The changing flow regime and sediment load of the Red River, Viet Nam

South-East Asian Rivers contribute very significantly to the global sediment load to the ocean, hence to global biogeochemical cycles, and are subject to rapid changes owing to recent population and economic growth. The Red River system (Viet Nam and China) offers a good example of these changes. Pr...

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Published inJournal of hydrology (Amsterdam) Vol. 334; no. 1; pp. 199 - 214
Main Authors Le, Thi Phuong Quynh, Garnier, Josette, Gilles, Billen, Sylvain, Théry, Van Minh, Chau
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 20.02.2007
Elsevier Science
Subjects
Earth sciences
Earth, ocean, space
Exact sciences and technology
Freshwater
hydrology
Hydrology. Hydrogeology
Particulate phosphorus
pollution load
Reservoirs
rivers
sediment yield
stream flow
suspended matter
Suspended matters
The Vietnamese Red River
Vietnam
Vietnam
Far East
Red River
China
Canada, Manitoba, Red R
ISEW, Vietnam
China, People's Rep
Particulate phosphorus
Reservoirs
The Vietnamese Red River
Suspended matters
base flow
tributaries
impoundment
models
rainfall
surveys
runoff
reservoirs
global
transport
loading
North America
suspended materials
Asia
growth
Climate modification
populations
phosphorus
Online AccessGet full text
ISSN0022-1694
1879-2707
DOI10.1016/j.jhydrol.2006.10.020

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Abstract South-East Asian Rivers contribute very significantly to the global sediment load to the ocean, hence to global biogeochemical cycles, and are subject to rapid changes owing to recent population and economic growth. The Red River system (Viet Nam and China) offers a good example of these changes. Previous estimates (before the year 1980) of the suspended matter loading of the Red River ranged from 100 to 170 × 10 6 t yr −1, i.e. from 640 to 1060 t km −2 yr −1. The strong dependence of suspended solid transport on hydrology results in a large year-to-year variability. Based on the available hydrological data from the period 1997–2004, and on a one-year survey of daily suspended matter of the three main tributaries of the Red River system in 2003, a simplified modeling approach, distinguishing between surface runoff and base flow, is established to estimate the mean suspended loading of the Red River under present conditions. The obtained value is 40 × 10 6 t yr −1, corresponding to a specific load of 280 t km −2 yr −1. It reflects a 70% decrease of the total suspended load since the impoundment of the Hoa Binh and Thac Ba reservoirs in the 1980s. Following the planned construction of two additional reservoirs, the model predicts a further reduction by 20% of the suspended load of the Red River, which might be compensated by an expected increase in suspended loading due to enhanced rainfall induced by climate change. Using measurements of the total phosphorus content of the suspended material in the different Red River tributaries, the present phosphorus delivery by the Red River can be estimated as 36 × 10 6 kgP yr −1.
AbstractList South-East Asian Rivers contribute very significantly to the global sediment load to the ocean, hence to global biogeochemical cycles, and are subject to rapid changes owing to recent population and economic growth. The Red River system (Viet Nam and China) offers a good example of these changes. Previous estimates (before the year 1980) of the suspended matter loading of the Red River ranged from 100 to 170 × 10 6 t yr −1, i.e. from 640 to 1060 t km −2 yr −1. The strong dependence of suspended solid transport on hydrology results in a large year-to-year variability. Based on the available hydrological data from the period 1997–2004, and on a one-year survey of daily suspended matter of the three main tributaries of the Red River system in 2003, a simplified modeling approach, distinguishing between surface runoff and base flow, is established to estimate the mean suspended loading of the Red River under present conditions. The obtained value is 40 × 10 6 t yr −1, corresponding to a specific load of 280 t km −2 yr −1. It reflects a 70% decrease of the total suspended load since the impoundment of the Hoa Binh and Thac Ba reservoirs in the 1980s. Following the planned construction of two additional reservoirs, the model predicts a further reduction by 20% of the suspended load of the Red River, which might be compensated by an expected increase in suspended loading due to enhanced rainfall induced by climate change. Using measurements of the total phosphorus content of the suspended material in the different Red River tributaries, the present phosphorus delivery by the Red River can be estimated as 36 × 10 6 kgP yr −1.
South-East Asian Rivers contribute very significantly to the global sediment load to the ocean, hence to global biogeochemical cycles, and are subject to rapid changes owing to recent population and economic growth. The Red River system (Viet Nam and China) offers a good example of these changes. Previous estimates (before the year 1980) of the suspended matter loading of the Red River ranged from 100 to 170 x 10⁶ t yr⁻¹, i.e. from 640 to 1060 t km⁻² yr⁻¹. The strong dependence of suspended solid transport on hydrology results in a large year-to-year variability. Based on the available hydrological data from the period 1997-2004, and on a one-year survey of daily suspended matter of the three main tributaries of the Red River system in 2003, a simplified modeling approach, distinguishing between surface runoff and base flow, is established to estimate the mean suspended loading of the Red River under present conditions. The obtained value is 40 x 10⁶ t yr⁻¹, corresponding to a specific load of 280 t km⁻² yr⁻¹. It reflects a 70% decrease of the total suspended load since the impoundment of the Hoa Binh and Thac Ba reservoirs in the 1980s. Following the planned construction of two additional reservoirs, the model predicts a further reduction by 20% of the suspended load of the Red River, which might be compensated by an expected increase in suspended loading due to enhanced rainfall induced by climate change. Using measurements of the total phosphorus content of the suspended material in the different Red River tributaries, the present phosphorus delivery by the Red River can be estimated as 36 x 10⁶ kgP yr⁻¹.
South-East Asian Rivers contribute very significantly to the global sediment load to the ocean, hence to global biogeochemical cycles, and are subject to rapid changes owing to recent population and economic growth. The Red River system (Viet Nam and China) offers a good example of these changes. Previous estimates (before the year 1980) of the suspended matter loading of the Red River ranged from 100 to 170x10 super(6)tyr super(-) super(1), i.e. from 640 to 1060tkm super(-) super(2)yr super(-) super(1). The strong dependence of suspended solid transport on hydrology results in a large year-to-year variability. Based on the available hydrological data from the period 1997-2004, and on a one-year survey of daily suspended matter of the three main tributaries of the Red River system in 2003, a simplified modeling approach, distinguishing between surface runoff and base flow, is established to estimate the mean suspended loading of the Red River under present conditions. The obtained value is 40x10 super(6)tyr super(-) super(1), corresponding to a specific load of 280tkm super(-) super(2)yr super(-) super(1). It reflects a 70% decrease of the total suspended load since the impoundment of the Hoa Binh and Thac Ba reservoirs in the 1980s. Following the planned construction of two additional reservoirs, the model predicts a further reduction by 20% of the suspended load of the Red River, which might be compensated by an expected increase in suspended loading due to enhanced rainfall induced by climate change. Using measurements of the total phosphorus content of the suspended material in the different Red River tributaries, the present phosphorus delivery by the Red River can be estimated as 36x10 super(6)kgPyr super(-) super(1).
South-East Asian Rivers contribute very significantly to the global sediment load to the ocean, hence to global biogeochemical cycles, and are subject to rapid changes owing to recent population and economic growth. The Red River system (Viet Nam and China) offers a good example of these changes. Previous estimates (before the year 1980) of the suspended matter loading of the Red River ranged from 100 to 170 x 10 super(6) t yr super(-1), i.e. from 640 to 1060 t km super(-2) yr super(-1). The strong dependence of suspended solid transport on hydrology results in a large year-to-year variability. Based on the available hydrological data from the period 1997-2004, and on a one-year survey of daily suspended matter of the three main tributaries of the Red River system in 2003, a simplified modeling approach, distinguishing between surface runoff and base flow, is established to estimate the mean suspended loading of the Red River under present conditions. The obtained value is 40 x 10 super(6) t yr super(-1), corresponding to a specific load of 280 t km super(-2) yr super(-1). It reflects a 70% decrease of the total suspended load since the impoundment of the Hoa Binh and Thac Ba reservoirs in the 1980s. Following the planned construction of two additional reservoirs, the model predicts a further reduction by 20% of the suspended load of the Red River, which might be compensated by an expected increase in suspended loading due to enhanced rainfall induced by climate change. Using measurements of the total phosphorus content of the suspended material in the different Red River tributaries, the present phosphorus delivery by the Red River can be estimated as 36 x 10 super(6) kgP yr super(-1).
Author Garnier, Josette
Sylvain, Théry
Van Minh, Chau
Le, Thi Phuong Quynh
Gilles, Billen
Author_xml – sequence: 1
  givenname: Thi Phuong Quynh
  surname: Le
  fullname: Le, Thi Phuong Quynh
  email: quynhltp@yahoo.com
  organization: UMR Sisyphe, University P. and M. Curie, Box 123, 4 Place Jussieu, 75005 Paris, France
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  givenname: Josette
  surname: Garnier
  fullname: Garnier, Josette
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  givenname: Billen
  surname: Gilles
  fullname: Gilles, Billen
  organization: UMR Sisyphe, University P. and M. Curie, Box 123, 4 Place Jussieu, 75005 Paris, France
– sequence: 4
  givenname: Théry
  surname: Sylvain
  fullname: Sylvain, Théry
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– sequence: 5
  givenname: Chau
  surname: Van Minh
  fullname: Van Minh, Chau
  organization: Institute of Natural Product Chemistry, Vietnam Academy of Natural Science and Technology, 18 Hoang Quoc Viet Road, Cau Giay District, Hanoi, Viet Nam
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Issue 1
Keywords Particulate phosphorus
Reservoirs
The Vietnamese Red River
Suspended matters
base flow
tributaries
impoundment
models
rainfall
surveys
runoff
reservoirs
global
transport
loading
North America
suspended materials
Asia
growth
Climate modification
populations
phosphorus
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Snippet South-East Asian Rivers contribute very significantly to the global sediment load to the ocean, hence to global biogeochemical cycles, and are subject to rapid...
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SubjectTerms Earth sciences
Earth, ocean, space
Exact sciences and technology
Freshwater
hydrology
Hydrology. Hydrogeology
Particulate phosphorus
pollution load
Reservoirs
rivers
sediment yield
stream flow
suspended matter
Suspended matters
The Vietnamese Red River
Vietnam
Title The changing flow regime and sediment load of the Red River, Viet Nam
URI https://dx.doi.org/10.1016/j.jhydrol.2006.10.020
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