How does organic amendment affect soil microbial nitrate immobilization rate?

[1]  A. Elrys,et al.  Organic amendment enhanced microbial nitrate immobilization with negligible denitrification nitrogen loss in an upland soil. , 2021, Environmental pollution.

[2]  G. Hernandez‐Ramirez,et al.  Primings of soil organic matter and denitrification mediate the effects of moisture on nitrous oxide production , 2021 .

[3]  Yiqi Luo,et al.  Vital roles of soil microbes in driving terrestrial nitrogen immobilization , 2021, Global change biology.

[4]  Longlong Xia,et al.  Disentangling immobilization of nitrate by fungi and bacteria in soil to plant residue amendment , 2020 .

[5]  Z. Cai,et al.  Characteristics of organic material inputs affect soil microbial NO3− immobilization rates calculated using different methods , 2020, European Journal of Soil Science.

[6]  N. Brüggemann,et al.  Chemical Composition of High Organic Carbon Soil Amendments Affects Fertilizer-Derived N2O Emission and Nitrogen Immobilization in an Oxic Sandy Loam , 2020, Frontiers in Environmental Science.

[7]  I. Matiatos,et al.  A biological and nitrate isotopic assessment framework to understand eutrophication in aquatic ecosystems. , 2020, The Science of the total environment.

[8]  A. Vallejo,et al.  Effect of urease and nitrification inhibitors on ammonia volatilization and abundance of N-cycling genes in an agricultural soil , 2020 .

[9]  Tushar C. Sarker,et al.  Predicting nitrogen mineralization from organic amendments: beyond C/N ratio by 13C-CPMAS NMR approach , 2019, Plant and Soil.

[10]  C. Pepe-Ranney,et al.  Assessing fungal contributions to cellulose degradation in soil by using high-throughput stable isotope probing , 2019, Soil Biology and Biochemistry.

[11]  V. Baldy,et al.  Contrasting responses of bacterial and fungal communities to plant litter diversity in a Mediterranean oak forest , 2018, Soil Biology and Biochemistry.

[12]  X. Ju,et al.  Nitrogen cycling and environmental impacts in upland agricultural soils in North China: A review , 2017 .

[13]  Shen-qiang Wang,et al.  The quality and quantity of exogenous organic carbon input control microbial NO3− immobilization: A meta-analysis , 2017 .

[14]  P. Marschner,et al.  Previous residue addition rate and C/N ratio influence nutrient availability and respiration rate after the second residue addition , 2017 .

[15]  X. Ju,et al.  Significant accumulation of nitrate in Chinese semi-humid croplands , 2016, Scientific Reports.

[16]  J. Olesen,et al.  Evidence for denitrification as main source of N2O emission from residue-amended soil , 2016 .

[17]  Chengci Chen,et al.  Microbial Immobilization of Nitrogen‐15 Labelled Ammonium and Nitrate in an Agricultural Soil , 2015 .

[18]  Farah Diba Abu Bakar,et al.  Efficient removal of lignin with the maintenance of hemicellulose from kenaf by two-stage pretreatment process. , 2014, Carbohydrate polymers.

[19]  Ying Zhang,et al.  New technologies reduce greenhouse gas emissions from nitrogenous fertilizer in China , 2013, Proceedings of the National Academy of Sciences.

[20]  Y. Kuzyakov,et al.  Contrasting effects of glucose, living roots and maize straw on microbial growth kinetics and substrate availability in soil , 2009 .

[21]  Xin-ping Chen,et al.  Reducing environmental risk by improving N management in intensive Chinese agricultural systems , 2009, Proceedings of the National Academy of Sciences.

[22]  G. Hofman,et al.  Nitrogen and carbon mineralization of surface-applied and incorporated winter wheat and peanut residues , 2008, Biology and Fertility of Soils.

[23]  Engin Derya Gezer,et al.  Mechanical and chemical behavior of spruce wood modified by heat , 2006 .

[24]  T. A. Breland,et al.  Prediction of Gross and Net Nitrogen Mineralization-Immobilization-Turnover from Respiration , 2006 .

[25]  E. Kara,et al.  Rates of decomposition of plant residues and available nitrogen in soil, related to residue composition through simulation of carbon and nitrogen turnover , 2004 .

[26]  M. Burger,et al.  Microbial immobilization of ammonium and nitrate in relation to ammonification and nitrification rates in organic and conventional cropping systems , 2003 .

[27]  S. Recous,et al.  Biochemical quality of crop residues and carbon and nitrogen mineralization kinetics under nonlimiting nitrogen conditions , 2000 .

[28]  T. A. Breland,et al.  Evaluation of criteria for describing crop residue degradability in a model of carbon and nitrogen turnover in soil , 1999 .

[29]  S. Recous,et al.  Soil inorganic N availability: Effect on maize residue decomposition , 1995 .

[30]  M. Quemada,et al.  Carbon and Nitrogen Mineralized from Leaves and Stems of Four Cover Crops , 1995 .

[31]  E. Zagal,et al.  Immobilization and remineralization of nitrate during glucose decomposition at four rates of nitrogen addition , 1994 .

[32]  S. Recous,et al.  Microbial immobilization of ammonium and nitrate in cultivated soils , 1990 .