城市化对森林生境气候适应能力的压力

IF 10.8 1区环境科学与生态学 Q1 BIODIVERSITY CONSERVATION

Global Change Biology Pub Date : 2025-04-04 DOI:10.1111/gcb.70166

Anqi Huang, Xiyan Xu, Gensuo Jia

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引用次数: 0

摘要

城市化广泛地塑造了荒地-城市界面（WUIs）。然而，城市化对森林生境作为生物多样性热避难所的影响尚不明确。研究表明，城市化导致的人类足迹增加导致森林生境冠层退化，包括森林覆盖率下降（- 12.61%±0.05%）、叶面积指数下降（- 0.45±0.01 m2 m−2）和冠层高度下降（- 3.74±0.02 m）。林冠退化导致森林栖息地连通性降低（- 9.45%±0.08%），地表日平均温度升高（0.41°C±0.01°C），导致年平均极端温度频率（0.22±0.01 d）和强度（1.05°C±0.02°C）较附近荒地增加。该地区物种丰富度比周边野生地低10.01%±0.07%，表明人类足迹密集、栖息地连通性下降和热应激增加导致该地区生物多样性丧失。我们强调城市规划需要充分整合适应气候变化和保护生物多样性的解决方案。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Urbanization Pressures on Climate Adaptation Capacity of Forest Habitats

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Urbanization Pressures on Climate Adaptation Capacity of Forest Habitats

Urbanization extensively shapes the wildland–urban interfaces (WUIs). However, the effects of urbanization on forest habitats in WUIs as thermal refuges for biodiversity remain elusive. Here, we show that urbanization-induced increases in human footprints cause canopy degradation of forest habitats in WUIs, including declines in forest coverage (−12.61% ± 0.05%), leaf area index (−0.45 ± 0.01 m² m⁻²), and canopy height (−3.74 ± 0.02 m). Canopy degradation weakens forest-based climate change adaptation, inferred by reduced forest habitat connectivity (−9.45% ± 0.08%) and elevated daily mean surface temperature (0.41°C ± 0.01°C) in WUIs, leading to a rise in frequency (0.22 ± 0.01 days) and intensity (1.05°C ± 0.02°C) of annual mean thermal extremes compared to that in nearby wildlands. A 10.01% ± 0.07% lower mean species richness in WUIs than nearby wildlands demonstrates local biodiversity loss in WUIs driven by intense human footprints, declined habitat connectivity, and increased thermal stress. We highlight the need for urban planning to fully integrate solutions for climate adaptation and biodiversity conservation.

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来源期刊

Global Change Biology 环境科学-环境科学

CiteScore

21.50

自引率

5.20%

发文量

497

审稿时长

3.3 months

期刊介绍： Global Change Biology is an environmental change journal committed to shaping the future and addressing the world's most pressing challenges, including sustainability, climate change, environmental protection, food and water safety, and global health. Dedicated to fostering a profound understanding of the impacts of global change on biological systems and offering innovative solutions, the journal publishes a diverse range of content, including primary research articles, technical advances, research reviews, reports, opinions, perspectives, commentaries, and letters. Starting with the 2024 volume, Global Change Biology will transition to an online-only format, enhancing accessibility and contributing to the evolution of scholarly communication.