Impacts of forest cover change on local temperature in Yangtze River Delta and Pearl River Delta urban agglomerations of China

IF 5.6 1区 农林科学 Q1 AGRONOMY Agricultural and Forest Meteorology Pub Date : 2024-08-29 DOI:10.1016/j.agrformet.2024.110205
Qing Liu , Wenjuan Shen , Tongyu Wang , Jiaying He , Pingting Cao , Tianyi Sun , Ying Zhang , Wenjing Ye , Chengquan Huang
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Abstract

The continuous economic and ecological construction in the Yangtze River Delta (YRD) and Pearl River Delta (PRD) has caused frequent temporal and spatial changes in local forests, thus affecting the regional climate. Yet few studies have addressed the temperature feedback through biophysical mechanisms due to forest change in two urban agglomerations of China. We compared MODIS and Landsat-based land cover data to detect a more accurate forest cover change. We then used the moving window strategy and spatiotemporal pattern change analysis method to quantify and compare the actual impact of forest cover change on temperature and the differences in driving factors (e.g., evapotranspiration (ET), albedo, and precipitation) from 2010 to 2020. The results showed that Landsat-based land cover data performed well. The conversion from forest to cropland was dominated in YRD and PRD, followed by the conversion of cropland to forest, with a small proportion of forest converting to impervious surface. The afforested areas in the two regions showed a diurnal cooling effect (-0.18 ± 0.07 °C and -0.10 ± 0.13 °C, respectively), which was greater than the air temperature. Forest converting to impervious surfaces led to stronger warming (0.39 ± 0.37 °C in YRD) than that of cropland (0.05 ± 0.03 °C in YRD and 0.07 ± 0.06 °C in PRD). The daytime LST variations can be explained by ET and inconsistent albedo effects. Seasonally, the cooling effects induced by afforestation predominated during the growing season (spring and summer), accompanied by the relatively high ET. This study shows that rational afforestation and control of deforestation are helpful to achieve sustainable forest management in urban agglomerations and to regulate climate warming.

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中国长江三角洲和珠江三角洲城市群森林植被变化对当地气温的影响
长江三角洲(YRD)和珠江三角洲(PRD)持续的经济和生态建设导致当地森林时空变化频繁,进而影响区域气候。然而,很少有研究探讨中国两个城市群的森林变化通过生物物理机制引起的温度反馈。我们比较了 MODIS 和基于 Landsat 的土地覆被数据,以更准确地探测森林覆被的变化。然后,我们采用移动窗口策略和时空格局变化分析方法,量化和比较了 2010-2020 年森林植被变化对气温的实际影响以及驱动因素(如蒸散量、反照率和降水量)的差异。结果表明,基于 Landsat 的土地覆被数据表现良好。在长三角和珠三角,森林向耕地的转化占主导地位,其次是耕地向森林的转化,小部分森林转化为不透水地表。这两个地区的造林区出现了昼间降温效应(分别为-0.18 ± 0.07 °C和-0.10 ± 0.13 °C),降温幅度大于气温。与耕地(长三角为 0.05 ± 0.03 °C,珠三角为 0.07 ± 0.06 °C)相比,将森林转化为不透水地表的升温效应(长三角为 0.39 ± 0.37 °C)更强。白天的低温层变化可以用蒸散发和不一致的反照率效应来解释。从季节上看,植树造林引起的降温效应主要出现在生长季节(春季和夏季),同时伴随着相对较高的蒸散发。这项研究表明,合理造林和控制毁林有助于实现城市群的可持续森林管理和调节气候变暖。
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来源期刊
CiteScore
10.30
自引率
9.70%
发文量
415
审稿时长
69 days
期刊介绍: Agricultural and Forest Meteorology is an international journal for the publication of original articles and reviews on the inter-relationship between meteorology, agriculture, forestry, and natural ecosystems. Emphasis is on basic and applied scientific research relevant to practical problems in the field of plant and soil sciences, ecology and biogeochemistry as affected by weather as well as climate variability and change. Theoretical models should be tested against experimental data. Articles must appeal to an international audience. Special issues devoted to single topics are also published. Typical topics include canopy micrometeorology (e.g. canopy radiation transfer, turbulence near the ground, evapotranspiration, energy balance, fluxes of trace gases), micrometeorological instrumentation (e.g., sensors for trace gases, flux measurement instruments, radiation measurement techniques), aerobiology (e.g. the dispersion of pollen, spores, insects and pesticides), biometeorology (e.g. the effect of weather and climate on plant distribution, crop yield, water-use efficiency, and plant phenology), forest-fire/weather interactions, and feedbacks from vegetation to weather and the climate system.
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