Abstract: |
This is the first attempt to simultaneously apply an improved three-dimensional ecological (EF3D) model and multivariate spatial-temporal collaborative relation model for evaluating the inter-regional ecological sustainability. Capital flow consumption and capital stock depletion can be tracked based on identification of variations in ecological footprint size (EFsize) and depth (EFdepth). Results display an unsustainable natural capital stock utilization in Chengyu urban agglomeration, especially in Neijiang, Chengdu, and Deyang with EF(depth )higher than 35. There exists an obvious regional complementarity between EFsize and EFdepth, where cities with rich resources (or poor resources) are generally characterized as high EFsize and low EFdepth (or low EFsize and high EFdepth). The EF3D is slightly lower than traditional ecological footprint in value owing to its more concerns of intergenerational fairness and intrageneration fairness. Moreover, the spatial-temporal binary collaborative relation among EFsize, EFdepth, and GDP is generally higher than 0.6 with a medium level. Their temporal multivariate collaborative relation mostly lies in the intervals [0.30, 0.50] with an annual change rate of 10.22%, while slight variations exist in their spatial multivariate collaborative relation. GDP has a significant impact on the temporal collaborative relation of EFsize and EFdepth in Dazhou, Leshan, Luzhou, Mianyang, and Nanchong. There are slight impacts of EFdepth on the temporal collaborative relation of EFsize and GDP; meanwhile, GDP has a less effect on the spatial collaborative relation of EFsize and EFdepth. Findings can provide a reference for the coordinated development of social economy and ecological environment. (C) 2021 Elsevier B.V. All rights reserved. |