Development of new indicators to evaluate river fragmentation and flow regulation at large scales: A case study for the Mekong River Basin. Grill, G., Ouellet Dallaire, C., Fluet Chouinard, E., Sindorf, N., & Lehner, B. Ecological Indicators, 45:148–159, 2014.
Development of new indicators to evaluate river fragmentation and flow regulation at large scales: A case study for the Mekong River Basin [link]Paper  doi  abstract   bibtex   
Large hydropower schemes have recently gained renewed interest as a provider of efficient and renewable energy, particularly in developing countries. However, some dams may have widespread effects on hydrological and ecosystem integrity, which reach beyond the scales addressed by typical environmental impact assessments. In this paper we address two main ecological impacts - reduced river connectivity and changes in the natural flow regime - at the scale of the entire Mekong River Basin as an important component of dam evaluations. The goal is to improve our understanding of the effect of individual dams as well as clusters of dams at a very large scale. We introduce two new indices, the River Connectivity Index (RCI) as a tool to measure network connectivity, and the River Regulation Index (RRI) as a measure of flow alteration, and calculate the individual and cumulative impact of 81 proposed dams using HydroROUT, a graph-theory based river routing model. Furthermore, we demonstrate how quantitative weighting, e.g. based on river habitat characterizations or species distribution models, may be included in dam impact assessments. A global comparison of large rivers shows that the Mekong would experience strong deterioration in the fragmentation and flow regulation indices if all dams that are currently under consideration in the basin were built, placing it among other heavily impounded rivers in the world. The results illustrate the importance of considering the location of dams, both relative in the network and relative to other already existing dams. Our approach may be used as an index-based ranking system for individual dams, or to compare basin-wide development scenarios, with the goal of providing guidance for decision makers wishing to select locations for future dams with less environmental impacts and to identify and develop potential mitigation strategies. © 2014 Elsevier Ltd.
@article{grill_development_2014,
	title = {Development of new indicators to evaluate river fragmentation and flow regulation at large scales: {A} case study for the {Mekong} {River} {Basin}},
	volume = {45},
	url = {https://www.scopus.com/inward/record.uri?eid=2-s2.0-84899656002&doi=10.1016%2fj.ecolind.2014.03.026&partnerID=40&md5=3d8ef7316863eba588d41c6077d46b11},
	doi = {10.1016/j.ecolind.2014.03.026},
	abstract = {Large hydropower schemes have recently gained renewed interest as a provider of efficient and renewable energy, particularly in developing countries. However, some dams may have widespread effects on hydrological and ecosystem integrity, which reach beyond the scales addressed by typical environmental impact assessments. In this paper we address two main ecological impacts - reduced river connectivity and changes in the natural flow regime - at the scale of the entire Mekong River Basin as an important component of dam evaluations. The goal is to improve our understanding of the effect of individual dams as well as clusters of dams at a very large scale. We introduce two new indices, the River Connectivity Index (RCI) as a tool to measure network connectivity, and the River Regulation Index (RRI) as a measure of flow alteration, and calculate the individual and cumulative impact of 81 proposed dams using HydroROUT, a graph-theory based river routing model. Furthermore, we demonstrate how quantitative weighting, e.g. based on river habitat characterizations or species distribution models, may be included in dam impact assessments. A global comparison of large rivers shows that the Mekong would experience strong deterioration in the fragmentation and flow regulation indices if all dams that are currently under consideration in the basin were built, placing it among other heavily impounded rivers in the world. The results illustrate the importance of considering the location of dams, both relative in the network and relative to other already existing dams. Our approach may be used as an index-based ranking system for individual dams, or to compare basin-wide development scenarios, with the goal of providing guidance for decision makers wishing to select locations for future dams with less environmental impacts and to identify and develop potential mitigation strategies. © 2014 Elsevier Ltd.},
	journal = {Ecological Indicators},
	author = {Grill, G. and Ouellet Dallaire, C. and Fluet Chouinard, E. and Sindorf, N. and Lehner, B.},
	year = {2014},
	keywords = {Dams, Flow regulation, Geographic Information Systems, Hydrological connectivity, Mekong River, River network routing},
	pages = {148--159}
}
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