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tion of gases through stomata and lenticils is given in lecture V. It has long been known that under certain conditions some plants absorb oxygen: this is most markedly true of fungi; and Professor Vines states (p. 76) that it appears that the power of absorbing this gas is possessed by all plants, sustaining this conclusion by the experiments of Wolkoff and Mayer on seedlings, those of De Saussure, Oudemans, and others on germinating seeds, and of De Saussure on many flowers. It also appears, that, if roots are not supplied with oxygen, the plant soon becomes unhealthy, and ultimately dies. Portions of plants which contain chlorophyl abundantly, absorb oxygen in darkness, while this is given off during their exposure to sunlight. All green portions absorb carbonic acid in sunlight. Ammonia also is taken from the atmosphere, as has been shown by Ville; but free nitrogen is apparently not thence absorbed, the presence of this gas in the cell-sap being accounted for by its solubility in water.

Lecture VI. is on the movement of water in plants. A very clear account of this phenomenon is given, the circulation being regarded as passing mainly through the cell-walls of the lignified tissues. Transpiration, or the exhalation of watery vapor from the leaf surfaces, is treated of in the seventh lecture, and the food of plants in the eighth.

The next six chapters are devoted to the metabolism of plants, — the changes which materials undergo in the tissues under the influences of light, heat, chemical affinity, etc.; and these are perhaps the most valuable parts of the book. Here the discussion begins with the consideration of the formation of non-nitrogenous organic substances, principally starch; then that of nitrogenous substances, collectively termed amides,' and of the function of chlorophyl, which is concisely stated to "absorb certain rays of light, and thus enables the protoplasm with which it is intimately connected to avail itself of the radiant energy of the sun's rays for the construction of organic substance from carbonic acid and water." A summary of what is now known of the metabolic processes is admirably stated on pp. 325-328; and an instructive table, showing the income and expenditure of matter and energy, is given. The energy is entirely referable to the absorption of light by the chlorophyl, and to heat.

Lecture XV. is devoted to the phenomena of growth; and the following six chapters, to irritability, which is thus minutely described, and the forces inducing its manifestation fully discussed. In the last two chapters the subject of reproduction is treated; and here may be found a résumé of present knowledge of the development

of spores and seeds in the various divisions of the vegetable kingdom, the phenomena of hybridization, of parthenogenesis, and of variation. The closing sentence is, "Evolution is no longer a matter of chance, but is the inevitable outcome of a fundamental property of living matter."

At the close of each chapter of this most valuable book, copious references to the bibliography of the subjects treated are given; but, for some reason not apparent, these are only to the works cited, and, except in a few instances, not to pages. Had these been added, it would have greatly facilitated the work of students who desire to pursue the study further. A very extensive index, arranged not only by subjects, but also by authors quoted, is appended.


THE Challenger cephalopods were at first placed in the hands of Professor Huxley, whose numerous engagements finally obliged him to decline the work, with the exception of a special investigation into the genus Spirula. Mr. William Evans Hoyle, who was intrusted with the work by Mr. John Murray, has devoted the report now under consideration chiefly to systematic work, but expresses his intention of preparing a supplementary article on the anatomy of those specimens which are available for this purpose. He alludes to the fact, that, since the return of the Challenger, marine explorations have been SO energetically prosecuted, that no less than five genera, new when obtained by the Challenger, have since been described from the collections of the U. S. steamers Blake and Albatross, etc. Mr. Hoyle has been favored with the assistance and friendly advice of Professor Steenstrup, and has compared with the specimens of the fine collection at Copenhagen all the critical Challenger species, thus insuring a double authenticity for the determinations of the report. The latter commences with an excellent synopsis of the species of recent cephalopods, with references to the places where they are figured and described. The Challenger collection contains seventy-two species of thirty genera. Of these, thirty-two species and four genera were new to science. For one of these, Amphitritus, possessing the unique feature of having the mantle fused with the siphon in the median line, so as to form two openings into the branchial cavity, a new family has seemed necessary. None of the giant squids were obtained; as, indeed, the means for capturing such animals in their native haunts have not yet been devised,

Report of the scientific results of the exploring voyage of the Challenger. Vol. xvi.: Zoology. London, Government, 1886. 4°.

those observed or recorded by naturalists being without exception in an invalid condition or cast dead on the shores. With regard to the distribution of the species in depth, there are great difficulties in the way of deciding whether the specimens came from a given depth or not. Circumstances seem to indicate that Cirroteuthis, probably Bathyteuthis and Mastigoteuthis, and perhaps one or two species of Octopus, may be reckoned as abyssal forms. But no structural features appear to have been discovered by which a species may be definitely asserted to be a deep or a shallow water animal. This agrees well with the conclusions drawn by others from a study of the deep-sea mollusks of other classes. A full discussion of the geographical distribution of the class gives completeness to the report. In the discussion of genera and species, Mr. Hoyle has the courage of his opinions, and freely criticises where the circumstances seem to him to warrant it, but his tone is uniformly courteous. His report may be heartily commended.

The Stomatopoda are crustaceans related to the common Squilla of our southern and eastern coasts, and are restricted to shallow waters. Prof. W. K. Brooks remarks that when he examined the Challenger collection, consisting of only fifteen species, his first feeling was of disappointment, since the types seemed all familiar. But after a more thorough examination, this gave way to a lively interest, since it appeared that the material was such as to enable him to trace the ancestry and development of this small and compact order with great completeness. The Squillidae have a very long larval life, and are found at the surface of the sea, where the currents carry them vast distances; so that some of the species have a nearly world-wide distribution. The larvae are among the most elegant of the immature crustacea found in the tow-net, and naturally excite great interest among the naturalists who capture them. But the young stages do not thrive in confinernent, the eggs seem dependent on the parent for suitable conditions up to the time of hatching, and so the connection of the isolated links in the chain of life of any given species has been a task of great difficulty. The very numerous larvae contained in the Challenger collection, and the indefatigable application of Professor Brooks to the problem, have enabled him to add materially to the knowledge of the group, and to smooth away many difficulties for subsequent students. According to the author, the Challenger collections "enable us to determine, with much greater certainty than before, the larval type which pertains to nearly every one of the genera of adult Stomatopoda, and also to give a pretty complete picture

of the developmental history of each larval type."

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The collection of reef corals made was a large and important one, there being representatives of two hundred and ninety-three species, referable to sixty-nine genera, and by series large enough in many cases to afford an instructive idea of the very considerable range of variation within a species. Of the whole number, about one-fourth were new. Of the seventy-three new species, seventy-one were obtained in the Pacific, and two in the Atlantic, which illustrates fairly well our comparative knowledge of the two chief coral regions. Of the sixty-nine genera, eight are new, all from the Pacific. The report is confined to a description of the hard parts, the material for anatomical purposes being otherwise disposed of by the authorities. In the generic grouping, Professor Verrill's revised list of Dana's zoophytes, contained in the Corals and Coral Islands,' has been followed, with certain amendments as to species. Much use has been made of Professor Moseley's field notes as to the habitat and environment of the corals. A detailed list of the species from each locality has been given, which it is hoped may serve as a basis for a knowledge of the distribution of the reef corals. In classification, Mr. Quelch has mainly followed Duncan for the Madreporaria; but in the Rugosa the occurrence of Moseleya latistellata has led the author to apply a new treatment, which he anticipates will lead to some discussion. This remarkable species is directly and closely related to the most typical Cyathophyllidae, while at the same time it presents undeniable astraeid characters. It must be looked upon as one of the,most remarkable types of structure brought to light by the Challenger. It occurred at Wednesday Island, Torres Strait, in eight fathoms. The discussion of distribution, areal and bathymetric, is very interesting. The Atlantic reef coral fauna is sharply separated from that of the Pacific and Indian Oceans. The distribution in depth is greater than formerly supposed, two species reaching to seventy fathoms, though it is tolerably certain that the zone of most active growth does not extend much below twenty fathoms. The thermal limit of 68° F., which is doubtless the limit of active reef-building, does not, as formerly was believed, confine the existence of the reefbuilding species. Manicina areolata was obtained at the Cape in water of the temperature of 65°, and Madrepora borealis is said to inhabit the cold waters of the White Sea near Archangel, Russia. On this point we confess to some scepticism, until at least a second specimen is obtained; that in the Paris museum, still unique, dating from

1829. Certain corals have been observed living in brackish or even nearly fresh water, others in the mud about the mangrove roots, and one species seemed to suffer little from exposure at low tide to the sun and air. The statement of Edwards and Haime, that a species of coral common in the Red Sea is found in the Dead Sea, is another matter which will bear renewed examination. The report supplements in a satisfactory manner the valuable work of Professor Moseley, and will add materially to the reputation of its author.

This valuable contribution to comparative osteology (Report on the human crania and other bones of the skeleton,' part ii., by Sir William Turner) is largely devoted to the discussion of the pelvis. The characteristics of the black races differ among themselves as well as from those of the European type, which, as by far the best known, is adopted as a standard of comparison. In most of the negroids the conjugate diameter is long compared with the transverse, and the height increases. In the negroes and Tasmanians these characters are less pronounced compared with Europeans. In nearly all the black races the average length of the sacrum is greater than its average breadth, contrary to what occurs with white races, and, in so much, more like a tail. The lumbar curve in the black races, as derived from the vertebrae alone, is concave forward; the clavicle may be longer in proportion to the humerus than with the whites; the scapular index is apparently higher, except with the Bushmen and Australians, while in the Tasmanian it may have been distinctly lower; the radius and tibia are longer in relation to the humerus and femur; the shaft of the upper limb is proportionally shorter than that of the lower limb. In general, racial characteristics appear in the skeleton as well as in the skull. Among existing races osteological characters may be found similar to those of the most ancient known remains; and the differences which exist between the bones of primitive people are no more, in kind or degree, than are to be seen in corresponding parts of men of the present day.


THE Michigan board of agriculture is likewise the governing body of the Michigan agricultural college, and considerably more than half of its twenty-fourth report relates to the latter institution. The general report of the secretary is followed by the inaugural address of the new president, Hon. Edwin Willitts, and the reports of the

Twenty-fourth annual report of the secretary of the state board of agriculture of the state of Michigan, 1884-85. Lansing, State, 1886. 8°.

president and professors upon the work of their several departments. This, in most cases, is of a twofold character, instructional and experimental. Of the instructional work it is hardly necessary to speak, further than to say that it follows the modern methods of teaching the physical sciences, and that, as is well known, ample facilities are provided in the way of laboratories, apparatus, farm, garden, park, etc.

The experimental work of such an institution is necessarily subordinated to the work of instruction; and, while valuable experiments have been made, the college by no means takes the same high rank as an experiment-station that it does as a college. In this connection we note that President Willitts, in his inaugural, speaks of the Hatch bill, now pending in congress, as a bill "to make all the agricultural colleges experiment-stations." If this is the intent of the bill, it were better left to slumber in committee of the whole. We certainly shall not look for great good from its passage, if the theory prevails that the professors of an agricultural college can successfully conduct an experiment-station in their leisure moments with an income of fifteen thousand dollars per


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AN ingenious gentleman of Evanston, Ill., has succeeded in applying the principle of the injector to a grain-elevator. The grain is run from the car to a revolving hopper, through an aperture in the bottom of which is forced a powerful blast of air, which carries the grain a certain distance up a horizontal tube. At intervals in this tube are bends, or horizontal curves, forming relays. These relays act as auxiliary hoppers, a fresh blast of air being admitted at each one, which carries the grain to the next higher relay. In this way the grain may be raised to any desired height. A modification of this device is arranged to raise grain from the hold of a ship or boat.

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IT SEEMS A PITY that wealthy men who bequeath money to colleges cannot trust the authorities to expend the legacy in the way most beneficial to educational interests. Nearly every rich man who leaves any thing to a college seems to deem it essential that he indicate how it shall be expended, and the channels of expenditure selected are by no means always well chosen. While Mr. Greenleaf, the Boston hermit, who recently left nearly the whole of his large estate to Harvard college, made conditions that are more rational than usual, yet it is probably true that the president and fellows of Harvard could have used the five hundred thousand dollars if it prove to be so much—with more benefit to education and in satisfaction of what are the more pressing wants of the college, had they been untrammelled by any testamentary conditions. The foundation of new chairs, the increase of the salaries of poorly paid instructors, the construction of some new laboratory, — all suggest themselves as being what Harvard probably needs most. The foundation by Mr. Greenleaf of ten undergraduate scholarships of an annual value of three hundred dollars each, is an excellent thing; and they will, beyond a question, be the means of affording a liberal education to young men who could not otherwise secure it. It may be that Mr. Greenleaf has left his money with fewer conditions than are now reported, but in our view it would have been better had he left his money without any conditions at all. The president, faculty, and trustees of a college are the proper persons to decide most intelligently what the institution needs most.

IT VERY FREQUENTLY occurs that among the advertisements in English educational and literary papers are to be found some calling for applications for vacant chairs in leading educational institutions. Owens college, Manchester, and the leading colonial universities, frequently advertise in this way. As with us this never happens, the practice of advertising being restricted to schools and small colleges, it seems odd to read these

No. 203.1886.


We cannot help imagining the result that would ensue were it extensively advertised that applications were wanted for the chair of history at Harvard, of physics at Columbia, or of Latin at Yale. Without any advertisement, a vacancy in the faculty of a leading American college not long ago, called forth forty applications from this country and from England, many of them coming from men of eminence in the scholastic world. In selecting a professor from that number, the trustees were driven nearly crazy, and no one can predict the result had applications been solicited by advertisement. Which method is the better for the institution is the important question, and we have no hesitancy in saying that we believe nothing is lost by our habit of not advertising. In the case of all our principal colleges, it is undoubtedly the fact that the president and trustees keep their eyes continually open, and when a vacancy occurs they are pretty sure to know who is the best man for the place; or, in any event, they have made up, unconsciously, a short list from which the selection is to be made. It is to be urged, too, in favor of not advertising, that governing bodies thus escape the importunities of individuals in no way fitted for the position to be filled, but who put in an application in the hope of bettering their condition.

THE QUESTION AS TO the necessity or advisability of retaining corporal punishment in schools as a means of discipline is by no means settled. The majority of the authorities undoubtedly favor its abolition, but a strong minority are contending for its retention. At the last meeting of the German-Austrian teachers' union, a vigorous debate took place on this subject, being precipitated by the report of a special committee in favor of retaining corporal punishment as a last resort in cases of malicious wantonness, obstinate defiance, disobedience, falsehood or dishonesty. Dr. Dittes, a lifelong student of pedagogy, opposed the resolutions as embodying a great pedagogic error. He said that if, as claimed, its re-introduction into German schools was necessary, the logical conclusion must be that the German youth and nation rank, from a moral stand-point, below the French,

in whose schools discipline was good, though no corporal punishment was allowed. Dr. Dittes insisted that the school must not be made a house of correction. The voting on the resolutions seems to have been attended with much confusion, as the result is disputed. The final figures given were, for the adoption of the resolutions contained in the committee's report, 181; against their adoption, 168. The Austrian papers condemn the teachers for adopting the resolutions; and the Neue freie presse of Vienna went so far as to say that this public confession by Austrian teachers, that they cannot accomplish their high task without the use of the rod, is proof that the main problem to be solved is not how to reform the education of children, but how to reform the training of teachers.

IN NEW YORK CITY, Mayor Grace has followed up his excellent appointments to the school board by a letter addressed to that body on the subject of industrial education in the schools. Mayor Grace is of opinion that now is an exceptionally favorable time for the establishment and equipment of an industrial school for girls, because the normal college is in what may be termed a state of congestion;' hundreds of applicants who have demonstrated their fitness by obtaining the percentage required on examination, being turned away every year owing to lack of accommodation. Mayor Grace's idea is, that an industrial school can now be established in which young women may be taught such special branches as phonography, telegraphy, book-keeping, cooking, sewing, and type-writing. Admission to this school should be from the various grammar-schools throughout the city, and thus the overpressure at the normal college would be relieved. This school could be made to serve as an experiment, and upon its success would probably depend the future introduction of industrial education upon a more extended scale. By way of practical advice, the mayor recommends the board of education to apply to the board of estimate for an appropriation sufficient to start such a school, and promises his own vote and voice in favor of granting such an application if it is made.

THE GERMANS HAVE been forming a modernlanguage association similar to that in existence here, and of which the fourth annual session is to be held next week. About one hundred and fifty

professors and teachers met at Hanover and organized as the Verband der deutschen neuphilologischen lehrschaft. The same conditions seem to prevail abroad as here, for we read in Modernlanguage notes that at the Hanover meeting pretty much the same wailings were heard about the defects of pedagogic methods, the preponderance of the classical element in the schools, and the necessity for organization, as went up from the assembly by which the American modern-language association was formed. But modern-language teachers seem to disagree widely among themselves as to method, as any one can learn by reading discussions on the subject, such as that lately printed in the Academy, the excellent journal published by the associated academic principals of the state of New York. If they are to carry on a vigorous attack against the methods of classical instruction, they must themselves present a united front, and come to a definite agreement as to how modern languages can be best and most expeditiously learned. We very frequently hear complaints from university professors that they are greatly crippled in teaching their subjects, because the men who come up to them in junior, senior, and graduate years, although they profess to have studied German and French, cannot use French and German authorities and books of reference. This certainly is wrong, and should not be suffered to continue; and it is our instructors in modern languages to whom we must look for a change. Our own firm conviction is, that, at the present stage of scientific and literary study, a student entering the junior year of his college or university course should be able to read French and German fluently, and understand them readily when spoken, if he is to gain the fullest benefit from the last two years of his course. And this knowledge will, we believe, be best secured by making the ability to read one of these two languages a condition of admission to the freshman class, and making the study of the other, with the express aim of learning to read it, compulsory during freshman and sophomore years.

AT THE PHILADELPHIA meeting of teachers of preparatory schools, of which we print an account elsewhere, President Magill of Swarthmore college made an acute comment on Professor James's paper on the professional training of teachers. He said that chairs of pedagogy in the colleges would not be of much avail if women, who are generally

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