Greening and Water Use Efficiency during a period of high frequency of droughts in the Brazilian semi-arid

IF 2.6 Q2 WATER RESOURCES
Luiz Felipe Rezende, Lincoln Alves, Alexandre Augusto Barbosa, A. Sales, G. Pedra, Rômulo Simões Cézar Menezes, Gustavo Felipe Arcoverde, Jean Pierre Ometto
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Abstract

A discussion that has occurred in the scientific community is that despite the increase in the frequency of droughts, the semi-arid world may be increasing the density of vegetation due to fertilization by the increase in atmospheric CO2, a phenomenon called “greening.” Through this study, we sought to evaluate and discuss whether this “greening” would also be occurring in the Brazilian semiarid and what would be its contribution or counterpoint about droughts. Another topic covered was Water Use Efficiency (WUE), about its contribution to mitigating droughts. We chose eight study areas in which the native vegetation was preserved for periods of around 20 years or more. We used data from the Leaf Area Index (LAI), Gross Primary Productivity (GPP), precipitation, evaporation, transpiration, and soil moisture. We divided into two distinct periods to calculate the means of these variables. We applied the Standardized Precipitation Index (SPI) to identify the frequency of droughts for the period from 1961 to 2020. It was observed that between 2001 and 2020, there was an increase in the relative frequency of extreme and exceptional droughts around 19 and 11%, respectively. Our results showed evidence of “greening” for only two sites that were less impacted by droughts, and it seems that the CO2 fertilizer effect could not compensate for the scarcity of water in the other locations of our study. However, WUE was present in almost all sites, which may be a factor in mitigating the impacts of the high frequency of droughts.
巴西半干旱地区干旱频发时期的绿化和用水效率
科学界一直在讨论的一个问题是,尽管干旱发生的频率增加,但半干旱地区的植被密度可能会因大气中二氧化碳的增加而增加,这种现象被称为 "绿化"。通过这项研究,我们试图评估和讨论巴西半干旱地区是否也会出现这种 "绿化 "现象,以及这种现象对干旱的影响或反作用。研究的另一个主题是用水效率(WUE)及其对缓解干旱的贡献。我们选择了八个原生植被保存时间在 20 年或 20 年以上的研究区域。我们使用了叶面积指数(LAI)、初级生产力总值(GPP)、降水量、蒸发量、蒸腾量和土壤湿度等数据。我们将这些变量分为两个不同的时期来计算平均值。我们采用标准化降水指数(SPI)来确定 1961 年至 2020 年期间的干旱频率。据观察,2001 年至 2020 年期间,极端干旱和特殊干旱的相对频率分别增加了 19% 和 11%。我们的研究结果表明,只有两个受干旱影响较小的地点出现了 "绿化 "迹象,看来二氧化碳肥料效应无法弥补其他研究地点的缺水问题。不过,几乎所有地点都出现了水分利用效率(WUE),这可能是减轻高频率干旱影响的一个因素。
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来源期刊
Frontiers in Water
Frontiers in Water WATER RESOURCES-
CiteScore
4.00
自引率
6.90%
发文量
224
审稿时长
13 weeks
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