Tracking Nile Delta vulnerability to Holocene change

Understanding deltaic resilience in the face of Holocene climate change and human impacts is an important challenge for the earth sciences in characterizing the full range of present and future wetland responses to global warming. Here, we report an 8000-year mass balance record from the Nile Delta...

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Veröffentlicht in:	PloS one 2013-07, Vol.8 (7), p.e69195
Hauptverfasser:	Marriner, Nick, Flaux, Clément, Morhange, Christophe, Stanley, Jean-Daniel
Format:	Artikel
Sprache:	eng
Schlagworte:	Accretion Agricultural land Agriculture Anthropogenic factors Archaeology Archives & records Climate Change Dams Deltas Deposition Earth Sciences Egypt Egyptian civilization Environmental risk Erosion Floodplains Floods Gauges Geography Geologic Sediments Geology Geomorphology Global warming Hazards Holocene Holocene climates Human influences Human-environment relationship Humans Hydrology Monsoons Rainfall River flow Rivers Sciences of the Universe Sea level Sea level rise Seawater Sedimentary basins Sediments Time Factors Tropical environments Water Movements
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description	Understanding deltaic resilience in the face of Holocene climate change and human impacts is an important challenge for the earth sciences in characterizing the full range of present and future wetland responses to global warming. Here, we report an 8000-year mass balance record from the Nile Delta to reconstruct when and how this sedimentary basin has responded to past hydrological shifts. In a global Holocene context, the long-term decrease in Nile Delta accretion rates is consistent with insolation-driven changes in the 'monsoon pacemaker', attested throughout the mid-latitude tropics. Following the early to mid-Holocene growth of the Nile's deltaic plain, sediment losses and pronounced erosion are first recorded after ~4000 years ago, the corollaries of falling sediment supply and an intensification of anthropogenic impacts from the Pharaonic period onwards. Against the backcloth of the Saharan 'depeopling', reduced river flow underpinned by a weakening of monsoonal precipitation appears to have been particularly conducive to the expansion of human activities on the delta by exposing productive floodplain lands for occupation and irrigation agriculture. The reconstruction suggests that the Nile Delta has a particularly long history of vulnerability to extreme events (e.g. floods and storms) and sea-level rise, although the present sediment-starved system does not have a direct Holocene analogue. This study highlights the importance of the world's deltas as sensitive archives to investigate Holocene geosystem responses to climate change, risks and hazards, and societal interaction.
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Nile Delta vulnerability to Holocene change</atitle><jtitle>PloS one</jtitle><addtitle>PLoS One</addtitle><date>2013-07-29</date><risdate>2013</risdate><volume>8</volume><issue>7</issue><spage>e69195</spage><pages>e69195-</pages><issn>1932-6203</issn><eissn>1932-6203</eissn><abstract>Understanding deltaic resilience in the face of Holocene climate change and human impacts is an important challenge for the earth sciences in characterizing the full range of present and future wetland responses to global warming. Here, we report an 8000-year mass balance record from the Nile Delta to reconstruct when and how this sedimentary basin has responded to past hydrological shifts. In a global Holocene context, the long-term decrease in Nile Delta accretion rates is consistent with insolation-driven changes in the 'monsoon pacemaker', attested throughout the mid-latitude tropics. Following the early to mid-Holocene growth of the Nile's deltaic plain, sediment losses and pronounced erosion are first recorded after ~4000 years ago, the corollaries of falling sediment supply and an intensification of anthropogenic impacts from the Pharaonic period onwards. Against the backcloth of the Saharan 'depeopling', reduced river flow underpinned by a weakening of monsoonal precipitation appears to have been particularly conducive to the expansion of human activities on the delta by exposing productive floodplain lands for occupation and irrigation agriculture. 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subjects	Accretion Agricultural land Agriculture Anthropogenic factors Archaeology Archives & records Climate Change Dams Deltas Deposition Earth Sciences Egypt Egyptian civilization Environmental risk Erosion Floodplains Floods Gauges Geography Geologic Sediments Geology Geomorphology Global warming Hazards Holocene Holocene climates Human influences Human-environment relationship Humans Hydrology Monsoons Rainfall River flow Rivers Sciences of the Universe Sea level Sea level rise Seawater Sedimentary basins Sediments Time Factors Tropical environments Water Movements
title	Tracking Nile Delta vulnerability to Holocene change
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