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气候变化对地中海萨王纳土壤有机碳和氢同位素组成的影响():使用 Py-CSIA 的评估。

Effects of Climate Change on Soil Organic Matter C and H Isotope Composition in a Mediterranean Savannah (): An Assessment Using Py-CSIA.

机构信息

Instituto de Recursos Naturales y Agrobiología de Sevilla, Consejo Superior de Investigaciones Científicas (IRNAS-CSIC), Av. Reina Mercedes 10, 41012 Sevilla, Spain.

Universidad de Sevilla, MED Soil Res. Group, Dpt. Cristalografía, Mineralogía y Química Agrícola, Facultad de Química, C/Prof Garcia Gonzalez 1, 41012 Sevilla, Spain.

出版信息

Environ Sci Technol. 2023 Sep 19;57(37):13851-13862. doi: 10.1021/acs.est.3c01816. Epub 2023 Sep 8.

DOI:10.1021/acs.est.3c01816
PMID:37682017
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10515479/
Abstract

are Mediterranean agro-sylvo-pastoral systems sensitive to climate change. Extreme climate conditions forecasted for Mediterranean areas may change soil C turnover, which is of relevance for soil biogeochemistry modeling. The effect of climate change on soil organic matter (SOM) is investigated in a field experiment mimicking environmental conditions of global change scenarios (soil temperature increase, +2-3 °C, W; rainfall exclusion, 30%, D; a combination of both, WD). Pyrolysis-compound-specific isotope analysis (Py-CSIA) is used for C and H isotope characterization of SOM compounds and to forecast trends exerted by the induced climate shift. After 2.5 years, significant δC and δH isotopic enrichments were detected. Observed short- and mid-chain -alkane δC shifts point to an increased microbial SOM reworking in the W treatment; a H enrichment of up to 40‰ of lignin methoxyphenols was found when combining W+D treatments under the tree canopy, probably related to H fractionation due to increased soil water evapotranspiration. Our findings indicate that the effect of the tree canopy drives SOM dynamics in and that, in the short term, foreseen climate change scenarios will exert changes in the SOM dynamics comprising the biogeochemical C and H cycles.

摘要

地中海农牧林系统对气候变化敏感。地中海地区预测的极端气候条件可能会改变土壤碳的转化,这对于土壤生物地球化学模型很重要。通过模拟全球变化情景(土壤温度升高 2-3°C,W;降雨量减少 30%,D;两者结合,WD)的野外实验,研究了气候变化对土壤有机质(SOM)的影响。热裂解-化合物特定同位素分析(Py-CSIA)用于 SOM 化合物的 C 和 H 同位素特征描述,并预测了诱导的气候转变所施加的趋势。2.5 年后,检测到显著的 δC 和 δH 同位素富集。观察到的短链和中链烷烃 δC 偏移表明,W 处理中微生物 SOM 的再加工增加;当树冠下结合 WD 处理时,木质素甲氧基酚的 H 富集高达 40‰,可能与由于土壤水蒸发蒸腾增加而导致的 H 分馏有关。我们的研究结果表明,树冠的影响驱动着 SOM 的动态变化,并且在短期内,预计的气候变化情景将对包含生物地球化学 C 和 H 循环的 SOM 动态变化产生影响。

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本文引用的文献

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Sci Total Environ. 2023 Jan 20;857(Pt 1):159288. doi: 10.1016/j.scitotenv.2022.159288. Epub 2022 Oct 8.
2
Three years of warming and rainfall reduction alter leaf physiology but not relative abundance of an annual species in a Mediterranean savanna.三年的增温和降水减少改变了叶片的生理特性,但没有改变地中海草原中一年生物种的相对丰度。
J Plant Physiol. 2022 Aug;275:153761. doi: 10.1016/j.jplph.2022.153761. Epub 2022 Jun 30.
3
Variations in lignin monomer contents and stable hydrogen isotope ratios in methoxy groups during the biodegradation of garden biomass.
园林生物质生物降解过程中木质素单体含量和甲氧基中稳定氢同位素比值的变化。
Sci Rep. 2022 May 24;12(1):8734. doi: 10.1038/s41598-022-12689-1.
4
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Sci Total Environ. 2022 Aug 20;835:155535. doi: 10.1016/j.scitotenv.2022.155535. Epub 2022 Apr 27.
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Do H and O in leaf water reflect environmental drivers differently?叶片水中的 H 和 O 是否反映了不同的环境驱动因素?
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