Systematic Theology (Volume 2 of 3) - Augustus Hopkins Strong

2. The beginning of activity in matter would manifest itself by the production of light, since light is a resultant of molecular activity. This corresponds to the statement in verse 3. As the result of condensation, the nebula becomes luminous, and this process from darkness to light is described as follows: “there was evening and there was morning, one day.” Here we have a day without a sun—a feature in the narrative quite consistent with two facts of science: first, that the nebula would naturally be self-luminous, and, secondly, that the earth proper, which reached its present form before the sun, would, when it was thrown off, be itself a self-luminous and molten mass. The day was therefore continuous—day without night.

3. The development of the earth into an independent sphere and its separation from the fluid around it answers to the dividing of “the waters under the firmament from the waters above,”in verse 7. Here the word “waters” is used to designate the “primordial cosmic material”(Guyot, Creation, 35-37), or the molten mass of earth and sun united, from which the earth is thrown off. The term “waters” is the best which the Hebrew language affords to express this idea of a fluid mass. Ps. 148 seems to have this meaning, where it speaks of the “waters that are above the heavens” (verse 4)—waters which are distinguished from the “deeps” below (verse 7), and the “vapor” above (verse 8).

4. The production of the earth's physical features by the partial condensation of the vapors which enveloped the igneous sphere, and by the consequent outlining of the continents and oceans, is next described in verse 9 as the gathering of the waters into one place and the appearing of the dry land.

5. The expression of the idea of life in the lowest plants, since it was in type and effect the creation of the vegetable kingdom, is next described in verse 11 as a bringing into existence of the characteristic forms of that kingdom. This precedes all mention of animal life, since the vegetable kingdom is the natural basis of the animal. If it be said that our earliest fossils are animal, we reply that the earliest vegetable forms, the algæ, were easily dissolved, and might as easily disappear; that graphite and bog-iron ore, appearing lower down than any animal remains, are the result of preceding vegetation; that animal forms, whenever and wherever existing, must subsist upon and presuppose the vegetable. The Eozoön is of necessity preceded by the Eophyte. If it [pg 396]be said that fruit-trees could not have been created on the third day, we reply that since the creation of the vegetable kingdom was to be described at one stroke and no mention of it was to be made subsequently, this is the proper place to introduce it and to mention its main characteristic forms. See Bible Commentary, 1:36; LeConte, Elements of Geology, 136, 285.

6. The vapors which have hitherto shrouded the planet are now cleared away as preliminary to the introduction of life in its higher animal forms. The consequent appearance of solar light is described in verses 16 and 17 as a making of the sun, moon, and stars, and a giving of them as luminaries to the earth. Compare Gen. 9:13—“I do set my bow in the cloud.” As the rainbow had existed in nature before, but was now appointed to serve a peculiar purpose, so in the record of creation sun, moon and stars, which existed before, were appointed as visible lights for the earth,—and that for the reason that the earth was no longer self-luminous, and the light of the sun struggling through the earth's encompassing clouds was not sufficient for the higher forms of life which were to come.

7. The exhibition of the four grand types of the animal kingdom (radiate, molluscan, articulate, vertebrate), which characterizes the next stage of geological progress, is represented in verses 20 and 21 as a creation of the lower animals—those that swarm in the waters, and the creeping and flying species of the land. Huxley, in his American Addresses, objects to this assigning of the origin of birds to the fifth day, and declares that terrestrial animals exist in lower strata than any form of bird,—birds appearing only in the Oölitic, or New Red Sandstone. But we reply that the fifth day is devoted to sea-productions, while land-productions belong to the sixth. Birds, according to the latest science, are sea-productions, not land-productions. They originated from Saurians, and were, at the first, flying lizards. There being but one mention of sea-productions, all these, birds included, are crowded into the fifth day. Thus Genesis anticipates the latest science. On the ancestry of birds, see Pop. Science Monthly, March, 1884:606; Baptist Magazine, 1877:505.

8. The introduction of mammals—viviparous species, which are eminent above all other vertebrates for a quality prophetic of a high moral purpose, that of suckling their young—is indicated in verses 24 and 25 by the creation, on the sixth day, of cattle and beasts of prey.

9. Man, the first being of moral and intellectual qualities, and the first in whom the unity of the great design has full expression, forms in both the Mosaic and geologic record the last step of progress in creation (see verses 26-31). With Prof. Dana, we may say that “in this succession we observe not merely an order of events like that deduced from science; there is a system in the arrangement, and a far-reaching prophecy, to which philosophy could not have attained, however instructed.” See Dana, Manual of Geology, 741-746, and Bib. Sac., April, 1885:201-224. Richard Owen: “Man from the beginning of organisms was ideally present upon the earth”; see Owen, Anatomy of Vertebrates, 3:796; Louis Agassiz: “Man is the purpose toward which the whole animal creation tends from the first appearance of the first palæozoic fish.”

Prof. John M. Taylor: “Man is not merely a mortal but a moral being. If he sinks below this plane of life he misses the path marked out for him by all his past development. In order to progress, the higher vertebrate had to subordinate everything to mental development. In order to become human it had to develop the rational intelligence. In order to become higher man, present man must subordinate everything to moral development. This is the great law of animal and human development clearly revealed in the sequence of physical and psychical functions.” W. E. Gladstone in S. S. Times, April 26, 1890, calls the Mosaic days “chapters in the history of creation.” He objects to calling them epochs or periods, because they are not of equal length, and they sometimes overlap. But he defends the general correspondence of the Mosaic narrative with the latest conclusions of science, and remarks: “Any man whose labor and duty for several scores of years has included as their central point the study of the means of making himself intelligible to the mass of men, is in a far better position to judge what would be the forms and methods of speech proper for the Mosaic writer to adopt, than the most perfect Hebraist as such, or the most consummate votary of physical science as such.”

On the whole subject, see Guyot, Creation; Review of Guyot, in N. Eng., July, 1884:591-594; Tayler Lewis, Six Days of Creation; Thompson, Man in Genesis and in Geology; Agassiz, in Atlantic Monthly, Jan. 1874; Dawson, Story of the Earth and Man, 82, and in Expositor, Apl. 1886; LeConte, Science and Religion, 264; Hill, in Bib. Sac., April, 1875; Peirce, Ideality in the Physical Sciences, 38-72; Boardman, The Creative Week; [pg 397]Godet, Bib. Studies of O. T., 65-138; Bell, in Nature, Nov. 24 and Dec. 1, 1882; W. E. Gladstone, in Nineteenth Century, Nov. 1885:685-707, Jan. 1886:1, 176; reply by Huxley, in Nineteenth Century, Dec. 1885, and Feb. 1886; Schmid, Theories of Darwin; Bartlett, Sources of History in the Pentateuch, 1-35; Cotterill, Does Science Aid Faith in Regard to Creation? Cox, Miracles, 1-39—chapter 1, on the Original Miracle—that of Creation; Zöckler, Theologie und Naturwissenschaft, and Urgeschichte, 1-77; Reusch, Bib. Schöpfungsgeschichte. On difficulties of the nebular hypothesis, see Stallo, Modern Physics, 277-293.