Systema Naturae
Systema Naturae (Latin for "System of Nature") is a foundational taxonomic work authored by the Swedish naturalist Carl Linnaeus, first published in 1735 as an 11-page dissertation in Leiden, Netherlands, which systematically classified the three kingdoms of nature—minerals, plants, and animals—into hierarchical categories based on observable characteristics.[1]
The treatise proposed dividing organisms into classes, orders, genera, and species, providing a structured framework that addressed the chaos of prior descriptive efforts in natural history and enabled more precise identification and comparison of species.[2][3]
Subsequent editions, expanding to multiple volumes, refined this hierarchy; notably, the tenth edition of 1758 formalized the binomial nomenclature—using a two-word Latin name for genus and species—that became the international standard for naming organisms, though Linnaeus built on earlier partial uses of such naming by figures like the Bauhin brothers.[4][3]
While Linnaeus's classifications relied on limited traits, often emphasizing reproductive structures, yielding an artificial rather than phylogenetic system later critiqued and evolved by evolutionary biology, Systema Naturae remains a cornerstone achievement in establishing empirical order in biodiversity cataloging, influencing fields from botany to zoology.[3][5]
Publication and Development
Initial Publication and Context
Systema Naturae, the foundational taxonomic work by Swedish naturalist Carl Linnaeus, first appeared in December 1735 as a concise pamphlet printed in Leiden, Netherlands. The publication, spanning approximately 12 pages, systematically outlined the three kingdoms of nature—animals, plants, and minerals—according to classes, orders, genera, and species, marking Linnaeus's initial effort to impose hierarchical order on the natural world. Funded privately by patrons including Jan Frederik Gronovius and Isaac Lawson, it was intended for limited circulation among scholars rather than broad distribution.[6][1] At age 28, Linnaeus produced this work while residing in the Netherlands, where he had arrived earlier that year to advance his botanical studies and establish professional connections in Europe's vibrant scientific community. The intellectual context of the early 18th century featured growing collections of specimens from global explorations, overwhelming earlier classificatory schemes like those of Aristotle or Theophrastus, which relied on superficial or philosophical traits. Linnaeus sought a more empirical approach, emphasizing observable morphological features to delineate natural affinities, though the 1735 edition focused predominantly on the animal kingdom with brief treatments of the others.[4][5] This initial publication laid the groundwork for Linnaeus's lifelong refinements, reflecting his ambition to create a universal catalog of creation amid the era's taxonomic chaos, where naturalists grappled with naming inconsistencies and incomplete inventories. While rudimentary compared to later editions, it introduced key principles of systematic arrangement that influenced subsequent biology, prioritizing fixed hierarchies over fluid or analogical systems prevalent in Renaissance herbals and bestiaries.[7][8]Key Editions and Revisions
The first edition of Systema Naturae appeared in 1735 as an 11-page pamphlet printed in Leiden, outlining a hierarchical classification of the three kingdoms of nature—animal, vegetable, and mineral—into classes, orders, genera, and species, though without consistent binomial nomenclature.[7] This initial work was based on Linnaeus's unpublished manuscripts and represented his early efforts to systematize natural history using logical divisions derived from observable characteristics. Linnaeus revised and expanded the text across multiple editions, with twelve authorized versions published during his lifetime, reflecting accumulating empirical data from specimens, correspondence, and expeditions.[8] The tenth edition, released in Stockholm in 1758 as a single volume of 824 pages, marked a pivotal revision by introducing stable binomial names for animals, establishing it as the foundational reference for zoological taxonomy under the principle of priority.[2] This edition classified over 4,400 animal species and integrated human varieties within the primate order, drawing on morphological traits while acknowledging environmental influences on variation.[9] Subsequent revisions included the twelfth edition (1766–1768), issued in three volumes totaling more than 2,300 pages, which extended binomial nomenclature to plants and minerals, incorporated over 7,700 species descriptions, and refined hierarchies based on sexual systems and other diagnostic features.[10] Linnaeus personally oversaw four major revisions of the work, adapting classifications as new observations challenged earlier groupings, such as elevating certain genera based on reproductive anatomy.[11] A thirteenth edition appeared posthumously in 1768, edited by Johann Friedrich Gmelin, perpetuating Linnaeus's framework amid ongoing taxonomic debates.[8]Core Classification System
Hierarchical Structure
In Systema Naturae, Carl Linnaeus established a hierarchical taxonomic framework that organized the entirety of nature into nested categories to reflect perceived natural order. The system begins with three primary kingdoms: Regnum Animale (animal kingdom), Regnum Vegetabile (vegetable or plant kingdom), and Regnum Mineralia (mineral kingdom).[9] These kingdoms represent the broadest divisions, encompassing all known entities in the natural world as understood in the 18th century, with living organisms primarily allocated to the first two and non-living to the third.[12] Within the animal and vegetable kingdoms, Linnaeus subdivided taxa into successively finer ranks: class (classis), order (ordo), genus (genus), and species (species). This nested hierarchy aimed to group organisms based on shared morphological characteristics, such as reproductive structures in plants or anatomical features in animals, enabling systematic identification and comparison.[3] For instance, in the 1735 first edition, the animal kingdom comprised six classes—Quadrupedia (four-footed animals), Amphibia (amphibians including reptiles), Pisces (fishes), Insecta (insects), Aves (birds), and Vermes (worms including many invertebrates)—each further divided into orders, genera, and species.[3] The vegetable kingdom featured 24 classes in early editions, emphasizing floral parts like the number of stamens.[12] The mineral kingdom deviated from this organic hierarchy, lacking genera and species; instead, it was classified into classes and orders based on empirical properties such as fusibility, malleability, and crystal form, drawing from contemporary chemical assays rather than reproductive or anatomical traits.[9] By the 10th edition of 1758, which solidified the framework for zoological nomenclature, Linnaeus refined class and order definitions through accumulated specimen data, though the core ranks remained consistent without intermediate levels like phylum or family.[3] This structure prioritized artificial, key-based differentiation over evolutionary relationships, reflecting Linnaeus's empirical method of delineating fixed, immutable categories derived from observable traits.[13]Kingdoms of Nature
In Systema Naturae, Carl Linnaeus divided all of nature into three kingdoms—Regnum Animale (animal), Regnum Vegetabile (vegetable), and Regnum Lapideum (mineral)—to provide a systematic framework for organizing natural objects based on observable characteristics rather than philosophical speculation.[14] This tripartite structure, introduced in the 1735 first edition and retained through the influential 10th edition of 1758, reflected Linnaeus's empirical approach, drawing from direct examination of specimens while acknowledging the limitations of contemporary knowledge, such as the absence of microscopy for microbes.[15] The kingdoms were distinguished primarily by modes of nutrition, reproduction, and growth: animals by ingestion and locomotion, vegetables by fixed growth and vegetative propagation, and minerals by crystalline formation without life processes.[16] The Regnum Animale comprised living organisms exhibiting sensation, voluntary motion, and internal digestion, encompassing humans, mammals, birds, reptiles, fish, insects, and worms, with humans classified under the genus Homo as part of the mammalian class.[17] Linnaeus subdivided this kingdom into classes based on reproductive anatomy and other traits, such as viviparity in mammals or metamorphosis in insects, totaling six classes in the 1758 edition; this marked a shift from earlier traditions by integrating humans explicitly within the animal realm, challenging anthropocentric views prevalent in pre-Linnaean natural history.[15][9] The Regnum Vegetabile, or plant kingdom, included all sessile organisms capable of nutrition through roots or leaves and reproduction via seeds or spores, divided into 24 classes primarily by the number and arrangement of sexual organs (stamens and pistils), emphasizing observable floral structures over Aristotelian vegetative souls.[18] This artificial system prioritized diagnostic keys for identification, facilitating herbarium-based cataloging, and by 1758 encompassed over 6,000 plant species, though it later faced critique for overlooking natural affinities in favor of sexual criteria.[19] The Regnum Lapideum, mineral kingdom, covered non-living inorganic substances such as stones, salts, metals, and fossils, classified using "principia docimastica" (assay principles) into genera of concretions (e.g., earths, salts) and petrifactions (e.g., stones from organic origins), with subdivisions by external form, malleability, fusibility, and solubility—properties tested via blowpipe and fire assays common in 18th-century mineralogy. Unlike the organic kingdoms, this division received less emphasis in later editions, as Linnaeus's interests gravitated toward botany and zoology, and modern taxonomy excludes minerals from biological schemes; nonetheless, it represented an early attempt to apply hierarchical ordering to geology, influencing figures like Werner in systematic mineralogy.[14][19]Introduction of Binomial Nomenclature
Binomial nomenclature, the standardized system of assigning each species a two-part scientific name consisting of a genus and a specific epithet in Latin, was systematically applied by Carl Linnaeus to the animal kingdom in the tenth edition of Systema Naturae, published in 1758.[20] This edition marked the first consistent use of binomials for animals on a comprehensive scale, replacing earlier polynomial descriptions that included lengthy diagnostic phrases.[21] Linnaeus had experimented with shorter names in prior works, but the 1758 volume established the practice definitively for zoology, with the publication date serving as the baseline for priority in naming under modern rules.[10] The first volume, issued in Stockholm in October 1758, covered classes from Mammalia to Insecta, assigning binomials such as Homo sapiens for humans and Felis catus for the domestic cat.[20] This shift addressed the chaos of vernacular and variable naming among naturalists, promoting universality and precision in classification.[21] The introduction built on Linnaeus's earlier application of binomials to plants in Species Plantarum (1753), but Systema Naturae's tenth edition extended the method to animals, influencing subsequent taxonomic works and enduring as the foundation of biological nomenclature.[10] By emphasizing fixed, hierarchical names derived from observable characteristics, Linnaeus's system facilitated empirical cataloging while acknowledging the artificial nature of his groupings.[22]Taxonomic Content
Animal Kingdom
In Carl Linnaeus's Systema Naturae, the animal kingdom (Regnum Animale) comprised mobile organisms capable of sensation and locomotion, differentiated from plants by their mode of nutrition and lack of fixed growth. The classification relied on empirical observation of morphological traits, such as skeletal structure, dentition, and reproductive anatomy, to form an artificial system prioritizing diagnostic characters over phylogenetic relationships.[9][23] The framework evolved across editions, with the 10th edition of 1758 serving as the nomenclatural baseline, enumerating approximately 4,400 animal species across roughly 1,000 genera.[24] The 1758 edition structured Regnum Animale into six classes, ordered from presumed complexity: Mammalia, Aves, Amphibia, Pisces, Insecta, and Vermes. This hierarchy reflected Linnaeus's emphasis on vital functions like respiration and reproduction, with classes defined by shared essential characters. Mammalia encompassed warm-blooded, viviparous quadrupeds with mammary glands and hair, divided into seven orders including Primates (containing humans and apes) and Ferae (carnivores).[15][25] Aves included feathered, oviparous vertebrates with forelimbs modified as wings, organized into six orders based on beak and foot morphology. Amphibia covered cold-blooded, lung-breathing vertebrates without scales or feathers, such as reptiles and salamanders, grouped into four orders like Sauria (lizards and snakes).[23] Pisces comprised gill-breathing aquatic vertebrates with fins, classified into four orders emphasizing fin count and ray presence, totaling over 100 genera. Insecta, broadly defined, included arthropods with jointed legs and exoskeletons, subdivided into seven orders like Coleoptera (beetles) and Lepidoptera (butterflies and moths), reflecting segmentation and metamorphosis. Vermes served as a heterogeneous class for soft-bodied invertebrates lacking prominent hard parts, encompassing annelids, mollusks, and cnidarians in five orders such as Intestina (intestinal worms) and Mollusca (shellfish).[25][15] This catch-all category highlighted limitations in Linnaeus's empirical approach, lumping disparate forms based on absence of vertebrate traits rather than shared ancestry. Subsequent editions refined orders and incorporated new specimens, but the core classes persisted until 19th-century natural systems supplanted the artificial one.[26]Vegetable Kingdom
In Systema Naturae, the Vegetable Kingdom (Regnum Vegetabile) comprises plants, characterized by sessile growth, absorption of nourishment primarily through roots, and propagation via seeds, spores, or vegetative means, distinguishing them from mobile animals and inert minerals.[9] Linnaeus classified plants using a sexual system centered on floral reproductive structures, emphasizing the number, relative lengths, and arrangement of stamens (male organs) and, to a lesser extent, pistils (female organs), as detailed from the 1735 first edition onward.[27] This artificial method, diverging from prior systems like that of Andrea Cesalpino which prioritized fruit and seed, enabled practical identification amid the era's expanding botanical collections from global exploration. The system organizes plants into 24 classes, with 23 addressing phanerogams (flowering plants) via stamen characteristics and one for cryptogams lacking evident flowers.[27][28][18] Classes I–XIII delineate stamen count: Monandria (one stamen), Diandria (two), progressing to Triandria, Tetrandria, Pentandria, Hexandria, Heptandria, Octandria, Enneandria, Decandria, Dodecandria, Icosandria (twenty), and Polyandria (more than twenty).[27][28] Classes XIV (Didynamia, two long and two short stamens) and XV (Tetradynamia, four long and two short) address stamen length disparities, while XVI–XIX (Monadelphia, Diadelphia, Triadelphia, Polyadelphia) group taxa with filaments fused into one, two, three, or multiple sets, respectively; class XX (Syngenesia) features anthers united into a tube.[27][28] Classes XXI–XXIII fall under Monopetalae (gamopetalous corolla), subdivided by ovary position and style traits into orders like Inferiores (inferior ovary) and Superiores (superior ovary).[28] Class XXIV (Cryptogamia) encompasses non-flowering plants, ordered into Fungi (fungi), Musci (mosses and liverworts), Algae (algae), and Filices (ferns and lycophytes), relying on vegetative or spore-based traits due to obscured sexuality.[28][3] Within each class, orders differentiate via pistil number, corolla fusion, or other floral elements, such as Monogynia (one pistil) versus Digynia (two); genera derive from consistent fructification characters (corolla, stamens, pistil, pericarp), with brief diagnoses in early editions expanding to hundreds by the 1767 12th edition's dedicated Regnum Vegetabile volume.[29][3] Species descriptions employ diagnostic phrases (polynomials initially, shifting toward binomials in later revisions aligned with Species Plantarum of 1753), incorporating synonyms, habitats, and references to prior authorities like Tournefort or Ray. This framework, while effective for cataloging over 6,000 plant species across editions, prioritized key diagnostic traits over comprehensive affinity, rendering it artificial rather than natural, as evidenced by misplacements like orchids in Gynandria due to misinterpreted insect pollination mimicking stamens.[3][28]Mineral Kingdom
In the first edition of Systema Naturae (1735), Carl Linnaeus incorporated the Mineral Kingdom, designated Regnum Lapideum, as the foundational realm within his hierarchical organization of nature, positioning it alongside the animal and vegetable kingdoms to encompass all inorganic substances.[30] This kingdom comprised naturally occurring solids, liquids, and aggregates, classified primarily through empirical assays known as docimastica, which evaluated properties such as solubility in water or acids, fusibility under heat, malleability, and combustibility to distinguish genera and species. Linnaeus's approach drew from contemporary metallurgical and chemical practices rather than a purely theoretical natural system, reflecting the era's practical mineralogy focused on utility in mining and medicine. The Mineral Kingdom was structured into three primary classes: Petræ (rocks and stones, including simple lapides like quartz and marble, differentiated by hardness and texture); Mineræ (ores and metallic minerals, such as native metals and sulfides, assessed by extractable content and reactivity); and Fossilia (fossils and aggregated formations, encompassing petrified organic remains and composite stones like limestone, grouped by origin and stratification).[14] [31] Some accounts note a fourth class, Vitamentra, potentially denoting saline or vital minerals with nutritional or combustible properties, though this appears less consistently in early editions.[32] Within these, orders and genera were further subdivided—for instance, under Petræ, orders included Lapis (precious stones) and Saxum (common rocks)—totaling around 200–300 entries across editions, far fewer than biological taxa due to Linnaeus's limited expertise in geology. Subsequent revisions, such as the expanded 1768 edition, refined the system by incorporating more specimens and aligning with advancing chemical analyses, yet the Mineral Kingdom remained secondary to Linnaeus's biological focus, with classifications often borrowed from predecessors like Johann Jacob Ferber.[30] Empirical testing prioritized observable traits over underlying composition, yielding an artificial rather than natural grouping; for example, fossils were treated as inorganic despite evident organic origins, prioritizing form over etiology. This framework influenced early mineral catalogs but waned by the late 18th century as specialized disciplines like crystallography, led by figures such as René Just Haüy, emphasized atomic structure and symmetry, rendering Linnaean divisions obsolete for modern petrology and geochemistry.[14] Linnaeus himself acknowledged the kingdom's provisional nature, viewing minerals as the inert base supporting organic life in his philosophical Imperium Naturae.Methodological Foundations
Principles of Classification
Linnaeus's principles of classification in Systema Naturae centered on creating a hierarchical framework that divided nature into kingdoms, classes, orders, genera, and species using observable, stable morphological traits to ensure practical identification and exhaustive categorization. This approach assumed species as fixed, immutable units corresponding to distinct acts of creation, with varieties arising from environmental influences but not crossing species boundaries to produce fertile offspring.[33] The system prioritized empirical data from direct examination of specimens over speculative affinities, aiming for groups that were mutually exclusive and collectively exhaustive within the known flora, fauna, and minerals.[34] Central to these principles was the distinction between artificial and natural classification methods, with Linnaeus favoring the former for its utility in handling limited datasets. An artificial system employed a minimal set of diagnostic characters—often numerical or structural—to form distinct taxa, deliberately yielding non-natural groupings that separated closely related organisms if they differed in key traits.[27] In contrast, a natural system would reflect overall similarities and underlying affinities, but Linnaeus deemed this impractical without complete knowledge of all characters, reserving it for future ideal taxonomy.[33] This methodological choice enabled rapid sorting amid the era's incomplete collections, though it sacrificed phylogenetic insight for mnemonic simplicity and dichotomous keys.[35] In application across the three kingdoms, these principles manifested through kingdom-specific characters: for the vegetable kingdom, the 24 classes derived primarily from stamen count and arrangement (e.g., Monandria with one stamen, Didynamia with two unequal stamens), supplemented by pistil styles for orders, emphasizing reproductive morphology as the most constant and essential feature.[27] The animal kingdom employed analogous traits, such as heart chamber count, limb structure, or mammary glands (as in the newly defined Mammalia class by 1758), while the mineral kingdom relied on physical properties like solubility and fusibility to delineate orders and genera.[36] Descriptions adhered to standardized formats, including generic diagnoses, specific differences, and etymological justifications, ensuring reproducibility and minimizing ambiguity in naming.[34]Artificial System and Empirical Basis
Linnaeus's classification in Systema Naturae (first published in 1735) employed an artificial system, deliberately selecting a limited number of readily observable morphological traits—primarily reproductive structures for plants—to group organisms into hierarchical categories, rather than seeking to capture underlying natural affinities or evolutionary relationships unknown at the time. This approach facilitated practical identification amid the era's growing collections of specimens, accommodating around 6,000 plant and 4,000 animal species by the 1758 tenth edition, but it often placed unrelated taxa together based on superficial similarities.[37][3] For botany, the system's cornerstone was the sexual classification introduced in the 1730s and refined across editions, dividing plants into 24 classes chiefly by stamen count and fusion—from Monandria (one stamen) to Polyandria (20 or more stamens)—with orders determined by pistil features, such as style length or number. Linnaeus justified this emphasis on floral organs as they offered fixed, diagnostic "essential characters" for delineation, though he acknowledged the method's artificiality, viewing it as a provisional tool superior to prior arbitrary schemes like those of Cesalpino or Ray, which mixed variable traits.[37][8] In zoology, classes relied on overt traits like presence of lungs or viviparity, yielding six animal classes by 1758, prioritizing utility over philosophical completeness.[3] The empirical foundation rested on direct, systematic observation of specimens, drawing from Linnaeus's herbaria of pressed plants and dissections of fresh material, which he amassed through personal fieldwork—such as his 1732 Lapland expedition yielding over 100 new species—and correspondence networks supplying global samples. This hands-on method rejected speculative morphology in favor of verifiable traits, with Linnaeus insisting classifications derive from "natural characters" observed repeatedly across individuals to ensure reproducibility, as outlined in his Fundamenta Botanica (1736) principles integrated into Systema Naturae.[8][33] He critiqued overly complex systems for ignoring such data-driven simplicity, arguing artificial keys enabled rapid sorting of the era's influx of New World and exotic flora without awaiting a fully "natural" phylogeny. Despite limitations—like grouping grasses with orchids due to stamen counts—the system's empirical rigor influenced standardized taxonomy, though later naturalists like Jussieu supplanted it with affinity-based orders by the 1780s.[3]Human Classification
Placement of Homo Sapiens
In the tenth edition of Systema Naturae (1758), Carl Linnaeus classified Homo sapiens within the kingdom Animalia, class Mammalia, order Primates, genus Homo, with sapiens as the species epithet, marking the formal binomial nomenclature for humans and establishing this work as the baseline for zoological taxonomy.[9] This placement integrated humans into the animal kingdom based on shared mammalian traits such as viviparous reproduction, two mammary glands for nursing, and hair coverage, while distinguishing the genus Homo through characteristics like erect bipedal posture, a prominent and articulate tongue, facial hairlessness, an opposable thumb, and the use of clothing.[38] Linnaeus's hierarchical system grouped Primates to include humans alongside apes, monkeys, and lemurs, emphasizing dental structure, forward-facing eyes, and grasping limbs over earlier superficial analogies.[38] This represented an evolution from the 1735 first edition, where Linnaeus had tentatively placed humans in class Quadrupedia (four-footed animals) under order Anthropomorpha, alongside hypothetical "wild men," chimpanzees, and sloths, relying on limited morphological resemblances like non-retractile claws and manual dexterity.[9] By 1758, empirical observations from dissections and travel accounts prompted a shift to Mammalia as a class defined by physiological criteria, including warm-bloodedness and lactation, subordinating anthropomorphic traits to reproductive biology for greater natural affinity.[38] Linnaeus annotated the Homo entry with "Nosce te ipsum" ("know thyself"), drawing from classical sources to highlight human self-awareness and rationality as diagnostic, though he maintained an empirical focus on observable anatomy rather than metaphysical distinctions.[9] The classification underscored Linnaeus's artificial system, prioritizing fixed, hierarchical categories derived from key characters over evolutionary relationships, with Homo sapiens as the type species exemplifying the order's pinnacle through tool use and linguistic capacity, evidenced by contemporary anatomical studies.[38] No holotype was designated in the original description, leading later taxonomists to propose Linnaeus himself or contemporary illustrations as references, though the binomial's validity rests on the 1758 publication date under the International Code of Zoological Nomenclature.[39] This positioning provoked debate among contemporaries, with some theologians objecting to equating humans with beasts, yet Linnaeus defended it through scriptural reconciliation, arguing that Genesis authorized naming within creation's order.[9]Varieties of Humans
In the tenth edition of Systema Naturae published in 1758, Carl Linnaeus classified Homo sapiens into four primary varieties corresponding to the inhabited continents known at the time: Europe, America, Asia, and Africa. These varieties were delineated using observable traits including skin color, bodily temperament derived from classical humoral theory (sanguine, choleric, melancholic, phlegmatic), posture, hair texture, facial features, behavioral dispositions, modes of adornment, and forms of social governance. Linnaeus emphasized that these constituted varieties within a single species, arising from environmental influences such as climate rather than fixed subspecies, aligning with his view that divine creation produced one human form adaptable to surroundings.[9][17] The European variety (Europaeus) was described as white-skinned, sanguine, and muscular, with abundant yellow or brown hair, blue eyes, a light and inventive disposition, coverage by fitted garments, and governance through religious rites. The American variety (Americanus) featured reddish skin, a choleric temperament, and upright posture, characterized by straight black thick hair, wide nostrils, a freckled face, lack of facial hair, an obstinate yet cheerful and independent nature, body painting with red lines, and regulation by customary laws. The Asiatic variety (Asiaticus) was sallow, melancholic, and rigid, with blackish hair, dark eyes, a stern haughty and covetous demeanor, loose clothing for protection, and rule by opinions or traditions. The African variety (Africanus) exhibited black skin, a phlegmatic and relaxed disposition, and laziness, marked by dark frizzled or braided hair, silky skin, flat nose, tumid lips, elongated labia in females, abundant milk production, sly sluggish and neglectful traits, anointing with grease or fat, and capricious self-governance.[9][17] Linnaeus supplemented these continental varieties with two additional categories: ferus for wild or feral humans, such as reported cases of children raised by animals, and monstrosus encompassing atypical forms shaped by extreme environments, including alpine dwarves (Alpini: small, agile, timid), Hottentots (Khoikhoi: reduced fertility, single testicle), and European females with artificially constricted waists. These extensions reflected Linnaeus's empirical approach, drawing from travel accounts, medical observations, and classical sources, though tempered by the limited data available in the mid-18th century and reliance on humoral physiology. He maintained that such variations did not alter the fundamental unity of Homo sapiens as a tool-using, rational primate.[9][40]| Variety | Skin Color & Temperament | Key Physical Traits | Behavioral Traits | Adornment & Governance |
|---|---|---|---|---|
| Europaeus | White, sanguine, muscular | Yellow/brown hair, blue eyes | Inventive, wise | Fitted clothes; rites/religion |
| Americanus | Red, choleric, upright | Straight black hair, wide nostrils, freckled, beardless | Cheerful, free, obstinate | Red body paint; customs |
| Asiaticus | Sallow, melancholic, stiff | Blackish hair, dark eyes | Haughty, greedy, stern | Loose garments; opinions |
| Africanus | Black, phlegmatic, relaxed | Frizzled/braided hair, flat nose, tumid lips | Sly, neglectful, sluggish | Grease anointing; caprice |