多生物标志物分析在山地小河流流域有机质来源识别中的应用——以玉巴河流域为例

Q3 Agricultural and Biological Sciences San Francisco Estuary and Watershed Science Pub Date : 2022-03-17 DOI:10.15447/sfews.2022v20iss20art5
C. Pondell, E. Canuel
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引用次数: 2

摘要

土壤和沉积物中的有机物来自多种生物来源,因此往往难以确定单个来源的输入。使土壤和沉积有机质(OM)来源输入的确定复杂化的是,物理和微生物过程可能改变了这些来源的初始组成。本研究的重点是确定流域来源的OM的组成,以更好地了解内陆水域的输入,并提高我们在下游系统(如河口和海岸)中解决陆源和水生来源的能力。我们调查了加州北部尤巴河流域的OM来源,以确定代表水生和陆源OM来源的特定生物标志物。在土壤、植被、木炭和淡水浮游生物中测量了多种类型的有机代理,包括甾醇、脂肪酸(FA)、木质素酚类和稳定的碳氮同位素值(δ13C, δ15N),以表征具有代表性的源端元。甾醇(包括27-no -24-胆甾-5、22-二烯-3β-醇、胆甾-5、22-二烯-3β-醇、24-甲基胆甾-5、22-二烯-3β-醇和胆甾-5-二烯-3β-醇)和正δ15N值与水生OM(浮游生物、悬浮颗粒OM)有关,而木质素酚、长链FA和二酸则与陆源OM(土壤、木炭、植被)有关。土壤样品中有机碳和生物标志物特征的变化趋势通过有机质含量与土地利用的反比关系显示出对环境干扰(即采矿、农业)的响应。本研究的结果证明了多生物标志物研究在区分不同来源和土地利用的OM方面的实用性,为水生系统的生物地球化学研究提供了新的见解。
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Multi-Biomarker Analysis for Identifying Organic Matter Sources in Small Mountainous River Watersheds: A Case Study of the Yuba River Watershed
Organic matter in soils and sediments derives from a mixture of biological origins, often making it difficult to determine inputs from individual sources. Complicating the determination of source inputs to soil and sedimentary organic matter (OM) is the fact that physical and microbial processes have likely modified the initial composition of these sources. This study focused on identifying the composition of watershed-derived OM to better understand inputs to inland waters and improve our ability to resolve between terrigenous and aquatic sources in downstream systems, such as estuaries and coasts. We surveyed OM sources from the Yuba River watershed in northern California to identify specific biomarkers that represent aquatic and terrigenous OM sources. Multiple classes of organic proxies—including sterols, fatty acids (FA), lignin phenols and stable carbon and nitrogen isotope values (δ13C, δ15N)—were measured in soils, vegetation, charcoal, and freshwater plankton to characterize representative source endmembers. Sterols—including 27-nor-24-cholesta-5,22-dien-3β-ol, cholesta-5,22-dien-3β-ol, 24-methylcholesta-5,22-dien-3β-ol and cholesta-5-en-3β-ol, and positive δ15N values—were associated with aquatic OM (plankton, suspended particulate OM), whereas lignin phenols, long chain FA, and diacids characterized terrigenous sources (soils, charcoal, vegetation). Trends in organic carbon and biomarker signatures in soil samples showed a response to environmental disturbance (i.e., mining, agriculture) through an inverse relationship between OM content and land use. Results from this study demonstrate the utility of multi-biomarker studies for distinguishing between OM from different sources and land uses, offering new insights for biogeochemical studies in aquatic systems.
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来源期刊
San Francisco Estuary and Watershed Science
San Francisco Estuary and Watershed Science Environmental Science-Water Science and Technology
CiteScore
2.90
自引率
0.00%
发文量
24
审稿时长
24 weeks
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