Drying and rewetting effects on soil microbial community composition and nutrient leaching

被引:284
作者
Gordon, Helen [1 ,2 ]
Haygarth, Philip M. [2 ]
Bardgett, Richard D. [1 ]
机构
[1] Univ Lancaster, Inst Environm & Nat Sci, Soil & Ecosyst Ecol Lab, Lancaster LA1 4YQ, England
[2] Inst Grassland & Environm Res, Cross Inst Programme Sustainable Soil Funct, Okehampton EX20 2SB, Devon, England
基金
英国生物技术与生命科学研究理事会;
关键词
grassland; carbon; dissolved organic carbon; dissolved organic nitrogen; dissolved inorganic nitrogen; drying and rewetting; leaching; leachates; microbial biomass; nitrogen; PLFA; nutrient retention and release;
D O I
10.1016/j.soilbio.2007.08.008
中图分类号
S15 [土壤学];
学科分类号
0903 ; 090301 ;
摘要
The effects of a dry-rewetting event (D/RW) on soil microbial properties and nutrient release by leaching from two soils taken from adjacent grasslands with different histories of management intensity were studied. These were a low-productivity grassland, with no history of fertilizer application and a high-productivity grassland with a history of high fertilizer application, referred to as unimproved and improved grassland, respectively. The use of phospholipid fatty acid analysis (PLFA) revealed that the soil of the unimproved grassland had a significantly greater microbial biomass, and a greater abundance of fungi relative to bacteria than did the improved grassland. Soils from both grasslands were maintained at 55% water holding capacity (WHQ or dried to 10% WHC and rewetted to 55% WHC, and then sampled on days 1, 3, 9, 16, 30 and 50 after rewetting. The D/RW stress significantly reduced microbial biomass carbon (C), fungal PLFA and the ratio of fun gal-to- bacterial PLFA in both soils. In contrast, D/RW increased microbial activity, but had no effect on total PLFA and bacterial PLFA in either soil. Microbial biomass nitrogen (N) was reduced significantly by D/RW in both soils, but especially in those of the improved grassland. In terms of nutrient leaching, the D/RW stress significantly increased concentrations of dissolved organic C and dissolved organic N in leachates taken from the improved soil only. This treatment increased the concentration of dissolved inorganic N in leachate of both soils, but this effect was most pronounced in the improved soil. Overall, our data show that D/RW stress leads to greater nutrient leaching from improved than from unimproved grassland soils, which have a greater microbial biomass and abundance of fungi relative to bacteria. This finding supports the notion that soils with more fungal-rich communities are better able to retain nutrients under D/RW than are their intensively managed counterparts with lower fungal to bacterial ratios, and that D/RW can enhance nutrient leaching with potential implications for water quality. (c) 2007 Elsevier Ltd. All rights reserved.
引用
收藏
页码:302 / 311
页数:10
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