Rooting meta-ecosystems with reciprocal lateral carbon and nitrogen flows in a Yangtze coastal marsh

IF 5.8 2区 环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES
Yu Gao, Bin Zhao, Neil Saintilan, Jiquan Chen, Wanben Wu, Li Wen, Feng Zhao, Tao Zhang, Zhi Geng, Gang Yang, Chao Song, Ping Zhuang
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Abstract

The dynamics of lateral nutrient fluxes through hydrological movements are crucial for understanding ecological functions related to the flow of energy, materials, and organisms across various spatiotemporal scales. To investigate the connectivity of multiple spatial flow processes, we conducted a one-year field study to measure lateral hydrologic carbon (C) and nitrogen (N) fluxes across the continental shelf in the Yangtze estuary. We observed a significant correlation between the differences in remote sensing-based estimates of gross primary production (GPP) (ΔGPPMODIS) and the differences in eddy covariance (EC) tower-based GPP (ΔGPPEC) at both high-elevation and low-elevation sites. Our findings indicate that the saltmarsh acts as a net source of dissolved total C while serving as a net sink for dissolved total N. Furthermore, there was a significant correlation in the total dissolved stoichiometry of the C/N ratio between imports from and exports to adjacent aquatic systems. These findings highlight the importance of integrating ecological stoichiometric principles to improve our understanding of the complex relationships among physical, chemical, and ecological processes, particularly within the context of the meta-ecosystem framework. Additionally, when reciprocal hydrological lateral C and N flows are considered, a single ecosystem can function as both a source and sink within the meta-ecosystem framework.
长江沿岸沼泽地碳氮互惠横向流动的生根元生态系统
通过水文运动的横向营养通量的动态变化对于理解与能量、物质和生物在不同时空尺度上的流动有关的生态功能至关重要。为了研究多种空间流动过程的连通性,我们开展了一项为期一年的野外研究,测量长江口大陆架横向水文碳(C)和氮(N)通量。我们观察到,在高海拔和低海拔地点,基于遥感估算的总初级生产力(GPP)差异(ΔGPPMODIS)与基于涡度协方差(EC)塔的总初级生产力差异(ΔGPPEC)之间存在明显的相关性。我们的研究结果表明,盐沼是溶解总 C 的净来源,同时也是溶解总 N 的净吸收汇。这些发现凸显了综合生态计量学原理的重要性,有助于我们更好地理解物理、化学和生态过程之间的复杂关系,尤其是在元生态系统框架下。此外,如果考虑到互惠的水文侧向碳流和氮流,在元生态系统框架内,单一生态系统既可以作为源,也可以作为汇。
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来源期刊
Environmental Research Letters
Environmental Research Letters 环境科学-环境科学
CiteScore
11.90
自引率
4.50%
发文量
763
审稿时长
4.3 months
期刊介绍: Environmental Research Letters (ERL) is a high-impact, open-access journal intended to be the meeting place of the research and policy communities concerned with environmental change and management. The journal''s coverage reflects the increasingly interdisciplinary nature of environmental science, recognizing the wide-ranging contributions to the development of methods, tools and evaluation strategies relevant to the field. Submissions from across all components of the Earth system, i.e. land, atmosphere, cryosphere, biosphere and hydrosphere, and exchanges between these components are welcome.
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