L
Lars J. Tranvik
Researcher at Uppsala University
Publications - 226
Citations - 33035
Lars J. Tranvik is an academic researcher from Uppsala University. The author has contributed to research in topics: Dissolved organic carbon & Organic matter. The author has an hindex of 87, co-authored 221 publications receiving 28419 citations. Previous affiliations of Lars J. Tranvik include University of Rhode Island & Lund University.
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Selective decay of terrestrial organic carbon during transport from land to sea
Gesa A. Weyhenmeyer,Gesa A. Weyhenmeyer,Mats Fröberg,Erik Karltun,Maria I. Khalili,Dolly N. Kothawala,Johan Temnerud,Johan Temnerud,Lars J. Tranvik +8 more
TL;DR: In this paper, the authors used extensive datasets on soil, lake and river mouth chemistry of the boreal/hemiboreal region to determine organic carbon (OC) stocks of the O horizon from catchment soils, annual OC transports through more than 700 lakes (OClakeflux) and the total annual OC transport at Sweden's 53 river mouths (OCseaflux).
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Bacterioplankton growth, grazing mortality and quantitative relationship to primary production in a humic and a clearwater lake
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Using Satellite Remote Sensing to Estimate the Colored Dissolved Organic Matter Absorption Coefficient in Lakes
TL;DR: In this paper, the authors carried out model simulations to evaluate the suitability of different satellite sensors (Landsat, IKONOS, and the Advanced land Imager [ALI]) to map the amount of colored dissolved organic matter (CDOM) in boreal lakes of the Nordic countries.
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The fate of production in the central Arctic Ocean – top–down regulation by zooplankton expatriates?
Kalle Olli,Paul Wassmann,Marit Reigstad,Tatjana Ratkova,Elena Arashkevich,Anna Pasternak,Patricia A. Matrai,Johan Knulst,Lars J. Tranvik,Riina Klais,A. Jacobsen +10 more
TL;DR: It is proposed that the grazing capacity of the expatriated mesozooplankton population would match the potential seasonal increase of primary production in the future decreased ice perspective, diminishing the likelihood of algal blooms.
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Abundance, activity, and community structure of pelagic methane-oxidizing bacteria in temperate lakes
TL;DR: It is demonstrated that type I MOB often are a large component of pelagic bacterial communities in temperate lakes and represent a potentially important pathway for reentry of carbon and energy into pelagic food webs that would otherwise be lost as evasion of CH4.