PJB-2015-231
SHEEP GRAZING STIMULATED PLANT AVAILABLE SOIL NITRATE ACCUMULATION IN A TEMPERATE GRASSLAND
JINCHAO FENG1,5, XU HAN2, NIANPENG HE3, YUNHAI ZHANG1,*,LISHI ZHOU1 AND XINGGUO HAN1,4,*
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Abstract
We investigated the effects of increasing grazing I ntensities on N availability (inorganic N, In-N, for plant and microbial growth, e.g., NO3––N, NH4+–N) and variability in soils of 0–10 cm depth during 2009–2010, within a framework of a long-term grazing study. The results showed that the relationship for grazing intensity with respect to soil NO3––N (R2 = 0.988, P = 0.006) was well depicted by curvilinear equations. Moreover, soil NO3––N, NH4+–N and inorganic N varied significantly with sample date, year, and soil water content (SWC, %). There were also significant correlation between date and grazing intensities on soil NO3––N, NH4+–N and In-N. SWC and temperature had more impact on soil available N than grazing, especially with respect to the seasonal dynamics of the soil N pool. Grazing intensity, in combination with SWC (precipitation) and temperature, controlled soil N availability and, therefore, affect the N cycles and plant growth within semiarid grasslands.
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