A global synthesis of the effectiveness of sedimentation-enhancing strategies for river deltas and estuaries
Cox, J.R.; Paauw, M.; Nienhuis, J.H.; Dunn, F.E.; van der Deijl, E.; Esposito, C.; Goichot, M.; Leuven, J.R.F.W.; van Maren, D.S.; Middelkoop, H.; Naffaa, S.; Rahman, M.; Schwarz, C.; Sieben, E.; Triyanti, A.; Yuill, B. (2022). A global synthesis of the effectiveness of sedimentation-enhancing strategies for river deltas and estuaries. Global Planet. Change 214: 103796. https://dx.doi.org/10.1016/j.gloplacha.2022.103796 In: Global and Planetary Change. Elsevier: Amsterdam; New York; Oxford; Tokyo. ISSN 0921-8181; e-ISSN 1872-6364, more | |
Author keywords | Sedimentation; River deltas; Delta sustainability; Sea-level rise; Land gain; River delta management |
Authors | | Top | - Cox, J.R.
- Paauw, M., more
- Nienhuis, J.H.
- Dunn, F.E.
- van der Deijl, E.
- Esposito, C.
| - Goichot, M.
- Leuven, J.R.F.W.
- van Maren, D.S.
- Middelkoop, H.
- Naffaa, S.
| - Rahman, M.
- Schwarz, C., more
- Sieben, E.
- Triyanti, A.
- Yuill, B.
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Abstract | Deltas worldwide are at risk of elevation loss and drowning due to relative sea-level rise. Management strategies to restore or enhance sedimentation on delta plains, Sedimentation-Enhancing Strategies (hereafter SES), are now being pursued in many deltas but there has been limited cross-disciplinary and cross-delta review. Here we compare 21 existing and planned SES, synthesizing their physical characteristics, funding, governance arrangements, stakeholder engagement, process of implementation, environmental impact, land use change, and potential for upscaling. Strategies exist at various scales, from ~0.05 km2 - 500 km2. 79% of strategies are capable of outpacing high rates of sea-level rise. Cheaper strategies are limited to short term impacts and small spatial scales, while more expensive strategies can have longer lifetimes. Most strategies create wetlands and flood water storage. Some create opportunities for agriculture, aquaculture, housing, or recreational land use. Combinations of SES will likely be the most effective and sustainable method for maintaining elevation in river deltas. |
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