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83-680: Le Règne Animal ( lit.   ' The Animal Kingdom ' ) is the most famous work of the French naturalist Georges Cuvier . It sets out to describe the natural structure of the whole of the animal kingdom based on comparative anatomy , and its natural history . Cuvier divided the animals into four embranchements ("Branches", roughly corresponding to phyla), namely vertebrates, molluscs, articulated animals (arthropods and annelids), and zoophytes (cnidaria and other phyla). The work appeared in four octavo volumes in December 1816 (although it has "1817" on

166-482: A basis for classification where each kind of mineral, plant and animal could be slotted into place. In medieval times, the great chain was seen as a God-given and unchangeable ordering. In the Northern Renaissance , the scientific focus shifted to biology; the threefold division of the chain below humans formed the basis for Carl Linnaeus 's Systema Naturæ from 1737, where he divided the physical components of

249-412: A bulge over the tail. He gives its size—rarely reaching a foot in length; notes that it lives on leaves, fruit, insects and worms; digs a hole in which to pass the winter; mates in spring, and lays 4 or 5 eggs like those of a pigeon. The species is illustrated with two plates. The classification adopted by Cuvier to define the natural structure of the animal kingdom, including both living and fossil forms,

332-578: A certain sequence from "lower" to "higher" however lingers on, as does the idea of progress in biology . Allenby and Garreau propose that the Catholic Church's narrative of the great chain of being kept the peace in Europe for centuries. The very concept of rebellion simply lay outside the reality within which most people lived, for to defy the King was to defy God. King James I himself wrote, "The state of monarchy

415-563: A natural arrangement as M. Cuvier." The Magazine of Natural History of 1829 expressed surprise at the long interval between the first and second editions, surmising that there were too few scientific readers in France, apart from those in Paris itself; it notes that while the first volume was little changed, the treatment of fish was considerably altered in volume II, while the section on the Articulata

498-476: A naturalist, studies the world by observing plants and animals directly. Because organisms are functionally inseparable from the environment in which they live and because their structure and function cannot be adequately interpreted without knowing some of their evolutionary history, the study of natural history embraces the study of fossils as well as physiographic and other aspects of the physical environment". A common thread in many definitions of natural history

581-544: A part of science proper. In Victorian Scotland, the study of natural history was believed to contribute to good mental health. Particularly in Britain and the United States, this grew into specialist hobbies such as the study of birds , butterflies, seashells ( malacology / conchology ), beetles, and wildflowers; meanwhile, scientists tried to define a unified discipline of biology (though with only partial success, at least until

664-412: A quadruped or biped. There is then a section heading, in this case "The first order of Reptiles, or The Chelonians", followed by a three-page essay on their zoology, starting with the fact that their hearts have two atria. The structure then repeats at a lower taxonomic level, with what Cuvier notes is one of Linnaeus's genera, Testudo , the tortoises, with five sub-genera. The first sub-genus comprises

747-470: A type of observation and a subject of study, it can also be defined as a body of knowledge, and as a craft or a practice, in which the emphasis is placed more on the observer than on the observed. Definitions from biologists often focus on the scientific study of individual organisms in their environment, as seen in this definition by Marston Bates: "Natural history is the study of animals and Plants—of organisms. ... I like to think, then, of natural history as

830-598: Is a cross-discipline umbrella of many specialty sciences; e.g., geobiology has a strong multidisciplinary nature. The meaning of the English term "natural history" (a calque of the Latin historia naturalis ) has narrowed progressively with time, while, by contrast, the meaning of the related term "nature" has widened (see also History below). In antiquity , "natural history" covered essentially anything connected with nature , or used materials drawn from nature, such as Pliny

913-576: Is a concept derived from Plato , Aristotle (in his Historia Animalium ), Plotinus and Proclus . Further developed during the Middle Ages , it reached full expression in early modern Neoplatonism . The chain of being hierarchy has God at the top, above angels, which like him are entirely spirit , without material bodies, and hence unchangeable . Beneath them are humans, consisting both of spirit and matter; they change and die, and are thus essentially impermanent. Lower are animals and plants. At

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996-460: Is also echoed by H.W. Greene and J.B. Losos: "Natural history focuses on where organisms are and what they do in their environment, including interactions with other organisms. It encompasses changes in internal states insofar as they pertain to what organisms do". Some definitions go further, focusing on direct observation of organisms in their environments, both past and present, such as this one by G.A. Bartholomew: "A student of natural history, or

1079-411: Is called a naturalist or natural historian . Natural history encompasses scientific research but is not limited to it. It involves the systematic study of any category of natural objects or organisms, so while it dates from studies in the ancient Greco-Roman world and the mediaeval Arabic world , through to European Renaissance naturalists working in near isolation, today's natural history

1162-446: Is fully embraced by the principle of natural selection ." Darwin continues, reflecting both on Cuvier's emphasis on the conditions of existence, and Jean-Baptiste Lamarck 's theory of acquiring heritable characteristics from those Cuvieran conditions: "For natural selection acts by either now adapting the varying parts of each being to its organic and inorganic conditions of life; or by having adapted them during long-past periods of time:

1245-663: Is named, not only in this world, but also in that which is to come". In the 5th and 6th centuries, Pseudo-Dionysius the Areopagite set out a more elaborate hierarchy, consisting of three lists, each of three types: Humans uniquely share spiritual attributes with God and the angels above them, Love and language, and physical attributes with the animals below them, like having material bodies that experienced emotions and sensations such as lust and pain, and physical needs such as hunger and thirst. Animals have senses, are able to move, and have physical appetites. The apex predator like

1328-399: Is the inclusion of a descriptive component, as seen in a recent definition by H.W. Greene: "Descriptive ecology and ethology". Several authors have argued for a more expansive view of natural history, including S. Herman, who defines the field as "the scientific study of plants and animals in their natural environments. It is concerned with levels of organization from the individual organism to

1411-627: Is the model of perfection in all of creation. In the New Testament , the Epistle to the Colossians sets out a partial list: "everything visible and everything invisible, Thrones, Dominations, Sovereignties, Powers – all things were created through him and for him." The Epistle to the Ephesians also lists several entities: "Far above all principality, and power, and might, and dominion, and every name that

1494-489: Is the most supreme thing upon earth: for kings are not only God's Lieutenants upon earth, and sit upon God's throne, but even by God himself they are called Gods." The American philosopher Ken Wilber described a "Great Nest of Being" which he claims to belong to a culture-independent " perennial philosophy " traceable across 3000 years of mystical and esoteric writings. Wilber's system corresponds with other concepts of transpersonal psychology . In his 1977 book A Guide for

1577-538: The American Society of Naturalists and Polish Copernicus Society of Naturalists . Professional societies have recognized the importance of natural history and have initiated new sections in their journals specifically for natural history observations to support the discipline. These include "Natural History Field Notes" of Biotropica , "The Scientific Naturalist" of Ecology , "From the Field" of Waterbirds , and

1660-518: The French Revolution . He soon became a professor of animal anatomy at the Musée National d'Histoire Naturelle , surviving changes of government from revolutionary to Napoleonic to monarchy. Essentially on his own he created the discipline of vertebrate palaeontology and the accompanying comparative method. He demonstrated that animals had become extinct . In an earlier attempt to improve

1743-468: The Industrial Revolution prompted the development of geology to help find useful mineral deposits. Modern definitions of natural history come from a variety of fields and sources, and many of the modern definitions emphasize a particular aspect of the field, creating a plurality of definitions with a number of common themes among them. For example, while natural history is most often defined as

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1826-547: The Monthly Review of 1834, the pre-Darwinian evolutionist surgeon Sir William Lawrence commented that "the Regne Animal of Cuvier is, in short, an abridged expression of the entire science. He carried the lights derived from his zoological researches into kindred but obscure parts of nature." Lawrence calls the work "an arrangement of the animal kingdom nearly approaching to perfection; grounded on principles so accurate, that

1909-476: The Natural History Society of Northumbria founded in 1829, London Natural History Society (1858), Birmingham Natural History Society (1859), British Entomological and Natural History Society founded in 1872, Glasgow Natural History Society, Manchester Microscopical and Natural History Society established in 1880, Whitby Naturalists' Club founded in 1913, Scarborough Field Naturalists' Society and

1992-459: The Renaissance , and quickly became a third branch of academic knowledge, itself divided into descriptive natural history and natural philosophy , the analytical study of nature. In modern terms, natural philosophy roughly corresponded to modern physics and chemistry , while natural history included the biological and geological sciences. The two were strongly associated. During the heyday of

2075-472: The Renaissance , making it one of the longest-lasting of all natural history books. From the ancient Greeks until the work of Carl Linnaeus and other 18th-century naturalists, a major concept of natural history was the scala naturae or Great Chain of Being , an arrangement of minerals, vegetables, more primitive forms of animals, and more complex life forms on a linear scale of supposedly increasing perfection, culminating in our species. Natural history

2158-514: The gentleman scientists , many people contributed to both fields, and early papers in both were commonly read at professional science society meetings such as the Royal Society and the French Academy of Sciences —both founded during the 17th century. Natural history had been encouraged by practical motives, such as Linnaeus' aspiration to improve the economic condition of Sweden. Similarly,

2241-527: The lion , could move vigorously, and has powerful senses like keen eyesight and the ability to smell their prey from a distance, while a lower order of animals might wiggle or crawl, or like oysters were sessile, attached to the sea-bed. All, however, share the senses of touch and taste. Plants lacked sense organs and the ability to move, but they could grow and reproduce. The highest plants have important healing attributes within their leaves, buds, and flowers. Lower plants included fungi and mosses . At

2324-638: The modern evolutionary synthesis ). Still, the traditions of natural history continue to play a part in the study of biology, especially ecology (the study of natural systems involving living organisms and the inorganic components of the Earth's biosphere that support them), ethology (the scientific study of animal behavior), and evolutionary biology (the study of the relationships between life forms over very long periods of time), and re-emerges today as integrative organismal biology. Amateur collectors and natural history entrepreneurs played an important role in building

2407-403: The philosopher's stone , which somehow gathered and concentrated the universal spirit found in all matter along the chain, and which ex hypothesi might enable the alchemical transformation of one substance to another, such as the base metal lead to the noble metal gold . The set nature of species, and thus the absoluteness of creatures' places in the great chain, came into question during

2490-644: The "Natural History Miscellany section" of the American Naturalist . Natural history observations have contributed to scientific questioning and theory formation. In recent times such observations contribute to how conservation priorities are determined. Mental health benefits can ensue, as well, from regular and active observation of chosen components of nature, and these reach beyond the benefits derived from passively walking through natural areas. Great chain of being The great chain of being (from Latin scala naturae  'ladder of being')

2573-404: The 1850s by Thomas Varty. A German translation by H.R. Schinz was published by J.S. Cotta in 1821–1825; another was made by Friedrich Siegmund Voigt and published by Brockhaus. An Italian translation by G. de Cristofori was published by Stamperia Carmignani in 1832. A Hungarian translation by Peter Vajda was brought out in 1841. Each section, such as on reptiles at the start of Volume II (and

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2656-479: The 18th century. The dual nature of the chain, divided yet united, had always allowed for seeing creation as essentially one continuous whole, with the potential for overlap between the links. Radical thinkers like Jean-Baptiste Lamarck saw a progression of life forms from the simplest creatures striving towards complexity and perfection, a schema accepted by zoologists like Henri de Blainville . The very idea of an ordering of organisms, even if supposedly fixed, laid

2739-533: The Elder 's encyclopedia of this title , published c.  77 to 79 AD , which covers astronomy , geography , humans and their technology , medicine , and superstition , as well as animals and plants. Medieval European academics considered knowledge to have two main divisions: the humanities (primarily what is now known as classics ) and divinity , with science studied largely through texts rather than observation or experiment. The study of nature revived in

2822-659: The Natural History Institute (Prescott, Arizona): Natural history – a practice of intentional focused attentiveness and receptivity to the more-than-human world, guided by honesty and accuracy – is the oldest continuous human endeavor. In the evolutionary past of our species, the practice of natural history was essential for our survival, imparting critical information on habits and chronologies of plants and animals that we could eat or that could eat us. Natural history continues to be critical to human survival and thriving. It contributes to our fundamental understanding of how

2905-539: The Sorby Natural History Society, Sheffield , founded in 1918. The growth of natural history societies was also spurred due to the growth of British colonies in tropical regions with numerous new species to be discovered. Many civil servants took an interest in their new surroundings, sending specimens back to museums in the Britain . (See also: Indian natural history ) Societies in other countries include

2988-545: The adaptations being aided in some cases by use and disuse , being slightly affected by the direct action of the external conditions of life, and being in all cases subjected to the several laws of growth. Hence, in fact, the law of the Conditions of Existence is the higher law; as it includes, through the inheritance of former adaptations, that of Unity of Type." The palaeontologist Philippe Taquet wrote that "the Règne Animal

3071-543: The animals by their reproductive mode, live birth being "higher" than laying cold eggs, and possession of blood, warm-blooded mammals and birds again being "higher" than "bloodless" invertebrates. Aristotle's non-religious concept of higher and lower organisms was taken up by natural philosophers during the Scholastic period to form the basis of the Scala Naturae . The scala allowed for an ordering of beings, thus forming

3154-418: The basis for the idea of transmutation of species , whether progressive goal-directed orthogenesis or Charles Darwin 's undirected theory of evolution . The chain of being continued to be part of metaphysics in 19th-century education, and the concept was well known. The geologist Charles Lyell used it as a metaphor in his 1851 Elements of Geology description of the geological column , where he used

3237-418: The birds). The Foreign Review of 1830 broadly admired Cuvier's work, but disagreed with his classification. It commented that "From the comprehensive nature of the Règne Animal , embracing equally the structure and history of all the existing and extinct races of animals, this work may be viewed as an epitome of M. Cuvier's zoological labours; and it presents the best outline, which exists in any language, of

3320-410: The bottom are the mineral materials of the earth itself; they consist only of matter. Thus, the higher the being is in the chain, the more attributes it has, including all the attributes of the beings below it. The minerals are, in the medieval mind, a possible exception to the immutability of the material beings in the chain, as alchemy promised to turn lower elements like lead into those higher up

3403-412: The bottom of the chain, minerals were unable to move, sense, grow, or reproduce. Their attributes were being solid and strong, while the gemstones possessed magic. The king of gems was the diamond . The basic idea of a ranking of the world's organisms goes back to Aristotle's biology . In his History of Animals , where he ranked animals over plants based on their ability to move and sense, and graded

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3486-448: The chain, like silver or gold . The Great Chain of being links God, angels, humans, animals, plants, and minerals. The links of the chain are: God is the creator of all things. Many religions, such as Judaism , Christianity , and Islam believe he created the entire universe and everything in it. He has spiritual attributes found in angels and humans. God has unique attributes of omnipotence , omnipresence , and omniscience . He

3569-605: The classification of animals, Cuvier transferred the concepts of Antoine-Laurent de Jussieu 's (1748-1836) method of natural classification, which had been presented in 1789 in Genera plantarum , from botany to zoology . In 1795, from a "fixist" perspective (denying the possibility of evolution ), Cuvier divided Linnaeus 's two unsatisfactory classes ("insects" and "worms") into six classes of "white-blooded animals" or invertebrates : molluscs, crustaceans, insects and worms (differently understood), echinoderms and zoophytes. Cuvier divided

3652-403: The diversity of the natural world. Natural history was understood by Pliny the Elder to cover anything that could be found in the world, including living things, geology, astronomy, technology, art, and humanity. De Materia Medica was written between 50 and 70 AD by Pedanius Dioscorides , a Roman physician of Greek origin. It was widely read for more than 1,500 years until supplanted in

3735-410: The ecosystem, and stresses identification, life history, distribution, abundance, and inter-relationships. It often and appropriately includes an esthetic component", and T. Fleischner, who defines the field even more broadly, as "A practice of intentional, focused attentiveness and receptivity to the more-than-human world, guided by honesty and accuracy". These definitions explicitly include the arts in

3818-710: The emergence of professional biological disciplines and research programs. Particularly in the 19th century, scientists began to use their natural history collections as teaching tools for advanced students and the basis for their own morphological research. The term "natural history" alone, or sometimes together with archaeology, forms the name of many national, regional, and local natural history societies that maintain records for animals (including birds (ornithology), insects ( entomology ) and mammals (mammalogy)), fungi ( mycology ), plants (botany), and other organisms. They may also have geological and microscopical sections. Examples of these societies in Britain include

3901-479: The entire work) is introduced with an essay on distinguishing aspects of their zoology. In the case of the reptiles, the essay begins with the observation that their circulation is so arranged that only part of the blood pumped by the heart goes through the lungs; Cuvier discusses the implications of this arrangement, next observing that they have a relatively small brain compared to the mammals and birds, and that none of them incubate their eggs. Next, Cuvier identifies

3984-444: The entozoa, zoophyta, and infusoria, which constitute by much the greatest portion of this division." But the review notes that "the general distribution of the animal kingdom established by M. Cuvier in this work, are founded on a more extensive and minute survey of the organization than had ever before been taken, and many of the most important distinctions among the orders and families are the result of his own researches." Writing in

4067-411: The field of botany, be it as authors, collectors, or illustrators. In modern Europe, professional disciplines such as botany, geology, mycology , palaeontology , physiology , and zoology were formed. Natural history , formerly the main subject taught by college science professors, was increasingly scorned by scientists of a more specialized manner and relegated to an "amateur" activity, rather than

4150-634: The field of natural history, and are aligned with the broad definition outlined by B. Lopez, who defines the field as the "Patient interrogation of a landscape" while referring to the natural history knowledge of the Eskimo ( Inuit ). A slightly different framework for natural history, covering a similar range of themes, is also implied in the scope of work encompassed by many leading natural history museums , which often include elements of anthropology, geology, paleontology, and astronomy along with botany and zoology, or include both cultural and natural components of

4233-562: The first species in the volume, the Greek tortoise, Testudo graeca . It is summed up in a paragraph, Cuvier noting that it is the commonest tortoise in Europe, living in Greece, Italy, Sardinia and (he writes) apparently all round the Mediterranean. He then gives its distinguishing marks, with a highly domed carapace, raised scales boldly marked with black and yellow marbling, and at the posterior edge

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4316-480: The importance of his research on fossil bones", showing for instance that mammoths were extinct elephants, that enabled later naturalists including Darwin to argue convincingly that animals had evolved. Naturalist Natural history is a domain of inquiry involving organisms , including animals , fungi , and plants , in their natural environment , leaning more towards observational than experimental methods of study. A person who studies natural history

4399-418: The land tortoises; their zoology is summed up in a paragraph, which observes that they have a domed carapace , with a solid bony support (the term being "charpente", commonly used of the structure of wooden beams that support a roof). He records that the legs are thick, with short digits joined for most of their length, five toenails on the forelegs, four on the hind legs. Then (on the ninth page) he arrives at

4482-498: The living elephants and the extinct mammoths , providing convincing evidence for evolutionary change to readers including Charles Darwin , although Cuvier himself rejected the possibility of evolution. As a boy, Georges Cuvier (1769-1832) read the Comte de Buffon 's Histoire Naturelle from the previous century, as well as Linnaeus and Fabricius . He was brought to Paris by Étienne Geoffroy Saint-Hilaire in 1795, not long after

4565-405: The mediaeval notion of the continuity of the living world in the form of the great chain of being . It also set him in opposition to both Saint-Hilaire and Jean-Baptiste Lamarck . Lamarck claimed that species could transform through the influence of the environment, while Saint-Hilaire argued in 1820 that two of Cuvier's branches, the molluscs and radiata, could be united via various features, while

4648-476: The molluscs into three orders: cephalopods, gastropods and acephala. Still not satisfied, he continued to work on animal classification, culminating over twenty years later in the Règne Animal . For the Règne Animal , using evidence from comparative anatomy and palaeontology —including his own observations—Cuvier divided the animal kingdom into four principal body plans . Taking the central nervous system as an animal's principal organ system which controlled all

4731-406: The other organ systems such as the circulatory and digestive systems, Cuvier distinguished four types of organisation of an animal's body: Grouping animals with these body plans resulted in four "embranchements" or branches (vertebrates, molluscs, the articulata that he claimed were natural (arguing that insects and annelid worms were related) and zoophytes ( radiata )). This effectively broke with

4814-911: The other two, articulata and vertebrates, similarly had parallels with each other. Then in 1830, Saint-Hilaire argued that these two groups could themselves be related, implying a single form of life from which all others could have evolved, and that Cuvier's four body plans were not fundamental. The twelve "disciples" who contributed to the 3rd edition were Jean Victor Audouin (insects), Gerard Paul Deshayes (molluscs), Alcide d'Orbigny (birds), Antoine Louis Dugès (arachnids), Georges Louis Duvernoy (reptiles), Charles Léopold Laurillard (mammals in part), Henri Milne Edwards (crustaceans, annelids, zoophytes, and mammals in part), Francois Desire Roulin (mammals in part), Achille Valenciennes (fishes), Louis Michel François Doyère (insects), Charles Émile Blanchard (insects, zoophytes) and Jean Louis Armand de Quatrefages de Bréau (annelids, arachnids etc.). The work

4897-416: The place which any animal occupies in this scheme, already indicates the leading circumstances in its structure, economy, and habits." The book was in the library of HMS Beagle for Charles Darwin 's voyage. In The Origin of Species (1859), in a chapter on the difficulties facing the theory, Darwin comments that "The expression of conditions of existence, so often insisted on by the illustrious Cuvier,

4980-428: The present state of zoology and comparative anatomy." The review continued less favourably, however, that "We cannot help thinking that the science of comparative anatomy is now so far advanced, as to afford the means of distributing the animal kingdom on some more uniform and philosophical principles,—as on the modifications of those systems or functions which are most general in the animal economy". The review argued that

5063-430: The short-lived " Quinarian " system of classification into 5 groups, each of 5 subgroups, etc., asserted that in the Règne Animal "Cuvier was notoriously deficient in the power of legitimate and intuitive generalization in arranging the animal series". The zoologist William John Swainson , also a Quinarian, added that "no person of such transcendent talents and ingenuity, ever made so little use of his observations towards

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5146-451: The study of life at the level of the individual—of what plants and animals do, how they react to each other and their environment, how they are organized into larger groupings like populations and communities" and this more recent definition by D.S. Wilcove and T. Eisner: "The close observation of organisms—their origins, their evolution, their behavior, and their relationships with other species". This focus on organisms in their environment

5229-515: The system of the Swedish naturalist Carl Linnaeus . The British historian of Chinese science Joseph Needham calls Li Shizhen "the 'uncrowned king' of Chinese naturalists", and his Bencao gangmu "undoubtedly the greatest scientific achievement of the Ming". His works translated to many languages direct or influence many scholars and researchers. A significant contribution to English natural history

5312-439: The taxonomic divisions of the group, in this case four orders of reptiles, the chelonians ( tortoises and turtles), saurians ( lizards ), ophidians ( snakes ) and batracians ( amphibians , now considered a separate class of vertebrates), describing each group in a single sentence. Thus the batracians are said to have a heart with a single atrium , a naked body (with no scales), and to pass with age from being fish-like to being like

5395-432: The term " missing links " about missing parts of the continuum. The term "missing link" later came to signify transitional fossils , particularly those bridging the gulf between man and beasts. The idea of the great chain, as well as the derived "missing link", was abandoned in early 20th-century science, as the notion of modern animals representing ancestors of other modern animals was abandoned in biology. The idea of

5478-405: The title pages); a second edition in five volumes was brought out in 1829–1830 and a third, written by twelve "disciples" of Cuvier, in 1836–1849. In this classic work, Cuvier presented the results of his life's research into the structure of living and fossil animals. With the exception of the section on insects , in which he was assisted by his friend Pierre André Latreille , the whole of the work

5561-437: The vertebrate division relied on the presence of a vertebral column, "a part of the organization of comparatively little importance in the economy"; it found the basis of the mollusca on "the general softness of the body" no better; the choice of the presence of articulations no better either, in the third division; while in the fourth it points out that while the echinoderms may fit well into the chosen scheme, it did not apply "to

5644-435: The world into the three familiar kingdoms of minerals, plants and animals. Alchemy used the great chain as the basis for its cosmology. Since all beings were linked into a chain, so that there was a fundamental unity of all matter , the transformation from one place in the chain to the next might, according to alchemical reasoning, be possible. In turn, the unit of the matter enabled alchemy to make another key assumption,

5727-475: The world works by providing the empirical foundation of natural sciences, and it contributes directly and indirectly to human emotional and physical health, thereby fostering healthier human communities. It also serves as the basis for all conservation efforts, with natural history both informing the science and inspiring the values that drive these. As a precursor to Western science , natural history began with Aristotle and other ancient philosophers who analyzed

5810-664: The world's large natural history collections, such as the Natural History Museum, London , and the National Museum of Natural History in Washington, DC. Three of the greatest English naturalists of the 19th century, Henry Walter Bates , Charles Darwin , and Alfred Russel Wallace —who knew each other—each made natural history travels that took years, collected thousands of specimens, many of them new to science, and by their writings both advanced knowledge of "remote" parts of

5893-564: The world. The plurality of definitions for this field has been recognized as both a weakness and a strength, and a range of definitions has recently been offered by practitioners in a recent collection of views on natural history. Prior to the advent of Western science humans were engaged and highly competent in indigenous ways of understanding the more-than-human world that are now referred to as traditional ecological knowledge . 21st century definitions of natural history are inclusive of this understanding, such as this by Thomas Fleischner of

5976-777: The world—the Amazon basin , the Galápagos Islands , and the Indonesian Archipelago , among others—and in so doing helped to transform biology from a descriptive to a theory-based science. The understanding of "Nature" as "an organism and not as a mechanism" can be traced to the writings of Alexander von Humboldt (Prussia, 1769–1859). Humboldt's copious writings and research were seminal influences for Charles Darwin, Simón Bolívar , Henry David Thoreau , Ernst Haeckel , and John Muir . Natural history museums , which evolved from cabinets of curiosities , played an important role in

6059-434: Was an attempt to create a complete inventory of the animal kingdom and to formulate a natural classification underpinned by the principles of the 'correlation of parts'.." He adds that with the book "Cuvier introduced clarity into natural history, accurately reproducing the actual ordering of animals." Taquet further notes that while Cuvier rejected evolution, it was paradoxically "the precision of his anatomical descriptions and

6142-545: Was as follows, the list forming the structure of the Règne Animal . Where Cuvier's group names correspond (more or less) to modern taxa, these are named, in English if possible, in parentheses. The table from the 1828 Penny Cyclopaedia indicates species that were thought to belong to each group in Cuvier's taxonomy . The four major divisions were known as embranchements ("branches"). The entomologist William Sharp Macleay , in his 1821 book Horae Entomologicae which put forward

6225-732: Was basically static through the Middle Ages in Europe—although in the Arabic and Oriental world, it proceeded at a much brisker pace. From the 13th century, the work of Aristotle was adapted rather rigidly into Christian philosophy , particularly by Thomas Aquinas , forming the basis for natural theology . During the Renaissance, scholars (herbalists and humanists, particularly) returned to direct observation of plants and animals for natural history, and many began to accumulate large collections of exotic specimens and unusual monsters . Leonhart Fuchs

6308-525: Was greatly enlarged (to two volumes, IV and V) and written by M. Latreille. It also expressed the hope that there would be an English equivalent of Cuvier's work, given the popularity of natural history resulting from the works of Thomas Bewick ( A History of British Birds 1797–1804) and George Montagu ( Ornithological Dictionary , 1802). The same review covers Félix Édouard Guérin-Méneville 's Iconographie du Règne Animal de M. le Baron Cuvier , which offered illustrations of all Cuvier's genera (except for

6391-416: Was his own. It was translated into English many times, often with substantial notes and supplementary material updating the book in accordance with the expansion of knowledge. It was also translated into German, Italian and other languages, and abridged in versions for children. Le Règne Animal was influential in being widely read, and in presenting accurate descriptions of groups of related animals, such as

6474-543: Was illustrated with tables and plates (at the end of Volume IV) covering only some of the species mentioned. A much larger set of illustrations, said by Cuvier to be "as accurate as they were elegant" was published by the entomologist Félix Édouard Guérin-Méneville in his Iconographie du Règne Animal de G. Cuvier , the nine volumes appearing between 1829 and 1844. The 448 quarto plates by Christophe Annedouche , Canu, Eugène Giraud , Lagesse, Lebrun, Vittore Pedretti, Plée and Smith illustrated some 6200 animals. Le Règne Animal

6557-402: Was made by parson-naturalists such as Gilbert White , William Kirby , John George Wood , and John Ray , who wrote about plants, animals, and other aspects of nature. Many of these men wrote about nature to make the natural theology argument for the existence or goodness of God. Since early modern times, however, a great number of women made contributions to natural history, particularly in

6640-405: Was one of the three founding fathers of botany, along with Otto Brunfels and Hieronymus Bock . Other important contributors to the field were Valerius Cordus , Konrad Gesner ( Historiae animalium ), Frederik Ruysch , and Gaspard Bauhin . The rapid increase in the number of known organisms prompted many attempts at classifying and organizing species into taxonomic groups , culminating in

6723-574: Was published by Longman, Brown, Green and Longman in London, and by Stephen Knapp in Coventry, in 1844. Kraus published an edition in New York in 1969. Other editions were brought out by H.G. Bohn in 1851 and W. Orr in 1854. An "easy introduction to the study of the animal kingdom: according to the natural method of Cuvier", together with examination questions on each chapter, was made by Annie Roberts and published in

6806-471: Was published in 44 parts by G.B. Whittaker and partners from 1824 to 1835 and many times reprinted (up to 2012 and eBook format); another by G. Henderson in 1834–1837. A translation was made and published by the ornithologist William MacGillivray in Edinburgh in 1839–1840. Another version by Edward Blyth and others was published by William S. Orr and Co. in 1840. An abridged version by an "experienced teacher"

6889-519: Was translated into languages including English, German and Italian. Many English translations and abridged versions were published and reprinted in the nineteenth century; records may be for the entire work or individual volumes, which were not necessarily dated, while old translations were often brought out in "new" editions by other publishers, making for a complex publication history. A translation by Edward Griffith (with assistance by Edward Pidgeon for some volumes and other specialists for other volumes)

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