Biogeochemical Hot Spots and Hot Moments at the Interface of Terrestrial and Aquatic Ecosystems

Biogeochemical Hot Spots and Hot Moments at the Interface of Terrestrial and Aquatic Ecosystems

Rates and reactions of biogeochemical processes vary in space and time to produce both hot spots and hot moments of elemental cycling. We define biogeochemical hot spots as patches that show disproportionately high reaction rates relative to the surrounding matrix, whereas hot moments are defined as...

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Bibliographic Details
Published in:Ecosystems (New York) Vol. 6; no. 4; pp. 301 - 312
Main Authors: McClain, Michael E., Boyer, Elizabeth W., Dent, C. Lisa, Gergel, Sarah E., Grimm, Nancy B., Groffman, Peter M., Hart, Stephen C., Harvey, Judson W., Johnston, Carol A., Mayorga, Emilio, McDowell, William H., Pinay, Gilles
Format: Journal Article
Language:English
Published: New York, NY Springer-Verlag 01-06-2003
Springer
Springer Nature B.V
Subjects:
Animal and plant ecology
Animal, plant and microbial ecology
Aquatic ecosystems
Biogeochemistry
Biological and medical sciences
Commentary
Desert soils
Forest soils
Fresh water ecosystems
Fundamental and applied biological sciences. Psychology
General aspects
Reactants
Resource management
Riparian areas
Riparian soils
Sedimentary soils
Soil ecology
Synecology
Terrestrial ecosystems
Water quality management
Water resources management
Wetland soils
Wetlands
Terrestrial environment
Aquatic environment
Biogeochemistry
Ecosystem
Hot spot
Biogeochemical cycle
Interface
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Summary:Rates and reactions of biogeochemical processes vary in space and time to produce both hot spots and hot moments of elemental cycling. We define biogeochemical hot spots as patches that show disproportionately high reaction rates relative to the surrounding matrix, whereas hot moments are defined as short periods of time that exhibit disproportionately high reaction rates relative to longer intervening time periods. As has been appreciated by ecologists for decades, hot spot and hot moment activity is often enhanced at terrestrial-aquatic interfaces. Using examples from the carbon (C) and nitrogen (N) cycles, we show that hot spots occur where hydrological flowpaths converge with substrates or other flowpaths containing complementary or missing reactants. Hot moments occur when episodic hydrological flowpaths reactivate and/or mobilize accumulated reactants. By focusing on the delivery of specific missing reactants via hydrologic flowpaths, we can forge a better mechanistic understanding of the factors that create hot spots and hot moments. Such a mechanistic understanding is necessary so that biogeochemical hot spots can be identified at broader spatiotemporal scales and factored into quantitative models. We specifically recommend that resource managers incorporate both natural and artificially created biogeochemical hot spots into their plans for water quality management. Finally, we emphasize the needs for further research to assess the potential importance of hot spot and hot moment phenomena in the cycling of different bioactive elements, improve our ability to predict their occurrence, assess their importance in landscape biogeochemistry, and evaluate their utility as tools for resource management.
Bibliography:ObjectType-Article-2
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ISSN:1432-9840
1435-0629
DOI:10.1007/s10021-003-0161-9