Significant fraction of CO2 emissions from boreal lakes derived from hydrologic inorganic carbon inputs

被引:0
|
作者
Gesa A. Weyhenmeyer
Sarian Kosten
Marcus B. Wallin
Lars J. Tranvik
Erik Jeppesen
Fabio Roland
机构
[1] Uppsala University,Department of Ecology and Genetics/Limnology
[2] Institute for Water and Wetland Research,Department of Aquatic Ecology and Environmental Biology
[3] Radboud University,Department of Earth Sciences
[4] Heyendaalseweg 135,Department of Bioscience and Arctic Research Centre
[5] Uppsala University,Department of Biology
[6] Aarhus University,undefined
[7] Vejlsøvej 25 8600 Silkeborg,undefined
[8] Denmark,undefined
[9] Sino-Danish Centre for Education and Research (UCAS),undefined
[10] Juiz de Fora Federal University,undefined
来源
Nature Geoscience | 2015年 / 8卷
关键词
D O I
暂无
中图分类号
学科分类号
摘要
Lakes are a large source of CO2. An analysis of chemical and physical data from 5,118 boreal lakes reveals that a majority emit CO2 originating primarily from terrestrial sources rather than CO2 produced within the lakes.
引用
收藏
页码:933 / 936
页数:3
相关论文
共 50 条
  • [1] Significant fraction of CO2 emissions from boreal lakes derived from hydrologic inorganic carbon inputs
    Weyhenmeyer, Gesa A.
    Kosten, Sarian
    Wallin, Marcus B.
    Tranvik, Lars J.
    Jeppesen, Erik
    Roland, Fabio
    NATURE GEOSCIENCE, 2015, 8 (12) : 933 - U62
  • [2] Motile phytoplankton species such as Gonyostomum semen can significantly reduce CO2 emissions from boreal lakes
    Rohrlack, Thomas
    Frostad, Pia
    Riise, Gunnhild
    Hagman, Camilla Hedlund Corneliussen
    LIMNOLOGICA, 2020, 84
  • [3] Climate-dependent CO2 emissions from lakes
    Kosten, Sarian
    Roland, Fabio
    Da Motta Marques, David M. L.
    Van Nes, Egbert H.
    Mazzeo, Nestor
    Sternberg, Leonel da S. L.
    Scheffer, Marten
    Cole, Jon J.
    GLOBAL BIOGEOCHEMICAL CYCLES, 2010, 24
  • [4] Catchment productivity controls CO2 emissions from lakes
    Maberly S.C.
    Barker P.A.
    Stott A.W.
    De Ville M.M.
    Nature Climate Change, 2013, 3 (4) : 391 - 394
  • [5] Diel Variability of CO2 Emissions From Northern Lakes
    Rudberg, D.
    Duc, N. T.
    Schenk, J.
    Sieczko, A. K.
    Pajala, G.
    Sawakuchi, H. O.
    Verheijen, H. A.
    Melack, J. M.
    MacIntyre, S.
    Karlsson, J.
    Bastviken, D.
    JOURNAL OF GEOPHYSICAL RESEARCH-BIOGEOSCIENCES, 2021, 126 (10)
  • [6] Catchment productivity controls CO2 emissions from lakes
    Maberly, Stephen C.
    Barker, Philip A.
    Stott, Andy W.
    De Ville, Mitzi M.
    NATURE CLIMATE CHANGE, 2013, 3 (04) : 391 - 394
  • [7] Carbon sequestration in soil with consideration of CO2 emissions from production inputs:: An economic analysis
    Williams, Jeffery R.
    Nelson, Richard G.
    Claassen, Mark M.
    Rice, Charles W.
    ENVIRONMENTAL MANAGEMENT, 2004, 33 (Suppl 1) : S264 - S273
  • [8] Carbon Sequestration in Soil with Consideration of CO2 Emissions from Production Inputs: An Economic Analysis
    Jeffery R. Williams
    Richard G. Nelson
    Mark M. Claassen
    Charles W. Rice
    Environmental Management, 2004, 33 : S264 - S273
  • [9] Coupling dissolved organic carbon, CO2 and productivity in boreal lakes
    Hessen, Dag O.
    Hall, Johnny P.
    Thrane, Jan-Erik
    Andersen, Tom
    FRESHWATER BIOLOGY, 2017, 62 (05) : 945 - 953
  • [10] Increases in terrestrially derived carbon stimulate organic carbon processing and CO2 emissions in boreal aquatic ecosystems
    Jean-François Lapierre
    François Guillemette
    Martin Berggren
    Paul A. del Giorgio
    Nature Communications, 4
12345