Attributing Vegetation Recovery During the Indian Summer Monsoon to Climate Drivers in Central India

Q3 Agricultural and Biological Sciences

Ecology Economy and Society - The INSEE Journal Pub Date : 2023-01-31 DOI:10.37773/ees.v6i1.927

V. Chandel, Tejasvi Chauhan

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Abstract

Increasing droughts and heat waves as a result of global warming pose a major threat to forests and croplands in India. Monitoring the dynamics of vegetation during a drought and its recovery is essential for the Indian socio-economy and biodiversity. We investigate vegetation recovery from a stressed state in the pre-monsoon (May) period to the end of the monsoon period (September). We then attribute net change during the monsoon period to climate drivers such as temperature, precipitation, and soil moisture. To delineate non-linear interactions, we use an information-theoretic metric to understand the relative association of climate variables with vegetation productivity on a daily scale. We found that pre-monsoon vegetation stress is influenced by soil moisture (r = 0.8, p < 0.01), which is driven by variations in temperature and precipitation. During the monsoons, precipitation contributes to vegetation recovery from pre-monsoon stress through soil moisture recharge while inhibiting vegetation productivity by limiting the amount of radiation available for photosynthesis. Linear regression shows the significant negative dependence of vegetation recovery on precipitation (β = –0.7, p < 0.01) and positive dependence on soil moisture (β = 0.4, p < 0.1) indicating radiation limitation on photosynthesis...

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将印度夏季风期间植被恢复归因于印度中部气候驱动因素

全球变暖导致的日益严重的干旱和热浪对印度的森林和农田构成了重大威胁。监测干旱期间植被的动态及其恢复对印度的社会经济和生物多样性至关重要。我们研究了从季风前(5月)到季风末期(9月)的植被恢复情况。然后，我们将季风期的净变化归因于气候驱动因素，如温度、降水和土壤湿度。为了描述非线性相互作用，我们使用信息理论度量来理解气候变量与植被生产力在日尺度上的相对关联。研究发现，季风前植被应力受土壤湿度的影响(r = 0.8, p < 0.01)，土壤湿度受温度和降水变化的驱动。在季风期间，降水通过土壤水分补给有助于植被从季风前胁迫中恢复，同时通过限制光合作用可用的辐射量抑制植被生产力。线性回归表明，植被恢复与降水呈显著负相关(β = -0.7, p < 0.01)，与土壤湿度呈正相关(β = 0.4, p < 0.1)，表明辐射对光合作用有限制。

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