Asymmetric responses of EVI and tree ring growth to extreme climate on the northeastern margin of the Tibetan Plateau.

IF 3 3区 地球科学 Q2 BIOPHYSICS International Journal of Biometeorology Pub Date : 2024-10-02 DOI:10.1007/s00484-024-02786-3
Mengyuan Wei, Liang Jiao, Peng Zhang, Ruhong Xue, Xuge Wang, Qian Li
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Abstract

Extreme climate events have increased in terms of their amplitudes, frequency and severity, greatly affecting ecosystem functions and the balance of the global carbon cycle. However, there are still uncertainties about how extreme climate change will affect tree growth. This study characterized the responses of tree growth to extreme climate on the northeastern Tibetan Plateau from 2000 to 2020. Meanwhile, a back propagation neural network was used to predict tree growth trends under two future emission scenarios from 2020 to 2050. This study revealed that: (1) the tree-ring width index (RWI) showed a decreasing trend (- 0.04/decade) in the eastern region, but the enhanced vegetation index (EVI) showed an increasing trend (0.05/decade) from 2000 to 2020. While both RWI and EVI in the middle and western regions showed increasing trends. (2) The responses of RWI and EVI to extreme climate were regionally asymmetric. In the eastern region, extreme precipitation inhibited tree radial growth, while extreme warm nights promoted tree canopy growth. In two other regions, both extreme precipitation and extreme warm nights promoted tree growth. (3) The model predicts that there was no significant change in RWI and EVI in the western region, but both RWI and EVI showed an increasing trend in the middle and eastern regions under the low emission scenario. Under the high emission scenario, the growth of tree stem and canopy in all three regions shows a general decreasing trend. The results of this study both improved the understanding of the differences in carbon allocation between tree stem (RWI) and canopy (EVI) and identified vulnerability thresholds for tree populations.

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青藏高原东北部边缘地区经济脆弱性指数和树环生长对极端气候的非对称响应。
极端气候事件的幅度、频率和严重程度都在增加,极大地影响了生态系统功能和全球碳循环的平衡。然而,极端气候变化对树木生长的影响仍存在不确定性。本研究描述了青藏高原东北部从2000年到2020年树木生长对极端气候的响应。同时,利用反向传播神经网络预测了 2020 至 2050 年两种未来排放情景下的树木生长趋势。研究结果表明(1) 2000 至 2020 年,东部地区的树环宽度指数(RWI)呈下降趋势(- 0.04/十年),但增强植被指数(EVI)呈上升趋势(0.05/十年)。而中西部地区的 RWI 和 EVI 均呈上升趋势。(2)RWI 和 EVI 对极端气候的响应呈现区域不对称。在东部地区,极端降水抑制了树木径向生长,而极端暖夜则促进了树冠生长。在另外两个地区,极端降水和极端暖夜都促进了树木的生长。(3)根据模式预测,在低排放情景下,西部地区的 RWI 和 EVI 没有显著变化,但中部和东部地区的 RWI 和 EVI 均呈上升趋势。在高排放情景下,三个地区的树干和树冠生长量总体呈下降趋势。这项研究的结果既加深了人们对树木茎干(RWI)和树冠(EVI)碳分配差异的理解,又确定了树木种群的脆弱性阈值。
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来源期刊
CiteScore
6.40
自引率
9.40%
发文量
183
审稿时长
1 months
期刊介绍: The Journal publishes original research papers, review articles and short communications on studies examining the interactions between living organisms and factors of the natural and artificial atmospheric environment. Living organisms extend from single cell organisms, to plants and animals, including humans. The atmospheric environment includes climate and weather, electromagnetic radiation, and chemical and biological pollutants. The journal embraces basic and applied research and practical aspects such as living conditions, agriculture, forestry, and health. The journal is published for the International Society of Biometeorology, and most membership categories include a subscription to the Journal.
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