Differential effects of cow dung and its biochar on Populus euphratica soil phosphorus effectiveness, bacterial community diversity and functional genes for phosphorus conversion

Abstract: IntroductionContinuous monoculture leading to soil nutrient depletion may cause a decline in plantation productivity. Cow dung is typically used as a cheap renewable resource to improve soil nutrient status. In this study, our purpose was to compare the effects of different cow dung return methods (direct return and carbonization return) on soil microbial communities and phosphorus availability in the root zone (rhizosphere soil and non-rhizosphere soil) of P.euphratica seedlings in forest gardens and to explo… Show more

“…However, the increased mineralization of organic P in P. euphratica is linked to soil moisture, pH, and microorganism profiles, necessitating future research on foliar P fraction distribution. Based on the research conducted on the impact of cow dung and biochar on phosphorus efficiency in P. euphratica soil, bacterial communities, and functional genes (phoC, phoD, gcd, and pqqC; see [133] and references therein), the authors found that returning cow dung improves soil properties, seedling growth, and phosphorus availability, which are up-taken throughout the roots of P. euphratica. Biochar, a carbonized form of cow manure, has a more definite cumulative phosphorus content and promotion of bacterial diversity in arid regions.…”

The Euphrates Poplar Responses to Abiotic Stress and Its Unique Traits in Dry Regions of China (Xinjiang and Inner Mongolia): What Should We Know?

“…However, the increased mineralization of organic P in P. euphratica is linked to soil moisture, pH, and microorganism profiles, necessitating future research on foliar P fraction distribution. Based on the research conducted on the impact of cow dung and biochar on phosphorus efficiency in P. euphratica soil, bacterial communities, and functional genes (phoC, phoD, gcd, and pqqC; see [133] and references therein), the authors found that returning cow dung improves soil properties, seedling growth, and phosphorus availability, which are up-taken throughout the roots of P. euphratica. Biochar, a carbonized form of cow manure, has a more definite cumulative phosphorus content and promotion of bacterial diversity in arid regions.…”

The Euphrates Poplar Responses to Abiotic Stress and Its Unique Traits in Dry Regions of China (Xinjiang and Inner Mongolia): What Should We Know?

The role of OsPAP10c on utilization of phosphorus from organic fertilizer in rice

Endophytic microbial diversity associated with commercial cultivar and crop wild relative banana variety could provide clues for microbial community management