Mapping Re-Naturalization Pathways for Urban Ecological Governance: A Spatial Decision-Support Framework Based on Ecosystem Service Valuation DOI Creative Commons
Chengji Shu, Kaiwei Du,

Wenbo Cai

et al.

Land, Journal Year: 2025, Volume and Issue: 14(5), P. 917 - 917

Published: April 23, 2025

Traditional urban expansion struggles to balance economic and ecological demands. Intensive development planning based on re-naturalization has become the policymakers’ choice. However, planning-oriented land use patterns pathways remain difficult determine. This study developed a spatial decision-support framework integrating ecosystem service valuation (ESV), land-use simulation, for Shanghai. assessed spatiotemporal dynamics of ESV simulated 2035 under different scenarios (inertial development, cropland protection, development). The optimal scenario corresponding were determined principle ESV. results showed that declined over past 20 years (−5.21%/5 years). High-value areas shrank significantly due space degradation. is scenario, with highest CNY 189,240.29 million, which higher than status quo, inertia protection by 9.69%, 23.27%, 9.53%, respectively. Taking as objective, 12 totaling 686.88 km2 identified. Cropland forestland built-up largest, accounting 67.88% 15.02%, provides valuable insights into in urbanized areas.

Language: Английский

From measurements to regulations: An actionable approach for sustainable urban cooling via heat-resilient urban planning DOI
Jinlong Yan,

Zhaomin Tong,

Yiheng Wang

et al.

Sustainable Cities and Society, Journal Year: 2025, Volume and Issue: unknown, P. 106361 - 106361

Published: April 1, 2025

Language: Английский

Citations

0
Mapping Re-Naturalization Pathways for Urban Ecological Governance: A Spatial Decision-Support Framework Based on Ecosystem Service Valuation DOI Creative Commons
Chengji Shu, Kaiwei Du,

Wenbo Cai

et al.

Land, Journal Year: 2025, Volume and Issue: 14(5), P. 917 - 917

Published: April 23, 2025

Traditional urban expansion struggles to balance economic and ecological demands. Intensive development planning based on re-naturalization has become the policymakers’ choice. However, planning-oriented land use patterns pathways remain difficult determine. This study developed a spatial decision-support framework integrating ecosystem service valuation (ESV), land-use simulation, for Shanghai. assessed spatiotemporal dynamics of ESV simulated 2035 under different scenarios (inertial development, cropland protection, development). The optimal scenario corresponding were determined principle ESV. results showed that declined over past 20 years (−5.21%/5 years). High-value areas shrank significantly due space degradation. is scenario, with highest CNY 189,240.29 million, which higher than status quo, inertia protection by 9.69%, 23.27%, 9.53%, respectively. Taking as objective, 12 totaling 686.88 km2 identified. Cropland forestland built-up largest, accounting 67.88% 15.02%, provides valuable insights into in urbanized areas.

Language: Английский

Citations

0