Publications

Found 156 results
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C
Bittleston L.S, Gralka M., Leventhal G.E, Mizrahi I., Cordero O.X.  2020.  Context-dependent dynamics lead to the assembly of functionally distinct microbial communities. Nature Communications. 11:10.
Lalor B.M, Cookson W.R, Murphy D.V.  2007.  Comparison of two methods that assess soil community level physiological profiles in a forest ecosystem. Soil Biology and Biochemistry. 39:454-462.
Vinten A.JA, Artz R.RE, Thomas N., Potts J.M, Avery L., Langan S.J, Watson H., Cook Y., Taylor C., Abel C. et al..  2011.  Comparison of microbial community assays for the assessment of stream biofilm ecology. Journal of Microbiological Methods. 85:190-198.
Holatko J., Hammerschmiedt T., Kintl A., Mustafa A., Naveed M., Baltazar T., Latal O., Skarpa P., Ryant P., Brtnicky M..  2022.  Co-composting of cattle manure with biochar and elemental sulphur and its effects on manure quality, plant biomass and microbiological characteristics of post-harvest soil. Frontiers in Plant Science. 13:14.
Astacio L.MD, Prabhakara K.H, Li Z.Q, Mickalide H., Kuehn S..  2021.  Closed microbial communities self-organize to carbon. Proceedings of the National Academy of Sciences of the United States of America. 118:9.
de Vries F.T, Williams A., Stringer F., Willcocks R., McEwing R., Langridge H., Straathof A.L.  2019.  Changes in root-exudate-induced respiration reveal a novel mechanism through which drought affects ecosystem carbon cycling. New Phytologist. 224:132-145.
Song Y., Yuan G.S, Wu Q.F, Situ G., Liang C.F, Qin H., Chen J.H.  2023.  Change in Microbial Metabolic Quotient Under Biochar Amendment Was Associated with Soil Organic Carbon Quality, Microbial Community Composition, and Enzyme Activity in Bulk and Rhizosphere Soils in an Acid Rice Paddy. Journal of Soil Science and Plant Nutrition. :14.
Liu Y., Guo K.Y, Zhao Y.Z, Li S.H, Wu Q.F, Liang C.F, Sun X., Xu Q.F, Chen J.H, Qin H..  2020.  Change in composition and function of microbial communities in an acid bamboo (Phyllostachys praecox) plantation soil with the addition of three different biochars. Forest Ecology and Management. 473:10.
Liu Y., Guo K.Y, Zhao Y.Z, Li S.H, Wu Q.F, Liang C.F, Sun X., Xu Q.F, Chen J.H, Qin H..  2020.  Change in composition and function of microbial communities in an acid bamboo (Phyllostachys praecox) plantation soil with the addition of three different biochars. Forest Ecology and Management. 473:10.
Liu Y., Guo K.Y, Zhao Y.Z, Li S.H, Wu Q.F, Liang C.F, Sun X., Xu Q.F, Chen J.H, Qin H..  2020.  Change in composition and function of microbial communities in an acid bamboo (Phyllostachys praecox) plantation soil with the addition of three different biochars. Forest Ecology and Management. 473:10.
Yang L.Q, Li X.Y, Li X., Su Z.C, Zhang C.G, Zhang H.W.  2018.  Catabolic profiles dynamics during the bioremediation process of chlorimuron-ethyl contaminated soil by Methanolivorans CHL1(T). Ecotoxicology and Environmental Safety. 155:43-49.
Yang L.Q, Li X.Y, Li X., Su Z.C, Zhang C.G, Zhang H.W.  2018.  Catabolic profiles dynamics during the bioremediation process of chlorimuron-ethyl contaminated soil by Methanolivorans CHL1(T). Ecotoxicology and Environmental Safety. 155:43-49.
Liang Z., Elsgaard L., Nicolaisen M.H, Lyhne-Kjaerbye A., Olesen J.E.  2018.  Carbon mineralization and microbial activity in agricultural topsoil and subsoil as regulated by root nitrogen and recalcitrant carbon concentrations. Plant and Soil. 433:65-82.
Liang Z., Elsgaard L., Nicolaisen M.H, Lyhne-Kjaerbye A., Olesen J.E.  2018.  Carbon mineralization and microbial activity in agricultural topsoil and subsoil as regulated by root nitrogen and recalcitrant carbon concentrations. Plant and Soil. 433:65-82.
B
Lambie S.M, Mason N.WH, Mudge P.L.  2019.  Bovine urine inhibits microbial function and increases urea turnover in dairy grazed soils. Soil Research. 57:489-499.
Wu Q, Lian R, Bai M, Bao J, Liu Y, Li S, Liang C, Qin H, Chen J, Xu Q.  2021.  Biochar co-application mitigated the stimulation of organic amendments on soil respiration by decreasing microbial activities in an infertile soil. Biology and Fertility of Soils.
Wu Q, Lian R, Bai M, Bao J, Liu Y, Li S, Liang C, Qin H, Chen J, Xu Q.  2021.  Biochar co-application mitigated the stimulation of organic amendments on soil respiration by decreasing microbial activities in an infertile soil. Biology and Fertility of Soils.
Wu Q, Lian R, Bai M, Bao J, Liu Y, Li S, Liang C, Qin H, Chen J, Xu Q.  2021.  Biochar co-application mitigated the stimulation of organic amendments on soil respiration by decreasing microbial activities in an infertile soil. Biology and Fertility of Soils.
Wu Q, Lian R, Bai M, Bao J, Liu Y, Li S, Liang C, Qin H, Chen J, Xu Q.  2021.  Biochar co-application mitigated the stimulation of organic amendments on soil respiration by decreasing microbial activities in an infertile soil. Biology and Fertility of Soils.
Hammerschmiedt T., Holatko J., Sudoma M., Kintl A., Vopravil J., Ryant P., Skarpa P., Radziemska M., Latal O., Brtnicky M..  2021.  Biochar and Sulphur Enriched Digestate: Utilization of Agriculture Associated Waste Products for Improved Soil Carbon and Nitrogen Content, Microbial Activity, and Plant Growth. Agronomy-Basel. 11:14.