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| − | == | + | ==Biogeomorphology of aquatic systems== |
| − | + | [[Image:seagrasswaddensea.jpg|thumb|20x|Seagrass meadow]] | |
| − | + | [[Biogeomorphology]] considers the interactions between the ecology and geomorphology of a system. Ecology is the study of relationships between the biota and their environment, and geomorphology examines landforms and how they are formed. Biogeomorphology can be studied in terrestrial as well as aquatic systems. Within aquatic systems biogeomorphological relationships can be found for both hard substrates (rocky shores / coral reefs) and soft substrates (muddy / sandy coastal sediments). Biota can alter geomorphology by creating hard substrates (e.g. coral reefs) or by modifying the stability or erodability of soft substrates. Key species in the benthic communities of sediment shores can influence geomorphology by acting as '''biostabilizers''' or '''biodestabilizers''' of sediment. The impact of organisms on coastal morphology can be both dramatic (e.g. coral reefs, [[saltmarsh]]es, mussel beds) and more subtle by modifying rates of sediment [[erosion]] and accretion. Biota are not only influenced by various environmental factors (abiotic – physical & chemical; biotic – other organisms; [[anthropogenic]] – humans), but organisms also act as [[ecosystem]] engineers and modify their environment (physical, chemical and biological aspects). [[Ecosystem]] engineers create valuable habitats (e.g. coral reefs and saltmarshes) that are important for fish and birds and serve as a vital part of our natural coastal defence against storm surges and [[sea level rise]]. | |
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Revision as of 11:14, 22 December 2008
Biogeomorphology of aquatic systems
Biogeomorphology considers the interactions between the ecology and geomorphology of a system. Ecology is the study of relationships between the biota and their environment, and geomorphology examines landforms and how they are formed. Biogeomorphology can be studied in terrestrial as well as aquatic systems. Within aquatic systems biogeomorphological relationships can be found for both hard substrates (rocky shores / coral reefs) and soft substrates (muddy / sandy coastal sediments). Biota can alter geomorphology by creating hard substrates (e.g. coral reefs) or by modifying the stability or erodability of soft substrates. Key species in the benthic communities of sediment shores can influence geomorphology by acting as biostabilizers or biodestabilizers of sediment. The impact of organisms on coastal morphology can be both dramatic (e.g. coral reefs, saltmarshes, mussel beds) and more subtle by modifying rates of sediment erosion and accretion. Biota are not only influenced by various environmental factors (abiotic – physical & chemical; biotic – other organisms; anthropogenic – humans), but organisms also act as ecosystem engineers and modify their environment (physical, chemical and biological aspects). Ecosystem engineers create valuable habitats (e.g. coral reefs and saltmarshes) that are important for fish and birds and serve as a vital part of our natural coastal defence against storm surges and sea level rise.
