亚热带季节性洪涝湿地和非洪涝滨地森林的土壤有机碳储量取决于不同的物理化学特征

IF 3.6 2区农林科学 Q2 ENVIRONMENTAL SCIENCES

Land Degradation & Development Pub Date : 2024-10-22 DOI:10.1002/ldr.5350

Zhifen Yuan, Chun Fu, Jie Liu, Fei Leng, Christoph Weihrauch, Jörg Rinklebe, Johannes Rousk, Bofu Zheng, Ruichang Shen

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引用次数: 0

摘要

近年来，越来越多的生态系统受到季节性洪水的威胁，非洪水淹没的海岸带（NF）变成了季节性洪水淹没的湿地（SF），但这种水文变化对土壤有机碳（SOC）动态的影响仍然未知。在本研究中，我们调查了中国亚热带升金湖相邻SF和NF六个深度（0-10 cm、10-20 cm、20-30 cm、30-50 cm、50-70 cm和70-100 cm）的淹水持续时间和土壤理化变量如何决定SOC含量。对土壤物理化学和 SOC 成分进行了分析，并利用傅立叶变换红外光谱（FTIR）分析了 SOC 成分。不同地点之间的 SOC 含量和垂直分布均无差异。不过，傅立叶变换红外光谱数据显示，植物源脂肪烃和酰胺在 NF 位点的含量高于 SF 位点，而芳香烃的含量则与之相反。在 SF 地点，SOC 含量受土壤湿度和淹水持续时间的积极影响，在大多数土层受土壤颗粒大小的消极影响。在 NF 地点，SOC 含量主要受顶部 20 厘米土壤中淤泥和总铁的影响，而在 30-100 厘米深度，植物来源的可溶性碳的比例较高，这与 SOC 含量呈正相关。因此，研究结果表明，季节性洪水对陆地生态系统中的 SOC 动态有很大影响。低矿化度和高吸附性导致的 SOC 稳定化在 SF 地点起着核心作用，而通过植物输入形成的 SOC 在 NF 地点更为重要。我们的研究结果表明，保护 SOC 的管理策略必须因地制宜。

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Soil Organic Carbon Stocks Depend Differently on Physicochemical Features in Subtropical Seasonally Flooded Wetland and Non-flooded Shoreland Forest

In recent years, an increasing number of ecosystems are threatened by seasonal flooding, changing non-flooded shoreland (NF) into seasonally flooded wetland (SF), but the consequences of this hydrological change for soil organic carbon (SOC) dynamics remain unknown. In this study, we investigated how the SOC content was determined by flooding duration and soil physicochemical variables in adjacent SF and NF at six depths (0–10 cm, 10–20 cm, 20–30 cm, 30–50 cm, 50–70 cm, and 70–100 cm) at Shengjin Lake in subtropical China. Soil physicochemistry and SOC composition were analyzed, and Fourier-transformed infrared spectroscopy (FTIR) was used to resolve the SOC composition. Neither SOC content nor the vertical distribution of SOC was distinguishable between the sites. However, FTIR data revealed that plant-originated aliphatics and amides were higher at NF than SF sites, with the opposite pattern for aromatics. At SF sites, SOC content was positively affected by soil moisture and flooding duration and was negatively impacted by soil particle size at most soil layers. At NF sites, SOC content was mainly affected by silt and total Fe at the top 20 cm soil, while a higher fraction of plant-derived labile C was positively correlated to SOC contents at 30–100 cm depth. The results hence indicated a strong effect of seasonal flooding on SOC dynamics in terrestrial ecosystems. SOC stabilization induced by low mineralization and high adsorption played a central role at SF sites, while SOC formation through plant input was more important at NF sites. Our findings suggest that management strategies designed to conserve SOC will need to be site-specific.

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来源期刊

Land Degradation & Development 农林科学-环境科学

CiteScore

7.70

自引率

8.50%

发文量

379

审稿时长

5.5 months

期刊介绍： Land Degradation & Development is an international journal which seeks to promote rational study of the recognition, monitoring, control and rehabilitation of degradation in terrestrial environments. The journal focuses on: - what land degradation is; - what causes land degradation; - the impacts of land degradation - the scale of land degradation; - the history, current status or future trends of land degradation; - avoidance, mitigation and control of land degradation; - remedial actions to rehabilitate or restore degraded land; - sustainable land management.