@article{fdi:010076164, title = {{A} modeling approach to diagnose the impacts of global changes on discharge and suspended sediment concentration within the {R}ed {R}iver basin}, author = {{W}ei, {X}. and {S}auvage, {S}. and {L}e, {T}. {P}. {Q}. and {O}uillon, {S}ylvain and {O}range, {D}idier and {V}inh, {V}. {D}. and {S}anchez-{P}erez, {J}. {M}.}, editor = {}, language = {{ENG}}, abstract = {{T}he {R}ed {R}iver basin is a typical {A}sian river system affected by climate and anthropogenic changes. {T}he purpose of this study is to build a tool to separate the effect of climate variability and anthropogenic influences on hydrology and suspended sediments. {A} modeling method combining in situ and climatic satellite data was used to analyze the discharge ({Q}) and suspended sediment concentration ({SSC}) at a daily time scale from 2000 to 2014. {S}cenarios of natural and actual conditions were implemented to quantify the impacts of climate variability and dams. {T}he modeling gained satisfactory simulation results of water regime and {SSC} compared to the observations. {U}nder natural conditions, the {Q} and {SSC} show decreasing tendencies, and climate variability is the main influence factor reducing the {Q}. {U}nder actual conditions, {SSC} is mainly reduced by dams. {A}t the outlet, annual mean {Q} got reduced by 13% (9% by climate and 4% by dams), and annual mean {SSC} got reduced to 89% (13% due to climate and 76% due to dams) of that under natural conditions. {T}he climate tendencies are mainly explained by a decrease of 9% on precipitation and 5% on evapotranspiration, which results in a 13% decrease of available water for the whole basin.}, keywords = {{R}ed {R}iver ; {SWAT} model ; hydrology ; suspended sediment ; dam impacts ; climate ; {VIET} {NAM} ; {FLEUVE} {ROUGE} {BASSIN}}, booktitle = {}, journal = {{W}ater}, volume = {11}, numero = {5}, pages = {art. 958 [26 p.]}, ISSN = {2073-4441}, year = {2019}, DOI = {10.3390/w11050958}, URL = {https://www.documentation.ird.fr/hor/fdi:010076164}, }