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Vegetation

January 31, 2023

For the medical term, see Vegetation (pathology).
Vegetation is not a vegetable.

Vegetation is an assemblage of plant species and the ground cover they provide.[2] It is a general term, without specific reference to particular taxa, life forms, structure, spatial extent, or any other specific botanical or geographic characteristics. It is broader than the term flora which refers to species composition. Perhaps the closest synonym is plant community, but vegetation can, and often does, refer to a wider range of spatial scales than that term does, including scales as large as the global. Primeval redwood forests, coastal mangrove stands, sphagnum bogs, desert soil crusts, roadside weed patches, wheat fields, cultivated gardens and lawns; all are encompassed by the term vegetation.

These maps show a scale, or index of greenness, based on several factors: the number and type of plants, leafiness, and plant health. Where foliage is dense and plants are growing quickly, the index is high, represented in dark green. Regions with sparse vegetation and a low vegetation index are shown in tan. Based on measurements from the Moderate Resolution Imaging Spectroradiometer (MODIS) on NASA's Terra satellite. Areas where there is no data are gray.[1]

The vegetation type is defined by characteristic dominant species, or a common aspect of the assemblage, such as an elevation range or environmental commonality.[3] The contemporary use of vegetation approximates that of ecologist Frederic Clements' term earth cover, an expression still used by the Bureau of Land Management.

History of definition

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,[4][5] 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).[6][7] Later, the concept of vegetation would influence the usage of the term biome with the inclusion of the animal element.[8]

Other concepts similar to vegetation are "physiognomy of vegetation" (Humboldt, 1805, 1807) and "formation" (Grisebach, 1838, derived from "Vegetationsform", Martius, 1824).[5][9][10][11][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.[13] 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).[14]

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.[15][16] Furthermore, the phytosociological approach in the study of vegetation relies upon a fundamental unit, the plant association, which is defined upon flora.[17]

An influential, clear and simple classification scheme for types of vegetation was produced by Wagner & von Sydow (1888).[18][19] 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).

Classifications

 
Biomes classified by vegetation
  Tundra
  Taiga
  Temperate broadleaf and mixed forest
  Temperate grasslands
  Subtropical moist forest
  Mediterranean
  Monsoon forest
  Desert
  Xeric shrubland
  Dry steppe
  Semi-desert
  Grass savanna
  Tree savanna
  Tropical and subtropical dry forest
  Tropical rainforest
  Alpine tundra
  Montane forest
Main article: Vegetation classification

There are many approaches for the classification of vegetation (physiognomy, flora, ecology, etc.).[20][21][22][23] 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, USA. 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.

Dynamics

Like all the 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/or vegetation structure.

Temporal dynamics

 
Vegetation types at the time of Last Glacial Maximum

Temporally, a large number of processes or events can cause change, but for sake of simplicity, they can be categorized roughly as either 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 time periods, and they can do so over large areas. Very few ecosystems are without some type of disturbance as a regular and recurring part of the long term system dynamic. Fire and wind disturbances are particularly common 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 field of ecological succession. Succession is the relatively gradual change in structure and taxonomic composition that arises as the vegetation itself 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 that are 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 either 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 together set limits on the predictability of future conditions.

Spatial dynamics

As a general rule, the larger an area under consideration, the more likely the vegetation will be heterogeneous across it. 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. That is, different areas will be at different developmental stages due to different local histories, particularly their times since last major disturbance. This fact interacts with inherent environmental variability (e.g. in soils, climate, topography, etc.), which is also a function of area. Environmental variability constrains the suite of species that can occupy a given area, and the two factors together interact to create a mosaic of vegetation conditions across the landscape. Only in agricultural or horticultural systems does vegetation ever approach perfect uniformity. In natural systems, there is always heterogeneity, although its scale and intensity will vary widely..

See also

References

  1. ^ . earthobservatory.nasa.gov. 8 May 2018. Archived from the original on 11 July 2017. Retrieved 8 May 2018.
  2. ^ Burrows, Colin J. (1990). Processes of vegetation change. London: Unwin Hyman. p. 1. ISBN 978-0045800131.
  3. ^ Introduction to California Plant Life; Robert Ornduff, Phyllis M. Faber, Todd Keeler-Wolf; 2003 ed.; p. 112
  4. ^ Thurmann, J. (1849). Essai de Phytostatique appliqué à la chaîne du Jura et aux contrées voisines. Berne: Jent et Gassmann, [1] 2017-10-02 at the Wayback Machine.
  5. ^ a b 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. "Archived copy" (PDF). (PDF) from the original on 2016-09-24. Retrieved 2016-08-25.{{cite web}}: CS1 maint: archived copy as title (link). Earlier version, 2003, "Archived copy" (PDF). (PDF) from the original on 2016-08-27. Retrieved 2016-08-25.{{cite web}}: CS1 maint: archived copy as title (link).
  6. ^ de Candolle, Augustin (1820). Essai Élémentaire de Géographie Botanique. In: Dictionnaire des sciences naturelles, Vol. 18. Flevrault, Strasbourg, [2].
  7. ^ Lomolino, M. V., & Brown, J. H. (2004). Foundations of biogeography: classic papers with commentaries. University of Chicago Press, [3].
  8. ^ Coutinho, L. M. (2006). O conceito de bioma. Acta Bot. Bras. 20(1): 13-23, Coutinho, Leopoldo Magno (2006). "O conceito de bioma". Acta Botanica Brasilica. 20: 13–23. doi:10.1590/S0102-33062006000100002..
  9. ^ Humboldt, A. von & Bonpland, A. 1805. Essai sur la geographie des plantes. Accompagné d'un tableau physique des régions équinoxiales fondé sur des mesures exécutées, depuis le dixiéme degré de latitude boréale jusqu'au dixiéme degré de latitude australe, pendant les années 1799, 1800, 1801, 1802 et 1803. Paris: Schöll, [4] 2018-05-04 at the Wayback Machine.
  10. ^ Humboldt, A. von & Bonpland, A. 1807. Ideen zu einer Geographie der Pflanzen, nebst einem Naturgemälde der Tropenländer. Bearbeitet und herausgegeben von dem Ersteren. Tübingen: Cotta; Paris: Schoell, [5] 2017-11-07 at the Wayback Machine.
  11. ^ Grisebach, A. 1838. Über den Einfluß des Climas auf die Begrenzung der natürlichen Floren. Linnaea 12:159–200, [6] 2017-11-07 at the Wayback Machine.
  12. ^ 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, [7] 2016-10-12 at the Wayback Machine.
  13. ^ Ebach, M.C. (2015). Origins of biogeography. The role of biological classification in early plant and animal geography. Dordrecht: Springer, p. 89, [8].
  14. ^ Beard J.S. (1978). The Physiognomic Approach. In: R. H. Whittaker (editor). Classification of Plant Communities, pp 33-64, [9].
  15. ^ Eiten, G. 1992. How names are used for vegetation. Journal of Vegetation Science 3:419-424. link.
  16. ^ Walter, B. M. T. (2006). Fitofisionomias do bioma Cerrado: síntese terminológica e relações florísticas. Doctoral dissertation, Universidade de Brasília, p. 10, "Archived copy" (PDF). (PDF) from the original on 2016-08-26. Retrieved 2016-08-26.{{cite web}}: CS1 maint: archived copy as title (link).
  17. ^ 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.
  18. ^ Cox, C. B., Moore, P.D. & Ladle, R. J. 2016. Biogeography: an ecological and evolutionary approach. 9th edition. John Wiley & Sons: Hoboken, p. 20, [10].
  19. ^ Wagner, H. & von Sydow, E. 1888. Sydow-Wagners methodischer Schulatlas. Gotha: Perthes, "Sydow-Wagners methodischer Schul-Atlas - Deutsche Digitale Bibliothek". from the original on 2016-09-11. Retrieved 2016-08-30.. 23th (last) ed., 1944, [11] 2017-03-08 at the Wayback Machine.
  20. ^ de Laubenfels, D. J. 1975. Mapping the World's Vegetation: Regionalization of Formation and Flora. Syracuse University Press: Syracuse, NY.
  21. ^ Küchler, A.W. (1988). The classification of vegetation. In: Küchler, A.W., Zonneveld, I.S. (eds). Vegetation mapping. Kluwer Academic, Dordrecht, pp 67–80, [12].
  22. ^ Sharma, P. D. (2009). Ecology and Environment. Rastogi: Meerut, p. 140, [13].
  23. ^ Mueller-Dombois, D. 1984. Classification and Mapping of Plant Communities: a Review with Emphasis on Tropical Vegetation. In: G. M. Woodwell (ed.) The Role of Terrestrial Vegetation in the Global Carbon Cycle: Measurement by Remote Sensing, J. Wiley & Sons, New York, pp. 21-88, "Biosphere Sciences & Engineering | Biosphere Sciences & Engineering" (PDF). (PDF) from the original on 2010-07-17. Retrieved 2016-09-04..

Further reading

  • 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., 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, 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, [14].
  • Van der Maarel, E. Vegetation Ecology. Oxford: Blackwell Publishers, 2004.
  • Vankat, J. L. The Natural Vegetation of North America. Krieger Publishing Co., 1992.

External links

Classification

  • Terrestrial Vegetation of the United States Volume I – The National Vegetation Classification System: Development, Status, and Applications 2008-11-22 at the Wayback Machine (PDF)
  • Vegetation Classification Standard [FGDC-STD-005, June 1997] (PDF)

Mapping-related

  • Checklist of Online Vegetation and Plant Distribution Maps
  • Spot-VEGETATION programme web page

Climate diagrams

Further information: Climate diagram
  • Climate Diagrams Explained 2018-09-28 at the Wayback Machine
  • 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.
  • WBCS Worldwide Climate Diagrams

January 31, 2023
vegetation, medical, term, pathology, vegetable, assemblage, plant, species, ground, cover, they, provide, general, term, without, specific, reference, particular, taxa, life, forms, structure, spatial, extent, other, specific, botanical, geographic, character. For the medical term see Vegetation pathology Vegetation is not a vegetable Vegetation is an assemblage of plant species and the ground cover they provide 2 It is a general term without specific reference to particular taxa life forms structure spatial extent or any other specific botanical or geographic characteristics It is broader than the term flora which refers to species composition Perhaps the closest synonym is plant community but vegetation can and often does refer to a wider range of spatial scales than that term does including scales as large as the global Primeval redwood forests coastal mangrove stands sphagnum bogs desert soil crusts roadside weed patches wheat fields cultivated gardens and lawns all are encompassed by the term vegetation source source source source source source These maps show a scale or index of greenness based on several factors the number and type of plants leafiness and plant health Where foliage is dense and plants are growing quickly the index is high represented in dark green Regions with sparse vegetation and a low vegetation index are shown in tan Based on measurements from the Moderate Resolution Imaging Spectroradiometer MODIS on NASA s Terra satellite Areas where there is no data are gray 1 The vegetation type is defined by characteristic dominant species or a common aspect of the assemblage such as an elevation range or environmental commonality 3 The contemporary use of vegetation approximates that of ecologist Frederic Clements term earth cover an expression still used by the Bureau of Land Management Contents 1 History of definition 2 Classifications 3 Dynamics 3 1 Temporal dynamics 3 2 Spatial dynamics 4 See also 5 References 6 Further reading 7 External links 7 1 Classification 7 2 Mapping related 7 3 Climate diagramsHistory of definition EditThe 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 4 5 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 6 7 Later the concept of vegetation would influence the usage of the term biome with the inclusion of the animal element 8 Other concepts similar to vegetation are physiognomy of vegetation Humboldt 1805 1807 and formation Grisebach 1838 derived from Vegetationsform Martius 1824 5 9 10 11 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 13 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 14 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 15 16 Furthermore the phytosociological approach in the study of vegetation relies upon a fundamental unit the plant association which is defined upon flora 17 An influential clear and simple classification scheme for types of vegetation was produced by Wagner amp von Sydow 1888 18 19 Other important works with a physiognomic approach includes Grisebach 1872 Warming 1895 1909 Schimper 1898 Tansley and Chipp 1926 Rubel 1930 Burtt Davy 1938 Beard 1944 1955 Andre Aubreville 1956 1957 Trochain 1955 1957 Kuchler 1967 Ellenberg and Mueller Dombois 1967 see vegetation classification Classifications Edit Biomes classified by vegetation Tundra Taiga Temperate broadleaf and mixed forest Temperate grasslands Subtropical moist forest Mediterranean Monsoon forest Desert Xeric shrubland Dry steppe Semi desert Grass savanna Tree savanna Tropical and subtropical dry forest Tropical rainforest Alpine tundra Montane forest Main article Vegetation classification There are many approaches for the classification of vegetation physiognomy flora ecology etc 20 21 22 23 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 andassociation 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 gt 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 USA 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 Dynamics EditLike all the 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 or vegetation structure Temporal dynamics Edit Vegetation types at the time of Last Glacial Maximum Temporally a large number of processes or events can cause change but for sake of simplicity they can be categorized roughly as either 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 time periods and they can do so over large areas Very few ecosystems are without some type of disturbance as a regular and recurring part of the long term system dynamic Fire and wind disturbances are particularly common 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 field of ecological succession Succession is the relatively gradual change in structure and taxonomic composition that arises as the vegetation itself 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 that are 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 either 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 together set limits on the predictability of future conditions Spatial dynamics Edit As a general rule the larger an area under consideration the more likely the vegetation will be heterogeneous across it 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 That is different areas will be at different developmental stages due to different local histories particularly their times since last major disturbance This fact interacts with inherent environmental variability e g in soils climate topography etc which is also a function of area Environmental variability constrains the suite of species that can occupy a given area and the two factors together interact to create a mosaic of vegetation conditions across the landscape Only in agricultural or horticultural systems does vegetation ever approach perfect uniformity In natural systems there is always heterogeneity although its scale and intensity will vary widely See also EditBiocoenosis Biome Ecological succession Ecoregion Ecosystem Plant cover Tropical vegetation Vegetation and slope stabilityReferences Edit Global Maps earthobservatory nasa gov 8 May 2018 Archived from the original on 11 July 2017 Retrieved 8 May 2018 Burrows Colin J 1990 Processes of vegetation change London Unwin Hyman p 1 ISBN 978 0045800131 Introduction to California Plant Life Robert Ornduff Phyllis M Faber Todd Keeler Wolf 2003 ed p 112 Thurmann J 1849 Essai de Phytostatique applique a la chaine du Jura et aux contrees voisines Berne Jent et Gassmann 1 Archived 2017 10 02 at the Wayback Machine a b Martins F R amp Batalha M A 2011 Formas de vida espectro biologico de Raunkiaer e fisionomia da vegetacao 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 metodos e estudos de caso Vol 1 Vicosa Editora UFV p 44 85 Archived copy PDF Archived PDF from the original on 2016 09 24 Retrieved 2016 08 25 a href Template Cite web html title Template Cite web cite web a CS1 maint archived copy as title link Earlier version 2003 Archived copy PDF Archived PDF from the original on 2016 08 27 Retrieved 2016 08 25 a href Template Cite web html title Template Cite web cite web a CS1 maint archived copy as title link de Candolle Augustin 1820 Essai Elementaire de Geographie Botanique In Dictionnaire des sciences naturelles Vol 18 Flevrault Strasbourg 2 Lomolino M V amp Brown J H 2004 Foundations of biogeography classic papers with commentaries University of Chicago Press 3 Coutinho L M 2006 O conceito de bioma Acta Bot Bras 20 1 13 23 Coutinho Leopoldo Magno 2006 O conceito de bioma Acta Botanica Brasilica 20 13 23 doi 10 1590 S0102 33062006000100002 Humboldt A von amp Bonpland A 1805 Essai sur la geographie des plantes Accompagne d un tableau physique des regions equinoxiales fonde sur des mesures executees depuis le dixieme degre de latitude boreale jusqu au dixieme degre de latitude australe pendant les annees 1799 1800 1801 1802 et 1803 Paris Scholl 4 Archived 2018 05 04 at the Wayback Machine Humboldt A von amp Bonpland A 1807 Ideen zu einer Geographie der Pflanzen nebst einem Naturgemalde der Tropenlander Bearbeitet und herausgegeben von dem Ersteren Tubingen Cotta Paris Schoell 5 Archived 2017 11 07 at the Wayback Machine Grisebach A 1838 Uber den Einfluss des Climas auf die Begrenzung der naturlichen Floren Linnaea 12 159 200 6 Archived 2017 11 07 at the Wayback Machine Martius C F P von 1824 Die Physiognomie des Pflanzenreiches in Brasilien Eine Rede gelesen in der am 14 Febr 1824 gehaltnen Sitzung der Koniglichen Bayerischen Akademie der Wissenschaften Munchen Lindauer 7 Archived 2016 10 12 at the Wayback Machine Ebach M C 2015 Origins of biogeography The role of biological classification in early plant and animal geography Dordrecht Springer p 89 8 Beard J S 1978 The Physiognomic Approach In R H Whittaker editor Classification of Plant Communities pp 33 64 9 Eiten G 1992 How names are used for vegetation Journal of Vegetation Science 3 419 424 link Walter B M T 2006 Fitofisionomias do bioma Cerrado sintese terminologica e relacoes floristicas Doctoral dissertation Universidade de Brasilia p 10 Archived copy PDF Archived PDF from the original on 2016 08 26 Retrieved 2016 08 26 a href Template Cite web html title Template Cite web cite web a CS1 maint archived copy as title link Rizzini C T 1997 Tratado de fitogeografia do Brasil aspectos ecologicos sociologicos e floristicos 2 ed Rio de Janeiro Ambito Cultural Edicoes p 7 11 Cox C B Moore P D amp Ladle R J 2016 Biogeography an ecological and evolutionary approach 9th edition John Wiley amp Sons Hoboken p 20 10 Wagner H amp von Sydow E 1888 Sydow Wagners methodischer Schulatlas Gotha Perthes Sydow Wagners methodischer Schul Atlas Deutsche Digitale Bibliothek Archived from the original on 2016 09 11 Retrieved 2016 08 30 23th last ed 1944 11 Archived 2017 03 08 at the Wayback Machine de Laubenfels D J 1975 Mapping the World s Vegetation Regionalization of Formation and Flora Syracuse University Press Syracuse NY Kuchler A W 1988 The classification of vegetation In Kuchler A W Zonneveld I S eds Vegetation mapping Kluwer Academic Dordrecht pp 67 80 12 Sharma P D 2009 Ecology and Environment Rastogi Meerut p 140 13 Mueller Dombois D 1984 Classification and Mapping of Plant Communities a Review with Emphasis on Tropical Vegetation In G M Woodwell ed The Role of Terrestrial Vegetation in the Global Carbon Cycle Measurement by Remote Sensing J Wiley amp Sons New York pp 21 88 Biosphere Sciences amp Engineering Biosphere Sciences amp Engineering PDF Archived PDF from the original on 2010 07 17 Retrieved 2016 09 04 Further reading EditArchibold 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 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 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 amp Sons 1974 The Blackburn Press 2003 reprint UNESCO 1973 International Classification and Mapping of Vegetation Series 6 Ecology and Conservation Paris 14 Van der Maarel E Vegetation Ecology Oxford Blackwell Publishers 2004 Vankat J L The Natural Vegetation of North America Krieger Publishing Co 1992 External links EditClassification Edit Terrestrial Vegetation of the United States Volume I The National Vegetation Classification System Development Status and Applications Archived 2008 11 22 at the Wayback Machine PDF Federal Geographic Data Committee Vegetation Subcommittee Vegetation Classification Standard FGDC STD 005 June 1997 PDF Classifying Vegetation Condition Vegetation Assets States and Transitions VAST Mapping related Edit Interactive world vegetation map by Howstuffworks USGS NPS Vegetation Mapping Program Checklist of Online Vegetation and Plant Distribution Maps VEGETATION image processing and archiving centre at VITO Spot VEGETATION programme web pageClimate diagrams Edit Further information Climate diagram Climate Diagrams Explained Archived 2018 09 28 at the Wayback Machine 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 WBCS Worldwide Climate Diagrams Retrieved from https en wikipedia org w index php title Vegetation amp oldid 1128525187, wikipedia, wiki, book, books, library,

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