1. Surface energy exchange in pristine and managed boreal peatlands
- Author
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Alekseychik, Pavel, Mammarella, I., Lindroth, A., Lohila, A., Aurela, M., Laurila, T., Kasurinen, V., Lund, M., Rinne, J., Nilsson, M. B., Peichl, M., Minkkinen, K., Shurpali, N. J., Tuittila, E. S., Martikainen, P. J., Tuovinen, J. P., Vesala, T., INAR Physics, Institute for Atmospheric and Earth System Research (INAR), Micrometeorology and biogeochemical cycles, Department of Forest Sciences, Viikki Plant Science Centre (ViPS), Ecosystem processes (INAR Forest Sciences), and Forest Ecology and Management
- Subjects
peatland management ,surface energy balance ,land use ,BALANCE CLOSURE ,Surface energy balance ,CO2 EXCHANGE ,HYDROLOGICAL PROCESSES ,CARBON-DIOXIDE ,Bowen ratio ,lcsh:QH540-549.5 ,NORTHERN PEATLANDS ,SEDGE FEN ,Land use ,ORGANIC SOIL ,lcsh:Ecology ,WATER-VAPOR EXCHANGE ,INTERANNUAL VARIABILITY ,Peatland management ,1172 Environmental sciences ,HEAT-STORAGE - Abstract
Surface-atmosphere energy exchange is strongly ecosystem-specific. At the same time, as the energy balance constitutes responses of an ecosystem to environmental stressors including precipitation, humidity and solar radiation, it results in feedbacks of potential importance for the regional climate. Northern peatlands represent a diverse class of ecosystems that cover nearly 6 x 10(6) km(2) in the Boreal region, which makes the inter-comparison of their energy balances an important objective. With this in mind we studied energy exchange across a broad spectrum of peatlands from pristine fens and bogs to forested and agriculturally managed peatlands, which represent a large fraction of the landscape in Finland and Sweden. The effects of management activities on the energy balance were extensively examined from the micrometeorological point of view, using eddy covariance data from eight sites in these two countries (56 degrees 12'-62 degrees 11' N, 13 degrees 03'-30 degrees 05' E). It appears that the surface energy balance varies widely amongst the different peatland types. Generally, energy exchange features including the Bowen ratio, surface conductance, coupling to the atmosphere, responses to water table fluctuations and vapour pressure deficit could be associated directly with the peatland type. The relative constancy of the Bowen ratio in natural open mires contrasted with its variation in tree-covered and agricultural peatlands. We conclude that the impacts of management and the consequences of land-use change in peatlands for the local and regional climate might be substantial.
- Published
- 2018
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