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ance of the germinal epithelium, however, has been noted in case of ligation of the vas deferens without further disturbance of the testis. The testis graft does persist after transplantation in a female, with an intact ovary, and it is as normal as autoplastic testicular grafts, either with or without previous castration.
These observations show definitely that a sex gland can be successfully transplanted to an animal of the opposite sex which retains one normal gonad. Positive cases are of much more significance than any number of negative cases and leave no question as to whether the two glands can exist in a functional condition within the same organism at the same time. A male rat with one testis will function as a normal male during the time it is carrying two ovarian grafts as an integral part of its somatic structure; both of these grafts remain essentially normal, showing all grades of maturity of follicles, even after existence, in the subcutaneous tissues of the male, of eight and one half months.
A discussion of these observations will be taken up more fully when the completed work appears.
THE UNIVERSITY OF CHICAGO
CARL R. MOORE
STATIC REJUVENATION FOR several years the writer has been making a systematic detailed study of the driftless area of southern Indiana, and has now in preparation a paper on the physiographic development of the Knobstone cuesta region lying between the Muscatatook and Ohio rivers. This particular region offers one or two problems of more than local interest, and the interpretation of one of these will be briefly stated here.
It appears that some time about the middle of the Tertiary the entire region was reduced to a peneplain (Highland Rim, or Lexington peneplain). The region was then rejuvenated by uplift. Dissection of the uplifted peneplain followed. Dissection was fairly complete near the major streams, and, in the regions of soft rocks, local areas were reduced
to base-level. These locally reduced plains indicate that the uplift amounted to something like 175 feet. The region was again uplifted and dissection was renewed or continued. The Tertiary uplifted peneplain is now represented by remnants which are as much as 300 to 500 feet above the present local base-level. The New Albany shale and the lower part of the Knobstone areas were reduced to a lowland in contrast to the region west of the Knobstone escarpment. The lowland plain, stretching north from Louisville consists of a flat to undulating plain varying from 430 feet in the valleys near the Ohio River to something like 600 feet in elevation on the low divide between Silver Creek and the tributaries of the Muscatatook River. Since there are a large number of hills and flat interstream tracts at an elevation of about 500 feet at the south and coming up to about 600 feet near the above mentioned divide to the north, it has been stated that a local peneplain was formed at that level. The writer concurs in the belief of a base-leveled plain of local area, and that its further development was terminated by rejuvenation. The rejuvenation, however, was not necessarily brought about by uplift. The dissection of the plain was very likely brought about by drainage changes made near the beginning of the Pleistocene. The present Ohio River is a large stream made up of a number of former drainage basins which were more or less destroyed or deranged by combination into a large major stream approximately skirting the outer limits of glacial advance. A very much smaller stream than the present occupied this territory near Louisville. It was able to reduce the area of soft rocks nearly to base-level, but it had a much steeper gradient than the much larger present Ohio. When the present Ohio invaded the basin of the much smaller pre-glacial stream the local peneplain was statically rejuvenated, due to the sinking of the larger stream into the plain on account of its ability to possess a much lower gradient in its grade condition. Such
1 Chas. Butts, "Geology of Jefferson Co., Ky.," Ky. Geological Survey, 1915, pp. 201-203.
a rejuvenation is here called static rejuvenation.
It may be further stated that the region of the Muscatatook River to the north still possesses just such a local base-leveled plain that existed in the New Albany locality. It is inferred that the stream which the Ohio dispossessed was somewhat near the size of the Muscatatook-White River. This stream possesses a gradient in its graded condition slightly less than one foot to the mile, while the Ohio has a gradient below New Albany slightly less than three inches to the mile. It would appear than such a change in gradient would allow a trenching of something like 90 feet, which is approximately the amount of the dissection of the local peneplain in the vicinity of New Albany, using the flood plain as the present local base-level. This figure is derived by taking the difference between the gradients of the Ohio and its assumed predecessor from New Albany to Cannelton, a distance of approximately 120 miles. In the lattitude of Cannelton valley filling begins to be rather conspicuous, and this nullifies any difference in the gradients of the former and the present streams, assuming that the valley filling of southwestern Indiana and associated regions took place during the pleistocene. A still further check both on the postulated static rejuvenation and its amount is found in the peculiar gradients of the streams emptying into the Ohio between New Albany and Cannelton. The gradients are approximately as high in their lower reaches as in their middle and upper courses. This is conspiciously true of Blue River and Indian Creek. Other complications however, enter into the full explanation of these peculiar gradients, making this a problem in itself.
The above statement of the conditions and such an explanation are ventured here for the first time. It is thought that the principle of static rejuvenation may have a wider application than the case here given. The writer would further suggest that its application be made in certain piracy cases.
THE AMERICAN CHEMICAL SOCIETY.
W. D. Harkins and Harry N. Holmes, Joint Chairman Some practical applications of colloid chemistry: JEROME ALEXANDER.
Gelatinous precipitates: WILDER D. BANCROFT. The colloid chemistry of soaps: MARTIN H. FISCHER.
Vegetable tanning as a colloid chemical process: JOHN ARTHUR WILSON. Vegetable tanning is the reaction taking place between the collagen of hide and the water-soluble matter extracted from certain vegetable materials and known as tannin. Collagen is not built up of individual molecules, but of chains of atoms forming a three-dimension network with interstices sufficiently large to permit the passage of all ordinary molecules and ions. Under the conditions obtaining in practise, collagen has a positive electrical charge and the solution absorbed in the interstices has a difference of potential against the unabsorbed portion of the tan liquor. The tannin particles are negatively charged and the thin film of solution immediately in contact with the surface of the particles has a potential difference against the bulk of the tan liquor, but of sign opposite to that in the case of collagen. This surface film of solution and the solution absorbed by the collagen tend, therefore, to merge, and when this occurs, the positively charged collagen and negatively charged tannin. neutralize each other by combination, forming leather. The fact of practical importance is that the potential differences referred to, and therefore the rate of tanning, can be altered without necessarily altering the absolute values of the electrical charges.
Ceramic processes associated with colloid phenomena: A. V. BLEININGER. Clays are mixtures of finely divided aluminum silicate, of the type A1,0,2SiO 2H2O with granular matter, such as quartz, feldspar, mica, etc., and other colloids like ferric oxide and hydroxide. The particles are of the magnitude of 5μ, or smaller. Clay suspended in water is affected in a pronounced manner by alkalies, salts and acids. The former tend to deflocculate it, the latter two cause coagulation. Both phenomena occur in phases. Absorption of the basic ion of salts is characteristic, the acid ion remaining in the dispersing medium. Deflocculation is employed in the purification of clays and in the casting process. Measurements of the fluidity
of clay suspensions offer the most convenient means of detecting the change caused by the presence of reagents, though the distinction made by Bingham between viscous and plastic flow must be kept in mind. In the firing of clay, contraction of the external volume takes place due to the effect of surface tension and the lowered viscosity upon heating. With maximum contraction and closing of the pore space the state of vitrification is reached. mass of the clay itself undergoes expansion upon heating irrespective of the external contraction. The relation between temperature, time and contraction is a most valuable one for expressing the heat work done upon clays and other silicates and oxides. Vapor pressure likewise is a probable factor in the condensation of substances like magnesia, coal, carbon, etc., or in mixtures of inert oxides with those of higher vapor tension. The end result of the heating process tends toward the partial elimination of the colloid and the substitution of the anisotropic phase.
Surface energy: W. D. HARKINS.
Nomenclature in colloid chemistry. A plea for reform: ARTHUR W. THOMAS.
E. Emmet Reid, Chairman
Methyl amines from carbinol and ammonium chloride, equilibria involved: W. D. TURNER and A. M. HOWALD. Ammonium chloride and carbinol with and without the addition of fused zinc chloride were maintained at elevated temperatures in steel bombs by immersing in the vapors of constant boiling liquids. The products were analyzed for the three methyl ammonium chlorides, ammonium chloride and carbinol. Using zinc chloride as a dehydrating agent, mono-methyl ammonium chloride was obtained up to 50 per cent. of the ammonium chloride present di-methyl ammonium chloride up to 10 per cent. and tri-methyl ammonium chloride up to 4 per cent. of the ammonium chloride present. The methods of separation and estimation of the four bases are given together with tables of the equilibria reached, a summary of the results obtained and a brief bibliography.
The synthesis and physical constants of benzene and toluene sulphonamides: K. K. KERSHNER and W. D. TURNER. The sulphonamides of benzene and toluene are prepared synthetically from benzene and toluene. This is accomplished by sulphonating
the benzene and toluene, forming the sodium salt by the addition of sodium chloride, preparing the sulphonchloride by means of phosphorus pentachloride, and securing the sulphonamide by treatment with concentrated ammonia. Duplications of this process are made and comparative data taken on the yields of the different compounds formed at the conclusion of each step of the synthesis. The sodium salts are purified by centrifuging and by recrystallization from alcohol and the sulphonamides by centrifuging and by recrystallization from both concentrated ammonia and alcohol. Solubility data at different temperatures is taken on the sodium salts of benzene and toluene and on their corresponding sulphonamides with reference to absolute alcohol and pure water. A summary, giving the salient points of the work, and a bibliography, covering the literature on the subject, are given.
A sulphide alcohol: T. C. WHITNER, JR., and E. EMMET REID. By action of ethylene chlorhydrin on sodium salt of butyl mercapton the alcohol
is obtained. This alcohol and its esters and halide derivatives have been studied and shown to be quite similar in many properties to the higher alcohols of about the same molecular weights.
A sulphide acid: K. UYEDA and E. EMMET Reid. By action of sodium chloracetate on sodium salt of butyl mercapton the acid
is formed. This acid is readily obtained and is found to be similar in properties to the parafine acids of about the same molecular weight. methyl, ethyl, prophyl and butyl esters and a number of salts of this acid have been prepared.
Heterocyclic compounds of n-arylamino alcohols: R. E. RINDFUSZ and V. L. HARNACK. (1) Cyclic nitrogen compounds may be formed by the dehydration of N-arylamino alcohols. (2) Where sixmembered rings may be so formed, the dehydration takes place closing a side ring into the benzene nucleus. (3) Where a five-membered ring would be formed as a side ring annealed to the benzene nucleus, the preference is to form a six-membered ring outside. This is unlike the behavior of analogous oxygen compounds. (4) The reaction of nitrogen compounds has not been carried out in enough cases to show that these inferences are general.
The automatic separator in organic preparations: I. N. HULTMAN, ANNE W. DAVIS and H. T. CLARKE. Principle of automatic separator. Separation of butyl alcohol or amyl alcohol and water. Steam distillation of aniline and similar liquids. Preparation of anhydrous oxalic acid, butyl ether, butyl oxalate, trimethylene chlorohydrin, and glycerol dichlorohydrin.
Some condensed rings containing arsenic: W. LEE LEWIS and W. V. EVANS. Oxydiphenylene chlor arsine is prepared by a modification of Pope's method condensing diphenyl ether and arsenic chloride in the presence of aluminium chloride. With the Grignard reagent mixed arsines of the type oxydiphenylene ethyl arsine are obtained. The brom, iodo, cyan, sulphocyan and hydrosulphide derivatives were prepared. Chlorination gave oxydiphenylene trichlorarsine which on careful hydrolysis gave the oxychloride. Bromination with subsequent hydrolysis yielded oxydiphenylene arsenic acid and its metal and alkaloidal salts. condensation of diphenylmethane and diphenyl sulfide with arsenic chloride is being studied.
A cooperative pamphlet on organic chemical preparations: ROGER ADAMS, O. K. KAMM, H. T. CLARKE, J. B. CONANT. An annual pamphlet is to be published containing the detailed directions for the preparation of various reagents which may have been produced in the laboratories in which the above authors work. The directions are to be tested out in one of the other laboratories and not until the results can be duplicated are they to be published. A discussion of the reaction and bibliography of other methods of preparation are ineluded. It is hoped that others who may be carrying on investigations in organic research will be willing to contribute methods of preparation for various reagents which they may have developed in detail in their laboratories. These will be tested out and published with the others.
The reaction between aldehydes and acid halides: ROGER ADAMS, H. E. FRENCH and L. H. ULICH. It has been shown that the reaction between aromatic acid halides and aliphatic or aromatic aldehydes and between aliphatic acid halides and aliphatic aldehydes to give compounds of the general formula RCOOCHXR is very general. Early work in this field showed that a number of aliphatic halides and aldehydes reacted together to give compounds of this type but until the above research was undertaken no substances were obtained between aromatic acid halides and aliphatic
aldehydes with the exception of the compounds from benzoyl chloride and formaldehyde and no compounds from aromatic acid halides and aromatic aldehydes were produced with the exception of the compound from benzoyl bromide and benzaldehyde. The reaction between aliphatic acid halides and aromatic aldehydes does not seem to run so smoothly and results are not yet available on this point. These halogenated esters that are produced react in many cases merely like a mixture of the acid halides and aldehydes. In other cases, the halogens react like the halogens in alkyl halides.
The preparation and physiological action of oxazolidones and their decomposition into substituted B-amino ethyl alcohols: ROGER ADAMS and J. B. SEGUR. The oxazolidones are readily produced by condensing phosgene with ethylene chlorohydrin to give beta-chloroethyl chlorocarbonate. This is condensed with aniline to give the corresponding urethane derivative and then by treatment of this latter substance with alkali, the oxazolidone is produced as follows: CICOOCH,CH2CI-CH,NHCOOCH2CH,CI
If the oxazolidone is treated with excess of concentrated alkali or if the urethane derivative is treated directly with excess of concentrated alkali, very good yields of N-aryl amino alcohols are produced.
The paraethoxy phenyl oxazolidone has about the same toxicity as phenacetin and as an antipyretic possesses slightly greater value than phenacetin. CHARLES L. PARSONS, Secretary
(To be continued)
THE NORTH CAROLINA ACADEMY OF SCIENCE
THE nineteenth annual meeting of the North Carolina Academy of Science was held April 30 and May 1, 1920, at the North Carolina State College of Agriculture and Engineering, West Raleigh, N. C. At the same time the spring meeting of the North Carolina Section of the American Chemical Society was held.
Among the more important business matters discussed and acted upon were those relating to the affiliation of the academy with the American Asso
ciation for the Advancement of Science, the decision of which rests with the executive committee with power to act; and the matter of seeking state support from the next legislature which was left in the hands of the executive committee for action and if found favorable the president was authorized to appoint a committee to approach the legislature in an effort to obtain $1,000 per year to be expended for publications and the furthering of research work.
A total of twenty-eight new names was added to the membership list. The membership now inIcludes 113 individuals interested in science in North Carolina.
The following officers were elected for the year 1921:
President: Z. P. Metcalf, professor of zoology and entomology, State College, West Raleigh, N. C. Vice-president: J. M. Bell, professor of physical chemistry, University of North Carolina, Chapel Hill, N. C.
Secretary-Treasurer: R. W. Leiby, assistant entomologist, research, State Department of Agriculture and Agricultural Experiment Station, Raleigh, N. C.
Additional members executive committee: H. R. Totten, University of North Carolina; R. N. Wilson, Trinity College; F. A. Wolf, State College, Agricultural Experiment Station.
The meeting was featured by the address of the retiring president, Dr. A. H. Patterson, who spoke on "The Einstein theory of relativity." Other papers presented were:
Functions of circular curves simplified:. T. F.
Some biological aspects of the tidal zone region of
Some remarkable forms of the skeletal element in Lithistid sponges: H. V. WILSON.
Animal locomotion: H. H. BRIMLEY.
Single spore cultures of Coprinus radiatus: H. R. TOTTEN.
Genera of lower Basidoimycetes new to the United
Turtles of North Carolina: C. S. BRIMLEY.
A little-known vetch disease: F. A. WOLF.
Agricultural geology: JOHN E. SMITH.
The larger cornstalk borer Diatraea zeacolella Dyar. (Lantern): R. W. LEIBY.
The wing venation of the Heteroptera: HERBERT
An interesting fertilizer problem: H. B. ARBUCKLE.
Behind the barrier beaches from Boston to Beaufort. (Lantern): COLLIER COBB.
Some investigations on the compounds isolated from the Polypores: JOSEPH T. MATTOX and RAYMOND BINFORD.
Effect of borax on plant growth: OSCAR J. THEIS, JR., and H. B. ARBUCKLE.
Dyestuff situation in the United States: R. F. REVSON.
New ethers: A. S. WHEELER and S. C. SMITH. Further studies on the melting points of the nitrotoluenes: JAS. M. BELL.
Vitamines-a review: W. A. WITHERS.
A color reaction for pure Cymene: A. S. WHEELER.
Some new types of distillation apparatus: PAUL GROSS.