Shifts in the carbon dynamics in a tropical lowland river system (Tana River, Kenya) during flooded and non-flooded conditions
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- 作者:Naomi Geeraert ; Fred O. Omengo ; Alberto V. Borges ; Gerard Govers…
- 关键词:Carbon dynamics ; Tropical rivers ; Stable carbon isotopes ; Flooded conditions
- 刊名:Biogeochemistry
- 出版年:2017
- 出版时间:January 2017
- 年:2017
- 卷:132
- 期:1-2
- 页码:141-163
- 全文大小:
- 刊物类别:Earth and Environmental Science
- 刊物主题:Biogeosciences; Ecosystems; Environmental Chemistry; Life Sciences, general;
- 出版者:Springer International Publishing
- ISSN:1573-515X
- 卷排序:132
文摘
Rivers transport sediment and carbon (C) from the continents to the ocean, whereby the magnitude and timing of these fluxes depend on the hydrological regime. We studied the sediment and carbon dynamics of a tropical river system at two sites along the lower Tana River (Kenya), separated by a 385 km stretch characterized by extensive floodplains, to understand how the river regime affects within-river C processing as well as the C exchange between floodplain and river. Sampling took place during three different wet seasons (2012–2014), with extensive flooding during one of the campaigns. We measured the suspended sediment concentration, the concentration and stable isotope signature of three different carbon species (particulate and dissolved organic carbon, POC and DOC, and dissolved inorganic carbon, DIC) and other auxiliary parameters. During non-flooded conditions, the total C flux was dominated by POC (57–72%) and there was a downstream decrease of the total C flux. DIC was dominating during the flooded season (56–67%) and the flux of DIC and DOC coming from the inundated floodplains resulted in a downstream increase of the total carbon flux. Our data allowed us to construct a conceptual framework for the C dynamics in river systems, whereby nine major fluxes were identified. The application of this framework highlighted the dominance of POC during non-flooded conditions and the significant CO2 emissions during the flooded season. Furthermore, it identified the exchange of POC with the floodplain as an important factor to close the C budget of the river.