_ PROCESS FOR PRESERVING THE PEARL- :
OYSTER FISHERIES AND FOR INCREASING THE
VALUE, (Or THE: YIELD OR, PEARES 9). 3 \0 a

aos So eon OF THE BUREAU OF FISHERIES, Volume XXVIII, 1908

Me Proceeding's of the Fourth International Fishery Congress : eu Washington, 1908

Cae) WASHINGTON toi t. 3 2.7 GOVERNMENT PRINTING ORPIOE 4200s ah aes dO

me PROCESS FOR PRESERVING THE PEARL-
Oy ste R- HSHERIES AND FOR INCREASING THE
VARCE. OF Rak, WEED: OF PEARLS o a

From BULLETIN OF THE BUREAU OF FISHERIES, Volume XXVIII, 1908

Proceedings of the Fourth International Fishery Congress : : Washington, 1908

WASHINGTON : : : : : : GOVERNMENT PRINTING OFFICE : : : : : : 1910

BUREAU OF FISHERIES DOCUMENT NO. 660
Issued February, 1910

MAR 2 iyi
5s OF B,

Ce Soe

A PROCESS FOR PRESERVING THE PEARL-OYSTER FISHERIES
AND FOR INCREASING THE VALUE OF THE YIELD OF PEARLS

&

By John I. Solomon, B. Sc.

&

Presented before the Fourth International Fishery Congress, held at Wash-
ington, U. S. A., September 22 to 26, 1908, and awarded the prize of one
hundred dollars in gold offered by the New York Academy of Sciences for the
contribution, not entered in competition for any other award, which should
be judged to have the greatest practical value to the fisheries or fish culture

A PROCESS FOR PRESERVING THE PEARL-OYSTER. FISHERIES
AND FOR INCREASING THE VALUE OF THE YIELD OF PEARLS.

a
By JOHN I. SOLOMON, B. Sc.
re

CONDITIONS IN THE PEARL-OYSTER FISHERIES.

The process of obtaining natural pearls is carried on throughout the world
to-day in precisely the same manner that it has been done ever since mankind
has prized this product of the sea asa gem. The only qualification that can be
made to the above statement is that since the invention of modern diving appa-
ratus there has been, in certain parts of the world, a modification in the method
of securing the pearl oyster. This so-called improvement, however, has perhaps
done more, within a very few years, to deplete former valuable natural beds
than had centuries of previous fishings, when the ability of man to strip the beds
of all the oysters they contained was prevented by the limitations of naked
diving. The divers could then go to but comparatively shallow depths, and
could gather the oysters only in a haphazard manner as they groped about for
a minute or two at the bottom. Also, because of the inability of naked divers
to carry on operations in any but calm and warm weather, the season for fishing
was comparatively short. As a result of these conditions the beds in even
comparatively shallow waters were never entirely stripped of all their oysters,
while those lying at depths greater than the physical ability of the divers to
reach were untouched. There were thus always sufficient oysters left for
breeding purposes, and in spite of the wastes of the method for securing the
pearls—the killing of all the oysters to get the contained pearls from about 10
per cent of them—the beds continued to give a comparatively uniform yield.

Since the adoption of diving apparatus the conditions have entirely changed.
With the divers enabled to remain under water for a considerable period and in
weather which would prohibit naked diving, and to go to greater depths and
work in a thorough and systematic manner, the old natural beds have been
completely stripped, and beds heretofore inaccessible have been or are being
depleted in the same way. This has already been accomplished in most parts
of Australia, the waters off Thursday Island, Costa Rica, the Mergui Archipelago

B. B. F. 1908—20 305

306 BULLETIN OF THE BUREAU OF FISHERIES.

of Lower Burma, and in practically all the places heretofore fished by white men.
The business in the East, excepting the fisheries of Ceylon and the Persian
Gulf, where the local fisheries and conditions due to the nature of the oysters
and other local influences are peculiar, is now practically in the hands of Jap-
anese and Chinese, who alone are satisfied with the small returns from the now
meager beds. The Europeans formerly engaged in the business are seeking
other occupations. In Burma most of them have gone into tin mining, and at
the present time just a single white man is there engaged in the pearl industry.
In Australia and the islands of the East Indies there is a constant exploration
now for virgin beds and a seeking for better divers and apparatus to go to greater
and greater depths. There one hears a constant wail at the limitations of man
and his apparatus to combat the great pressures of depths where the oysters
are supposed still to be in abundance, and the more imaginative, speculative,
or daring are now talking of submarines to go after the oysters. Inthis connection
I would state that a submarine of special construction has recently been built
in France for sponge fishing in the Mediterranean off the coast of Algiers.

As a result of the wastes of past and present methods and the general
conditions of the industry as now carried on, both in the pearl fisheries of the
seas as outlined above, and in connection with the fresh-water pearl fisheries
of the United States and other countries, the statement has been freely made
in the past few years by prominent pearl dealers of Kurope and America that
no large pearls will ever again come to market, except those in the possession of
eastern magnates and potentates who may be induced by the extravagant prices
offered to part with heirlooms held in their families for generations. In other
words, the pearl of size and value is tending to extinction. Although the
scientific propagation of oysters and other shellfish has been made a great com-
mercial industry in Europe and America, the idea of conserving the pearl-
oyster beds and attacking the problem of securing pearls and shells other than
by the ruthless destruction of the natural beds seems never to have entered
the minds of those engaged in the industry. I have never received any encour-
agement from a single one of them with whom I have corresponded or whom I
have met; and although the installation which I have myself started has proved
the undoubted soundness and utility of the process, and the fact of its establish-
ment has now become more or less known throughout the East, I have yet to
learn of the interest of any individual or corporation engaged in the pearling
industry. In view of the recent agitation in the United States because of the
destruction of the fresh-water mussel pearl fisheries, I hope that in my own
country more interest will be disclosed.

PRINCIPLE OF THE PROCESS.

An electrical engineer by profession, my first knowledge of the pearling
industry was gained through an acquaintance with a family having social and

PROCESS FOR PRESERVING PEARL-OYSTER FISHERIES. 307

business relations with Colombia, Panama, and Costa Rica, who thereby had a
knowledge of and who dealt in pearls fished in the waters of those countries. It
was because of this acquaintance and the knowledge thus gained of the conditions
that I conceived the idea of utilizing the X ray for preventing the losses and
wastes of present pearling methods and for increasing the yield of fine pearls.
In this connection, I would state that I am not the first to have thought of
utilizing the X ray for these purposes. Although I did not know it until later,
Prof. Raphael Dubois, of the University of Lyons, had a few years before sug-
gested stich a use of the X ray. I had the pleasure, in the month of December,
1907, of paying a visit to Professor Dubois. But from a particular question asked
by him I found that his investigations had been slight and not very extensive
on living oysters.

The question asked by Professor Dubois was one which I had great difficulty
in explaining away to the laymen whom I induced to become financially inter-
ested in my enterprise, ‘‘ Will the X rays kill the oysters?” I had made this
test at the very commencement of my experiments, once I had become enabled
by skillful exposure to disclose pearls which I had placed inside of large Rockaway
oysters in New York. Having previously made arrangements at the New
York Aquarium, I placed in tanks there live oysters which I had subjected to
continuous exposure of powerful X rays for as long as a period of ten minutes.
These oysters lived for months without showing any ill effects whatever. In
my process the time of exposure is not one-tenth of this. I made this experiment
only in order to satisfy the minds of my subscribers, for, after consultation with
specialists having a full knowledge of the physiological and pathological effects
of X rays on animal tissues and organisms, I was myself convinced that the
slight exposure necessary for the process could have no effect.

My first intention and experiments were with the idea of using the fluoro-
scope for the detection of the pearls within the living oysters, but having
learned that in Ceylon they had taken as many as 41,000,000 oysters at a single
fishery (one season) I saw that the conditions were not as in Costa Rica and some
other places. I accordingly adopted a radiographic method. A comparatively
few oysters may be examined individually and carefully by means of the fluoro-
scope, but by the other method great numbers may be automatically handled
and many inspectors may leisurely examine radiographs made practically
automatically; and the radiographic method in practice has done all I expected
ifto do. In the same time that would be required to examine a single oyster by
the fluoroscopic -method a single tube and operator can make radiographic
images of hundreds of oysters, and, as has been found in surgical work, a radio-
graph will show up more minute particles and detail than can ever be disclosed
by a fluoroscopic examination.

In order to accomplish the object sought, I had to devise a process and appa-
ratus, and I subjoin hereto a description and the claims of the first of several

308 BULLETIN OF THE BUREAU OF FISHERIES.

patents which have been granted to me by the governments of Australia, Ceylon,
_ India, Japan, and other pearl-producing countries, or countries which have
pearl-producing colonies and dependencies.

DESCRIPTION OF INVENTION AND CLAIMS AS PATENTED.

The object of this invention is (1) to provide means for taking radiographs
or of making fluoroscopic examinations of separate pieces of matter or objects in
considerable quantities, so that they may be taken simultaneously for the pur-
pose of making radiographic examination of these objects and pieces of matter,
and then (2) readily to identify each radiograph as being that of the particular
object or piece of which it is the representation.

The manner of taking radiographs at present is to make exposures of indi-
vidual objects placed upon photographic plates, or other sensitive radiographic
media, either in direct contact or with the plate properly inclosed in paper to
keep out light. The exposures having been made, by means of the X rays,
Ro6ntgen rays, or any other rays penetrating matter opaque to light, the object
is removed from the plate or other sensitive medium and set aside, the sensitive
medium being then developed through ordinary photographic process and
examined.

This method is cumbersome and expensive, and precludes the radiographic
examination of many different materials. Also it can not be utilized in connec-
tion with large bodies or numbers of objects for commercial purposes. My
particular aim in connection with the present invention is the ascertaining of
the presence of pearls of any size or form in pearl oysters (Margaritifera vulgaris)
without injury to the oysters; but the invention is not limited with respect to
the character of the objects under examination, as it may be used for any objects
whatever. Ordinary processes and apparatus could not be used for this pur-
pose, for the reason that they would be too cumbersome, slow and expensive,
and entirely unsuited. j

For the purpose of examining the material quickly and cheaply, I utilize a
tray or conveyer of considerable surface, over which the material may be spread
or carried, and this tray or conveyer is then laid upon the sensitized radiographic
medium. ‘The latter is of a size larger in area than the tray or carrier itself, the
excess being sufficient to allow for the distortion due to the rays falling upon the
outer area at a considerable angle.

The exposure having been made, the tray is lifted from the sensitized
medium, or in the event of the conveyer it is so adjusted as to be carried beyond
the sensitized medium. The latter is then developed, and the resultant radio-
graph, which is the full size of the tray, except for the increase in size due to the
distortion, can be compared to the objects or material on the tray itself, these
objects or material not having been disturbed, and occupying at this time the
same relative position as in the particular radiograph on the sensitized medium.

PROCESS FOR PRESERVING PEARL-OYSTER FISHERIES. 309

When pearl oysters are the objects examined, the pearls will clearly appear in
the radiograph, as they obstruct the passage of the rays to a greater extent than
other portions of the oysters. I also use in connection with the tray or conveyer
a means for identifying the particular group of objects which have been radio-
graphed so that the radiograph may be afterwards compared with the objects
on the tray and_ their
identity established. With
pearl oysters, those that
have pearls may thus be
identified, and the position
and size of the pearls be
ascertained, without de-
stroying the oysters.

The essentials of the
tray bottom or conveyer
are two: (1) That the ma-
terial be composed of a
substance which renders lit-
tle or no resistance to the
passage of the X rays,
Rontgen rays, or any other
rays penetrating matter
opaque to light, and allows
them to affect the sensitized medium practically as though it had not been
interposed; and (2) that the tray bottom be as thin as possible, in order that the
matter when held on it be but little further away from the sensitized medium
when on the tray than when placed directly on the sensitized medium, so that
as good definition as possible may be obtained.

The tray may be of any shape or size desired, and may be constructed of
cork, fiber, wood, fabric,
aluminum, celluloid, vul-
canized rubber, or any
other material the qualities
of which, as outlined above,
are such as to afford the
least amount of resistance
to the rays. That wet ob-
jects may be examined without warping or distortion of the tray, I propose
that a tray be made with the bottom of canvas, duck, or other such fabric.
Such a receptacle is shown in the attached drawings, of which figure 1 is a
plan and figure 2a longitudinal section. It consists of a rigid frame (a) made
of strips of metal, wood, or other suitable material, and having hooks or pins (6)

Fic, 1.—Plan of tray to contain pearl oysters for radiographing,

Fic. 2.—Longitudinal section of tray shown in figure 1.

310 BULLETIN OF THE BUREAU OF FISHERIES.

on the outside. The canvas (c) can then be placed under this frame, and hav-
ing suitable eyelets (d) in its edge, can be stretched tightly upon the frame by
a lacing (e) which is passed through the eyelets (d) in the canvas (c) and the
hooks or pins (b) on the frame. In order that the radiographs of objects along
the sides may be complete and properly made, and be not intercepted by this
frame (a), another frame (f), of wood or other material which will allow the
rays to pass through, is placed between the canvas and the first frame (a) and
secured to the latter by means of screws (g). The frame f projects suffi-
ciently inside of the frame a to hold the materials that are being examined at
such a distance that the rays (hk) pass through the very outside of the material,
clear of the frame a, and will produce the desired effect upon the sensitized
medium (7) underneath the tray.

Upon the tray and preferably upon the second frame (/), or upon the canvas,
is placed a number, letter, or some other device by which to distinguish the trays
from each other. This sign (k) is here shown as a number (23), cut out of metal,

Fic, 3.—Conveyer to substitute for tray of figures 1 and 2,

which is impervious to the ray, and properly secured to the frame / or the
canvas.

The invention may be modified, as, for instance, by substitution of a con-
veyer in place of the tray. One form of conveyer is shown in figure 3. Here
the canvas (c) is an endless strip passing over rollers (//). The frame (a) is
shown as raised above the canvas a sufficient height to allow the objects placed
upon the canvas to be moved under it. The canvas is in divisions equal in
size to the frame, and each division is provided with a distinguishing mark (k),
as already described. In operation of this modification, the objects are placed
within the frame and upon one division of the conveyer. The sensitized
medium (7) is placed under it as shown, and the radiograph is then taken. The
conveyer is then moved by turning one or both of the rollers, so that the objects
will have passed to one side and an tincovered portion of the conveyer is exposed.
More objects are placed upon this within the frame, and a second radiograph is
taken. This will be repeated, the first radiographs being developed while others

PROCESS FOR PRESERVING PEARL-OYSTER FISHERIES. Bed

are being taken. The conveyer belt should be sufficiently long to allow the
developed radiograph to be secured and examined with the corresponding orig-
inal objects without disturbing the continuity of action of the machine. Each
radiograph will have printed upon it the distinguishing character of that portion
of the conveyer, and the different objects may be identified before they are
disturbed. °

A further modification of the invention may be made by utilizing the
principles of the fluoroscope. In this form, in place of the sensitized medium
would be used the ordinary fluoroscope screen, formed of any suitable mate-
rial, as, for instance, the tungstate of barium or of strenium, in crystallized
form, or barium platinum cyanide. The conveyer carrying the objects should
in this case be placed between the X-ray tube and the fluorescent screen.

Having now particularly described and explained the nature of my inven-
tion, and in what manner the same is to be operated, I make the following
claims therefor:

(1) The herein described process of examining separated matter cr different
objects, such as pearl oysters, in quantities, which consists in placing them upon
a suitable support of a character that will not obstruct or only slightly obstruct
the passage of X rays, Roéntgen rays, or any other rays penetrating matter
opaque to light; placing the sensitized medium below the support and exposing
the objects and medium to the action of the rays; removing the support without
disturbing the positions of the objects and then developing the sensitized
medium, whereby a radiograph of the objects will be obtained, which can be
compared with the objects without disturbing them.

(2) In an apparatus for examining matters or objects in bulk, the com-
bination with a support for the objects, the said support being formed of mate-
rial readily penetrable by the rays, and having upon it a distinguishing mark,
made of material not penetrable, in combination with a means for producing rays.

(3) An improved tray, made of material which is of such quality and
dimensions as will permit objects to be placed thereon and readily radiographed
as though such tray had not been interposed between such objects and the
sensitized medium.

(4) The combination with a tray of canvas (c) and a rigid frame (a) to
which the canvas is stretched.

(5) The combination with the bottom and frame of a tray and a second
frame above the bottom, ‘the said second frame being for the purpose of keep-
ing the matter which is examined a sufficient distance away from the first frame,
in order that the rays passing through such matter will fall clear of the first
frame and upon the sensitized medium.

(6) The combination with a conveyer and a frame of means for support-
ing the sensitized medium below the conveyer, and means for producing rays
and securing a radiograph upon the sensitized medium.

312 BULLETIN OF THE BUREAU OF FISHERIES.

(7) The use of a fluoroscope in connection with any form of device shown
in the drawings or covered by the preceding claims.

In addition to having to devise a special method, of which the above is a
description, it was necessary to adopt radiographic apparatus and materials
of such a nature as to make the methods and costs of the process commercial.
For instance, it was necessary to be able to make X ray exposures over a large
area in order to include sufficient oysters at an exposure, an area larger than
had been before attempted or rather required in the field of surgery, in which
I found the use of the X ray exclusive when I commenced my investigations;
also photographic material of a nature and cost suitable for the work had to be
sought. Without going into details, I may say that I overcame the various
difficulties, as I believe the accompanying exhibits prove.*

PRACTICAL DEMONSTRATION OF THE PROCESS.

After considerable correspondence, I went to Ceylon to start my enter-
prise, and established my equipment on the island of Ipantivu, in the north-
western Province of Ceylon, and near to the famous pearl fishery of the Gulf
of Manaar. I have there invested in buildings, machinery, boats, equipment,
and photographic supplies the sum of nearly $50,000, some of it my own money,
but most of it subscribed by different people in smaller or larger amounts, to
whom I or my friends had explained my ideas and the possibilities therefrom.
I proposed to get oysters when they were freshly fished, and instead of indis-
criminately killing all in order to get the pearls of value contained in the few,
to subject the oysters to the process. Those found to contain pearls of value
could be immediately opened; those containing small pearls of but little or no
value, could be planted under suitable conditions to remain until they had
become older and larger, and the contained seed pearls also larger and of value;
while those found to contain no pearls could be returned to the sea either in

@ The following exhibits were appended to the manuscript submitted by the author:

Exhibit A, showing a part of the installation on Ipantivu Island—the water distilling building and
chimney, the process building, and bungalow.

Exhibit B, showing a panoramic view of the installation.

Exhibit C, showing coolies arranging oysters in trays.

Exhibit D, showing coolies carrying trays of oysters up to the process building to be subjected
to the X ray.

Exhibit E, a small radiograph of some growing oysters containing pearls.

Exhibit F, a small string of seed pearls.

Exhibit G, a radiograph of an oyster containing a seed pearl of a larger size and a string of pearls
of which Exhibit F was a part. Note the line down the center of the pearls showing the drilling.
Undrilled, in their natural state, these pearls would show up even more clearly.

Exhibit H, a part of a full-size radiograph showing some oysters containing small seed pearls.

Exhibit I, a full-size but only partly “fixed” radiograph of 120 oysters, showing number of tray
made by lead number thereon, and arrangement of oysters in regular rows by means of which the
oysters held on the trays are identified. The marks made by the inspector for seed pearls, large pearls,
or obscurity, or for other things are also shown.

PROCESS FOR PRESERVING PEARL-OYSTER FISHERIES. 313

the hope that they would become inoculated with the pearl-inducing cestode
or at least to propagate and maintain the growth of oysters on the banks.

The immediate objects in view were therefore—

(1) The prevention of the theft of pearls from the rightful owners of the
oysters.

(2) A great increase in the yield of valuable pearls from a given number of
oysters.

(3) The maintenance of the yield of oysters from the natural beds, if not a
positive increase therefrom, as against the destruction of the fisheries under
present methods.

In actual working the radiographs are brought wet out of the process build-
ing, wherein all exposure and developments are made in ‘‘dark-room”’ light,
and with good light and the wet radiograph practically nothing can escape. It
is easier to disclose that an oyster contains a pearl than actually to extract the
pearl. If the process errs, it errs on the side of safety. We find that we set
apart many oysters as containing seed pearls, which further examination shows
contain none, but that what was shown in the radiograph was an imperfection
in the film, an air bubble, a piece of coral outside the shell, ete. With practice,
even these mistakes can be eliminated, but they are not of such a nature as to
make us lose or eliminate an oyster which has the possibility of developing a
valuable pearl. With sufficient and proper help and auxiliary appliances, the
plant on Ipantivu Island, with its single tube equipment, can radiograph up to
400 oysters per minute. These thin-shelled, small Ceylon oysters (Margaritijera
vulgaris) are easy to handle. But we can attain just as much success with the
fresh-water mussels of the United States and other countries, and with the larger
Margaritifera maxima peculiar to Australia, Burma,ete. In fact my first experi-
ments were made on these. We can not, of course, do so many at a time or so
quickly, as they require a longer time of exposure, but on the other hand, the
product is of much greater value. My plant on Ipantivu Island has completely
fulfilled all expectations, and, so far as concerns the possibility of radiographing
pearl-bearing oysters on a commercial scale in order to disclose the contained
pearls and without injury in any way to the oysters, has proved my process to
be a complete success.

Unfortunately, owing to certain conditions which arose after I came to
Ceylon and invested my capital, and which have prevented my getting live oys-
ters, I have up to now been unable to prove the next and equally important
stage of my process. However, as to whether pearl oysters known to contain
seed pearls can be kept under such conditions as will make them continue to
live and grow and thrive, and the majority of the contained seed pearls likewise
to increase in size and consequent value, I leave it to the members of the Inter-
national Fishery Congress to decide.

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