Exposed sediments in a temperate-climate reservoir under dam decommissioning contain large stocks of highly bioreactive organic matter

IF 1.2 4区环境科学与生态学 Q4 LIMNOLOGY

Limnetica Pub Date : 2023-05-31 DOI:10.23818/limn.43.11

Mabano Amani, B. Obrador, David Fandos, A. Butturini, D. von Schiller

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引用次数: 0

Abstract

Dam decommissioning (DD) is used to solve economic and social problems posed by old dams. However, we ignore the effect of DD on the content and reactivity of large stocks of organic matter (OM) buried in reservoir sediments. We explored temporal changes in the content and reactivity of sediment OM during the first 580 days after the drawdown phase of DD of a large reservoir in the N Iberian Peninsula. We determined the content of sediment OM as organic carbon (OC) in bulk sediment OM and water-extractable OM (WEOM). We estimated the reactivity of bulk sediment OM as its respiration rate and carbon-to-nitrogen ratio, and that of sediment WEOM as its respiration rate, percent biodegradable dissolved OC (%BDOC), and SUVA254. The content of bulk sediment OM was 84 ± 5.1 (mean ± SE) mg OC/ g dry sediment, comparable to the values in the literature on sediment OM in dry sediments from lentic, but higher than in lotic ecosystems. The content of sediment WEOM was 0.81 ± 0.05 mg DOC/g dry sediment, higher than the values in the literature on sediment WEOM from lakes, soils, and rivers. On average, 41 % of WEOM was consumed by microorganisms in two days of incubation, showing the great reactivity of this OM fraction. The content of bulk sediment OM and the respiration rate of WEOM showed a nonlinear temporal trend, while %BDOC increased linearly with sediment exposure time. The labile OM produced by the vegetation that rapidly recolonized the reservoir and photoreactions may explain the temporal increase in %BDOC. Our results suggest that exposed sediments can be a source of labile OM and high C emissions in the river reach downstream of the reservoir after DD.

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在大坝退役的温带气候水库中，暴露的沉积物中含有大量高生物活性有机物

大坝退役是解决老坝带来的经济和社会问题的重要手段。然而，我们忽略了DD对水库沉积物中埋藏的大量有机质(OM)含量和反应性的影响。研究了伊比利亚半岛某大型水库DD下降后580天沉积物OM含量和反应性的时间变化。测定了沉积物OM的有机碳(OC)含量为散装沉积物OM和水萃取沉积物OM。我们用呼吸速率和碳氮比来估算大块沉积物OM的反应性，用呼吸速率、生物可降解溶解OC百分比(%BDOC)和SUVA254来估算沉积物WEOM的反应性。总体沉积物OM含量为84±5.1(平均±SE) mg OC/ g干沙，与滨海生态系统干沙OM值相当，但高于滨海生态系统。沉积物WEOM含量为0.81±0.05 mg DOC/g干沙，高于湖泊、土壤和河流沉积物WEOM的文献值。平均而言，在两天的孵育中，微生物消耗了41%的WEOM，表明该OM部分具有很强的反应性。总体沉积物OM含量和WEOM呼吸速率随沉积物暴露时间呈非线性增长趋势，而%BDOC随沉积物暴露时间呈线性增长。快速重新定殖的植被产生的不稳定有机质和光反应可能解释了BDOC %的时间增加。研究结果表明，DD后暴露的沉积物可能是水库下游河段不稳定OM和高碳排放的来源。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Limnetica LIMNOLOGY-MARINE & FRESHWATER BIOLOGY

CiteScore

3.70

自引率

7.10%

发文量

审稿时长

>12 weeks

期刊介绍： Limnetica publishes original research articles on the ecology of inland waters. The scope of Limnetica includes the ecology of rivers, lakes, reservoirs, coastal lagoons and wetlands, as well as biogeochemistry, paleolimnology, development of new methodologies, taxonomy, biogeography and any aspect of theoretical and applied continental aquatic ecology such as management and conservation, impact assessment, ecotoxicology and pollution. Limnetica will accept for its publication scientific articles presenting advances in knowledge or technological development, as well as as papers derived from new practical approaches on the topics covered by the journal.