Dynamics of 14C-labelled Glucose and NH+4 in a Regularly Flooded Extremely Alkaline Saline Soil
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Effects of salinity on microbial utilization of straw carbon and microbial residues retention in newly reclaimed coastal soil
2021, European Journal of Soil BiologyCitation Excerpt :Our study provided more direct evidence by C isotope tracer method. However, other isotopic labeling studies showed that soil salinity decreased plant residues C mineralization [18,20], though salinity did not influence microbial assimilation of plant residues C [18,19]. In our study, the similar straw decomposition was associated with the higher straw C availability in the HS soil.
Valorization of calcium phosphite waste as phosphorus fertilizer: Effects on green manure productivity and soil properties
2021, Journal of Environmental ManagementCitation Excerpt :Although Ca-Phi and TSP fertilization treatments decreased Pmic pool in cropped clay soils, the increase of POrg could be the result of a higher microbial turnover (Oehl et al., 2001; Hedley et al., 1982; Stewart and Tiessen, 1987). This is in line with the decrease of COrg and NTot after Ca-Phi and TSP fertilization treatments (Table 2), suggesting a potential priming effect promoting microbial decomposition of organic matter through root exudates and/or an increase of heterotrophic respiration due to a higher C and N microbial demand (Clarholm, 1985; Dendooven et al., 2015; Poeplau et al., 2016). Alternatively, the increase of POrg could be also due to an abiotic process binding Pi or/and Phi with COrg particles (Eichler-Löbermann et al., 2007).
Ammonia Monooxygenase Activity Connects Nitrification Rate with Dominant Edaphic Properties Under Salinity Stress in Coastal Fluvo-aquic Soil
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