Assessing heterogeneity of trade-offs/synergies and values among ecosystem services in Beijing-Tianjin-Hebei urban agglomeration

[Display omitted] •Trade-offs and synergies among the same types of ESs differed in different region.•The Multiple Ecosystem Services Landscape Index was higher in mountainous areas.•The complex relationship of different region requires different measures. Understanding the dynamic change and interr...

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Published inEcological indicators Vol. 140; p. 109026
Main Authors Li, Qing, Li, Wenjing, Wang, Sheng, Wang, Jinfeng
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.07.2022
Elsevier
Subjects
agricultural development
capital
China
ecosystem management
Ecosystem services
ecosystems
habitats
landscapes
Multiple ecosystem services landscape index
net primary productivity
Spatial heterogeneity
sustainable development
Trade-off and synergy
urbanization
vegetation
water conservation
China
Trade-off and synergy
Spatial heterogeneity
Ecosystem services
Multiple ecosystem services landscape index
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Abstract [Display omitted] •Trade-offs and synergies among the same types of ESs differed in different region.•The Multiple Ecosystem Services Landscape Index was higher in mountainous areas.•The complex relationship of different region requires different measures. Understanding the dynamic change and interrelations among multiple ecosystem services (ESs) is crucial for the sustainable development of economy and nature, especially in Beijing-Tianjin-Hebei (BTH) urban agglomeration, which is an important capital economic circle and ecological barrier in northern China. In BTH, the spatio-temporal analyses of ESs dynamics were quantified using different models, and their interrelations (i.e., trade-offs and synergies) were analyzed using the partial correlation analysis at the pixel scale. Further, a Multiple Ecosystem Services Landscape Index (MESLI) was built to discuss the integrated capacity and efficiency of ESs. The results were as follows: (1) The inter-annual variation of MESLI was significantly different in each ecological regions. The MESLI of Bashang Plateau (R-A) and Yanshan-Taihang Mountains (R-B) showed increasing trend, while decreased in Beijing-Tianjin-Xiongan Urban Agglomeration (R-C) and the agricultural region of North China Plain (R-D). Both net primary production and water conservation increased during 2000–2015, while habitat quality declined linearly, but promoted to 0.60 during 2016–2018. (2) The MESLI and single ES were high in R-B due to the high vegetation coverage, which benefited from continuous ecological engineering in this region. The low above indexes in R-C and R-D was attributed to the destruction of natural ecosystem caused by agricultural development and urban sprawl. (3) The spatial synergies among ESs were normally well in the northern Yanshan Mountain, while the trade-offs were obvious in the southern Hebei Plain, and the relationship of trade-offs and synergies among ESs in Bashang Plateaus and Beijing-Tianjin-Xiongan urban agglomeration demonstrated uniform distribution. The spatial correlation and differentiation should be considered in policy-making of regional ecosystem management.
AbstractList Understanding the dynamic change and interrelations among multiple ecosystem services (ESs) is crucial for the sustainable development of economy and nature, especially in Beijing-Tianjin-Hebei (BTH) urban agglomeration, which is an important capital economic circle and ecological barrier in northern China. In BTH, the spatio-temporal analyses of ESs dynamics were quantified using different models, and their interrelations (i.e., trade-offs and synergies) were analyzed using the partial correlation analysis at the pixel scale. Further, a Multiple Ecosystem Services Landscape Index (MESLI) was built to discuss the integrated capacity and efficiency of ESs. The results were as follows: (1) The inter-annual variation of MESLI was significantly different in each ecological regions. The MESLI of Bashang Plateau (R-A) and Yanshan-Taihang Mountains (R-B) showed increasing trend, while decreased in Beijing-Tianjin-Xiongan Urban Agglomeration (R-C) and the agricultural region of North China Plain (R-D). Both net primary production and water conservation increased during 2000–2015, while habitat quality declined linearly, but promoted to 0.60 during 2016–2018. (2) The MESLI and single ES were high in R-B due to the high vegetation coverage, which benefited from continuous ecological engineering in this region. The low above indexes in R-C and R-D was attributed to the destruction of natural ecosystem caused by agricultural development and urban sprawl. (3) The spatial synergies among ESs were normally well in the northern Yanshan Mountain, while the trade-offs were obvious in the southern Hebei Plain, and the relationship of trade-offs and synergies among ESs in Bashang Plateaus and Beijing-Tianjin-Xiongan urban agglomeration demonstrated uniform distribution. The spatial correlation and differentiation should be considered in policy-making of regional ecosystem management.
[Display omitted] •Trade-offs and synergies among the same types of ESs differed in different region.•The Multiple Ecosystem Services Landscape Index was higher in mountainous areas.•The complex relationship of different region requires different measures. Understanding the dynamic change and interrelations among multiple ecosystem services (ESs) is crucial for the sustainable development of economy and nature, especially in Beijing-Tianjin-Hebei (BTH) urban agglomeration, which is an important capital economic circle and ecological barrier in northern China. In BTH, the spatio-temporal analyses of ESs dynamics were quantified using different models, and their interrelations (i.e., trade-offs and synergies) were analyzed using the partial correlation analysis at the pixel scale. Further, a Multiple Ecosystem Services Landscape Index (MESLI) was built to discuss the integrated capacity and efficiency of ESs. The results were as follows: (1) The inter-annual variation of MESLI was significantly different in each ecological regions. The MESLI of Bashang Plateau (R-A) and Yanshan-Taihang Mountains (R-B) showed increasing trend, while decreased in Beijing-Tianjin-Xiongan Urban Agglomeration (R-C) and the agricultural region of North China Plain (R-D). Both net primary production and water conservation increased during 2000–2015, while habitat quality declined linearly, but promoted to 0.60 during 2016–2018. (2) The MESLI and single ES were high in R-B due to the high vegetation coverage, which benefited from continuous ecological engineering in this region. The low above indexes in R-C and R-D was attributed to the destruction of natural ecosystem caused by agricultural development and urban sprawl. (3) The spatial synergies among ESs were normally well in the northern Yanshan Mountain, while the trade-offs were obvious in the southern Hebei Plain, and the relationship of trade-offs and synergies among ESs in Bashang Plateaus and Beijing-Tianjin-Xiongan urban agglomeration demonstrated uniform distribution. The spatial correlation and differentiation should be considered in policy-making of regional ecosystem management.
ArticleNumber 109026
Author Wang, Jinfeng
Li, Wenjing
Li, Qing
Wang, Sheng
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  surname: Wang
  fullname: Wang, Jinfeng
  organization: School of Geograghical Science, Shanxi Normal University, Taiyuan 030000, China
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Keywords Trade-off and synergy
Spatial heterogeneity
Ecosystem services
Multiple ecosystem services landscape index
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Snippet [Display omitted] •Trade-offs and synergies among the same types of ESs differed in different region.•The Multiple Ecosystem Services Landscape Index was...
Understanding the dynamic change and interrelations among multiple ecosystem services (ESs) is crucial for the sustainable development of economy and nature,...
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SubjectTerms agricultural development
capital
China
ecosystem management
Ecosystem services
ecosystems
habitats
landscapes
Multiple ecosystem services landscape index
net primary productivity
Spatial heterogeneity
sustainable development
Trade-off and synergy
urbanization
vegetation
water conservation
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Title Assessing heterogeneity of trade-offs/synergies and values among ecosystem services in Beijing-Tianjin-Hebei urban agglomeration
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