Impacts of Extreme Drought on Forest Ecosystems Reveal Species-Specific Adaptation Differences

Published 15 July, 2024

A recent study from China has shed light on the profound impacts of extreme droughts on forest ecosystems, particularly in water-limited regions. The findings revealed significant differences in how various tree species respond to such stressors.

Conducted in the Horqin Sandy Land of Northeast China, the research used dendrochronology and remote sensing techniques to examine the responses of both native maple-oak forests and introduced poplar plantations to extreme drought conditions. The study's findings, published in the KeAi journal Forest Ecosystems, underscore the critical role of precipitation and the self-calibrated Palmer Drought Severity Index (scPDSI) in influencing tree growth and vegetation health.

The severe droughts experienced between 2000 and 2004 led to notable declines in radial growth and vegetation index (NDVI) across the studied tree species. The impact was particularly severe on the poplar species, with fast-growing poplar species showing more dramatic declines in growth rates and vegetation health than native maple and oak species. This indicates a species-specific trade-off between drought resilience and growth rate, with fast-growing species like poplar being more vulnerable to drought conditions.

Moreover, the study discovered that while radial growth showed no significant correlation with scPDSI, NDVI demonstrated a significant positive correlation, highlighting the greater sensitivity of canopy performance to drought stress than on the scale of inter-annual events radial growth.

These insights are crucial for forest management and afforestation efforts, especially in the context of climate change. Understanding species-specific responses to extreme droughts can guide the selection of tree species that are better suited to withstand water-limited conditions, ensuring the sustainability and resilience of forest ecosystems.

Tree growth is affected by the interaction of complex physiological processes among various organs, and resource availability is the key factor. CREDIT: The AUTHORS

Contact author details: 

Han Shi, CAS Key Laboratory of Forest Ecology and Silviculture, Institute of Applied Ecology, Chinese Academy of Sciences, Shenyang, China,

shihan19950404@163.com

Funder: 

This work was supported by the National Natural Science Foundation of China (32220103010, 32192431, 31722013), the National Key R & D Program of China (2023YFF1304201, 2020YFA0608100). the Major Program of Institute of Applied Ecology, Chinese Academy of Sciences (IAEMP202201).

Conflict of interest: 

The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.

See the article: 

Shi, Han, et al., Resilience and response: Unveiling the impacts of extreme droughts on forests through integrated dendrochronological and remote sensing analyses, Forest Ecosystems (2024): 100209. https://www.sciencedirect.com/science/article/pii/S2197562024000459

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