Vegetation

The distinction between vegetation (the general appearance of a community) and flora (the taxonomic composition of a community) was first made by Jules Thurmann (1849). Prior to this, the two terms (vegetation and flora) were used indiscriminately,{{Cite book|last=Thurmann|first=Jules|url=https://www.biodiversitylibrary.org/bibliography/51540|title=Essai de phytostatique appliqué à la chaîne du Jura et aux contrées voisines, ou Étude de la dispersion des plantes vasculaires envisagée principalement quant à l'influence des roches soujacentes|date=1849|publisher=Jent et Gassmann|location=Berne}}Martins, F. R. & Batalha, M. A. (2011). Formas de vida, espectro biológico de Raunkiaer e fisionomia da vegetação. In: Felfili, J. M., Eisenlohr, P. V.; Fiuza de Melo, M. M. R.; Andrade, L. A.; Meira Neto, J. A. A. (Org.). Fitossociologia no Brasil: métodos e estudos de caso. Vol. 1. Viçosa: Editora UFV. p. 44-85. {{cite web |url=http://files.hisaias.webnode.com/200000112-37f2239e9a/Cap%202.pdf |title=Archived copy |access-date=2016-08-25 |url-status=live |archive-url=https://web.archive.org/web/20160924062109/http://files.hisaias.webnode.com/200000112-37f2239e9a/Cap%202.pdf |archive-date=2016-09-24 }}. Earlier version, 2003, {{cite web |url=http://www2.ib.unicamp.br/profs/fsantos/bt682/2003/Apostila-FormasVida-2003.pdf |title=Archived copy |access-date=2016-08-25 |url-status=live |archive-url=https://web.archive.org/web/20160827014258/http://www2.ib.unicamp.br/profs/fsantos/bt682/2003/Apostila-FormasVida-2003.pdf |archive-date=2016-08-27 }}. and still are in some contexts. Augustin de Candolle (1820) also made a similar distinction but he used the terms "station" (habitat type) and "habitation" (botanical region).{{Cite journal|last=Candolle|first=Augustin Pyramus de|url=https://books.google.com/books?id=R7J3yRwiLLcC|title=Essai élémentaire de géographie botanique|date=1820|journal=Dictionnare des Sciences Naturelles|volume=18|location=Flevrault, Strasbourg|language=fr}}{{Cite book|last1=Lomolino|first1=Mark V.|url=https://books.google.com/books?id=KbkCgsEPv6YC|title=Foundations of Biogeography: Classic Papers with Commentaries|last2=Sax|first2=Dov F.|last3=Brown|first3=James H.|last4=Brown|date=July 2004|publisher=University of Chicago Press|isbn=978-0-226-49236-0|language=en|pages=263–275}} Later, the concept of vegetation would influence the usage of the term biome with the inclusion of the animal element.Coutinho, L. M. (2006). O conceito de bioma. Acta Bot. Bras. 20(1): 13-23, {{cite journal |title=O conceito de bioma |journal=Acta Botanica Brasilica |volume=20 |pages=13–23 |doi=10.1590/S0102-33062006000100002 |year=2006 |last1=Coutinho |first1=Leopoldo Magno |doi-access=free }}.

Other concepts similar to vegetation are "physiognomy of vegetation" (Humboldt, 1805, 1807) and "formation" (Grisebach, 1838, derived from "Vegetationsform", Martius, 1824).{{Cite book|last1=Humboldt|first1=Alexander von|url=https://www.biodiversitylibrary.org/bibliography/9309|title=Essai sur la géographie des plantes : accompagné d'un tableau physique des régions équinoxiales, fondé sur des mesures exécutées, depuis le dixième degré de latitude boréale jusqu'au dixième degré de latitude australe, pendant les années 1799, 1800, 1801, 1802 et 1803|last2=Bonpland|first2=Aimé|date=1805|publisher=Chez Levrault, Schoell et compagnie, libraires|location=Paris|language=French}}{{Cite book|last1=Humboldt|first1=Alexander von|url=https://www.biodiversitylibrary.org/bibliography/9310|title=Ideen zu einer Geographie der Pflanzen : nebst einem Naturgemälde der Tropenländer : auf Beobachtungen und Messungen gegründet, welche vom 10ten Grade nördlicher bis zum 10ten Grade südlicher Breite, in den Jahren 1799, 1800, 1801, 1802 und 1803 angestellt worden sind|last2=Bonpland|first2=Aimé|date=1807|publisher=Bey F.G. Cotta|location=Tübingen|language=German}}{{Cite book|last1=Garcke|first1=Aug.|url=https://www.biodiversitylibrary.org/item/109746|title=Linnaea : Ein Journal für die Botanik in ihrem ganzen Umfange|last2=Schlechtendal|first2=D. F. L. von|date=1838|publisher=F. Dümmler|volume=12|location=Berlin|language=German}}Martius, C. F. P. von. 1824. Die Physiognomie des Pflanzenreiches in Brasilien. Eine Rede, gelesen in der am 14. Febr. 1824 gehaltnen Sitzung der Königlichen Bayerischen Akademie der Wissenschaften. München, Lindauer, [http://www.brasiliana.usp.br/handle/1918/01305200#page/5/mode/1up] {{webarchive|url=https://web.archive.org/web/20161012193530/http://www.brasiliana.usp.br/handle/1918/01305200|date=2016-10-12}}.

Departing from Linnean taxonomy, Humboldt established a new science, dividing plant geography between taxonomists who studied plants as taxa and geographers who studied plants as vegetation.Ebach, M.C. (2015). Origins of biogeography. The role of biological classification in early plant and animal geography. Dordrecht: Springer, p. 89, [https://books.google.com/books?id=K7UYCgAAQBAJ].

The physiognomic approach in the study of vegetation is common among biogeographers working on vegetation on a world scale, or when there is a lack of taxonomic knowledge of someplace (e.g., in the tropics, where biodiversity is commonly high).{{Cite book|editor-last=Whittaker|editor-first=R. H.|last=Beard|first=J.S. |url=https://books.google.com/books?id=yFr-CAAAQBAJ|title=Classification of Plant Communities|date=1978|publisher=Springer Science & Business Media|pages=33–64|isbn=978-94-009-9183-5|language=en}}

The concept of "vegetation type" is more ambiguous. The definition of a specific vegetation type may include not only physiognomy but also floristic and habitat aspects.{{Cite journal|last=Eiten|first=George|date=June 1992|title=How names are used for vegetation|url=http://doi.wiley.com/10.2307/3235768|journal=Journal of Vegetation Science|language=en|volume=3|issue=3|pages=419–424|doi=10.2307/3235768|jstor=3235768 |bibcode=1992JVegS...3..419E }}Walter, B. M. T. (2006). Fitofisionomias do bioma Cerrado: síntese terminológica e relações florísticas. Doctoral dissertation, Universidade de Brasília, p. 10, {{cite web |url=http://www.pgecl.unb.br/images/sampledata/arquivos/teses/2000a2010/2006/Bruno%20M.T.%20Walter.pdf |title=Archived copy |access-date=2016-08-26 |url-status=live |archive-url=https://web.archive.org/web/20160826132951/http://www.pgecl.unb.br/images/sampledata/arquivos/teses/2000a2010/2006/Bruno%20M.T.%20Walter.pdf |archive-date=2016-08-26 }}. Furthermore, the phytosociological approach in the study of vegetation relies upon a fundamental unit, the plant association, which is defined upon flora.Rizzini, C.T. 1997. Tratado de fitogeografia do Brasil: aspectos ecológicos, sociológicos e florísticos. 2 ed. Rio de Janeiro: Âmbito Cultural Edições, p. 7-11.

An influential, clear and simple classification scheme for types of vegetation was produced by Wagner & von Sydow (1888).{{Cite book|last1=Cox|first1=C. Barry|url=https://books.google.com/books?id=RBcWCgAAQBAJ|title=Biogeography: An Ecological and Evolutionary Approach|last2=Moore|first2=Peter D.|last3=Ladle|first3=Richard J.|date=2016-05-31|publisher=John Wiley & Sons|isbn=978-1-118-96858-1|language=en|page=20}}{{Cite web|title=Sydow-Wagners Methodischer Schul-Atlas (1888-1944)|url=http://www.atlassen.info/atlassen/perthes/sywms.html#belgische_uitgave|access-date=2023-02-07|website=www.atlassen.info}} Other important works with a physiognomic approach includes Grisebach (1872), Warming (1895, 1909), Schimper (1898), Tansley and Chipp (1926), Rübel (1930), Burtt Davy (1938), Beard (1944, 1955), André Aubréville (1956, 1957), Trochain (1955, 1957), Küchler (1967), Ellenberg and Mueller-Dombois (1967) (see vegetation classification).

[[File:Vegetation-no-legend.PNG|thumb|right|400px|Biomes classified by vegetation

{{legend|#9fd6c9|Tundra}}

{{legend|#006d64|Taiga}}

{{legend|#a4e05d|Temperate broadleaf and mixed forest}}

{{legend|#f7ec6f|Temperate grasslands}}

{{legend|#0d7e0d|Subtropical moist forest}}

{{legend|#907699|Mediterranean}}

{{legend|#6f956f|Monsoon forest}}

{{legend|#95583c|Desert}}

{{legend|#b97553|Xeric shrubland}}

{{legend|#9b8447|Dry steppe}}

{{legend|#deb887|Semi-desert}}

{{legend|#cdc954|Grass savanna}}

{{legend|#aca719|Tree savanna}}

{{legend|#768e34|Tropical and subtropical dry forest}}

{{legend|#005c00|Tropical rainforest}}

{{legend|#a7bddb|Alpine tundra}}

{{legend|#3c9798|Montane forest}}

]]

{{Main|Vegetation classification}}

There are many approaches for the classification of vegetation (physiognomy, flora, ecology, etc.).de Laubenfels, D. J. 1975. Mapping the World's Vegetation: Regionalization of Formation and Flora. Syracuse University Press: Syracuse, NY.{{Cite book|last1=Küchler|first1=A. W.|url=https://books.google.com/books?id=HGzyCAAAQBAJ&pg=PA67|title=Vegetation mapping|last2=Zonneveld|first2=I. S.|date=2012-12-06|publisher=Springer Science & Business Media|isbn=978-94-009-3083-4| pages=67–80|language=en}}{{Cite book|last1=Sharma|first1=P. D.|url=https://books.google.com/books?id=fjmhn4g5VHkC&pg=PA140|title=Ecology And Environment| page=140| date=2012|publisher=Rastogi Publications|isbn=978-81-7133-905-1|language=en}}{{Cite web|title=Classification and Mapping of Plant Communities: a Review with Emphasis on Tropical Vegetation |last=Mueller-Dombois |first=D. |date=1984 |editor-first=G. M. |editor-last=Woodwell |pages=21–88 |publisher=J Wiley and Sons |location=New York |url=http://dge.stanford.edu/SCOPE/SCOPE_23/SCOPE_23_2.1_chapter2_21-88.pdf|access-date=2023-02-07|website=bse.carnegiescience.edu |archive-url=https://web.archive.org/web/20100717052018/http://dge.stanford.edu/SCOPE/SCOPE_23/SCOPE_23_2.1_chapter2_21-88.pdf |archive-date=July 17, 2010}} Much of the work on vegetation classification comes from European and North American ecologists, and they have fundamentally different approaches. In North America, vegetation types are based on a combination of the following criteria: climate pattern, plant habit, phenology and/or growth form, and dominant species. In the current US standard (adopted by the Federal Geographic Data Committee (FGDC), and originally developed by UNESCO and The Nature Conservancy), the classification is hierarchical and incorporates the non-floristic criteria into the upper (most general) five levels and limited floristic criteria only into the lower (most specific) two levels. In Europe, classification often relies much more heavily, sometimes entirely, on floristic (species) composition alone, without explicit reference to climate, phenology or growth forms. It often emphasizes indicator or diagnostic species which may distinguish one classification from another.

In the FGDC standard, the hierarchy levels, from most general to most specific, are: system, class, subclass, group, formation, alliance, and association. The lowest level, or association, is thus the most precisely defined, and incorporates the names of the dominant one to three (usually two) species of a type. An example of a vegetation type defined at the level of class might be "Forest, canopy cover > 60%"; at the level of a formation as "Winter-rain, broad-leaved, evergreen, sclerophyllous, closed-canopy forest"; at the level of alliance as "Arbutus menziesii forest"; and at the level of association as "Arbutus menziesii-Lithocarpus dense flora forest", referring to Pacific madrone-tanoak forests which occur in California and Oregon, US. In practice, the levels of the alliance and/or an association are the most often used, particularly in vegetation mapping, just as the Latin binomial is most often used in discussing particular species in taxonomy and in general communication.

Like all biological systems, plant communities are temporally and spatially dynamic; they change at all possible scales. Dynamism in vegetation is defined primarily as changes in species composition and structure.

File:Last Glacial Maximum Vegetation Map.svg]]

Temporally, many processes or events can cause change, but for the sake of simplicity, they can be categorized roughly as abrupt or gradual. Abrupt changes are generally referred to as disturbances; these include things like wildfires, high winds, landslides, floods, avalanches and the like. Their causes are usually external (exogenous) to the community—they are natural processes occurring (mostly) independently of the natural processes of the community (such as germination, growth, death, etc.). Such events can change vegetation structure and composition very quickly and for long periods, and they can do so over large areas. Very few ecosystems are without some disturbance as a regular and recurring part of the long-term system dynamic. Fire and wind disturbances are prevalent throughout many vegetation types worldwide. Fire is particularly potent because of its ability to destroy not only living plants but also the seeds, spores, and living meristems representing the potential next generation, and because of fire's impact on fauna populations, soil characteristics and other ecosystem elements and processes (for further discussion of this topic see fire ecology).

Temporal change at a slower pace is ubiquitous; it comprises the ecological succession field. Succession is the relatively gradual structure and taxonomic composition change that arises as the vegetation modifies various environmental variables over time, including light, water, and nutrient levels. These modifications change the suite of species most adapted to grow, survive, and reproduce in an area, causing floristic changes. These floristic changes contribute to structural changes inherent in plant growth even in the absence of species changes (especially where plants have a large maximum size, i.e., trees), causing slow and broadly predictable changes in the vegetation. Succession can be interrupted at any time by disturbance, setting the system back to a previous state or off on another trajectory altogether. Because of this, successional processes may or may not lead to some static, final state. Moreover, accurately predicting the characteristics of such a state, even if it does arise, is not always possible. In short, vegetative communities are subject to many variables that set limits on future conditions' predictability.

Generally, the larger an area under consideration, the more likely the vegetation will be heterogeneous. Two main factors are at work. First, the temporal dynamics of disturbance and succession are increasingly unlikely to be in synchrony across any area as the size of that area increases. Different areas will be at various developmental stages due to other local histories, particularly their times since the last significant disturbance. This fact interacts with inherent environmental variability (e.g., in soils, climate, topography, etc.), also a function of area. Environmental variability constrains the suite of species that can occupy a given area, and the two factors interact to create a mosaic of vegetation conditions across the landscape. Only in agricultural or horticultural systems does vegetation ever approach perfect uniformity. There is always heterogeneity in natural systems, although its scale and intensity will vary widely.

• Biocoenosis
• Biome
• Ecological succession
• Ecoregion
• Ecosystem
• Plant cover
• Tropical vegetation
• Vegetation and slope stability

{{Reflist}}

• Archibold, O. W. Ecology of World Vegetation. New York: Springer Publishing, 1994.
• Barbour, M. G. and W. D. Billings (editors). North American Terrestrial Vegetation. Cambridge: Cambridge University Press, 1999.
• Barbour, M.G, J.H. Burk, and W.D. Pitts. "Terrestrial Plant Ecology". Menlo Park: Benjamin Cummings, 1987.
• Box, E. O. 1981. Macroclimate and Plant Forms: An Introduction to Predictive Modeling in Phytogeography. Tasks for Vegetation Science, vol. 1. The Hague: Dr. W. Junk BV. 258 pp., [https://books.google.com/books?id=jTzqCAAAQBAJ Macroclimate and Plant Forms: An Introduction to Predictive Modeling in Phytogeography].
• Breckle, S-W. Walter's Vegetation of the Earth. New York: Springer Publishing, 2002.
• Burrows, C. J. Processes of Vegetation Change. Oxford: Routledge Press, 1990.
• Ellenberg, H. 1988. Vegetation ecology of central Europe. Cambridge University Press, Cambridge, [https://books.google.com/books?id=LQNxbuyPxawC Vegetation Ecology of Central Europe].
• Feldmeyer-Christie, E., N. E. Zimmerman, and S. Ghosh. Modern Approaches In Vegetation Monitoring. Budapest: Akademiai Kiado, 2005.
• Gleason, H.A. 1926. The individualistic concept of the plant association. Bulletin of the Torrey Botanical Club, 53:1-20.
• Grime, J.P. 1987. Plant strategies and vegetation processes. Wiley Interscience, New York NY.
• Kabat, P., et al. (editors). Vegetation, Water, Humans and the Climate: A New Perspective on an Interactive System. Heidelberg: Springer-Verlag 2004.
• MacArthur, R.H. and E. O. Wilson. The theory of Island Biogeography. Princeton: Princeton University Press. 1967
• Mueller-Dombois, D., and H. Ellenberg. Aims and Methods of Vegetation Ecology. New York: John Wiley & Sons, 1974. The Blackburn Press, 2003 (reprint).
• UNESCO. 1973. International Classification and Mapping of Vegetation. Series 6, Ecology and Conservation, Paris, [http://unesdoc.unesco.org/images/0000/000050/005032MB.pdf].
• Van der Maarel, E. Vegetation Ecology. Oxford: Blackwell Publishers, 2004.
• Vankat, J. L. The Natural Vegetation of North America. Krieger Publishing Co., 1992.

• {{usurped|1=[https://web.archive.org/web/20081122032744/http://conserveonline.org/docs/2001/03/vol1.pdf Terrestrial Vegetation of the United States Volume I – The National Vegetation Classification System: Development, Status, and Applications]}} (PDF)
• [https://web.archive.org/web/20051028140442/http://biology.usgs.gov/fgdc.veg/ Federal Geographic Data Committee Vegetation Subcommittee]
• [http://www.fgdc.gov/standards/projects/FGDC-standards-projects/vegetation/vegclass.pdf/view Vegetation Classification Standard] [FGDC-STD-005, June 1997] (PDF)
• [https://web.archive.org/web/20070903061004/http://www.daffa.gov.au/brs/forest-veg/vast Classifying Vegetation Condition: Vegetation Assets States and Transitions (VAST)]

• [https://web.archive.org/web/20081004181121/http://maps.howstuffworks.com/world-vegetation-map.htm Interactive world vegetation map by Howstuffworks]
• [https://web.archive.org/web/20110705065330/http://biology.usgs.gov/npsveg/ USGS - NPS Vegetation Mapping Program]
• [http://www.lib.berkeley.edu/EART/vegmaps.html Checklist of Online Vegetation and Plant Distribution Maps]
• [https://web.archive.org/web/20071117105922/http://www.vgt.vito.be/ VEGETATION image processing and archiving centre at VITO]
• [http://www.spot-vegetation.com Spot-VEGETATION programme web page]

{{Further|Climate diagram}}

• [http://www.zoolex.org/walter.html Climate Diagrams Explained] {{Webarchive|url=https://web.archive.org/web/20180928225953/http://www.zoolex.org/walter.html |date=2018-09-28 }}
• [http://www.climatediagrams.com ClimateDiagrams.com] Provides climate diagrams for more than 3000 weather stations and for different climate periods from all over the world. Users can also create their own diagrams with their own data.
• [http://www.globalbioclimatics.org/plot/diagram.htm WBCS Worldwide Climate Diagrams]

{{Vegetation}}

{{Authority control}}

Category:Ecological succession

Category:Habitat

Category:Botanical terminology

Category:Plant ecology

Category:Articles containing video clips