Multi-tracer evidence of hydrology and primary production controls on dissolved organic matter composition and stability in the semi-arid aquatic continuum

IF 4.5 1区 地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS Geochimica et Cosmochimica Acta Pub Date : 2024-09-17 DOI:10.1016/j.gca.2024.09.015
Mingyu Shao , Zaihua Liu , Hailong Sun , Haibo He , Qiang Li , Sibo Zeng , Junyao Yan , Yan Fang , Qiufang He , Hailong Liu , Liangxing Shi , Chaowei Lai
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Abstract

Autochthonous dissolved organic matter (Auto-DOM) produced by a biological carbon pump using dissolved inorganic carbon (DIC) from carbonate weathering plays an important role in carbon cycling within inland waters. However, little is known regarding how environmental conditions impact the composition and fate of organic matter, especially in surface waters of the semi-arid Loess Plateau, which is enriched in DIC by significant carbonate weathering. To obtain novel insight, we combined hydrochemistry, isotopic composition (δ2H, δ18O, and δ13CDIC), Rayleigh fractionation model, optical spectroscopy (absorbance and fluorescence), and Fourier transform ion cyclotron resonance mass spectrometry measurements to elucidate how primary production and hydrology impact the composition of DOM and the stability of the resulting Auto-DOM throughout the river–reservoir–wetland aquatic continuum of the Bahe River in the carbonate-mineral-rich semi-arid Loess Plateau where carbonate weathering is significant. The Rayleigh fractionation model results indicated that watershed DIC is primarily consumed through aquatic primary production rather than CO2 degassing. Further investigation revealed that primary production and evaporation co-occurred in this watershed. With the enrichment of the stable water isotope δ2H, the relative abundances of the allochthonous compounds decreased and the relative abundances of the autochthonous substances increased, suggesting that the terrestrial signal of riverine DOM decreased while autochthonous production increased along the flow pathway. In addition, associations between optical and molecular characteristics among DOM samples from different water bodies revealed that the stability ratio (Fmax(C2/(C2 + C4))) of Auto-DOM to the ratio of carboxylic-rich alicyclic molecules showed a consistent trend, suggesting that phytoplankton-derived and biomineralized C2 compounds are potentially recalcitrant DOM in inland waters. We conclude that hydrology and primary production affect the source, composition, and, potentially, the stability of DOM in DIC-enriched surface waters of the semi-arid Loess Plateau, which may lead to a more humic-like DOM composition in inland water and export this lower bioavailability DOC to the ocean in the long term.

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水文和初级生产对半干旱水生连续体中溶解有机物组成和稳定性的多示踪控制证据
由生物碳泵利用碳酸盐风化产生的溶解无机碳(DIC)产生的自生溶解有机物(Auto-DOM)在内陆水域的碳循环中发挥着重要作用。然而,人们对环境条件如何影响有机物的组成和归宿知之甚少,尤其是在半干旱的黄土高原表层水域,因为碳酸盐风化作用使其富含 DIC。为了获得新的见解,我们将水化学、同位素组成(δ2H、δ18O 和 δ13CDIC)、瑞利分馏模型、光学光谱(吸光度和荧光)以及傅立叶变换离子回旋加速器结合起来、傅立叶变换离子回旋共振质谱测量,以阐明在富含碳酸盐矿物、碳酸盐风化严重的半干旱黄土高原,初级生产和水文如何影响灞河整个河流-水库-湿地水生连续体中 DOM 的组成以及由此产生的 Auto-DOM 的稳定性。瑞利分馏模型的结果表明,流域 DIC 主要是通过水生初级生产而非 CO2 脱气消耗的。进一步调查显示,该流域的初级生产和蒸发同时存在。随着稳定水同位素δ2H的富集,同源化合物的相对丰度降低,而自生物质的相对丰度升高,这表明河流 DOM 的陆地信号减少,而沿水流路径的自生物质增加。此外,不同水体 DOM 样品的光学和分子特征之间的联系表明,自生 DOM 的稳定性比值(Fmax(C2/(C2 + C4))与富含羧基的脂环族分子的比值呈一致趋势,这表明浮游植物衍生的和生物矿化的 C2 化合物是内陆水体中潜在的难降解 DOM。我们的结论是,水文和初级生产会影响半干旱黄土高原富含 DIC 的地表水中 DOM 的来源、组成以及潜在的稳定性,这可能会导致内陆水体中的 DOM 组成更像腐殖质,并将这种生物利用率较低的 DOC 长期输出到海洋中。
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来源期刊
Geochimica et Cosmochimica Acta
Geochimica et Cosmochimica Acta 地学-地球化学与地球物理
CiteScore
9.60
自引率
14.00%
发文量
437
审稿时长
6 months
期刊介绍: Geochimica et Cosmochimica Acta publishes research papers in a wide range of subjects in terrestrial geochemistry, meteoritics, and planetary geochemistry. The scope of the journal includes: 1). Physical chemistry of gases, aqueous solutions, glasses, and crystalline solids 2). Igneous and metamorphic petrology 3). Chemical processes in the atmosphere, hydrosphere, biosphere, and lithosphere of the Earth 4). Organic geochemistry 5). Isotope geochemistry 6). Meteoritics and meteorite impacts 7). Lunar science; and 8). Planetary geochemistry.
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