparison between
the Great Mogul and other diamonds. It seems to be
difficult to believe that it weighed 3^ grains, as he states.
In Nagpur, in the year 18*27, according to Mr. Jenkins, the
rati weighed only 2 '014 grains. But it is necessary to bear
i ii mind that the French grain is only equal to about 77 of a
troy grain ; therefore, since the rati contained 3^ of these,
its value would have been 2*695, or say 27 grains troy-
This fact seems to have been overlooked by some who
have endeavoured to reduce the weights given by Taver-
nier. Non-experts, too, appear to have forgotten that the
diamond grain is not identical with any other grain \
though an English carat contains four of these grains it
only consists of 3' 174 troy grains ;* so calculated, the
weight of the Great Mogul would be 3*9'* x 2'7 = 271-84
English carats. If in this calculation we could feel
justified in placing the value of Tavernier's rati at 1*84
grains troy instead of 27 grains, the exact weight of the
Koh-i-nur would be obtained. Another system of calcu-
lation is used by the writer of a Note in the Great Exhi-
bition Catalogue of 1851, in which he adopts the known
maximum weight of a rati at 2T8T grains (what grains ?),
and thence deduces 175 carats as the weight of the Great
Mogul. This is somewhat short of the 186x5- carats of the
Koh-i-nur, while the other is too large. If the Koh-i-nur
be identical with the Great Mogul, it may have been
operated upon during its travels, and this may account for
the difference in weight (27178 — i86'o6 = 8572 loss),
and in its shape when brought to England from the sketch
given by Tavernier. It is probable, however, that
* Vide " Encyclopaedia Britannica," art. Diamond.
APPENDIX. 133
Tavernier's sketch was from memory, and was, therefore,
more regular in outline than the original.
The name Great Mogul was, of course, not of native
origin, but was probably first conferred by Tavernier. By
the natives it was originally, in all probability, known as
the Kollur diamond. In reference to this, I was quite
accidentally informed by a native jeweller of Calcutta
that it has been suggested, if not actually stated, by some
native writers, that the title Koh-i-nur really owes its
origin to a change in the originally meaningless name
Kollur ; such changes in which, while the sound is more
or less retained, a meaning [is acquired, are not by any
means rare in Oriental languages, while they sometimes
occur in those of Europe.
Thus English surnames in the mouths of natives become
charrged into words of similar sound, which have a mean-
ing in Hindustani, or whatever the language spoken maybe.
A striking example is afforded by the name given by the
natives to the geological department. The word geological
being unintelligible and difficult of pronunciation, has
been rejected, and is replaced by one of somewhat similar
sound. This is jauhartt and geologists are commonly
known as Jauhari Sahibs, or jewellers, it being supposed
that their investigations all have for their object the dis-
covery of precious stones. Other and similar examples
might be quoted in illustration.
From the above I think it will be admitted that there
are good reasons for concluding that the Great Mogul,
or Kollur diamond of Tavernier, is identical with the
Koh-i-nur.
Those who have hitherto held this view have stated
that it came from either Gani or Purtial. As for Gani,.
it is not a name, being simply a corruption of Kan-i, a
prefix signifying "mine of;" while Purtial is a mine
situated twenty-four miles east of Kollur, where a mine
is also known to have existed, being represented on a
map of the Nizam's dominions by Col. Colin Mackenzie,
dated 1798.
134 APPENDIX.
NOTE ON MYTH REGARDING THE METHOD OF
OBTAINING DIAMONDS DESCRIBED IN THE TRAVELS
OF MARCO POLO, SINDBAD, ETC.
As not improbably referring to Beiragurh, the modern
Weiragurh, it may be of interest to add the following from
the account* of the " Travels of Nicolo Conti " in the early
part of the fifteenth century. I cannot agree with the
writer of the Introduction to the volume containing the
account that Golconda was intended. Nicolo Conti says
that at fifteen days' journey north of Bizengulia (by which
Vijayanagar, the modern Bijapur is perhaps meant) there
is a mountain which produces diamonds called Albeni-
garas. Now Beiragurh, the modern Weiragurh, is, as the
crow flies, about 324 miles north-eastwards of Bijapur, and
therefore within a possible fifteen days' journey, though
as the actual distance traversed would be greater, it would
mean very hard travelling. However, ^4/-benigaras looks
so like Beiragurh with the Arabic prefix El' or Al\ that I
am inclined to believe that it was the place intended. He
goes on to say that the mountain being infested with ser-
pents, it is inaccessible, but is commanded by another
mountain somewhat higher. " Here at a certain period
of the year men bring oxen, which they drive to the top,
and having cut them into pieces, cast the warm and
bleeding fragments upon the summit of the other moun-
tain by means of machines, which they construct for the
purpose. The diamonds stick to these pieces of flesh.
Then come vultures and eagles flying to the spot, which
seizing the meat for their food fly away with it to places
where they may be safe from the serpents. To these
places the men afterwards come and collect the diamonds
* " India in the Fifteenth Century," Hakluyt Soc. p. 29.
APPENDIX. 135
which have fallen from the flesh." Nicolo Conti continues
with an account of how other less precious stones are
obtained, and his description is that of ordinary Indian
diamond mining. " The Travels of Sindbad the Sailor"*
and of Marco Polo, whose accounts apparently refer to
localities in Golconda, on the Kistna, have made this
tradition of throwing pieces of meat where the diamonds
may stick to them familiar to most people ; yet an ade-
quate explanation of the origin of the myth does not
appear to have been offered hitherto. I believe the follow-
ing to be a complete and probable one : —
Heyne, in the account of his visit to the mines at
Kadapah (Cuddapah), states that they were under the
particular protection of Ammawaru (the sanguinary god-
dess of riches), and the miners objected to his riding on
horseback up to the mines for fear of offending her. Now
what can be more probable than that the miners before
opening a new mine, in order to invoke the aid of this
sanguinary goddess, made an offering to her of cattle or
buffaloes. The opening up of new mines was, and is, we
are told by several authorities, preceded by various rites
and ceremonies. The miners were probably never Hindus,
and the custom of offering up cattle in sacrifice by the
aboriginal tribes, from the Todas to the Sontals, is too
well known to require special illustration. Admitted that
the opening of a mine was preceded by the sacrifice of
cattle, and the throwing of the fragments of the flesh to be
devoured by the fowls of the air, we at once arrive at the
foundation of fact upon which this superstructure of fable
has in all probability been erected.
Casual spectators and travellers may very easily have
supposed that the throwing about pieces of meat was an
essential part of the operations ; and any one with expe-
rience of how Oriental imaginations can erect a tale of
fiction on a small substratum of fact, will find no difficulty
* These have been well called a repertory of Arabian myths
and traditions.
136 APPENDIX.
in conceding that in the above supposition there is a
sufficient explanation for the origin of the whole story.
It may be added that this propitiation of malefiant
spirits was, and is, by no means limited to mining opera-
tions connected with diamonds. In the "Journal of the
Asiatic Society of Bengal"* will be found an account of
one of the richest gold-bearing tracts in Assam, which had
been deserted by the indigenous gold-washers in conse-
quence of the expense connected with the propitiation of
the evil spirits who guarded the mineral treasures being
greater than they could afford to pay.
Having mentioned the Assam washings here, I avail
myself of the opportunity of saying that a statement
recently made,f that they yielded annually 40,000 ounces
of gold is, I believe, due to some mistake. The earliest
record I know of mentions a gold revenue enjoyed by the
Kings of Assam which amounted to 40,000 rupees wortk,
not ounces !
* Vol. xxii. p. 511.
; Jour. Soc. of Arts," vol. xxix. p. 244.
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