Future (2020–2099) Carbon and Water Dynamics of Lehigh Valley Based on Land Use and Land Cover Change

Environments Pub Date : 2024-06-24 DOI:10.3390/environments11070133

Benjamin S. Felzer, Christopher Andrade

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Abstract

Increased urbanization has reduced the amount of green space, resulting in a reduced carbon sink potential across urban landscapes. Through the use of biogeochemical modeling, different land use scenarios have been developed and run for the future (2020–2099) to compare and quantify the potential for change in carbon and water dynamics by having more tree cover and reducing impervious surfaces or turf lawns in Lehigh Valley, PA. These results show that the effect of deforestation is larger than the effect of reforestation. Due to young-stand age trees having a lower capacity for carbon storage than mature trees, the loss of the mature trees has a more immediate impact. The conversion of lawns or impervious surfaces to forests has somewhat similar effects, although the higher nutrients of lawns allow the forest to grow better. However, replacing impervious surfaces with trees reduces runoff more. This study shows that within the city of Bethlehem, the most socially vulnerable area benefits the most from increasing the number of trees. When converting 25% of the impervious area to forest, South Bethlehem significantly increased its vegetation carbon, productivity, and carbon storage, reduced its runoff, and generally created a safer and cleaner environment for residents.

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基于土地利用和土地覆盖变化的未来（2020-2099 年）利哈伊谷碳和水动态变化

城市化的加剧减少了绿地面积，导致整个城市景观的碳汇潜力降低。通过使用生物地球化学模型，我们开发了不同的土地利用方案，并在未来（2020-2099 年）运行，以比较和量化宾夕法尼亚州利哈伊谷通过增加树木覆盖、减少不透水表面或草坪而改变碳和水动态的潜力。这些结果表明，砍伐森林的影响大于重新造林的影响。由于幼龄树的碳储存能力低于成龄树，因此成龄树的损失会产生更直接的影响。将草坪或不透水的表面转化为森林也有类似的效果，尽管草坪的养分较高，可以让森林生长得更好。不过，用树木取代不透水的地面可以减少更多径流。这项研究表明，在伯利恒市，社会最脆弱的地区从增加树木数量中受益最大。在将 25% 的不透水面积转化为森林后，南伯利恒显著增加了植被碳、生产力和碳储存，减少了径流，总体上为居民创造了一个更安全、更清洁的环境。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Environments

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