Modeling the influence of small reservoirs on hydrological drought propagation in space and time
To increase drought preparedness in semi-arid regions across the world many small and medium reservoirs have been built in recent decades. Together these reservoirs form a Dense Reservoir Network (DRN) and its presence generates numerous challenges for water management. Most of the reservoirs that constitute the network are unmonitored and unregistered, posing questions on their cumulative effects on strategic reservoirs and water distribution at watershed scale. Their influence on hydrological drought propagation is thus largely unexplored. The objective of this study is then to assess DRN effects on droughts both in time and space. A modeling-analytical framework is proposed to achieve this goal. A mesoscale semi-distributed hydrological model was utilized to simulate both a network of large strategic reservoirs and a DRN in a large-scale tropical semiarid watershed. To investigate the effects in time and space generated by the network's presence, the differences between multiple network scenarios were analyzed. Results show that the presence of the DRN accelerates the transition from meteorological to hydrological drought phases by 20% on average and slows down the recharge in strategic reservoirs by 25%, leading to a 12% increase of periods in hydrological drought conditions in a highly strategic basin and 26% without strategic reservoirs. This is because the DRN increases the hydrological dysconnectivity at catchment scale, reducing inflow to strategic reservoirs. In space, the DRN shifts upstream the basin's water storage capacity by 8%, but when both large and small reservoirs are present the stored volume distribution behavior is not straightforward. The findings confirm the need to consider the effect of small reservoirs when developing and implementing drought management policies and reservoir-management approaches at regional scale.
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| Format: | Article/Letter to editor biblioteca |
| Language: | English |
| Subjects: | Drought, Human impacts, Hydrological drought, Small reservoirs, Water management, Water storage, |
| Online Access: | https://research.wur.nl/en/publications/modeling-the-influence-of-small-reservoirs-on-hydrological-drough |
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dig-wur-nl-wurpubs-6262502024-10-02 Colombo, P. Ribeiro Neto, G.G. Costa, A.C. Mamede, G.L. Van Oel, P.R. Article/Letter to editor Journal of Hydrology 629 (2024) ISSN: 0022-1694 Modeling the influence of small reservoirs on hydrological drought propagation in space and time 2024 To increase drought preparedness in semi-arid regions across the world many small and medium reservoirs have been built in recent decades. Together these reservoirs form a Dense Reservoir Network (DRN) and its presence generates numerous challenges for water management. Most of the reservoirs that constitute the network are unmonitored and unregistered, posing questions on their cumulative effects on strategic reservoirs and water distribution at watershed scale. Their influence on hydrological drought propagation is thus largely unexplored. The objective of this study is then to assess DRN effects on droughts both in time and space. A modeling-analytical framework is proposed to achieve this goal. A mesoscale semi-distributed hydrological model was utilized to simulate both a network of large strategic reservoirs and a DRN in a large-scale tropical semiarid watershed. To investigate the effects in time and space generated by the network's presence, the differences between multiple network scenarios were analyzed. Results show that the presence of the DRN accelerates the transition from meteorological to hydrological drought phases by 20% on average and slows down the recharge in strategic reservoirs by 25%, leading to a 12% increase of periods in hydrological drought conditions in a highly strategic basin and 26% without strategic reservoirs. This is because the DRN increases the hydrological dysconnectivity at catchment scale, reducing inflow to strategic reservoirs. In space, the DRN shifts upstream the basin's water storage capacity by 8%, but when both large and small reservoirs are present the stored volume distribution behavior is not straightforward. The findings confirm the need to consider the effect of small reservoirs when developing and implementing drought management policies and reservoir-management approaches at regional scale. en application/pdf https://research.wur.nl/en/publications/modeling-the-influence-of-small-reservoirs-on-hydrological-drough 10.1016/j.jhydrol.2024.130640 https://edepot.wur.nl/648246 Drought Human impacts Hydrological drought Small reservoirs Water management Water storage https://creativecommons.org/licenses/by/4.0/ https://creativecommons.org/licenses/by/4.0/ Wageningen University & Research |
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Drought Human impacts Hydrological drought Small reservoirs Water management Water storage Drought Human impacts Hydrological drought Small reservoirs Water management Water storage |
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Drought Human impacts Hydrological drought Small reservoirs Water management Water storage Drought Human impacts Hydrological drought Small reservoirs Water management Water storage Colombo, P. Ribeiro Neto, G.G. Costa, A.C. Mamede, G.L. Van Oel, P.R. Modeling the influence of small reservoirs on hydrological drought propagation in space and time |
| description |
To increase drought preparedness in semi-arid regions across the world many small and medium reservoirs have been built in recent decades. Together these reservoirs form a Dense Reservoir Network (DRN) and its presence generates numerous challenges for water management. Most of the reservoirs that constitute the network are unmonitored and unregistered, posing questions on their cumulative effects on strategic reservoirs and water distribution at watershed scale. Their influence on hydrological drought propagation is thus largely unexplored. The objective of this study is then to assess DRN effects on droughts both in time and space. A modeling-analytical framework is proposed to achieve this goal. A mesoscale semi-distributed hydrological model was utilized to simulate both a network of large strategic reservoirs and a DRN in a large-scale tropical semiarid watershed. To investigate the effects in time and space generated by the network's presence, the differences between multiple network scenarios were analyzed. Results show that the presence of the DRN accelerates the transition from meteorological to hydrological drought phases by 20% on average and slows down the recharge in strategic reservoirs by 25%, leading to a 12% increase of periods in hydrological drought conditions in a highly strategic basin and 26% without strategic reservoirs. This is because the DRN increases the hydrological dysconnectivity at catchment scale, reducing inflow to strategic reservoirs. In space, the DRN shifts upstream the basin's water storage capacity by 8%, but when both large and small reservoirs are present the stored volume distribution behavior is not straightforward. The findings confirm the need to consider the effect of small reservoirs when developing and implementing drought management policies and reservoir-management approaches at regional scale. |
| format |
Article/Letter to editor |
| topic_facet |
Drought Human impacts Hydrological drought Small reservoirs Water management Water storage |
| author |
Colombo, P. Ribeiro Neto, G.G. Costa, A.C. Mamede, G.L. Van Oel, P.R. |
| author_facet |
Colombo, P. Ribeiro Neto, G.G. Costa, A.C. Mamede, G.L. Van Oel, P.R. |
| author_sort |
Colombo, P. |
| title |
Modeling the influence of small reservoirs on hydrological drought propagation in space and time |
| title_short |
Modeling the influence of small reservoirs on hydrological drought propagation in space and time |
| title_full |
Modeling the influence of small reservoirs on hydrological drought propagation in space and time |
| title_fullStr |
Modeling the influence of small reservoirs on hydrological drought propagation in space and time |
| title_full_unstemmed |
Modeling the influence of small reservoirs on hydrological drought propagation in space and time |
| title_sort |
modeling the influence of small reservoirs on hydrological drought propagation in space and time |
| url |
https://research.wur.nl/en/publications/modeling-the-influence-of-small-reservoirs-on-hydrological-drough |
| work_keys_str_mv |
AT colombop modelingtheinfluenceofsmallreservoirsonhydrologicaldroughtpropagationinspaceandtime AT ribeironetogg modelingtheinfluenceofsmallreservoirsonhydrologicaldroughtpropagationinspaceandtime AT costaac modelingtheinfluenceofsmallreservoirsonhydrologicaldroughtpropagationinspaceandtime AT mamedegl modelingtheinfluenceofsmallreservoirsonhydrologicaldroughtpropagationinspaceandtime AT vanoelpr modelingtheinfluenceofsmallreservoirsonhydrologicaldroughtpropagationinspaceandtime |
| _version_ |
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