盐沼
生物地球化学循环
氮气循环
沼泽
自行车
生物地球化学
生态学
环境科学
氮气
生物
湿地
化学
历史
有机化学
考古
作者
Jennifer L. Bowen,Amanda C. Spivak,Anne E. Bernhard,Robinson W. Fulweiler,Anne E. Giblin
标识
DOI:10.1016/j.tim.2023.09.010
摘要
Salt marshes sit at the terrestrial-aquatic interface of oceans around the world. Unique features of salt marshes that differentiate them from their upland or offshore counterparts include high rates of primary production from vascular plants and saturated saline soils that lead to sharp redox gradients and a diversity of electron acceptors and donors. Moreover, the dynamic nature of root oxygen loss and tidal forcing leads to unique biogeochemical conditions that promote nitrogen cycling. Here, we highlight recent advances in our understanding of key nitrogen cycling processes in salt marshes and discuss areas where additional research is needed to better predict how salt marsh N cycling will respond to future environmental change.
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