Cenostigma pluviosum Tree Stem Growth and Carbon Storage in a Subtropical Urban Environment: A Case Study in Sao Paulo City

Forests Pub Date : 2024-07-16 DOI:10.3390/f15071239

Julia Rodrigues-Leite, Denise Duarte, A. Moser-Reischl, T. Rötzer

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Abstract

Our aim is to contribute to understanding the role of subtropical trees on carbon storage and CO2 removal in the city of Sao Paulo/Brazil, besides highlighting the surrounding environment implications to sibipiruna trees (Cenostigma pluviosum)’s performance. The case study was conducted with three trees, one planted on a sidewalk in Pinheiros neighborhood, a highly sealed area, and two in a green area, the Ibirapuera Park. To define the stem basal area growth and its pattern, local measurements were taken over a year and a segmented linear regression model was adjusted. The stem growth dependency on microclimate was tested by a Spearman Correlation. The trees’ active stem growth presented a similar pattern. The soil volumetric water content and soil temperatures were the variables with more impact. The total mean radial stem growth for the IBIRA1 and IBIRA2 trees was 1.2 mm year−1 and 3 mm year−1, while at PIN1 it was 1.3 mm year−1. The total biomass increment in IBIRA1 and IBIRA2 was 4.2 kg C year−1 and 12.8 kg C year−1, while in PIN it was 4.9 kg C year−1 and the removal was 15.3 C year−1, 47.1 kg CO2 year−1 and 17.9 kg CO2 year−1, respectively. The results indicated that the land cover difference implies a significant interference with the promotion of carbon fixation and CO2 removal, demonstrating that planting urban trees in soils with better water storage conditions is more efficient.

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亚热带城市环境中的 Cenostigma pluviosum 树茎生长与碳储存：圣保罗市案例研究

我们的目的是帮助人们了解亚热带树木在巴西圣保罗市碳储存和二氧化碳清除方面的作用，同时强调周围环境对西比鲁纳树（Cenostigma pluviosum）性能的影响。案例研究以三棵树为对象，一棵种植在高度密封地区 Pinheiros 社区的人行道上，另两棵种植在绿化区 Ibirapuera 公园。为了确定茎基部面积的增长及其模式，在当地进行了为期一年的测量，并调整了分段线性回归模型。通过斯皮尔曼相关性检验了茎干生长与小气候的相关性。树木的有效茎干生长呈现出类似的模式。土壤容积含水量和土壤温度是影响较大的变量。IBIRA1 和 IBIRA2 树木的茎干径向总平均生长量分别为每年 1.2 毫米和每年 3 毫米，而 PIN1 的茎干径向总平均生长量为每年 1.3 毫米。IBIRA1 和 IBIRA2 的生物量总增量分别为每年 4.2 千克 C 和每年 12.8 千克 C，而 PIN 的生物量总增量为每年 4.9 千克 C，去除量分别为每年 15.3 C、每年 47.1 千克 CO2 和每年 17.9 千克 CO2。结果表明，土地覆被的差异对促进碳固定和二氧化碳的去除有明显的干扰，这表明在蓄水条件较好的土壤中种植城市树木更有效。

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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