Juha-Pekka Tuovinen spends much of his time researching Atmospheric sciences, Peat, Eddy covariance, Hydrology and Sink. His work deals with themes such as Hydrometeorology, Ozone, Deposition and Stomatal conductance, which intersect with Atmospheric sciences. His Ozone study combines topics in areas such as Vegetation, Vegetation type and Beech.
His study in Peat is interdisciplinary in nature, drawing from both Wetland, Carbon dioxide, Subarctic climate and Growing season. His Eddy covariance study is related to the wider topic of Ecosystem. His research in Sink intersects with topics in Photosynthesis and Respiration.
His main research concerns Atmospheric sciences, Eddy covariance, Peat, Hydrology and Ozone. The study incorporates disciplines such as Atmosphere, Vegetation, Deposition and Boreal in addition to Atmospheric sciences. Juha-Pekka Tuovinen combines subjects such as Carbon dioxide and Respiration with his study of Eddy covariance.
His Peat research incorporates themes from Carbon sequestration, Subarctic climate, Radiative forcing and Greenhouse gas. His Hydrology study focuses on Sink in particular. His studies in Ozone integrate themes in fields like Air pollution, Troposphere and Stomatal conductance.
His primary scientific interests are in Atmospheric sciences, Peat, Eddy covariance, Boreal and Greenhouse gas. His studies deal with areas such as Atmosphere, Agriculture, Holocene, Latent heat and Subarctic climate as well as Atmospheric sciences. His Peat research incorporates elements of Forest floor, Primary production, Radiative forcing and Hydrology.
His Ecosystem respiration study, which is part of a larger body of work in Eddy covariance, is frequently linked to Pipeline and Flux, bridging the gap between disciplines. His Greenhouse gas research is multidisciplinary, incorporating perspectives in Forest ecology, Soil respiration, Wetland and Environmental protection. His Climate change research includes themes of Air pollution and Vegetation.
Juha-Pekka Tuovinen focuses on Peat, Ecosystem, Eddy covariance, Atmospheric sciences and Greenhouse gas. His Peat research integrates issues from Primary production, Ecosystem respiration, Carbon dioxide and Wetland. He interconnects Climate change and Growing season in the investigation of issues within Ecosystem.
Juha-Pekka Tuovinen has researched Eddy covariance in several fields, including Tundra, Satellite imagery, Leaf area index, Land cover and Evapotranspiration. His study deals with a combination of Atmospheric sciences and Flux. His research integrates issues of Mire, Methane, Environmental chemistry and Precipitation in his study of Greenhouse gas.
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Modelling stomatal ozone flux across Europe.
L.D. Emberson;M.R. Ashmore;H.M. Cambridge;D. Simpson.
Environmental Pollution (2000)
Atmospheric composition change: Ecosystems–Atmosphere interactions
D. Fowler;Kim Pilegaard;M.A. Sutton;Per Ambus.
Atmospheric Environment (2009)
The timing of snow melt controls the annual CO2 balance in a subarctic fen
Mika Aurela;Tuomas Laurila;Juha-Pekka Tuovinen.
Geophysical Research Letters (2004)
Annual cycle of methane emission from a boreal fen measured by the eddy covariance technique
Janne Rinne;Terhi Riutta;Mari Pihlatie;Mika Aurela.
Tellus B (2007)
Annual CO2 balance of a subarctic fen in northern Europe: Importance of the wintertime efflux
Mika Aurela;Tuomas Laurila;Juha-Pekka Tuovinen.
Journal of Geophysical Research (2002)
The uncertain climate footprint of wetlands under human pressure
Ana Maria Roxana Petrescu;Annalea Lohila;Juha-Pekka Tuovinen;Dennis D. Baldocchi.
Proceedings of the National Academy of Sciences of the United States of America (2015)
Foliage surface ozone deposition: a role for surface moisture?
N. Altimir;P. Kolari;J. P. Tuovinen;T. Vesala.
Climate control of terrestrial carbon exchange across biomes and continents
Chuixiang Yi;Daniel Ricciuto;Runze Li;John Wolbeck.
Environmental Research Letters (2010)
Impact of the sulphur dioxide sources in the Kola Peninsula on air quality in northernmost Europe
Juha-Pekka Tuovinen;Tuomas Laurila;Heikki Lättilä;Alexey Ryaboshapko.
Atmospheric Environment. Part A. General Topics (1993)
A comparison of two different approaches for mapping potential ozone damage to vegetation. A model study.
David Simpson;M. R. Ashmore;L. Emberson;J. P. Tuovinen.
Environmental Pollution (2007)
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