Impacts of Grazing Intensity and Plant Community Composition on Soil Bacterial Community Diversity in a Steppe GrasslandReportar como inadecuado

Impacts of Grazing Intensity and Plant Community Composition on Soil Bacterial Community Diversity in a Steppe Grassland - Descarga este documento en PDF. Documentación en PDF para descargar gratis. Disponible también para leer online.

Soil bacteria play a key role in the ecological and evolutionary responses of agricultural ecosystems. Domestic herbivore grazing is known to influence soil bacterial community. However, the effects of grazing and its major driving factors on soil bacterial community remain unknown for different plant community compositions under increasing grazing intensity. Thus, to investigate soil bacterial community diversity under five plant community compositions Grass; Leymus chinensis; Forb; L. chinensis and Forb; and Legume, we performed a four-year field experiment with different grazing intensity treatments no grazing; light grazing, 4 sheep·ha−1; and heavy grazing, 6 sheep·ha−1 in a grassland in China. Total DNA was obtained from soil samples collected from the plots in August, and polymerase chain reaction PCR analysis and denaturing gradient gel electrophoresis DGGE fingerprinting were used to investigate soil bacterial community. The results showed that light grazing significantly increased indices of soil bacterial community diversity for the Forb and Legume groups but not the Grass and L. chinensis groups. Heavy grazing significantly reduced these soil bacterial diversity indices, except for the Pielou evenness index in the Legume group. Further analyses revealed that the soil N-P ratio, electrical conductivity EC, total nitrogen TN and pH were the major environmental factors affecting the soil bacterial community. Our study suggests that the soil bacterial community diversity was influenced by grazing intensity and plant community composition in a meadow steppe. The present study provides a baseline assessment of the soil bacterial community diversity in a temperate meadow steppe.

Autor: Tong-bao Qu, Wei-chao Du, Xia Yuan, Zhi-ming Yang, Dong-bo Liu, De-li Wang , Li-jun Yu



Documentos relacionados