Low N2O and variable CH4 fluxes from tropical forest soils of the Congo Basin

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作者
Matti Barthel
Marijn Bauters
Simon Baumgartner
Travis W. Drake
Nivens Mokwele Bey
Glenn Bush
Pascal Boeckx
Clement Ikene Botefa
Nathanaël Dériaz
Gode Lompoko Ekamba
Nora Gallarotti
Faustin M. Mbayu
John Kalume Mugula
Isaac Ahanamungu Makelele
Christian Ekamba Mbongo
Joachim Mohn
Joseph Zambo Mandea
Davin Mata Mpambi
Landry Cizungu Ntaboba
Montfort Bagalwa Rukeza
Robert G. M. Spencer
Laura Summerauer
Bernard Vanlauwe
Kristof Van Oost
Benjamin Wolf
Johan Six
机构
[1] ETH Zurich,Department of Environmental Systems Science
[2] Ghent University,Isotope Bioscience Laboratory, Department of Green Chemistry and Technology
[3] Université Catholique de Louvain,Earth and Life Institute
[4] Institute Congolais pour la Conservation de la Nature,Faculté de Gestion de Ressources, Naturelles Renouvelables
[5] Woodwell Climate Research Center,Département de Biologie
[6] Université de Kisangani,Département de Géodésie et Télédétection des Risques Naturels
[7] Université Officielle de Bukavu,Division of Atmospheric Environmental Research (IFU), Karlsruhe Institute of Technology (KIT)
[8] Coordination Provinciale de l’environnement,undefined
[9] Laboratory for Air Pollution/Environmental Technology,undefined
[10] Université Catholique de Bukavu,undefined
[11] Observatoire Volcanologique de Goma,undefined
[12] Florida State Universtity,undefined
[13] International Institute of Tropical Agriculture,undefined
[14] Institute of Meteorology and Climate Research (IMK),undefined
来源
Nature Communications | / 13卷
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摘要
Globally, tropical forests are assumed to be an important source of atmospheric nitrous oxide (N2O) and sink for methane (CH4). Yet, although the Congo Basin comprises the second largest tropical forest and is considered the most pristine large basin left on Earth, in situ N2O and CH4 flux measurements are scarce. Here, we provide multi-year data derived from on-ground soil flux (n = 1558) and riverine dissolved gas concentration (n = 332) measurements spanning montane, swamp, and lowland forests. Each forest type core monitoring site was sampled at least for one hydrological year between 2016 - 2020 at a frequency of 7-14 days. We estimate a terrestrial CH4 uptake (in kg CH4-C ha−1 yr−1) for montane (−4.28) and lowland forests (−3.52) and a massive CH4 release from swamp forests (non-inundated 2.68; inundated 341). All investigated forest types were a N2O source (except for inundated swamp forest) with 0.93, 1.56, 3.5, and −0.19 kg N2O-N ha−1 yr−1 for montane, lowland, non-inundated swamp, and inundated swamp forests, respectively.
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