基于sd - flow - invest耦合框架的山地生态系统情景驱动模型：土地利用-碳动态模拟

IF 3.2 3区环境科学与生态学 Q2 ECOLOGY

Ecological Modelling Pub Date : 2025-08-14 DOI:10.1016/j.ecolmodel.2025.111293

Qin Yaowei , Yan Yu , Dong Jiaqi , Zhao Zhenyu , Li Shuangjiang , Cao Jiansheng , Xiao Jieying

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引用次数: 0

摘要

了解土地利用和碳动态对于优化资源管理和促进碳中和至关重要。本研究以山地系统可持续发展为重点，构建了sd - flu - invest耦合框架，并以燕山—太行山区为例，探讨了土地利用转型及其碳循环响应机制。该模型耦合了整个政策-空间-生态链，与传统模型相比提高了计算效率，实现了高精度的空间分配(Kappa >；0.83)，并支持多场景模拟。实证研究表明，从2000年到2035年，该地区碳失衡持续恶化。空间分异扩大；高价值碳汇区集中在山区，碳热点区沿华北平原扩展。碳中和的潜力下降了。因此，必须严格保护核心林地，必须发展城郊碳排放农业，以增加该地区实现碳中和的潜力。该模型框架可推广到全球脆弱生态系统的可持续管理。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Scenario-driven modeling of mountain ecosystems: land use-carbon dynamics simulation based on the coupled SD-FLUS-InVEST framework

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Scenario-driven modeling of mountain ecosystems: land use-carbon dynamics simulation based on the coupled SD-FLUS-InVEST framework

Understanding land use and carbon dynamics was crucial for optimizing resource management and promoting carbon neutrality. With a focus on the sustainable development of mountain systems, this study presented a coupling framework of SD-FLUS-InVEST and used the Yanshan-Taihang mountainous area as a case study to explore land use transitions and the mechanisms by which the carbon cycle responded. This model coupled the entire policy-space-ecology chain, improved computational efficiency compared to traditional models, achieved high-precision spatial allocation (Kappa > 0.83), and supported multi-scenario simulations. Empirical studies showed that the region's carbon imbalance had continued to worsen from 2000 to 2035. Spatial differentiation expanded; high-value carbon sink areas clustered in the mountains, and carbon hotspots expanded along the North China Plain. The potential for carbon neutrality declined. Thus, core forest land had to be strictly protected, and periurban carbon-sinking agriculture had to be developed to increase the region's potential for carbon neutrality. The modeling framework could be generalized for the sustainable management of fragile ecosystems worldwide.

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来源期刊

Ecological Modelling 环境科学-生态学

CiteScore

5.60

自引率

6.50%

发文量

259

审稿时长

69 days

期刊介绍： The journal is concerned with the use of mathematical models and systems analysis for the description of ecological processes and for the sustainable management of resources. Human activity and well-being are dependent on and integrated with the functioning of ecosystems and the services they provide. We aim to understand these basic ecosystem functions using mathematical and conceptual modelling, systems analysis, thermodynamics, computer simulations, and ecological theory. This leads to a preference for process-based models embedded in theory with explicit causative agents as opposed to strictly statistical or correlative descriptions. These modelling methods can be applied to a wide spectrum of issues ranging from basic ecology to human ecology to socio-ecological systems. The journal welcomes research articles, short communications, review articles, letters to the editor, book reviews, and other communications. The journal also supports the activities of the [International Society of Ecological Modelling (ISEM)](http://www.isemna.org/).