Anatomy of Mississippi Delta growth and its implications for coastal restoration
The decline of several of the world’s largest deltas has spurred interest in expensive coastal restoration projects to make these economically and ecologically vital regions more sustainable. The success of these projects depends, in part, on our understanding of how delta plains evolve over time scales longer than the instrumental record. Building on a new set of optically stimulated luminescence ages, we demonstrate that a large portion (~10,000 km2) of the late Holocene river–dominated Mississippi Delta grew in a radially symmetric fashion for almost a millennium before abandonment. Sediment was dispersed by deltaic distributaries that formed by means of bifurcations at the coeval shoreline and remained active throughout the life span of this landform. Progradation rates (100 to 150 m/year) were surprisingly constant, producing 6 to 8 km2 of new land per year. This shows that robust rates of land building were sustained under preindustrial conditions. However, these rates are several times lower than rates of land loss over the past century, indicating that only a small portion of the Mississippi Delta may be sustainable in a future world with accelerated sea-level rise.
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dig-wur-nl-wurpubs-5363782024-10-02 Chamberlain, Liz Tornqvist, H. Shen, Zhixiong Mauz, Barbara Wallinga, J. Article/Letter to editor Science Advances 4 (2018) 4 ISSN: 2375-2548 Anatomy of Mississippi Delta growth and its implications for coastal restoration 2018 The decline of several of the world’s largest deltas has spurred interest in expensive coastal restoration projects to make these economically and ecologically vital regions more sustainable. The success of these projects depends, in part, on our understanding of how delta plains evolve over time scales longer than the instrumental record. Building on a new set of optically stimulated luminescence ages, we demonstrate that a large portion (~10,000 km2) of the late Holocene river–dominated Mississippi Delta grew in a radially symmetric fashion for almost a millennium before abandonment. Sediment was dispersed by deltaic distributaries that formed by means of bifurcations at the coeval shoreline and remained active throughout the life span of this landform. Progradation rates (100 to 150 m/year) were surprisingly constant, producing 6 to 8 km2 of new land per year. This shows that robust rates of land building were sustained under preindustrial conditions. However, these rates are several times lower than rates of land loss over the past century, indicating that only a small portion of the Mississippi Delta may be sustainable in a future world with accelerated sea-level rise. en application/pdf https://research.wur.nl/en/publications/anatomy-of-mississippi-delta-growth-and-its-implications-for-coas 10.1126/sciadv.aar4740 https://edepot.wur.nl/446762 Life Science https://creativecommons.org/licenses/by/4.0/ Wageningen University & Research |
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Life Science Life Science Chamberlain, Liz Tornqvist, H. Shen, Zhixiong Mauz, Barbara Wallinga, J. Anatomy of Mississippi Delta growth and its implications for coastal restoration |
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The decline of several of the world’s largest deltas has spurred interest in expensive coastal restoration projects to make these economically and ecologically vital regions more sustainable. The success of these projects depends, in part, on our understanding of how delta plains evolve over time scales longer than the instrumental record. Building on a new set of optically stimulated luminescence ages, we demonstrate that a large portion (~10,000 km2) of the late Holocene river–dominated Mississippi Delta grew in a radially symmetric fashion for almost a millennium before abandonment. Sediment was dispersed by deltaic distributaries that formed by means of bifurcations at the coeval shoreline and remained active throughout the life span of this landform. Progradation rates (100 to 150 m/year) were surprisingly constant, producing 6 to 8 km2 of new land per year. This shows that robust rates of land building were sustained under preindustrial conditions. However, these rates are several times lower than rates of land loss over the past century, indicating that only a small portion of the Mississippi Delta may be sustainable in a future world with accelerated sea-level rise. |
| format |
Article/Letter to editor |
| topic_facet |
Life Science |
| author |
Chamberlain, Liz Tornqvist, H. Shen, Zhixiong Mauz, Barbara Wallinga, J. |
| author_facet |
Chamberlain, Liz Tornqvist, H. Shen, Zhixiong Mauz, Barbara Wallinga, J. |
| author_sort |
Chamberlain, Liz |
| title |
Anatomy of Mississippi Delta growth and its implications for coastal restoration |
| title_short |
Anatomy of Mississippi Delta growth and its implications for coastal restoration |
| title_full |
Anatomy of Mississippi Delta growth and its implications for coastal restoration |
| title_fullStr |
Anatomy of Mississippi Delta growth and its implications for coastal restoration |
| title_full_unstemmed |
Anatomy of Mississippi Delta growth and its implications for coastal restoration |
| title_sort |
anatomy of mississippi delta growth and its implications for coastal restoration |
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https://research.wur.nl/en/publications/anatomy-of-mississippi-delta-growth-and-its-implications-for-coas |
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