Reservoir impoundment alters surrounding plant physiological activities revealed by stable isotopes in tree rings

IF 7 2区环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES

Ecological Indicators Pub Date : 2025-04-24 DOI:10.1016/j.ecolind.2025.113519

Lian Sun , Yanpeng Cai , Yesi Zhao , Zixun Qi , Xinsheng Liu , Hongkai Gao , Lu Wang , Suyan Dai , Siyuan Lu , Jiejun Wang , Xijie Yin

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引用次数: 0

Abstract

Reservoir impoundment influences the growth of surrounding plants by altering the microclimate. However, the physiological mechanism of responses remains unclear. Due to the long tree-ring sequences and the distinct physiological mechanisms of stable isotopes in tree rings, we employed the technique of tree-ring carbon and oxygen isotopes to assess the physiological response to reservoir impoundment. We collected the tree rings of Pinus yunnanensis Franch. surrounding the Ertan Reservoir in southwestern China, and calculated the annual discrimination capabilities of ¹³C and ¹⁸O (i.e., Δ¹³C and Δ¹⁸O) in cellulose–α. Using moving window correlation analysis and a carbon–oxygen dual-isotope model, we identified shifts in the response patterns. The results indicate no significant difference in Δ¹⁸O across the impoundment timeline. Compared with before impoundment period (1980–1997), Δ¹³C increases during initial impoundment period (1998–2004), followed by a rapid decline and stabilization during stable impoundment period (2005–2020). The ¹⁸O enrichment in P. yunnanensis is mainly driven by the uptake of surface soil water in late-growing season (notably Sept.). Reservoir impoundment attenuates Sept. humidity declines, stabilizing surface soil moisture and stomatal conductance. In contrast, ¹³C discrimination correlates closely with environmental conditions in early growing season (especially Jun.). During the initial impoundment period, high humidity limits the stomatal conductance, while lower air temperature reduces photosynthetic activity. At the onset of the stable impoundment period, the regional climate changes reversely with reservoir microclimate unable to counteract the regional shifts. Under the interactive effects of temperature and humidity, the photosynthetic capacity increases markedly, leading to a decline in Δ¹³C. As environmental conditions stabilize in the stable impoundment period, Δ¹³C also remains unchanged. These findings will promote our ability to predict future impacts of large-scale engineering on terrestrial ecosystems under global climate change.

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水库蓄水改变了树木年轮稳定同位素揭示的周围植物生理活动

水库蓄水通过改变小气候影响周围植物的生长。然而，这些反应的生理机制尚不清楚。由于树木年轮序列较长，且树木年轮稳定同位素的生理机制不同，我们采用树木年轮碳氧同位素技术来评估水库蓄水对树木生理反应的影响。我们采集了云南松的年轮。计算了13C和18O（即Δ13C和Δ18O）在纤维素-α中的年分辨能力。利用移动窗口相关分析和碳氧双同位素模型，我们确定了响应模式的变化。结果表明，Δ18O在整个蓄水时间内没有显著差异。与蓄水前（1980-1997）相比，Δ13C在初始蓄水期（1998-2004）上升，随后在稳定蓄水期（2005-2020）迅速下降并趋于稳定。云南云杉18O的富集主要受生长后期（特别是9月）对表层土壤水分的吸收驱动。水库蓄水减弱了9月的湿度下降，稳定了表层土壤水分和气孔导度。13C的辨别与生长季早期（尤其是6月）的环境条件密切相关。在初始蓄水期，高湿度限制了气孔导度，而低温度则降低了光合活性。稳定蓄水期开始时，区域气候呈反向变化，水库小气候不能抵消区域变化。在温度和湿度的交互作用下，光合能力显著增加，导致Δ13C下降。随着稳定蓄水期环境条件的稳定，Δ13C也保持不变。这些发现将提高我们在全球气候变化下预测大规模工程对陆地生态系统未来影响的能力。

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来源期刊

Ecological Indicators 环境科学-环境科学

CiteScore

11.80

自引率

8.70%

发文量

1163

审稿时长

78 days

期刊介绍： The ultimate aim of Ecological Indicators is to integrate the monitoring and assessment of ecological and environmental indicators with management practices. The journal provides a forum for the discussion of the applied scientific development and review of traditional indicator approaches as well as for theoretical, modelling and quantitative applications such as index development. Research into the following areas will be published. • All aspects of ecological and environmental indicators and indices. • New indicators, and new approaches and methods for indicator development, testing and use. • Development and modelling of indices, e.g. application of indicator suites across multiple scales and resources. • Analysis and research of resource, system- and scale-specific indicators. • Methods for integration of social and other valuation metrics for the production of scientifically rigorous and politically-relevant assessments using indicator-based monitoring and assessment programs. • How research indicators can be transformed into direct application for management purposes. • Broader assessment objectives and methods, e.g. biodiversity, biological integrity, and sustainability, through the use of indicators. • Resource-specific indicators such as landscape, agroecosystems, forests, wetlands, etc.