Not population density, but city size and per capita income influence the urban forest carbon sequestration: A case of growing cities in Arkansas, USA

Q2 Environmental Science Environmental Challenges Pub Date : 2024-08-01 DOI:10.1016/j.envc.2024.101000
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引用次数: 0

Abstract

While urban trees provides significant ecosystem services, the impact of increasing urbanization and population on their carbon sequestration potential remains relatively underexplored in interior sprawling cities, highlighting a critical research gap amid growing urban environmental challenges. Although existing studies suggest a strongly correlation between urban forest cover and carbon sequestration, this study aims to investigate how the urban demography factors influence land cover and carbon sequestration across cities with low, medium, and high population densities. Using the i-Tree Canopy tool, we sampled 18,814 random points to estimate city land cover and carbon sequestration in Arkansas, interior state of the US. Results from the principal component analysis revealed that 74% of the variation in a city's land cover among population density classes is attributed to tree and soil cover percentages. The mean annual (1.40 ± 0.08 T ha-1) and total carbon sequestration rates (35.30 ± 5.57 T ha-1) were significantly higher in the areas with low population density due to a higher average tree cover percentage (46%). Carbon sequestration rate was negatively associated with land cover types such as impervious surfaces like buildings (r = -0.44), roads (r = -0.28), grass cover (r = -0.46), and impervious other (r = -0.53). The log-linear model with scaled variables suggested that factors such as city's size and tree cover has positive influence urban trees' annual and total carbon sequestration, while spatial distribution and per capita income negatively affect these ecosystem befits in growing cities, regardless of population density. Travel time within city may have negative impact, while decadal population change may positively impact on carbon sequestration alongside management effort. Valuing this potential urban forest carbon sequestration for emerging carbon market could provide monetary benefits to the urban communities, city managers, and policymakers, enabling the development of effective urban forest management strategies in the context of urban climate change.

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影响城市森林碳吸收的因素不是人口密度,而是城市规模和人均收入:美国阿肯色州发展中城市的案例
虽然城市树木提供了重要的生态系统服务,但城市化和人口的增加对内陆无序扩张城市的碳封存潜力的影响仍然相对缺乏探索,这凸显了在日益严峻的城市环境挑战下的一个重要研究缺口。虽然现有研究表明城市森林覆盖率与碳封存之间存在密切联系,但本研究旨在调查城市人口因素如何影响低、中、高人口密度城市的土地覆盖率和碳封存。利用 i-Tree Canopy 工具,我们对美国内陆阿肯色州的 18,814 个随机点进行了采样,以估算城市土地覆盖和碳封存情况。主成分分析结果表明,城市土地覆被在人口密度等级间的变化有 74% 归因于树木和土壤覆盖率。由于平均树木覆盖率较高(46%),低人口密度地区的年平均固碳率(1.40 ± 0.08 吨/公顷-1)和总固碳率(35.30 ± 5.57 吨/公顷-1)显著较高。固碳率与土地覆被类型呈负相关,如建筑物(r = -0.44)、道路(r = -0.28)、草地(r = -0.46)和其他不透水地表(r = -0.53)等不透水地表。带有标度变量的对数线性模型表明,城市规模和树木覆盖率等因素对城市树木的年固碳量和总固碳量有积极影响,而空间分布和人均收入则对成长中城市的这些生态系统福利有消极影响,与人口密度无关。城市内的旅行时间可能会产生负面影响,而十年人口变化可能会与管理努力一起对碳封存产生积极影响。为新兴碳市场评估潜在的城市森林碳固存,可为城市社区、城市管理者和政策制定者提供货币收益,从而在城市气候变化的背景下制定有效的城市森林管理策略。
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来源期刊
Environmental Challenges
Environmental Challenges Environmental Science-Environmental Engineering
CiteScore
8.00
自引率
0.00%
发文量
249
审稿时长
8 weeks
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