's 1861 geological timescale from
Palæontology, showing the appearance of major animal types
Paleontology and geology In 1796,
Georges Cuvier published his findings on the differences between living
elephants and those found in the
fossil record. His analysis identified
mammoths and
mastodons as distinct species, different from any living animal, and effectively ended a long-running debate over whether a species could become extinct. In 1788,
James Hutton described
gradual geological processes operating continuously over
deep time. In the 1790s,
William Smith began the process of ordering
rock strata by examining fossils in the layers while he worked on his geologic map of England. Independently, in 1811, Cuvier and
Alexandre Brongniart published an influential study of the geologic history of the region around Paris, based on the
stratigraphic succession of rock layers. These works helped establish the antiquity of the Earth. Cuvier advocated
catastrophism to explain the patterns of extinction and
faunal succession revealed by the fossil record. Knowledge of the fossil record continued to advance rapidly during the first few decades of the 19th century. By the 1840s, the outlines of the
geologic timescale were becoming clear, and in 1841
John Phillips named three major eras, based on the predominant
fauna of each: the
Paleozoic, dominated by marine
invertebrates and fish, the
Mesozoic, the age of reptiles, and the current
Cenozoic age of mammals. This progressive picture of the history of life was accepted even by conservative English geologists like
Adam Sedgwick and
William Buckland; however, like Cuvier, they attributed the progression to repeated catastrophic episodes of extinction followed by new episodes of creation. Unlike Cuvier, Buckland and some other advocates of natural theology among British geologists made efforts to explicitly link the last catastrophic episode proposed by Cuvier to the
biblical flood. From 1830 to 1833, geologist
Charles Lyell published his multi-volume work
Principles of Geology, which, building on Hutton's ideas, advocated a
uniformitarian alternative to the catastrophic theory of geology. Lyell claimed that, rather than being the products of cataclysmic (and possibly supernatural) events, the geologic features of the Earth are better explained as the result of the same gradual geologic forces observable in the present day—but acting over immensely long periods of time. Although Lyell opposed evolutionary ideas (even questioning the consensus that the fossil record demonstrates a true progression), his concept that the Earth was shaped by forces working gradually over an extended period, and the immense age of the Earth assumed by his theories, would strongly influence future evolutionary thinkers such as Charles Darwin.
Transmutation of species s towards higher levels (
orthogenesis) creating a ladder of
phyla, and an adaptive force causing animals with a given body plan to adapt to circumstances (use and disuse,
inheritance of acquired characteristics), creating a diversity of
species and
genera. Jean-Baptiste Lamarck proposed, in his
Philosophie zoologique of 1809, a theory of the transmutation of species (
transformisme). Lamarck did not believe that all living things shared a common ancestor but rather that simple forms of life were created continuously by spontaneous generation. He also believed that an innate
life force drove species to become more complex over time, advancing up a linear ladder of complexity that was related to the great chain of being. Lamarck recognized that species adapted to their environment. He explained this by saying that the same innate force driving increasing complexity caused the organs of an animal (or a plant) to change based on the use or disuse of those organs, just as exercise affects muscles. He argued that these changes would be inherited by the next generation and produce slow adaptation to the environment. It was this secondary mechanism of adaptation through the inheritance of acquired characteristics that would become known as
Lamarckism and would influence discussions of evolution into the 20th century. A radical British school of comparative anatomy that included the
anatomist Robert Edmond Grant was closely in touch with Lamarck's French school of
Transformationism. One of the French scientists who influenced Grant was the anatomist
Étienne Geoffroy Saint-Hilaire, whose ideas on the unity of various animal body plans and the
homology of certain anatomical structures would be widely influential and lead to intense debate with his colleague Georges Cuvier. Grant became an authority on the
anatomy and reproduction of marine invertebrates. He developed Lamarck's and Erasmus Darwin's ideas of transmutation and
evolutionism, and investigated homology, even proposing that plants and animals had a common evolutionary starting point. As a young student, Charles Darwin joined Grant in investigations of the life cycle of marine animals. In 1826, an anonymous paper, probably written by
Robert Jameson, praised Lamarck for explaining how higher animals had "evolved" from the simplest worms; this was the first use of the word "evolved" in a modern sense. 's
Vestiges of the Natural History of Creation (1844) shows
fishes (F),
reptiles (R), and birds (B) branching from a path leading to
mammals (M). In 1844, the Scottish publisher
Robert Chambers anonymously published an extremely controversial but widely read book entitled
Vestiges of the Natural History of Creation. This book proposed an evolutionary scenario for the origins of the
Solar System and of life on Earth. It claimed that the fossil record showed a progressive ascent of animals, with current animals branching off a main line that leads progressively to humanity. It implied that the transmutations lead to the unfolding of a preordained plan that had been woven into the laws that governed the universe. In this sense it was less completely materialistic than the ideas of radicals like Grant, but its implication that humans were only the last step in the ascent of animal life incensed many conservative thinkers. The high profile of the public debate over
Vestiges, with its depiction of
evolution as a progressive process, would greatly influence the perception of Darwin's theory a decade later. Ideas about the transmutation of species were associated with the radical
materialism of the Enlightenment and were attacked by more conservative thinkers. Cuvier attacked the ideas of Lamarck and Geoffroy, agreeing with Aristotle that species were immutable. Cuvier believed that the individual parts of an animal were too closely correlated with one another to allow for one part of the anatomy to change in isolation from the others, and argued that the fossil record showed patterns of catastrophic extinctions followed by repopulation, rather than gradual change over time. He also noted that drawings of animals and animal mummies from
Egypt, which were thousands of years old, showed no signs of change when compared with modern animals. The strength of Cuvier's arguments and his scientific reputation helped keep transmutational ideas out of the mainstream for decades. . In
Great Britain, the philosophy of natural theology remained influential.
William Paley's 1802 book
Natural Theology with its famous
watchmaker analogy had been written at least in part as a response to the transmutational ideas of Erasmus Darwin. Geologists influenced by natural theology, such as Buckland and Sedgwick, made a regular practice of attacking the evolutionary ideas of Lamarck, Grant, and
Vestiges. Although Charles Lyell opposed scriptural geology, he also believed in the immutability of species, and in his
Principles of Geology, he criticized Lamarck's theories of development. When Darwin was developing his theory, he investigated
selective breeding and was impressed by
John Sebright's observation that "A severe winter, or a scarcity of food, by destroying the weak and the unhealthy, has all the good effects of the most skilful selection" so that "the weak and the unhealthy do not live to propagate their infirmities." Darwin was influenced by Charles Lyell's ideas of environmental change causing
ecological shifts, leading to what
Augustin de Candolle had called a war between competing plant species, competition well described by the botanist
William Herbert. Darwin was struck by
Thomas Robert Malthus' phrase "struggle for existence" used of warring human tribes. Several writers anticipated evolutionary aspects of Darwin's theory, and in the third edition of
On the Origin of Species published in 1861 Darwin named those he knew about in an introductory appendix,
An Historical Sketch of the Recent Progress of Opinion on the Origin of Species, which he expanded in later editions. In 1813,
William Charles Wells read before the
Royal Society essays assuming that there had been evolution of humans, and recognising the principle of natural selection. Darwin and Alfred Russel Wallace were unaware of this work when they jointly published the theory in 1858, but Darwin later acknowledged that Wells had recognised the principle before them, writing that the paper "An Account of a White Female, part of whose Skin resembles that of a Negro" was published in 1818, and "he distinctly recognises the principle of natural selection, and this is the first recognition which has been indicated; but he applies it only to the races of man, and to certain characters alone."
Patrick Matthew wrote in his book
On Naval Timber and Arboriculture (1831) of "continual balancing of life to circumstance. ... [The] progeny of the same parents, under great differences of circumstance, might, in several generations, even become distinct species, incapable of co-reproduction." Darwin implies that he discovered this work after the initial publication of the
Origin. In the brief historical sketch that Darwin included in the third edition he says "Unfortunately the view was given by Mr. Matthew very briefly in scattered passages in an Appendix to a work on a different subject ... He clearly saw, however, the full force of the principle of natural selection." However, as historian of science
Peter J. Bowler says, "Through a combination of bold theorizing and comprehensive evaluation, Darwin came up with a concept of evolution that was unique for the time." Bowler goes on to say that simple priority alone is not enough to secure a place in the history of science; someone has to develop an idea and convince others of its importance to have a real impact.
Thomas Henry Huxley said in his essay on the reception of
On the Origin of Species:
Natural selection 's first sketch of an
evolutionary tree from his "B" notebook on the
transmutation of species (1837–1838) The biogeographical patterns Charles Darwin observed in places such as the
Galápagos Islands during the
second voyage of HMS Beagle caused him to doubt the fixity of species, and in 1837 Darwin started the first of a series of secret notebooks on transmutation. Darwin's observations led him to view transmutation as a process of divergence and branching, rather than the ladder-like progression envisioned by Jean-Baptiste Lamarck and others. In 1838 he read the new sixth edition of
An Essay on the Principle of Population, written in the late 18th century by Thomas Robert Malthus. Malthus' idea of population growth leading to a struggle for survival combined with Darwin's knowledge on how breeders selected traits, led to the inception of Darwin's theory of natural selection. Darwin did not publish his ideas on evolution for 20 years. However, he did share them with certain other naturalists and friends, starting with
Joseph Dalton Hooker, with whom he discussed his unpublished 1844 essay on natural selection. During this period he used the time he could spare from his other scientific work to slowly refine his ideas and, aware of the intense controversy around transmutation, amass evidence to support them. In September 1854 he began full-time work on writing his book on natural selection. Unlike Darwin,
Alfred Russel Wallace, influenced by the book
Vestiges of the Natural History of Creation, already suspected that transmutation of species occurred when he began his career as a naturalist. By 1855, his biogeographical observations during his field work in
South America and the
Malay Archipelago made him confident enough in a branching pattern of evolution to publish a paper stating that every species originated in close proximity to an already existing closely allied species. Like Darwin, it was Wallace's consideration of how the ideas of Malthus might apply to animal populations that led him to conclusions very similar to those reached by Darwin about the role of natural selection. In February 1858, Wallace, unaware of Darwin's unpublished ideas, composed his thoughts into an essay and mailed them to Darwin, asking for his opinion. The result was the joint publication in July of
an extract from Darwin's 1844 essay along with Wallace's letter. Darwin also began work on a short abstract summarising his theory, which he would publish in 1859 as
On the Origin of Species. ==1859–1930s: Darwin and his legacy==