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氮淋失损失的同位素效应一致较小的证据:来自季节性干旱气候下受干扰生态系统的结果。

Evidence for a uniformly small isotope effect of nitrogen leaching loss: results from disturbed ecosystems in seasonally dry climates.

作者信息

Mnich Meagan E, Houlton Benjamin Z

机构信息

University of California, Davis, USA.

出版信息

Oecologia. 2016 Jun;181(2):323-33. doi: 10.1007/s00442-015-3433-0. Epub 2015 Sep 5.

Abstract

Nitrogen (N) losses constrain rates of plant carbon dioxide (CO2) uptake and storage in many ecosystems globally. N isotope models have been used to infer that 30 % of terrestrial N losses occur via microbial denitrification; however, this approach assumes a small isotope effect associated with N leaching losses. Past work across tropical/sub-tropical forest sites has confirmed this expectation; however, the stable N isotope ratio (δ(15)N) of ecosystem leaching has yet to be systematically evaluated in seasonally dry climates or across major ecosystem disturbances. We here present new measurements of the δ(15)N of total dissolved N (TDN) in small streams, bulk deposition, and soil pools across eight watershed sites in California, including grassland, chaparral, and coastal redwood forest ecosystems, with and without fire, grazing, and forest harvesting. Regardless of the dominant vegetation type or disturbance regime, average δ(15)N of TDN in stream water differed only slightly (<1 ‰) from that of bulk soil δ(15)N, revealing a uniformly small isotope effect associated with N leaching losses even under non-steady state conditions. Rather, lower input δ(15)N compared to TDN δ(15)N in streams pointed to fractionations via gaseous loss pathways as the dominant mechanism behind soil δ(15)N enrichment. We conclude that N leaching does not impart a major isotope effect across a broad range of ecosystems and conditions examined, thereby advancing the N gas-loss hypothesis as the principal explanation for variation in bulk soil δ(15)N.

摘要

在全球许多生态系统中,氮(N)损失限制了植物对二氧化碳(CO₂)的吸收和储存速率。氮同位素模型已被用于推断,约30%的陆地氮损失是通过微生物反硝化作用发生的;然而,这种方法假定与氮淋失损失相关的同位素效应较小。过去在热带/亚热带森林站点的研究工作证实了这一预期;然而,在季节性干旱气候或主要生态系统干扰情况下,生态系统淋失的稳定氮同位素比率(δ(¹⁵)N)尚未得到系统评估。我们在此展示了对加利福尼亚州八个流域站点的小溪、大气沉降和土壤库中总溶解氮(TDN)的δ(¹⁵)N的新测量结果,这些站点包括草地、灌丛和沿海红杉林生态系统,有或没有火灾、放牧和森林采伐。无论主要植被类型或干扰状况如何,溪流水体中TDN的平均δ(¹⁵)N与土壤总δ(¹⁵)N仅略有差异(<~1‰),这表明即使在非稳态条件下,与氮淋失损失相关的同位素效应也始终较小。相反,与溪流中TDN的δ(¹⁵)N相比,输入δ(¹⁵)N较低表明气态损失途径的分馏作用是土壤δ(¹⁵)N富集背后的主要机制。我们得出结论,在所研究的广泛生态系统和条件下,氮淋失不会产生主要的同位素效应,从而推进了氮气态损失假说,将其作为土壤总δ(¹⁵)N变化的主要解释。

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