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Simulating rewetting events in intermittent rivers and ephemeral streams: A global analysis of leached nutrients and organic matter
- Publication Year :
- 2019
-
Abstract
- Climate change and human pressures are changing the global distribution and the extent of intermittent rivers and ephemeral streams (IRES), which comprise half of the global river network area. IRES are characterized by periods of flow cessation, during which channel substrates accumulate and undergo physico-chemical changes (preconditioning), and periods of flow resumption, when these substrates are rewetted and release pulses of dissolved nutrients and organic matter (OM). However, there are no estimates of the amounts and quality of leached substances, nor is there information on the underlying environmental constraints operating at the global scale. We experimentally simulated, under standard laboratory conditions, rewetting of leaves, riverbed sediments, and epilithic biofilms collected during the dry phase across 205 IRES from five major climate zones. We determined the amounts and qualitative characteristics of the leached nutrients and OM, and estimated their areal fluxes from riverbeds. In addition, we evaluated the variance in leachate characteristics in relation to selected environmental variables and substrate characteristics. We found that sediments, due to their large quantities within riverbeds, contribute most to the overall flux of dissolved substances during rewetting events (56% 98%), and that flux rates distinctly differ among climate zones. Dissolved organic carbon, phenolics, and nitrate contributed most to the areal fluxes. The largest amounts of leached substances were found in the continental climate zone, coinciding with the lowest potential bioavailability of the leached OM. The opposite pattern was found in the arid zone. Environmental variables expected to be modified under climate change (i.e. potential evapotranspiration, aridity, dry period duration, land use) were correlated with the amount of leached substances, with the strongest relationship found for sediments. These results show that the role of IRES should be accounted for in g
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- Database :
- OAIster
- Notes :
- This work was carried out within the SMART Joint Doctorate Programme “Science for the MAnagement of Rivers and their Tidal systems” funded by the Erasmus Mundus Joint Doctorate Programme of the European Union (http://www.riverscience.it). O.S. was also supported by a grant for a short‐term scientific mission to the University of the Basque Country, Spain, within the COST Action CA15113 (SMIRES, Science and Management of Intermittent Rivers and Ephemeral Streams, www.smires.eu). O.S. is thankful for a partial support from IGB equal opportunity fund for young female scientists and DFG (SU 405/10‐1). F.A. was supported by the Swiss National Science Foundation grants no PP00P3_179089 and PP00P3_150698 and the URPP Global Change and Biodiversity, University of Zurich. S.D.L. has received funding from the European Union's Horizon 2020 research and innovation programme under the Marie Sklodowska‐Curie grant agreement no. 748625. R.F. acknowledges support of the CONICYT/FONDAP/15130015 Chile., English
- Publication Type :
- Electronic Resource
- Accession number :
- edsoai.on1364716900
- Document Type :
- Electronic Resource