摘要
在某种程度上,人类对全球氮循环的改变是很重要的,因为增加的氮极大地改变了许多天然生态系统的组成、生产率和其它性质。增加的氮为什么有这么大的影响力?为什么如此多的天然生态系统都处于缺氮状态?减缓氮相对于其它元素的循环过程,和控制生态系统水平的氮输入输出过程,都使氮供应成为生态系统动态的限制因子。我们讨论了可以减慢氮循环的因子陆地植物和其它有机体之间的化学计量学差异,蛋白质沉淀防御植物的多度,土壤有机质中C-N键状态。对输入来讲,氮固定的能量消耗及其后果,氮以外的养分供应,对固氮者的优先取食,所有这些都能限制生物固氮者的多度和/或活动。这些过程加在一起,推动和维持着许多天然陆地生态系统的氮限制。
Anthropogenic changes to the global N cycle are important in part because added N alters the composition, productivity, and other properties of many natural ecosystems substantially. Why does added N have such a large impact? Why is N in short supply in so many natural ecosystems? Processes that slow the cycling of N relative to other elements and processes that control ecosystem-level inputs and outputs of N could cause N supply to limit the dynamics of ecosystems. We discuss stoichiometric differences between terrestrial plants and other organisms, the abundance of protein-precipitating plant defenses, and the nature of the C-N bond in soil organic matter as factors that can slow N cycling. For inputs, the energetic costs of N fixation and their consequences, the supply of nutrients other than N, and preferential grazing on N-fixers all could constrain the abundance and/ or activity of biological N-fixers. Together these processes drive and sustain N limitation in many natural terrestrial ecosystems.
