Eugenius Warming

Eugen Warming
Born (1841-11-03)3 November 1841
Mandø, Denmark
Died 2 April 1924(1924-04-02) (aged 82)
Copenhagen, Denmark
Nationality Danish
Fields Ecology
Institutions University of Copenhagen
Doctoral students Christen C. Raunkiær
Wilhelm Johannsen
Frederik Børgesen
Morten Porsild
Johannes Schmidt
Olaf Hagerup
Henning Eiler Petersen
Carl Hansen Ostenfeld
Ove Paulsen
Known for founding ecology
plant life forms
tropical botany
Notable awards Commander 1st Degree of the Order of the Dannebrog
Commander of the Royal Victorian Order
Imperial Order of the Rose
Erzherzog Rainer-Medaille, Kaiserlich-königlichen zoologisch-botanischen Gesellschaft in Wien (1911)
Great Linnean Medal in Gold, Royal Swedish Academy of Sciences (1922)

Signature

Johannes Eugenius Bülow Warming (3 November 1841 – 2 April 1924), known as Eugen Warming, was a Danish botanist and a main founding figure of the scientific discipline of ecology. Warming wrote the first textbook (1895) on plant ecology, taught the first university course in ecology and gave the concept its meaning and content. “If one individual can be singled out to be honoured as the founder of ecology, Warming should gain precedence”.[1][2]

Warming wrote a number of textbooks on botany, plant geography and ecology, which were translated to several languages and were immensely influential at their time and later. Most important were Plantesamfund and Haandbog i den systematiske Botanik.

Early life and family life

Warming was born on the small Wadden Sea island of Mandø as the only child of Jens Warming (1797–1844), parish minister, and Anna Marie von Bülow af Plüskow (1801–1863). After the early death of his father, he moved with his mother to her brother in Vejle in eastern Jutland.

He married Johanne Margrethe Jespersen (known as Hanne Warming; 1850–1922) on 10 November 1871. They had eight children: Marie (1872–1947) married C.V. Prytz, Jens Warming (1873–1939), who became a professor in economy and statistics at the Royal Veterinary and Agricultural University, Fro (1875–1880), Povl (1877–1878), Svend Warming (1879–1982), engineer at Burmeister & Wain shipyard, Inge (1879–1893), Johannes (1882–1970), farmer, and Louise (1884–1964).[4] External link: Ancestors and descendents[5]

Education and career

He attended high school at Ribe Katedralskole and commenced 1859 studies of natural history at the University of Copenhagen, but left university for three-and-a-half year (1863–1866) to act as secretary for the Danish palaeontologist Peter Wilhelm Lund, who lived and worked in Lagoa Santa, Brazil. After his return to Europe, he studied for a year under K.F.P. Martius, K.W. Nägeli and Ludwig Radlkofer in Munich and, in 1871, under J.L. von Hanstein in Bonn. Later in the same year (1871), he defended his Doctor of Philosophy thesis at Copenhagen.

The professorship in botany at the University of Copenhagen became vacant with the death of A.S. Ørsted and Warming was the obvious candidate for a successor. However, he was passed over and the chair given to the older, but much less productive and original Ferdinand Didrichsen. Warming then became docent of botany at the University of Copenhagen, the polytechnic (Polyteknisk Læreanstalt) and the Pharmaceutical College 1873-1882. He became professor in botany at Stockholms högskola (later Stockholm University) 1882-1885. As the eldest professor, he was elected rector magnificus.[6] In 1885, he became professor in botany at the University of Copenhagen and director of the Copenhagen Botanical Garden and held these positions until his retirement on 31 December 1910. He was rector magnificus of the University of Copenhagen 1907-1908.

He was a member of the Royal Danish Academy of Sciences and Letters from 1878 to his death. As such, he served on the board of directors of the Carlsberg Foundation 1889-1921 and, because a biologist, on the board of the Carlsberg Laboratory. He also served on the board of the Geological Survey of Denmark 1895-1917.

Eugen Warming was a frequent visitor to foreign universities, e.g. a travel to Strasbourg and Paris in 1876 and another to Göttingen, Jena, Bonn, Strasbourg and Paris in 1880. He participated in several Scandinavian Scientist Conferences between 1868 and 1916 and in the similar German meeting in Breslau in 1874. He joined the International Botanical Congresses in Amsterdam 1877, in Vienna 1905 and in Brussels 1910 and was president of the ‘Association internationale des botanistes‘ (1913). He attended the Linnaeus celebration in Uppsala 1907 and the Darwin celebration in London 1908. He was honorary fellow of the Royal Society in London, was elected member of the Royal Swedish Academy of Sciences in 1885 and honorary member of the Danish Botanical Society. He was a corresponding member of the botanical section of the French Academy of Sciences.[7] He was made Commander 1st Degree of the Order of the Dannebrog, Commander of the Royal Victorian Order and the Brazilian Imperial Order of the Rose. He is buried in Assistants Cemetery in Copenhagen.

Expeditions

In addition, shorter visits to the Alps and other proximate destination.

Plantesamfund ('Oecology of plants')

The book Plantesamfund was based on Warming’s lectures on plant geography at the University of Copenhagen. It gives an introduction to all major biomes of the world. Warming’s aim, and his major lasting impact on the development of ecology, was to explain how nature solved similar problems (drought, flooding, cold, salt, herbivory, etc.) in similar way, despite using very different ‘raw material’ (species of different origin) in different regions of the world. This was a remarkably modern view—completely different from the merely descriptive floristic plant geography prevailing during his time.

The subtitle alludes to the title of the book Grundtræk af den almindelige Plantegeografi, published in 1822 (German edn 1823: Grundzüge einer allgemeinen Pflanzengeographie) by J.F. Schouw, co-founder of the scientific phytogeography.

Plantesamfund was translated to German in 1896 as

A second, unauthorized, edition was issued during 1902 by Paul Graebner, who put his own name after Warming’s on the book’s frontispiece, despite no changes to the contents.[1]

This edition was expanded in third and fourth editions:

A Polish translation of ’Plantesamfund’ (from Knoblauch’s German translation) appeared in 1900:

Two independent Russian (Moscow and St. Petersburg) editions appeared in 1901 and 1903

An extended and translated edition in English first appeared in 1909:

The German ecologist A. F. W. Schimper published Pflanzengeographie auf physiologisher Grundlage in 1898.

This work not only covered much of the same ground as Warming did in 1895 and 1896 but in fact also leaned heavily on Warming’s research. Schimper (1898) quoted extensively from more than 15 of Warming’s works and even reproduced Warming’s figures. Yet nowhere did Schimper acknowledge his profound debt to Warming, neither in the list of picture credits, nor in the acknowledgements section of the Vorwort, nor in his list of major sources, and not even in a footnote! ... Although replete with Warming’s data, it contains few ideas and did not advance ecology beyond what Warming had done earlier.[1]

Warming as a teacher

Warming was a skillful and dedicated pedagogue, whose presentation of the subject was useful far beyond his lecture theatre in Copenhagen. He wrote a number of botany textbooks for the university level, as well as school books.

Handbook of systematic botany

Warming's textbook on systematics for his lectures of botany in Copenhagen appeared in several editions and was translated to German, Russian and English and used in foreign universities.

German edn. 1890: Handbuch der systematischen Botanik[15][16] by E. Knoblauch (2nd edn 1902, 3rd edn 1911, 4th edn 1929 all by M. Möbius). Russian edn 1893: Систематика растеній (from the 3rd Danish edn by S. Rostovzev and M. Golenkin; 2nd edn 1898). English edn 1895: A handbook of systematic botany[17] (by M.C. Potter; several editions, latest 1932). The section on seed plants was later expanded and issued as

The sections on spore plants were updated and published separately as

Handbook of general botany

Warming's textbook on plant morphology, anatomy and physiology was translated to Swedish and German: Warming Eug. Den almindelige Botanik: En Lærebog, nærmest til Brug for Studerende og Lærere [translated title: General Botany]. Kjøbenhavn, 1880. (2nd edn 1886; 3rd edn by Warming and Wilhelm Johannsen 1895; 4th edn by Warming and Johannsen 1900-01). Swedish edn 1882: Lärobok i allmän botanik (by Axel N. Lundström). German edn 1907-09: Lehrbuch der allgemeinen Botanik (from the 4th edn, by E. P. Meinecke). Berlin, Borntraeger. 667 pp.

Also, Warming's schoolbook on botany was used abroad: Warming Eug. (1900) Plantelivet: Lærebog i Botanik for Skoler og Seminarier [translated title: 'Plant Life']. København. (2nd edn 1902; 3rd edn 1905; 4th and 5th edns by C. Raunkiær and Warming 1908 and 1914, respectively; 6th edn (1920) by E. Warming and Johs. Boye Petersen). English edn 1911: Plant Life - A Text-book of Botany for Schools and Colleges (from the 4th edn by M.M. Rehling and E.M. Thomas). London. Russian edn 1904: Растение и его жизнь (Началный учебник ботаники). (from the 2nd edn by L.M. Krečotovič and M. Golenkin). Moskva. Dutch edns 1905, 1912 and 1919 Kern der plantkunde (by Dr. A.J.M. Garjeanne).

Excursions

Warming felt a strong need to take students of botany out of the lecture theatre. He used the botanic garden to demonstrate live plants, but to teach plant ecology he needed students to get out in nature. The action radius from Copenhagen offered by trips by foot was far too small, however. He applied to the government and obtained a grant to take students on longer excursions every year from 1893; every third year these went to western Jutland, once to Bornholm, otherwise to Zealand. His excursion notes were published and are instructive introductions to the environment and plant adaptation in dunes, salt marshes and other habitats:

Further scientific works of E. Warming

Eugen Warming 1879

Plant systematics

His early experience with vegetation in a tropical region was decisive for his future work. His collections from Lagoa Santa, 2600 plant species, of which some 370 turned out to be new to science,[1] were treated in a monumental 40-volume and 1400-page work, Symbolæ ad Floram Brasiliæ centralis cognoscendam. For this work, Warming farmed out plant families to more than fifty plant taxonomists, mainly in Europe.

They were all published as volumes in the series ’Videnskabelige Meddelelser fra den Naturhistoriske Forening i Kjøbenhavn’. In addition, Warming treated the families Vochysiaceae and Trigoniaceae for the Flora Brasiliensis:

His favourite plant family: Etudes sur la famille des Podostemacees

Warming held a special interest in the family Podostemaceae, with which he had become acquainted during his stay in Brazil. The plant species of this family are extremely modified by the harsh environment in which they live - they are angiosperms that resemble liverworts.

Part I-V. All published in Kongelige Danske Videnskabernes Selskabs Skrifter - Naturvidenskabelig og Mathematisk Afdeling, 6. Rk.

Lagoa Santa

Having finished the taxonomical work, Warming finally published his ecological study of plant communities in the Lagoa Santa area, with cerrado as the main vegetation type.

Warming issued a lengthy summary in French (1893): Lagoa Santa – Étude de Geographie Botanique. Revue Générale de Botanique 5: 145-158, 209-233. Portuguese translation: Warming, Eugenio Lagoa Santa: Contribuição para a geographia phytobiologica, by Alberto Löfgren Belo Horizonte, 1908. This edition was augmented by the Brazilian ecologist M.G. Ferri with more recent research on the cerrado system and reissued as: Warming, E. & Ferri, M.G. (1973) Lagoa Santa – a vegetação de cerrados brasileiros. University of São Paulo.

Organogenetic studies

Early on in Warming’s scientific career, the morphological-organogenetic point of was the leading principle in botanical research, and he soon became one of the most prominent workers in this branch of botany. His main works from the early period are his thesis on floral development in Euphorbia and on seed plant ovules.

Warming's doctoral thesis (in Danish) dealt with ontogeny of the cyathia of Euphorbia (Euphorbiaceae).

Part of the work was published in German the year before the thesis:

His studies of pollen and anther formation i Angiosperms and on the inflorescence of Asteraceae were published in von Hanstein's Botanische Abhandlungen:

His studies on seed plant ovules were published in French as

All these works a still cited in scientific papers by scholars of botany every now and then.[19]

Through the 1870s, Warming became much-influenced by Darwinism. The scope of his research changed. First towards understanding ontogenesis in the light of a common descent as seen in De l’Ovule, later towards plant adaptation to environmental conditions. Again, his unparalleled ability to observe plants paired with his tropical experiencewas decisive to the route he chose.

Plant life-form

Although Warming did not coin the term life-form until 1895 (in Plantesamfund Ch. 2), he commenced work on plant life-form already during his Stockholm years. In the paper

he presented a classification based on longevity of the plant, power of vegetative propagation, duration of tillers, hypogeous or epigeous type of shoots, mode of wintering, and degree and mode of branching of rhizomes. The observation were made while raising wild plants from seed under garden conditions. In the late 1880s, after Warming's return to Copenhagen, he swopped research topic with his student Christen Raunkiær, who had traveled along the North Sea coast from Jutland to the Netherlands and published on the phytogeography of coastal vegetation.[20] Warming now worked on plant adaptations in dunes and salt marshes, while Raunkiær studied the morphology of Danish plants, eventually leading him to his plant life-form scheme.[21] Nevertheless, after Raunkiær had published his life-form scheme, Warming return to this topic in the work

Warming’s new scheme was less simple than Raunkiær's, taking other environmental factors than wintering into account, especially water/drought stress. Warming did not approve of what he saw as over-simplification in the Raunkiær scheme. Warmings last published work was a renewed attempt to put all plant (including bacteria and algae) life forms into a system.

Greenland, Iceland and Faroe Islands

Warmings published a number of treatises based on his expedition to Southwest Greenland in 1884. One of the most important ones is his observations of the vegetation of Greenland and the history of the flora:

Warming's collections of leaves, stems and flowers, made during the brief expedition, were examined in detail and the anatomy of a number of species described in a series of papers in Danish. Later, Warming distributed the material family-wise, now ameliorated with collectections made later expeditions and elsewhere in the Arctic, to students, who made further investigations and published the results in English: Warming, E. ed. (1908–1921) The structure and biology of Arctic flowering plants. Meddelelser om Grønland vol. 36: 1-481 and 37: 1-507.

Vegetation of Denmark

Warming’s influence

It was Eugenius Warming's Lehrbuch der ökologischen Pflanzengeographie that must be considered as the starting point of self-conscious ecology. This book was the first to use physiological relations between plants and their environment, and in addition biotic interactions to explain the moulding of the assemblages that plant geographers had described and classified, and it would set up a research agenda for decades to come.[22]

Despite the language barrier, Warming’s influence on the development of ecology is remarkable, not the least in Britain and the USA. The British ecologist Arthur Tansley was extremely influenced by reading ’Plantesamfund’ (or rather the 1896 German edition). Reading the book made him jump from anatomy to ecology.[1] Tansley used the book as textbook in a university course as early as 1899.[23][24] Similarly, Warming's book was decisive in forming the careers of North American naturalists like Henry Chandler Cowles.[25] Cowles' now classic studies of Lake Michigan sand dune plant communities were directly inspired by Warming's studies of Danish dunes.[26] Also Frederic Clements was much inspired by Warming when starting to working with succession, but more by Oscar Drude in formulating his concept of vegetational climax in his 1916 book.

A more unexpected avenue of influence went through the American sociologist Robert E. Park, who read Warming's Oecology of Plants and used the ideas of ecological succession as inspiration for a notion of succession in human communities - a human ecology.[27]

Warming’s influence on later Scandinavian ecology was immense. Especially significant was his inspiration to Christen Raunkiær – his pupil and successor on the chair of botany at the University of Copenhagen. In addition, he had a direct influence of Danish research, scientific and other, for a couple of decades. After his appointment to the professorship in Copenhagen, he gradually took over Japetus Steenstrups power base, most notably as one of three members of the board of the Carlsberg Foundation for 32 years. Thus, Warming had the upper hand in whom should be granted money and whom should not.

Warming and evolution

Warming was a firm believer in adaptation. However, he was a declared Lamarckist. In his popularizing book Nedstamningslæren (The theory of descendence; 1915),[28] he reviewed the direct and indirect evidence for common descent of living organisms and for Darwinian natural selection as a process involved in speciation. His keen observations of how differently the same plant is grown under different circumstances (now known as phenotypic plasticity) led him to question the change of species by infinitesimally small steps as advocated by his contemporary Darwinists of the Biometry school, e.g. Karl Pearson. Warming summarized his view on the ways in which new species could may arise:

  1. By inheritance of acquired characters;
  2. By hybridization;
  3. By natural selection, with the latter mechanism being the least important.

Warming, religion and politics

Warming was raised in a Christian Protestant home and he continued to be religious throughout his life. He accepted the evolution by descent of living beings, but believed that laws governing planets’ orbits and other laws governing organic evolution were God-given. In his popular book Nedstamningslæren (translated title: Evolution by descent), he concludes the section on hypotheses about the origin of life writing that, no matter what hypothesis is considered, it just “defers the grand question: how did life first come into existence, »in the beginning«? … as if we human beings thereby obtained understanding and explanation for anything at all, or circumvented the almighty power that, incomprehensibly to our mind, must have created matter, force, time and infinite space. Science has not disproven the Bible that says: »In the beginning God created …«!”.[28] Warming shared this view with many prominent contemporary naturalists, e.g. Alfred Russel Wallace.[29]

Politically, Warming was national-conservative, Scandinavist and anti-Prussian. Warming was able to visit his birthplace only a few times in his life because Schleswig was conquered by Prussia and Austria in 1864 and (Northern Schleswig) returned to Denmark in 1920. Warming expressed support, in letters,[4] for France in the 1870 Franco-Prussian War. He made financial contributions to a secret fund that should support Danish-minded Schleswigian farmers in buying farms and prevent Germanization of Northern Schleswig. In a letter of 1898 to his son Jens, he regrets that the Højre – the conservative party – would lose an upcoming election and expresses concern that anarchy and socialism will eventually rule.[30]

Miscellaneous

The Orchid genus Warmingia Rchb.f. and dozens of vascular plant species (IPN])[31] has been named to his honour. The same is the case for a number of fungi, e.g. the smut fungus Microbotryum warmingii (Rostr.) Vánky and the gall fungus Arcticomyces warmingii (Rostr.) Savile. Warming Land - a peninsula in northernmost Greenland is named for him.

Universidade Federal de Minas Gerais has organized a series of 'Eugen Warming lectures in Evolutionary Ecology' since 1994.

See also

Biographies and obituaries

References

  1. 1 2 3 4 5 Goodland, R.J. (1975) The tropical origin of ecology: Eugen Warming’s jubilee. Oikos, 26, 240-245.
  2. Goodland, R. J. (17 May 1975). "The Tropical Origin of Ecology: Eugen Warming's Jubilee". Oikos. 26 (2): 240–245. doi:10.2307/3543715 via JSTOR.
  3. IPNI.  Warm.
  4. 1 2 Prytz, S. (1984) Warming – botaniker og rejsende. Lynge, Bogan. 197 pp. A personal account by Warming’s granddaughter, based on family-owned letters.
  5. http://www.sadolins.com/genealogy/getperson.php?personID=I45993&tree=onetree
  6. Jackalin, Marie. "Historia. Blundad". www.su.se.
  7. Science, American Association for the Advancement of (22 August 1924). "Scientific Notes and News". Science. 60 (1547): 173–175. doi:10.1126/science.60.1547.173 via science.sciencemag.org.
  8. "Fylla near Qeqertarsuaq/Godhavn".
  9. "Officers and scientists, Warming in the centre".
  10. Warming in umiaq with crew
  11. Warming, Eugenius; Graebner, Paul (17 May 2017). "Lehrbuch der ökologischen pflanzengeographie". Berlin, Gebrüder Borntraeger via Internet Archive.
  12. "Е. Варминг. Экологическая география растений". www.abratsev.narod.ru.
  13. "Core Historical Literature of Agriculture". chla.library.cornell.edu.
  14. Warming 1884.
  15. Eugenius Warming, Emil Knoblauch (17 May 1890). "Handbuch der systematischen Botanik". Gebrüder Borntraeger (E.Eggers) via Internet Archive.
  16. Warming 1890.
  17. Warming, Eugenius; Knoblauch, Emil; Potter, Michael Cresse (17 May 1895). "A handbook of systematic botany". New York : Macmillan & Co. via Internet Archive.
  18. Warming 1912.
  19. http://www.amjbot.org/cgi/content/abstract/94/10/1612
  20. Raunkiær, C. (1889) Notes on the vegetation of the North-Frisian Islands and a contribution to an eventual flora of these islands. Botanisk Tidsskrift 17, 179-196.
  21. Christensen, Carl: Christen Christiansen Raunkiær, in: Dansk Biografisk Leksikon, 3rd edn 1979-1984 (ed. Svend Cedergreen Bech).
  22. Jax, Kurt (2001) History of Ecology. In: Encyclopedia of Life Sciences. John Wiley & Sons.
  23. Tansley, A.G. (1947) The early history of modern plant ecology in Britain. Journal of Ecology, 35, 130-137.
  24. Tansley, A. G. (17 May 2017). "The Early History of Modern Plant Ecology in Britain". Journal of Ecology. 35 (1/2): 130–137. doi:10.2307/2256503 via JSTOR.
  25. Coleman, W. (1986) Evolution into ecology? The strategy of Warming’s ecological plant geography. Journal of the History of Biology, 19(2), 181-196.
  26. Cassidy, V.M. (2007). "Henry Chandler Cowles – pioneer ecologist". = Kedzie Sigel Press, Chicago.
  27. Gaziano, Emanuel (17 May 1996). "Ecological Metaphors as Scientific Boundary Work: Innovation and Authority in Interwar Sociology and Biology". American Journal of Sociology. 101 (4): 874–907 via JSTOR.
  28. 1 2 Warming, E. (1915) Nedstamningslæren. Copenhagen, Udvalget til Folkeoplysnings Fremme, G.E.C. Gad.
  29. Russel, A. R. (1914). The world of life : a manifestation of creative power, directive mind and ultimate purpose. London: Chapman and Hall. p. 386. "The remote but more fundamental cause, which has been comparatively little attended to, is the existence of a special group of elements possessing such exceptional and altogether extraordinary properties as to render possible the existence of vegetable and animal life-forms. ... the Mind which first caused these elements to exist, and then built them up into such marvellous living, moving, self-supporting, and self-reproducing structures, ..." archived
  30. Prytz (1984) p. 117.
  31. "IPNI Plant Name Query Results". www.ipni.org.

Bibliography

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Note: This is a selected list of the more influential systems. There are many other systems, for instance a review of earlier systems, published by Lindley in his 1853 edition, and Dahlgren (1982). Examples include the works of Scopoli, Batsch and Grisebach.

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