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We also proposed a method to quantify the magnitude of hysteresis (A<sub>hys</sub>) for both the crossed and closed hystereses. Our analysis suggests that a lower A<sub>hys</sub> of two time series results in (a) a larger crossing degree of hysteresis, and (b) a stronger linear correlation between the two time series. The seasonal variation of soil water content can explain the variation in A<sub>hys</sub> for the hysteresis response of SF to Rsi, and the crossed hysteresis of SF is more likely to occur under water stress conditions. 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The diurnal cycle of SF usually lags the Rsi cycle by certain hours, thereby generating a closed counterclockwise hysteresis pattern. However, a few studies have reported that diurnal SF cycle may advance Rsi cycle, and such a response pattern has not been fully explored. In this study, we reported a rarely seen crossed hysteresis response pattern of SF to Rsi in 1/3 trees of a young temperate pine forest. We found that the diurnal SF cycle advances Rsi cycle especially in the morning induced by the early stomatal closure, thereby generating the crossed hysteresis response of SF to Rsi. We also proposed a method to quantify the magnitude of hysteresis (A<sub>hys</sub>) for both the crossed and closed hystereses. Our analysis suggests that a lower A<sub>hys</sub> of two time series results in (a) a larger crossing degree of hysteresis, and (b) a stronger linear correlation between the two time series. The seasonal variation of soil water content can explain the variation in A<sub>hys</sub> for the hysteresis response of SF to Rsi, and the crossed hysteresis of SF is more likely to occur under water stress conditions. 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引用次数: 0
摘要
树木汁液通量(SF)对其主要驱动因素入射短波辐射(Rsi)的滞后响应已被广泛报道,影响了森林生态系统中汁液通量和蒸腾估算的准确性。SF 的昼夜周期通常滞后于 Rsi 周期若干小时,从而产生一种封闭的逆时针滞后模式。然而,也有少数研究报道 SF 的昼夜周期可能会使 Rsi 周期提前,而这种响应模式尚未得到充分探讨。在本研究中,我们报告了温带松树幼林中 1/3 树木的 SF 对 Rsi 的罕见交叉滞后响应模式。我们发现,昼夜 SF 周期会推进 Rsi 周期,尤其是在气孔关闭较早的早晨,从而产生 SF 对 Rsi 的交叉滞后响应。我们还提出了一种方法来量化交叉滞后和闭合滞后的滞后幅度(Ahys)。我们的分析表明,两个时间序列的 Ahys 越小,(a) 交叉滞后程度越大,(b) 两个时间序列之间的线性相关越强。土壤含水量的季节性变化可以解释 SF 对 Rsi 的滞后响应的 Ahys 变化,而 SF 的交叉滞后更可能发生在水分胁迫条件下。这项研究有助于加深我们对森林蒸腾作用以及森林如何应对干旱胁迫的理解,预计在未来气候变化的影响下,干旱胁迫将变得更加频繁和持久。
A Novel Crossed Hysteresis Response Pattern of Sap Flux to Solar Radiation
The hysteresis response of tree sap flux (SF) to its main driving factor of incoming short-wave radiation (Rsi) has been widely reported, affecting the accuracy of sap flux and transpiration estimates in forest ecosystems. The diurnal cycle of SF usually lags the Rsi cycle by certain hours, thereby generating a closed counterclockwise hysteresis pattern. However, a few studies have reported that diurnal SF cycle may advance Rsi cycle, and such a response pattern has not been fully explored. In this study, we reported a rarely seen crossed hysteresis response pattern of SF to Rsi in 1/3 trees of a young temperate pine forest. We found that the diurnal SF cycle advances Rsi cycle especially in the morning induced by the early stomatal closure, thereby generating the crossed hysteresis response of SF to Rsi. We also proposed a method to quantify the magnitude of hysteresis (Ahys) for both the crossed and closed hystereses. Our analysis suggests that a lower Ahys of two time series results in (a) a larger crossing degree of hysteresis, and (b) a stronger linear correlation between the two time series. The seasonal variation of soil water content can explain the variation in Ahys for the hysteresis response of SF to Rsi, and the crossed hysteresis of SF is more likely to occur under water stress conditions. This study contributes to advancing our understanding of forest transpiration and how forests may respond to drought stress, which are expected to become more frequent and longer under future climate change.
期刊介绍:
JGR-Biogeosciences focuses on biogeosciences of the Earth system in the past, present, and future and the extension of this research to planetary studies. The emerging field of biogeosciences spans the intellectual interface between biology and the geosciences and attempts to understand the functions of the Earth system across multiple spatial and temporal scales. Studies in biogeosciences may use multiple lines of evidence drawn from diverse fields to gain a holistic understanding of terrestrial, freshwater, and marine ecosystems and extreme environments. Specific topics within the scope of the section include process-based theoretical, experimental, and field studies of biogeochemistry, biogeophysics, atmosphere-, land-, and ocean-ecosystem interactions, biomineralization, life in extreme environments, astrobiology, microbial processes, geomicrobiology, and evolutionary geobiology
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