21. : Herbert Spencer may be quoted as authority on this point. He says: "There is invariably, and necessarily, a conformity between the vital functions of any organism, and theconditionsin which it is placed ... We find that every animal is limited to a certain range of climate; every plant to certain zones of latitude and elevation." And the same law holds good as to the marine fauna and flora, each specific form being confined to its own sea-depth, or distance north or south from the thermal equator.
22. : Speaking of the ultimate principles or elements of matter, Plato is quoted by Humboldt as exclaiming with modest diffidence, "God alone, and those whom he loves among men, know what they are." It is only those who seek to eliminate God from the universe that speak with confident flippancy on the subject of molecular machinery and force-correlations.
23. : As long as the evolutionists cannot agree among themselves as to what constitutes the process of evolution, it can hardly be expected that the public will accept their speculations as conclusive inductions. Professor Bastian, who strongly commits himself to the doctrine, thinks the word "evolution" arbitrary and open to many objections, while Mr. Herbert Spencer says;--"The antithetical word Involution would much more truly express the nature of the process."
24. : "Know ye not that ye are the temple of God, and that the spirit of God dwelleth in you?" 1 Cor. 3. xvi.
25. : Dr. Drysdale, in his work on the "Protoplasmic Theory of Life," says: "Matter cannot change its state of motion or rest without the influence of some force from without. True spontaneity of movement is, therefore, just as impossible to it as to what we call dead matter.... So we are compelled to admit the existence of an exciting cause in the form of some force from without to give the initial impulse in all vital actions." In all life-manifestations, this "force from without," must be a pre-existing vital principle operating to effect the otherwise impossible change in matter.
26. : A favorite set-phrase of Professor Bastian in speaking of morphological cells or "units," as he sometimes calls them.
27. : That great and justly celebrated naturalist, Buffon, in speaking of the universal origination of the lower forms of animal life by a process termed, in his time, "spontaneous generation," says: "There are, perhaps, as many living things, both animal and vegetable, which are produced by the fortuitous aggregations of 'molécules organiques,' as there are others which reproduce themselves by a constant succession of generations." It is said that Buffon was for some time associated with the Abbé Needham in his experiments in vital directions, and was much influenced by them. So that it is by no means certain that he did not accept the Abbé's "force végétative" in place of his more materialistic views respecting "molécules organiques." At all events, his statement that as many living things appear in nature independently of reproducing causes as by successive generation, is no doubt true.
28. : M. Tréviranus, who followed Spallanzani and M. Bonnet in these flask experimentations, first noticed the important fact that the animalculæ appearing in different organic infusions, depended on the nature and quality of the infusions themselves, and that the changed conditions of the same infusion produced new and independent forms of life.
29. : Leibnitz, as quoted by M. Bonnet, says:--"Que l'Entendement Divin étoit la religion éternelle des Essences; parce que tout ce qui existe existoit comme de toute éternité comme possible ou en idée dans l'entendement de Dieu. J'exprimerai cette vérité sublime en d'autres termes: le plan entier d'univers existoit de toute Eternité dans l'entendement du Suprême Architecte. Tou tes les parties de l'univers et jusqu' an moindre atome étoient deffinés dans ce plan. Tous les changemens qui devoient survenir aux différentes pieces de ce Tout immense y avoient aussi leurs représentations. Chaque etre y étoit figuré par ses characteres propres: et l'acte par lequel la Souveraine Puissance a réalisé ce plan, est ce que nous nommons la Création."
30. : Here is a fact given us by Dr. F. Hall, of Wallingford, Conn.: In a peat meadow in that town, owned by him, which was at no time subject to overflow, a large quantity of peat had been removed at different intervals of time, when the excavations naturally filled with water. In these excavations there appeared not only theCyprinidaein considerable numbers, but fresh water clams which grew to be as large as those in the most favored streams. They made their appearance the very first season after the peat was removed, and have flourished there ever since. In no other portions of the meadow were there any fish or clams ever noticed before, nor was there any other source of water-supply than the rain-falls in that locality.
31. : Professor Beale, in one of his very latest works says: "Of the chemical and physical forms of energy something is known, but of the relationship of the so calledvitalenergy, nothing has been proved. We only know that the influence it exerts is altogether different from that which has been traced to physical and chemical energy."
32. : It is admitted, even in the case ofBacteria, whose movements are the most uniform, that they are sometimes so inert and languid as to show no movements at all; while, at other times, they exhibit mere Brownian movements or those no more nearly allied to "life" than the minute particles of carbon escaping from the flame of a kerosene lamp. And among the most distinguished microscopists, it is a question whether these infusorial forms, those exhibiting the most active oscillations, are really vegetal or animal in origin; in other words, whether they areFungus-sporesorTorula-cells, or whether they may not be some intermediate forms.
33. : The difficulty of assigning any definitional value to a "primordial germ" is due to the vagueness of idea attached to it in the popular mind, as well as to the diversified theories and speculations of the scientists concerning the origin of life. We can only define it as a "vital unit," as the chemist defines his smallest conceivable quantity--his "primary least"--of an element, as a "chemical unit."
34. : Let two comrades be shot at the same instant in battle, the one through the heart, and the other through the arm, shattering it badly. What is there to prevent the surgeon from taking a piece of bone out of the arm of the man shot through the heart and instantly killed, and using it to make good the arm of the man still living? Apparently nothing but that the dead man's bone will not knit. He may not have been dead five minutes, and Professor Beale's bioplasts might still be at work spinning matter and weaving tissue for the integrity of the displaced bone. Why will it not knit? Simply because the vital principle that differentiates matter is gone--can no longer act. If the integrity of the bone depended on the action of the molecules, and not on the vital principle, there is no reason why this experiment should not be a success. For the molecules are all there, and their action will not be disturbed for hours after the death of the man shot through the heart.
35. : It is safe to adhere to the Leibnitzian axiom,Natura non agit saltatim.
36. : One of the most cultured classes of Christian believers in our day, holds that "all life is from the Lord;" that "He is the fountain, and we only the streams thence." And this, they claim, is true of all life. To "take away our breath," therefore, is to cut off this stream perpetually flowing from its invisible source--the fountain of all Life. When scientific methods substitute for a first cause a mere resultant effect, all primary principles disappear in their intermediates.
37. : Professor Marsh, of Yale College, has predicted that the "missing link" will be found in Borneo--evidently not crediting Mr. Stanley's statement about its presence in the interior of Africa. But one "missing link" is hardly enough; there ought to be an extensive family of them to complete Mr. Darwin's plexus. From the lowest genetic form to the anthropoid ape is a distance which does not half cover the length of this plexus--the immense gap between the monkey and the man being decidedly the greater length of chain. And yet the first half of the chain is traversed by innumerable forms--millions of links, so to speak. How, then, is the greater length of the plexus to be covered by a single "missing link?" A long line of caudal ancestry must be dug up, therefore, in Borneo, and shipped to the Peabody Museum, before this tremendous stretch in the chain of animated nature is satisfactorily accounted for. Borneo must be exceedingly rich in osteologic remains, even to bridge the chasm between its own ourang-outangs and the Dyaks, or aboriginal inhabitants, of that island.
38. : This daring hypothesis of the materialists is so utterly repugnant to all our ideas of a perfected Cosmos, that we have no patience with those advancing it. It is, at best, speculation run mad, and is based on no other assumption than that of the inherent imperfectibility of the universe as it came from the hand of God, or from the dynamic play of molecules extending throughout vast geognostic epochs.
From a materialistic stand-point this assumption of imperfectibility inevitably runs into thereductio ad absurdum. For if, in the play of the material forces of the universe, an infinite duration of past time has effected nothing but mutually disturbing and re-adjusting movements and relations among cosmical bodies, then an infinite duration of time to come can effect nothing but similarly mutual adjustments and re-adjustments in respect to such bodies. With an infinity of time, space, matter and motion, everywhere presenting a unity of phenomena in the universe, "there can never be anything," according to the great Stagirite, "unconnected or out of place, as in a bad tragedy." Conservation must, therefore, be the rule, and desinence the impossible exception.
But these adherents of inherent imperfectibility instance the fact of vanished and variable stars, as well as those that have suddenly appeared, and, after brief periods of intense brilliancy, as suddenly disappeared, to show that there are mighty disturbances in the sidereal heavens which entirely negative the idea of "conservation" as a geognostic law. But the phenomena of variable stars, with all their apparent irregularity of motion and fluctuations in luminosity, are now being traced to definite and well-determined laws of motion, if not of light, while the theory of extinguished and disappearing stars belongs exclusive to the age of Tycho Brahe. Where there is one self-luminious body (or sun) in the interstellary spaces, there are probably not less than forty non-luminous or dark cosmical bodies revolving about their respective centres of light and heat, as the attending planets revolve about the common centre of gravity in our own system. And this is especially true of that vast and fathomless star-stratum, called the Milky-way, in which most of these peculiar phenomena occur, with the exception of the variable stars only.
That stars should vary in their intensity of light by the probable transits of these dark cosmical bodies across their discs, is no matter of wonder or astonishment: on the contrary, it is surprising that these sidereal phenomena do not occur with much greater frequency. This would inevitably be the case if the planes of revolution, in the case of these non-luminous bodies about their central orbs, were coincident with the lines of vision from our own planet--a circumstance by no means improbable from the vastness of the sidereal heavens and the innumerable hosts of stars marching therein. Besides, these periodical variations may be accounted for in part--especially in the case of double stars--from their apparent rather than real change of place in the heavens. For if our sun-system is travelling towards a point in the constellation Hercules at the rate of 194 thousand miles an hour (the rapidity of Arcturus' flight), it is impossible to determine, in the present state of astronomical knowledge, whether the apparent change of place in any star is real or merely optical. But, in the case of double stars, each is travelling (independently of its other motions) about the common centre of gravity obtaining in its own system, and these relative movements may account for the greater or less intensity of light as the two stars, viewed as one, present a greater or less area of luminosity in their united surfaces.
The assumed revolution of one of these stars about the other--thus destroying all the known analogies of the universe, as exemplified in our own system--may be accounted for in the same way. With stupendous planetary systems revolving about each of these apparently double stars, they must respectively have a revolution, real as well as apparent, about their own centres of gravity--not one and the same centre, but different and far distant centres. Lying in nearly the same line of vision, with planes of movement at right angles with it, they would necessarily present the appearance of one star revolving about the other--anapparentmotion only.
And the writer here ventures an explanation of the phenomena oftemporarystars, or those making their appearance in the heavens, flaming up into stars of the first, second and third magnitudes, and then disappearing altogether. The most remarkable of these stars, orapparentstars, was that of Tycho Brahe in 1572, presenting its maximum brilliancy at the very first, but gradually diminishing in size until the end of seventeen months, when it disappeared, without change of place, from the heavens. This temporary star was visible in Cassiopeia, on the verge of the Milky-way, within whose swarm of stellar worlds most of these apparent stars have made their appearance. Tycho Brahe, in seeking to account for this stellar phenomenon, advanced the theory that stars might be "formed and molded out of cosmical vapor," or "vapory celestial matter," as the elder Herschel put it, "which becomes luminous as it condenses (conglomerates) into fixed stars." But any such rapid condensation of "vapory matter," in the light of Laplace's "nebular theory," is manifestly too absurd for scientific recognition. A more satisfactory explanation may be here suggested:--Supposing the apparent relative position of any six or seven stars of the sixth magnitude in the Milky-way, should be so changed by the combined motions of our sun-system and of the stars themselves, as to throw them into one and the same line of vision, but so clustered together as to show their several star-discs as one, we should unquestionably have a star of the first magnitude, which would continue as long as this extraordinary stellar conjunction should last. As one after another of these stars should fall out of line, by reason of the combined motions named, the apparent star would be diminished from the first to the second magnitude, and so on until it reached the sixth magnitude, when it would pass beyond the reach of unaided human vision. But as the star of Tycho Brahe suddenly appeared at its fullest brilliancy, it may be objected that this suggested theory fails to meet the required conditions.
As 18,000,000, out of the 20,000,000, of telescopic stars lie in the Milky-way, it is not by any means improbable that such a conjunction of stars may occur therein as often at least as once or twice in a century. We certainly see brilliant patches of closely-crowded stars, in great numbers, in this galactic zone, and the fact that these temporary stars almost uniformly appear in that zone renders the suggestion here made quite as rational, in the way of speculation at least, as that of "vapory celestial matter" suddenly condensed into a star of the first magnitude, as Sir. William Herschel would have us believe was possible, if not probable.
Besides, it is a definitely ascertained fact that such clusters of stars, lying in almost the same line of vision, exist in various parts of the heavens, which present to the naked eye the appearance of a star of the fourth or fifth magnitude, and probably would, if more thickly clustered, present that of a star of the first magnitude. But powerful telescopes resolve them into a large number of stars, from the thirteenth to the fifteenth magnitude. One such cluster in Andromeda's girdle has been resolved into not less than fifteen hundred small stars of very low magnitude, and pretty widely scattered in the telescopic field. Alexander Von Humboldt, in speaking of stars that have thus disappeared, says that "their disappearance may be the result of their motion as much as of any diminution of their photometric processes (whether on their surfaces or in their photospheres), as would render the waves of light too weak too excite the organs of sight." And he adds: "What we no longer see is not necessarily annihilation," repeating at the same time the question of Pliny--"Stellæ an obirent nascerenturve?"
But another, and (to our mind) more satisfactory, explanation of these stellar phenomena, may be hazarded in this connection: There are, for instance, in the Milky-way, among the more brilliant clusters of stars, dark granular spots, of greater or less magnitude, in which the most powerful telescopes show no glints or traces of stars. They are among Humboldt's smaller "fissures or chasms in the heavens," in which he asserts that there is a great paucity of stars, or none at all. Now, if one of these thick stellar clusters, which show to the naked eye as a single star, should, by the combined cosmical movements of our sun-system and the stellar group in question, pass into the field of one of these small rents or "fissures" in the galactic curtain--that lying in front of the stellar cluster--it would immediately show as a star of possibly the first magnitude, and would continue to shine as a star of that magnitude so long as it remained in the field of the narrow rent or fissure. It would shine out suddenly like a star through a rift in the clouds of a dark night, and disappear as soon as it had traversed, or apparently traversed, the rift in question. This galactic curtain, it should be borne in mind, is made up of 18,000,000 of stars, or sun-systems, and not less than 720,000,000 dark cosmical bodies revolving about their respective centres of gravity. If the "nebular theory" of the universe be true, this is unquestionably the exact condition of things in the Milky-way. Of the more distant stars in this crowded galaxy, we can only catch, even in the telescopic field, mere glints of light as the intervening swarms of stellar and planetary worlds thicken in the foreground and shut out the more distant view. It is only through these rents and fissures in this great galactic curtain that the brighter stellar clusters beyond can ever be seen; and these glints of far distant light, showing dimly through this curtain, may account for the peculiarmilkyappearance of the galaxy, arising from the loss of chromatic power in the full beams themselves. It was undoubtedly through one of these rents in the galactic curtain that the condensed starry cluster of Tycho Brahe suddenly made its appearance in the outer fringes of the Milky-way, and remained visible for a period of seventeen months.