The retention dynamics of N input within the soil-microbe-plant system in a temperate grassland
文献类型: 外文期刊
第一作者: Ma, Linna
作者: Ma, Linna;Gao, Xiuli;Liu, Guofang;Lu, Yixia;Zhang, Chaoxue;Zhang, Lihua;Wang, Renzhong;Gao, Xiuli;Lu, Yixia;Zhang, Chaoxue;Wang, Renzhong;Xu, Xiaofeng;Lu, Xiaotao;Xin, Xiaoping
作者机构:
关键词: N deposition; N-15; N Retention; Non-growing season; Temperate grassland
期刊名称:GEODERMA ( 影响因子:6.114; 五年影响因子:6.183 )
ISSN: 0016-7061
年卷期: 2020 年 368 卷
页码:
收录情况: SCI
摘要: In N-limited temperate regions, atmospheric N deposition remains high over the non-growing season. However, the retention dynamics of non-growing season N input within the ecosystem remain unclear. Using an isotopic approach, we investigated the initial retention and subsequent dynamics of N-15 (1.5 g N-15 m(-2)) in the soils, microbes, plants, and litter over three years in grazing-prohibited (PG) and heavily grazed treatments (HG) in northern China. For initial retention (21 days after( 15)N addition), most N-15 was immobilized in soils and microbes, while less was taken up by plants. Soil and microbial N-15 immobilization were significantly higher when grazing was prohibited, although plant 15 Nacquisition was not affected by grazing. After initial retention, rapid N-15 loss was observed in microbes and soils, while N-15 levels were sustained longer in plants and litter. The N-15 residence times were longer when grazing was prohibited. The 15 Nacquisition capacity varies among plant taxa: perennial grasses and forbs accumulated N-15 rapidly, while sagebrush and legumes acted slowly. Although the added N-15 had significant contribution to early spring N demands of soil microbes and plants, it did not increase microbial or plant biomass N. Our results showed that non-growing season exogenous N was primarily retained by soil biota in temperate grasslands in the early stage, but N retention is finally sustained in soil and plants. The findings highlighted the importance of soil microbes in sustaining N upon N input, inferring the needs for considering the microbial role for better understanding N cycling in the temperate grasslands.
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