Disentangling the relative impacts of climate change and human activities on fluvial sediment supply to the coast by the world’s large rivers: Pearl River Basin, China

Disentangling the relative impacts of climate change and human activities on fluvial sediment supply to the coast by the world’s large rivers: Pearl River Basin, China

The world’s large rivers are under stress and experiencing unprecedented changes in hydrology, ecosystems, and fluvial sediment loads. Many of these rivers terminate at the great deltas of the world (home to 500 million people), which depend on fluvial sediments for their very existence. While fluvi...

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Veröffentlicht in:Scientific reports 2019-06, Vol.9 (1), p.9236-10, Article 9236
Hauptverfasser: Ranasinghe, Roshanka, Wu, Chuang Shou, Conallin, John, Duong, Trang Minh, Anthony, Edward Jamal
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Sprache:eng
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21st century
639/166/986
704/172/4081
China
Climate Change
Climate effects
Coastal zone
Earth Sciences
Ecosystem
Environmental Monitoring - methods
Geologic Sediments - analysis
Human Activities - statistics & numerical data
Humanities and Social Sciences
Humans
Hydrology
multidisciplinary
River basins
Rivers
Rivers - chemistry
Science
Science (multidisciplinary)
Sciences of the Universe
Sediments
Water Movements
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container_issue 1
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container_title Scientific reports
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creator Ranasinghe, Roshanka
Wu, Chuang Shou
Conallin, John
Duong, Trang Minh
Anthony, Edward Jamal
description The world’s large rivers are under stress and experiencing unprecedented changes in hydrology, ecosystems, and fluvial sediment loads. Many of these rivers terminate at the great deltas of the world (home to 500 million people), which depend on fluvial sediments for their very existence. While fluvial sediment loads of large rivers have already been greatly modified by human activities, climate change is expected to further exacerbate the situation. But how does the effect of climate change on fluvial sediment loads compare with that of human impacts? Here, we address this question by combining historical observations and 21 st century projections for one of the world’s largest 25 rivers containing two mega dams; Pearl River, China. Our analysis shows that variations in fluvial sediment supply to the coast from the Pearl river over a ~150 year study period are dominated by human activities. Projected climate change driven 21 st century increases in riverflow will only compensate for about 1% of the human induced deficit in sediment load, leading to the coastal zone being starved of about 6000 Mt of sediment over the remainder of this century. A similar dominance of human impacts on fluvial sediment supply is likely at other heavily engineered rivers.
doi_str_mv 10.1038/s41598-019-45442-2
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Many of these rivers terminate at the great deltas of the world (home to 500 million people), which depend on fluvial sediments for their very existence. While fluvial sediment loads of large rivers have already been greatly modified by human activities, climate change is expected to further exacerbate the situation. But how does the effect of climate change on fluvial sediment loads compare with that of human impacts? Here, we address this question by combining historical observations and 21 st century projections for one of the world’s largest 25 rivers containing two mega dams; Pearl River, China. Our analysis shows that variations in fluvial sediment supply to the coast from the Pearl river over a ~150 year study period are dominated by human activities. 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subjects 21st century
639/166/986
704/172/4081
China
Climate Change
Climate effects
Coastal zone
Earth Sciences
Ecosystem
Environmental Monitoring - methods
Geologic Sediments - analysis
Human Activities - statistics & numerical data
Humanities and Social Sciences
Humans
Hydrology
multidisciplinary
River basins
Rivers
Rivers - chemistry
Science
Science (multidisciplinary)
Sciences of the Universe
Sediments
Water Movements
title Disentangling the relative impacts of climate change and human activities on fluvial sediment supply to the coast by the world’s large rivers: Pearl River Basin, China
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