Decoding urbanization trade-offs in Shenzhen, China : a PLUS-InVEST-PLES framework for balancing carbon dynamics, ecological functionality, and land use intensification

Li, Yu; Li, Ruifan; Yu, Hongbing; Yu, Han

Decoding urbanization trade-offs in Shenzhen, China : a PLUS-InVEST-PLES framework for balancing carbon dynamics, ecological functionality, and land use intensification

Mark

Li, Yu ; Li, Ruifan ; Yu, Hongbing and Yu, Han ^LU (2025) In Frontiers in Environmental Science 13.

Abstract: Urbanization in coastal megacities leads to trade-offs between development and ecology, degrading carbon sinks and disrupting spatial-functional balance. Current models often fail to integrate land use, carbon dynamics, and ecological zoning. This study created a system that brings together Patch-generating Land Use Simulation (PLUS), Integrated Valuation of Ecosystem Services and Trade-offs (InVEST), and Production-Living-Ecological Space (PLES) to examine how urban growth affects carbon storage and ecological balance in Shenzhen, China. Using GlobeLand30 datasets (2000–2020), land use was simulated under ecological priority scenarios until 2030. Findings revealed that a 50.15% expansion of built-up areas caused a 7.9% decline in... (More); Urbanization in coastal megacities leads to trade-offs between development and ecology, degrading carbon sinks and disrupting spatial-functional balance. Current models often fail to integrate land use, carbon dynamics, and ecological zoning. This study created a system that brings together Patch-generating Land Use Simulation (PLUS), Integrated Valuation of Ecosystem Services and Trade-offs (InVEST), and Production-Living-Ecological Space (PLES) to examine how urban growth affects carbon storage and ecological balance in Shenzhen, China. Using GlobeLand30 datasets (2000–2020), land use was simulated under ecological priority scenarios until 2030. Findings revealed that a 50.15% expansion of built-up areas caused a 7.9% decline in carbon stock, with coastal areas hit hardest. Production-Living-Ecological Space coordination improved slightly, but urban areas showed imbalances. A zoning scheme identified 40% built-up land as the threshold for carbon collapse, and the 2010 ecological control line policy reduced carbon loss by 41%. This study offers a replicable model for balancing urban development with ecological resilience.
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Please use this url to cite or link to this publication: https://lup.lub.lu.se/record/976192f6-6462-4d19-98c7-baaf5de4e26c

author

Li, Yu ; Li, Ruifan ; Yu, Hongbing and Yu, Han ^LU

organization

Division of Water Resources Engineering

publishing date

2025

type

Contribution to journal

publication status

published

subject

Ecology (including Biodiversity Conservation)

keywords

carbon storage, InVEST model, land use, PLES model, urbanization

in

Frontiers in Environmental Science

volume

13

article number

1590814

publisher

Frontiers Media S. A.

external identifiers

scopus:105007980096

ISSN

2296-665X

DOI

10.3389/fenvs.2025.1590814

language

English

LU publication?

yes

id

976192f6-6462-4d19-98c7-baaf5de4e26c

date added to LUP

2026-01-20 11:09:43

date last changed

2026-01-20 11:09:59

@article{976192f6-6462-4d19-98c7-baaf5de4e26c,
  abstract     = {{<p>Urbanization in coastal megacities leads to trade-offs between development and ecology, degrading carbon sinks and disrupting spatial-functional balance. Current models often fail to integrate land use, carbon dynamics, and ecological zoning. This study created a system that brings together Patch-generating Land Use Simulation (PLUS), Integrated Valuation of Ecosystem Services and Trade-offs (InVEST), and Production-Living-Ecological Space (PLES) to examine how urban growth affects carbon storage and ecological balance in Shenzhen, China. Using GlobeLand30 datasets (2000–2020), land use was simulated under ecological priority scenarios until 2030. Findings revealed that a 50.15% expansion of built-up areas caused a 7.9% decline in carbon stock, with coastal areas hit hardest. Production-Living-Ecological Space coordination improved slightly, but urban areas showed imbalances. A zoning scheme identified 40% built-up land as the threshold for carbon collapse, and the 2010 ecological control line policy reduced carbon loss by 41%. This study offers a replicable model for balancing urban development with ecological resilience.</p>}},
  author       = {{Li, Yu and Li, Ruifan and Yu, Hongbing and Yu, Han}},
  issn         = {{2296-665X}},
  keywords     = {{carbon storage; InVEST model; land use; PLES model; urbanization}},
  language     = {{eng}},
  publisher    = {{Frontiers Media S. A.}},
  series       = {{Frontiers in Environmental Science}},
  title        = {{Decoding urbanization trade-offs in Shenzhen, China : a PLUS-InVEST-PLES framework for balancing carbon dynamics, ecological functionality, and land use intensification}},
  url          = {{http://dx.doi.org/10.3389/fenvs.2025.1590814}},
  doi          = {{10.3389/fenvs.2025.1590814}},
  volume       = {{13}},
  year         = {{2025}},
}

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Decoding urbanization trade-offs in Shenzhen, China : a PLUS-InVEST-PLES framework for balancing carbon dynamics, ecological functionality, and land use intensification