夜间增温重塑淡水湿地的热量状态 : 可能引起湿地碳循环级联效应

doi:10.1093/jpe/rtaf074

Journal of Plant Ecology ›› 2025, Vol. 18 ›› Issue (4): 1-41.DOI: 10.1093/jpe/rtaf074

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夜间增温重塑淡水湿地的热量状态 : 可能引起湿地碳循环级联效应

收稿日期:2024-10-09 接受日期:2025-05-12 出版日期:2025-08-01 发布日期:2025-08-22

Nighttime warming reshapes thermal regimes in freshwater wetlands: cascading effects on carbon dynamics

Chao Wang¹, Jiayin Feng^1,2, Jian Song^1,2, Hongpeng Wang^1,2, Jinhua Zhang^1,2, Jingyi Ru^1,2, Yaru Lyu¹, Wenjing Ma¹, Zixuan Yang¹, Mengyu Yan¹, Xueli Qiu^1,2, Shiqang Wan^1,2*

¹School of Life Sciences/Hebei Basic Science Center for Biotic Interaction, Institute of Life Science and Green Development, Hebei University, Baoding 071002, China
²Engineering Research Center of Ecological Safety and Conservation in Beijing-Tianjin-Hebei (Xiong’an New Area) of MOE, Baoding 071002, China

^*Correspondence author: Shiqiang Wan
Email: swan@hbu.edu.cn

Received:2024-10-09 Accepted:2025-05-12 Online:2025-08-01 Published:2025-08-22
Supported by:
This work was financially supported by the Hebei Natural Science Foundation (C2022201042), High-level Talent Research Funding Project of Hebei University (521000981186, 521000981405), Science and Technology Project of Hebei Education Department (QN2023028), and Collaborative Innovation Center for Baiyangdian Basin Ecological Protection and BeijingTianjin-Hebei Sustainable Development. C. W. received funding from the National Innovative Entrepreneurship Training Program for college students (S202310075047, S202410075044).

摘要/Abstract

摘要： 微气候变化对生态系统碳循环具有深远影响。然而，由于空气、水和沉积物之间复杂的热传导机制，以及如何定量刻画微气候影响的巨大难度，微气候变化对湿地生态系统的影响及其机制尚未被充分研究。本研究基于2022至2023年在华北平原淡水湿地开展的为期两年的野外控制实验，探讨了模拟气候变暖和大气氮沉降对浅水层、深水层及沉积物温度的影响，并从生态系统温度变化角度探讨了其对碳循环的潜在影响。结果显示：夜间增温分别使浅水层、深水层和沉积物的日均温度升高了0.71、0.73和0.64 °C。此外，深水层的日温差减少了0.17 °C。相比之下，氮添加并未显著改变浅水层、深水层或沉积物的上述温度参数，但其影响表现出明显的季节性波动。增温处理引起的温度变化主要受太阳辐射和水体浊度的调控，而沉水植物覆盖度的变化在不同垂直层次上均表现出降温效应。理论上，湿地温度升高可能通过影响植物和微生物代谢速率进而显著提高碳排放速率，引发潜在的湿地碳循环级联效应。本研究为淡水湿地在气候变暖背景下的不同垂直层次温度变化提供了实证依据，并强调在预测湿地碳循环对全球变化的响应时，应将浅水层、深水层和沉积物温度的数据纳入综合分析框架。

关键词: 气候变暖, 淡水湿地, 全球变化, 小气候, 氮沉降

Abstract: Microclimate can profoundly impact carbon (C) cycling in terrestrial ecosystems. However, due to the complex thermal conduction among air, water, and sediment, the responses of wetland microclimate to the driving forces of global change remain largely unexplored. Here, based on a two-year (2022-2023) field manipulative experiment in a freshwater wetland in the North China Plain, this study aimed to investigate the effects of simulated climate warming and atmospheric nitrogen (N) deposition on the temperatures of shallow-water, deep-water, and sediment. The nighttime warming effect increased the daily mean temperatures of the shallow-water, deep-water, and sediment layers by 0.71°C, 0.73°C, and 0.64°C, respectively. In addition, the diurnal temperature range of the deep-water layer was reduced by 0.17°C. In contrast, N addition did not affect the above parameters of shallow-water, deep-water, or sediment. The impact of N addition showed seasonal fluctuations. Warming-induced temperature increase was influenced mainly by solar radiation and water turbidity. Changes in submerged plant cover had a cooling effect at various vertical levels. In addition, increased wetland temperature may affect the rate of microbial metabolism to significantly increase the rate of carbon emissions. The present study offers empirical evidence concerning temperature changes at varying vertical levels within freshwater wetlands in the context of climate warming. Our findings emphasize the necessity of integrating data on shallow-water, deep-water, and sediment temperatures into the forecasting of wetland carbon cycling responses to global change.

Key words: climate warming, freshwater wetlands, global change, microclimate, nitrogen deposition

. 夜间增温重塑淡水湿地的热量状态 : 可能引起湿地碳循环级联效应[J]. Journal of Plant Ecology, 2025, 18(4): 1-41.

Chao Wang, Jiayin Feng, Jian Song, Hongpeng Wang, Jinhua Zhang, Jingyi Ru, Yaru Lyu, Wenjing Ma, Zixuan Yang, Mengyu Yan, Xueli Qiu, Shiqang Wan. Nighttime warming reshapes thermal regimes in freshwater wetlands: cascading effects on carbon dynamics[J]. J Plant Ecol, 2025, 18(4): 1-41.

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夜间增温重塑淡水湿地的热量状态 : 可能引起湿地碳循环级联效应

Nighttime warming reshapes thermal regimes in freshwater wetlands: cascading effects on carbon dynamics

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