Development of a relative risk model for evaluating ecological risk of water environment in the Haihe River Basin estuary area

Ecological risk assessment for water environment is significant to water resource management of basin. Effective environmental management and systems restoration such as the Haihe River Basin require holistic understanding of the relative importance of various stressor-related impacts throughout the...

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Published inThe Science of the total environment Vol. 420; pp. 79 - 89
Main Authors Chen, Qiuying, Liu, Jingling, Ho, Kin Chung, Yang, Zhifeng
Format Journal Article
LanguageEnglish
Published Kidlington Elsevier B.V 15.03.2012
Elsevier
Subjects
Animal and plant ecology
Animal, plant and microbial ecology
Applied ecology
Aquaculture
Biodiversity
Biological and medical sciences
Brackish water ecosystems
China
Conservation of Natural Resources
Ecological risk assessment
Ecotoxicology, biological effects of pollution
Environment
Estuary
Fundamental and applied biological sciences. Psychology
General aspects
Models, Theoretical
Risk Assessment
Rivers - chemistry
Synecology
Water Pollution
Water Quality
Water Supply
China
Model
Estuary
Ecological risk assessment
Brackish water environment
Development
Estuaries
Environment
Risk
Ecology
Models
Risk analysis
River basins
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Abstract Ecological risk assessment for water environment is significant to water resource management of basin. Effective environmental management and systems restoration such as the Haihe River Basin require holistic understanding of the relative importance of various stressor-related impacts throughout the basin. As an effective technical tool for evaluating the ecological risk, relative risk model (RRM) was applied in regional scale successfully. In this study, the risk transfer from upstream of basin was considered and the RRM was developed through introducing the source–stressor–habitat exposure filter (SSH), the endpoint–habitat exposure filter (EH) and the stressor–endpoint effect filter (SE) to reflect the meaning of exposure and effect more explicit. Water environment which includes water quality, water quantity and aquatic ecosystems was selected as the assessment endpoints. We created a conceptual model which depicting potential and effect pathways from source to stressor to habitat to endpoint. The Haihe River Basin estuary (HRBE) was selected as the model case. The results showed that there were two low risk regions, one medium risk region and two high risk regions in the HRBE. The results also indicated that urbanization was the biggest source, the second was shipping and the third was industry, their risk scores are 5.65, 4.71 and 3.68 respectively. Furthermore, habitat destruction was the largest stressor with the risk scores (2.66), the second was oxygen consuming organic pollutants (1.75) and the third was pathogens (1.75). So these three stressors were the main influencing factors of the ecological pressure in the study area. For habitats, open waters (9.59) and intertidal mudflat were enduring the bigger pressure and should be taken considerable attention. Ecological service values damaged (30.54) and biodiversity decreased were facing the biggest risk pressure. ► We assessed a comprehensive ecological risk under the multiple sources of stressors. ► We developed the RRM to adapt the estuary and created a conceptual model for HRBE. ► We used Mont-Carlo simulation method to assess risk uncertainty and sensitivity of model parameter. ► Haihe river estuary was the highest risk region, and urbanization was the biggest source.
AbstractList Ecological risk assessment for water environment is significant to water resource management of basin. Effective environmental management and systems restoration such as the Haihe River Basin require holistic understanding of the relative importance of various stressor-related impacts throughout the basin. As an effective technical tool for evaluating the ecological risk, relative risk model (RRM) was applied in regional scale successfully. In this study, the risk transfer from upstream of basin was considered and the RRM was developed through introducing the source–stressor–habitat exposure filter (SSH), the endpoint–habitat exposure filter (EH) and the stressor–endpoint effect filter (SE) to reflect the meaning of exposure and effect more explicit. Water environment which includes water quality, water quantity and aquatic ecosystems was selected as the assessment endpoints. We created a conceptual model which depicting potential and effect pathways from source to stressor to habitat to endpoint. The Haihe River Basin estuary (HRBE) was selected as the model case. The results showed that there were two low risk regions, one medium risk region and two high risk regions in the HRBE. The results also indicated that urbanization was the biggest source, the second was shipping and the third was industry, their risk scores are 5.65, 4.71 and 3.68 respectively. Furthermore, habitat destruction was the largest stressor with the risk scores (2.66), the second was oxygen consuming organic pollutants (1.75) and the third was pathogens (1.75). So these three stressors were the main influencing factors of the ecological pressure in the study area. For habitats, open waters (9.59) and intertidal mudflat were enduring the bigger pressure and should be taken considerable attention. Ecological service values damaged (30.54) and biodiversity decreased were facing the biggest risk pressure. ► We assessed a comprehensive ecological risk under the multiple sources of stressors. ► We developed the RRM to adapt the estuary and created a conceptual model for HRBE. ► We used Mont-Carlo simulation method to assess risk uncertainty and sensitivity of model parameter. ► Haihe river estuary was the highest risk region, and urbanization was the biggest source.
Ecological risk assessment for water environment is significant to water resource management of basin. Effective environmental management and systems restoration such as the Haihe River Basin require holistic understanding of the relative importance of various stressor-related impacts throughout the basin. As an effective technical tool for evaluating the ecological risk, relative risk model (RRM) was applied in regional scale successfully. In this study, the risk transfer from upstream of basin was considered and the RRM was developed through introducing the source-stressor-habitat exposure filter (SSH), the endpoint-habitat exposure filter (EH) and the stressor-endpoint effect filter (SE) to reflect the meaning of exposure and effect more explicit. Water environment which includes water quality, water quantity and aquatic ecosystems was selected as the assessment endpoints. We created a conceptual model which depicting potential and effect pathways from source to stressor to habitat to endpoint. The Haihe River Basin estuary (HRBE) was selected as the model case. The results showed that there were two low risk regions, one medium risk region and two high risk regions in the HRBE. The results also indicated that urbanization was the biggest source, the second was shipping and the third was industry, their risk scores are 5.65, 4.71 and 3.68 respectively. Furthermore, habitat destruction was the largest stressor with the risk scores (2.66), the second was oxygen consuming organic pollutants (1.75) and the third was pathogens (1.75). So these three stressors were the main influencing factors of the ecological pressure in the study area. For habitats, open waters (9.59) and intertidal mudflat were enduring the bigger pressure and should be taken considerable attention. Ecological service values damaged (30.54) and biodiversity decreased were facing the biggest risk pressure.
Author Ho, Kin Chung
Yang, Zhifeng
Chen, Qiuying
Liu, Jingling
Author_xml – sequence: 1
  givenname: Qiuying
  surname: Chen
  fullname: Chen, Qiuying
  organization: State Key Joint Laboratory of Environmental Simulation and Pollution Control & School of Environment, Beijing Normal University, 100875, Beijing, China
– sequence: 2
  givenname: Jingling
  surname: Liu
  fullname: Liu, Jingling
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  organization: State Key Joint Laboratory of Environmental Simulation and Pollution Control & School of Environment, Beijing Normal University, 100875, Beijing, China
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  givenname: Kin Chung
  surname: Ho
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  organization: School of Science & Technology, The Open University of Hong Kong, China
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  givenname: Zhifeng
  surname: Yang
  fullname: Yang, Zhifeng
  organization: State Key Joint Laboratory of Environmental Simulation and Pollution Control & School of Environment, Beijing Normal University, 100875, Beijing, China
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Keywords Model
Estuary
Ecological risk assessment
Brackish water environment
Development
Estuaries
Environment
Risk
Ecology
Models
Risk analysis
River basins
Language English
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Copyright © 2011 Elsevier B.V. All rights reserved.
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Snippet Ecological risk assessment for water environment is significant to water resource management of basin. Effective environmental management and systems...
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SubjectTerms Animal and plant ecology
Animal, plant and microbial ecology
Applied ecology
Aquaculture
Biodiversity
Biological and medical sciences
Brackish water ecosystems
China
Conservation of Natural Resources
Ecological risk assessment
Ecotoxicology, biological effects of pollution
Environment
Estuary
Fundamental and applied biological sciences. Psychology
General aspects
Models, Theoretical
Risk Assessment
Rivers - chemistry
Synecology
Water Pollution
Water Quality
Water Supply
Title Development of a relative risk model for evaluating ecological risk of water environment in the Haihe River Basin estuary area
URI https://dx.doi.org/10.1016/j.scitotenv.2011.09.044
https://www.ncbi.nlm.nih.gov/pubmed/22321901
https://search.proquest.com/docview/926505108
Volume 420
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