Microbial biomass and respiration responses to nitrogen fertilization in a polar desert

被引:0
作者
Becky A. Ball
Ross A. Virginia
机构
[1] Arizona State University at the West Campus,School of Mathematical and Natural Sciences
[2] Dartmouth College,Environmental Studies Program
来源
Polar Biology | 2014年 / 37卷
关键词
Nitrogen fertilization; Water pulses; Fungal biomass; Bacterial biomass; Desert ecosystems; Soil respiration;
D O I
暂无
中图分类号
学科分类号
摘要
How microbial communities respond to increases in available nitrogen (N) will influence carbon (C) and nutrient cycles. Most studies addressing N fertilization focus on mid-latitude ecosystems, where complex aboveground–belowground interactions can obscure the response of the soil microbial community, and little is known about how soil microbial communities of polar systems, particularly polar deserts, will respond. The low C content and comparatively simpler (low biomass and biodiversity) soil communities of the McMurdo Dry Valleys of Antarctica may allow easier identification of the mechanisms by which N fertilization influences microbial communities. Therefore, we conducted a microcosm incubation using three levels of N fertilization, added in solution to simulate a pulse of increased soil moisture, and measured microbial biomass and respiration over the course of 4.5 months. Soil characteristics, including soil pH, conductivity, cation content, chlorophyll a, and organic C content were measured. Soils from two sites that differed in stoichiometry were used to examine how in situ C:N:P influenced the N-addition response. We hypothesized that negative influences of N enrichment would result from increased salinity and ion content, while positive influences would result from enhanced C availability and turnover. We observed that microbes were moderately influenced by N addition, including stimulation and inhibition with increasing levels of N. Mechanisms identified include direct inhibition due to N toxicity and stimulation due to release from N, rather than C, limitation. Our results suggest that, by influencing microbial biomass and activity, N fertilization will influence C cycling in soils with very low C content.
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页码:573 / 585
页数:12
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