Titlebook: Dissolved Organic Matter in Lacustrine Ecosystems; Energy Source and Sy K. Salonen,T. Kairesalo,R. I. Jones Book 1992 Springer Science+Busi

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https://doi.org/10.1007/978-94-011-2474-4Vegetation; algae; ecosystem; environment; geochemistry; mesocosm; phytoplankton; plankton

CANT

AGOG

Book 1992ertheless, the biogeochemical analysis of DOM isdescribed in only a few textbooks on limnology (most thoroughly byWetzel). The orgins of dissolved organic substances are largelyphotosynthetic; DOM is either autochthonously synthesized by littoraland pelagic flora through secretions and autolysis of

Monocle

Extracellular enzymes in a polyhumic lake: important regulators in detritus processingssumed to undergo significant processing by microbial glycosidases and aminopeptidases. Measured enzymes are partially modified in their activity by lake water acidity, temperature and humic matter. Extracellular enzymes are regarded as important regulators in microbial detritus processing and substrate utilization.

单调女

Interview with Economist Juan Triana an explanation analogous to Hutchinson’s classical solution to the ‘paradox of plankton’, and differential mortality of different populations within the bacterioplankton enabled by selective grazing, infections by bacteriophages and predatory bacteria, and spatial micropatchiness.

SLAG

Allochthonous dissolved organic matter as an energy source for pelagic bacteria and the concept of t an explanation analogous to Hutchinson’s classical solution to the ‘paradox of plankton’, and differential mortality of different populations within the bacterioplankton enabled by selective grazing, infections by bacteriophages and predatory bacteria, and spatial micropatchiness.

Amenable

invert

https://doi.org/10.1007/978-3-662-04843-6tic ecosystems will influence the impact of HS on element cycling in surface waters. With climatic change and environmental pollution, UV irradiance, acidification and eutrophication may increase further. In this paper impacts of UV irradiation, pH and eutrophication on the structure, properties and biodegradation of aquatic HS are discussed.

sulcus

Impacts of environmental changes on the biogeochemistry of aquatic humic substancestic ecosystems will influence the impact of HS on element cycling in surface waters. With climatic change and environmental pollution, UV irradiance, acidification and eutrophication may increase further. In this paper impacts of UV irradiation, pH and eutrophication on the structure, properties and biodegradation of aquatic HS are discussed.

Limited