Caspar David Friedrich - Wanderer above the sea of fog

Humboldtian science refers to a movement in

science Science is a systematic endeavor that builds and organizes knowledge in the form of testable explanations and predictions about the universe. Science may be as old as the human species, and some of the earliest archeological evidence for ...

in the 19th century closely connected to the work and writings of German scientist, naturalist and explorer

Alexander von Humboldt Friedrich Wilhelm Heinrich Alexander von Humboldt (14 September 17696 May 1859) was a German polymath, geographer, naturalist, explorer, and proponent of Romantic philosophy and science. He was the younger brother of the Prussian minister, p ...

. It maintained a certain ethics of precision and observation, which combined scientific field work with the sensitivity and aesthetic ideals of the age of

Romanticism Romanticism (also known as the Romantic movement or Romantic era) was an artistic, literary, musical, and intellectual movement that originated in Europe towards the end of the 18th century, and in most areas was at its peak in the approximate ...

. Like

Romanticism in science 19th-century science was greatly influenced by Romanticism (or the Age of Reflection, 1800–40), an intellectual movement that originated in Western Europe as a counter-movement to the late-18th-century Enlightenment. Romanticism incorporated m ...

, it was rather popular in the 19th century. The term was coined by

Susan Faye Cannon Susan Faye Cannon, born Walter Faw Cannon (October 15, 1925, in Durham, North Carolina –November 6, 1981), was an American historian of science, physicist, and Smithsonian curator. Career In 1947, Cannon gained a bachelor's degree in physics ...

in 1978. The example of Humboldt's life and his writings allowed him to reach out beyond the academic community with his natural history and address a wider audience with popular science aspects. It has supplanted the older

Baconian method The Baconian method is the investigative method developed by Sir Francis Bacon, one of the founders of modern science, and thus a first formulation of a modern scientific method. The method was put forward in Bacon's book ''Novum Organum'' (1620), ...

, related as well to a single person,

Francis Bacon Francis Bacon, 1st Viscount St Alban (; 22 January 1561 – 9 April 1626), also known as Lord Verulam, was an English philosopher and statesman who served as Attorney General and Lord Chancellor of England. Bacon led the advancement of both ...

Brief biography

Stieler, Joseph Karl - Alexander von Humboldt - 1843

Humboldt was born in

Berlin Berlin ( , ) is the capital and largest city of Germany by both area and population. Its 3.7 million inhabitants make it the European Union's most populous city, according to population within city limits. One of Germany's sixteen constitue ...

in 1769 and worked as a Prussian mining official in the 1790s until 1797 when he quit and began collecting scientific knowledge and equipment.Jardine et al., ''Cultures of Natural History'', p. 288 His extensive wealth aided his infatuation with the spirit of

; he amassed an extensive collection of scientific instruments and tools as well as a sizeable library. In 1799 Humboldt, under the protection of King

Charles IV of Spain , house = Bourbon-Anjou , father = Charles III of Spain , mother =Maria Amalia of Saxony , birth_date =11 November 1748 , birth_place =Palace of Portici, Portici, Naples , death_date = , death_place = ...

, left for South America and

New Spain New Spain, officially the Viceroyalty of New Spain ( es, Virreinato de Nueva España, ), or Kingdom of New Spain, was an integral territorial entity of the Spanish Empire, established by Habsburg Spain during the Spanish colonization of the Am ...

, toting all of his tools and books. The purpose of the voyage was steeped in Romanticism; Humboldt intended to investigate how the forces of nature interact with one another and find out about the unity of nature. Humboldt returned to Europe in 1804 and was acclaimed as a public hero. The details and findings of Humboldt's journey were published in his ''Personal Narrative of Travels to the Equatorial Regions of the New Continent'' (30 volumes). This ''Personal Narrative'' was taken by

Charles Darwin Charles Robert Darwin ( ; 12 February 1809 – 19 April 1882) was an English naturalist, geologist, and biologist, widely known for his contributions to evolutionary biology. His proposition that all species of life have descended fr ...

on his famous voyage on H.M.S Beagle. Humboldt spent the rest of his life mainly in Europe, although he did embark on a short expedition to Siberia and the Russian steppes in 1829. Humboldt's last works were contained in his book, '' Kosmos: Entwurf einer physischen Weltbeschreibung'' ("Cosmos. Sketch for a Physical Description of the Universe"). The book mainly described the development of a life-force from the cosmos, but also included the formation of

star A star is an astronomical object comprising a luminous spheroid of plasma (physics), plasma held together by its gravity. The List of nearest stars and brown dwarfs, nearest star to Earth is the Sun. Many other stars are visible to the naked ...

s from nebular clouds as well as the geography of planets. Alexander von Humboldt died in 1859, while working on the fifth volume of ''Kosmos''. Through his travels to South America and his observational records in ''An Essay on the Geography of Plants'' as well as ''Kosmos'', an important trend emerged through his techniques of observation, scientific instruments used and unique perspective on nature. Humboldt's novel style has been defined as Humboldtian Science. Humboldt had the ability to combine the study of empirical data with a holistic view of nature and its aesthetically pleasing characteristics, which is now held to be the true definition of the study of vegetation and plant geography. Humboldtian science is one of the first techniques for studying both organic and inorganic branches of science. Examining the interconnectedness of vegetation and its respective environment is one of the new and important aspects of Humboldt's work, an idea labeled as "terrestrial physics," something that scientists who preceded him, such as Linnaeus, failed to do. Humboldtian science is founded on a principle of "general equilibrium of forces." General equilibrium was the idea that there are infinite

force In physics, a force is an influence that can change the motion of an object. A force can cause an object with mass to change its velocity (e.g. moving from a state of rest), i.e., to accelerate. Force can also be described intuitively as a p ...

s in nature that are in constant conflict, yet all forces balance each other out. Humboldt laid the groundwork for future scientific endeavors by establishing the importance of studying organisms and their environment in conjunction .

Humboldtian science defined

Humboldtian science includes both the extensive work of Alexander von Humboldt, as well as many of the works of 19th century scientists. Susan Cannon is attributed with coining the term ''Humboldtian science''.Nicolson, "Alexander von Humboldt, Humboldtian science, and the origins of the study of vegetation," p. 167 According to Cannon, Humboldtian science is, "the accurate, measured study of widespread but interconnected real phenomena in order to find a definite law and a dynamical cause." Humboldtian science is used now in place of the traditional, "Baconianism," as a more appropriate and less vague term for the themes of 19th century science. Natural history in the eighteenth century was the "nomination of the visible".

Carl Linnaeus Carl Linnaeus (; 23 May 1707 – 10 January 1778), also known after his ennoblement in 1761 as Carl von Linné Blunt (2004), p. 171. (), was a Swedish botanist, zoologist, taxonomist, and physician who formalised binomial nomenclature, the ...

was preoccupied with fitting all nature into taxonomy, fixated on only what was visible. Towards the turn of the eighteenth century, Immanuel Kant became interested in understanding where species derived from, and was less concerned with an organism's physical attributes. Next,

Johann Reinhold Forster Johann Reinhold Forster (22 October 1729 – 9 December 1798) was a German Continental Reformed church, Reformed (Calvinist) pastor and natural history, naturalist of partially Scottish descent who made contributions to the early ornithology of ...

, one of Humboldt's future partners, became interested in the study of vegetation as an essential way of understanding nature and its relationship with human society. Proceeding Forster, Karl Willdenow examined floristic plant geography, the distribution of plants and regionality as a whole. All of these pieces in the history before Humboldt help to shape what is defined as Humboldtian science. Humboldt took into account both the outward appearance and inward meaning of plant species. His attention to natural aesthetics and empirical data and evidence is what set his scientific work apart from ecologists before him. Nicolson so aptly puts it as: "Humboldt effortlessly combined a commitment to empiricism and the experimental elucidation of the laws of nature with an equally strong commitment to holism and to a view of nature which was intended to be aesthetically and spiritually satisfactory". It was through this holistic approach to science and the study of nature that Humboldt was able to find a web of interconnectedness despite a multitude of extensive differences between different species of organisms. According to Malcolm Nicholson, "Susan Cannon characterized Humboldtian science as synthetic, empirical, quantitative and impossible to fit into any one of our twentieth century disciplinary boundaries." A central element of Humboldtian science was its use of the latest advances in scientific instrumentation to observe and measure physical variables, while attending to all possible sources of error. Humboldtian science revolved around understanding the relationship between accurate measurement, sources of error and mathematical laws. Cannon identifies four distinctive features that marked Humboldtian science out from previous versions of science: * insistence on accuracy for all scientific instruments and observations; * a mental sophistication in which theoretical mechanisms and entities of past science were taken lightly; * a new set of conceptual tools, including isomaps,

graphs Graph may refer to: Mathematics *Graph (discrete mathematics), a structure made of vertices and edges **Graph theory, the study of such graphs and their properties *Graph (topology), a topological space resembling a graph in the sense of discre ...

, and a

theory of errors In statistics, propagation of uncertainty (or propagation of error) is the effect of variables' uncertainties (or errors, more specifically random errors) on the uncertainty of a function based on them. When the variables are the values of exp ...

; * the application of accuracy, mental sophistication, and tools not to isolated science in laboratories, but to greatly variable real phenomena.

Humboldt's "terrestrial physicist"

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Humboldt was committed to what he called 'terrestrial physics.' Essentially Humboldt's new scientific approach required a new type of scientist: Humboldtian science demanded a transition from the naturalist to the physicist. Humboldt described how his idea of terrestrial physics differs from traditional "descriptive" natural history when he stated, " raveling naturalistshave neglected to track the great and constant laws of nature manifested in the rapid flux of phenomena…and to trace the reciprocal interaction of the divided physical forces."Jardine et al., ''Cultures of Natural History'', p. 289 Humboldt did not consider himself an explorer, but rather a scientific traveler, who accurately measured what explorers had reported inaccurately. According to Humboldt, the goal of the terrestrial physicist was to investigate the confluence and interweaving of all physical forces. An incredibly extensive array of precise instrumentation had to be readily available for Humboldt's terrestrial physicist. The expansive amount of scientific resources that characterized the Humboldtian scientist is best described in the book ''Science in Culture'',

Thus the complete Humboldtian traveller, in order to make satisfactory observations, should be able to cope with everything from the revolution of the satellites of Jupiter to the carelessness of clumsy donkeys.

Just some of such instruments included chronometers, telescopes, sextants, microscopes, magnetic compasses, thermometers, hygrometers, barometers, electrometers, and eudiometers. Furthermore, it was necessary to have multiple makes and models of each specific instrument to compare errors and constancy among each type.

Humboldt's equilibrium

One concept that is central to Humboldtian science is that of a general equilibrium of forces. Humboldt explains: "The general equilibrium which reigns amongst disturbances and apparent turmoil, is the result of infinite number of mechanical forces and chemical attractions balancing each other out."Jardine et al., ''Cultures of Natural History'', p. 290 Equilibrium is derived from an infinite number of forces acting simultaneously and varying globally. In other words, the lawfulness of nature, according to Humboldt, is a result of infinity and complexity. Humboldtian science promotes the idea that the more forces that are accurately measured over more of the earth's surface results in a greater understanding of the order of nature. The voyage to the Americas produced many discoveries and developments that help to illustrate Humboldt's ideas about this equilibrium of forces. Humboldt produced the ''Tableau physique des Andes'' ("Physical Profile of the Andes), which aimed at capturing his voyage to the Americas in a single graphic table. Humboldt meant to capture all of the physical forces, from organisms to electricity, in this single table. Among many other complex empirical recordings of elevation-specific data, the table included a detailed biodistribution. This biodistribution mapped the specific distributions of flora and fauna at every elevation level on the mountain. Humboldt's study of plants provides an example of the movement of Humboldtian science away from traditional science. Humboldt's botany also further illustrates the concept of equilibrium and the Humboldtian ideas of the interrelationship of nature's elements. Although he was concerned with physical features of plants, he was largely focused on the investigation of underlying connections and relations among plant organisms. Humboldt worked for years on developing an understanding of plant distributions and geography. The link between the balancing equilibrium of natural forces and organism distribution is evident when Humboldt states:

As in all other phenomena of the physical universe, so in the distribution of organic beings: amidst the apparent disorder which seems to result from the influence of a multitude of local causes, the unchanging law of nature become evident as soon as one surveys an extensive territory, or uses a mass of facts in which the partial disturbances compensate one another.Jardine et al., ''Cultures of Natural History'', p. 298

The study of vegetation and plant geography arose out of new concerns that emerged with Humboldtian science. These new areas of concern in science included integrative processes, invisible connections, historical development, and natural wholes. Humboldtian science applied the idea of general equilibrium of forces to the continuities in the history of the generation of the planet. Humboldt saw the history of the earth as a continuous global distribution of such things as heat, vegetation, and rock formations. In order to graphically represent this continuity Humboldt developed isothermal lines.Jardine et al., ''Cultures of Natural History'', p. 295 These isothermal lines functioned in the general balancing of forces in that isothermal lines preserved local peculiarities within a general regularity. According to Humboldtian science, nature's order and equilibrium emerged "gradually and progressively from laborious observing, averaging, and mapping over increasingly extended areas."

Transformation of Humboldtian science

Ralph Waldo Emerson Ralph Waldo Emerson (May 25, 1803April 27, 1882), who went by his middle name Waldo, was an American essayist, lecturer, philosopher, abolitionist, and poet who led the transcendentalist movement of the mid-19th century. He was seen as a champ ...

once dubbed Humboldt to be "one of those wonders of the world… who appear from time to time, as if to show us the possibilities of the human mind." When Humboldt first began his studies of organisms and the environment he claimed that he wanted to "reorganize the general connections that link organic beings and to study the great harmonies of Nature".Sachs, Aaron. The Humboldt Current. New York: Viking, 2008, p.2 He is often considered one of the world's first genuine ecologists. Humboldt succeeded in developing a comprehensive science that joined the separate branches of natural philosophy under a model of natural order founded on the concept of dynamic equilibrium. Humboldt's work reached far beyond his personal expeditions and discoveries. Figures from all across the globe participated on his work. Some such participants included French naval officers,

East India Company The East India Company (EIC) was an English, and later British, joint-stock company founded in 1600 and dissolved in 1874. It was formed to trade in the Indian Ocean region, initially with the East Indies (the Indian subcontinent and Southea ...

physicians, Russian provincial administrators, Spanish military commanders, and German diplomats. As was mentioned previously,

carried a copy of Humboldt's ''Personal Narrative'' aboard H.M.S. Beagle. Humboldt's projects, particularly those related to natural philosophy, played a significant role in the influx of European money and travelers to Spanish America in increasing numbers in the early 19th century.

Sir Edward Sabine Sir Edward Sabine ( ; 14 October 1788 – 26 June 1883) was an Irish astronomer, geophysicist, ornithologist, explorer, soldier and the 30th president of the Royal Society. He led the effort to establish a system of magnetic observatories in ...

, a British scientist, worked on terrestrial magnetism in a manner that was certainly Humboldtian. Also, British scientist

George Gabriel Stokes Sir George Gabriel Stokes, 1st Baronet, (; 13 August 1819 – 1 February 1903) was an Irish migration to Great Britain, Irish English physicist and mathematician. Born in County Sligo, Ireland, Stokes spent all of his career at the University ...

depended heavily on abstract mathematical measurement to deal with error in a precision instrument, certainly Humboldtian science. Maybe the most prominent figure whose work can be considered representative of Humboldtian science is geologist

Charles Lyell Sir Charles Lyell, 1st Baronet, (14 November 1797 – 22 February 1875) was a Scottish geologist who demonstrated the power of known natural causes in explaining the earth's history. He is best known as the author of ''Principles of Geolo ...

. Despite a lack of emphasis on precise measurement in geology at the time, Lyell insisted on precision in a Humboldtian manner. The promotion and development of terrestrial physics under Humboldtian science produced not only useful maps and statistics, but offered both European and Creole societies tools for essentially 're-imaging' America. The lasting impact of Humboldtian science is described in ''Cultures of Natural History'', "Humboldtian science illuminates the reorganization of knowledge and disciplines in the early nineteenth century that defined the emergence of natural history out of natural philosophy."Jardine et al., ''Cultures of Natural History'', p. 304

Notes

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References

*Cannon, Susan Faye. ''Science in Culture: The Early Victorian Period''. Science History Publications. NY. 1978 *Jardine, N; Secord, J.A.; Spary, E.C. ''Cultures of Natural History''. Cambridge University Press. Cambridge, NY. 1996 *Nicolson, Malcolm. "Alexander von Humboldt, Humboldtian science, and the origins of the study of vegetation." ''History of Science'', 25:2. June 1987 Natural history History of Earth science History of biology