MODELLING THE RHIZOSPHERE PRIMING EFFECT IN COMBINATION WITH SOIL FOODWEBS TO QUANTIFY INTERACTION BETWEEN LIVING PLANT, SOIL BIOTA AND SOIL ORGANIC MATTER Article Chertov O., Kuzyakov Y., Priputina I., Frolov P., Shanin V., Grabarnik P. Plants. MDPI AG. Vol. 11. 2022. 2605 p.
TEMPERATURE SENSITIVITY OF ANAEROBIC METHANE OXIDATION VERSUS METHANOGENESIS IN PADDY SOIL: IMPLICATIONS FOR THE CH4 BALANCE UNDER GLOBAL WARMING Article Fan L.C., Dippold M.A., Thiel V., Ge T.D., Wu J.S., Kuzyakov Y., Dorodnikov M. Global Change Biology. Blackwell Publishing Ltd. Vol. 28. 2022. P. 654-664
STIMULATION OF AMMONIA OXIDIZER AND DENITRIFIER ABUNDANCES BY NITROGEN LOADING: POOR PREDICTABILITY FOR INCREASED SOIL N2O EMISSION Article Zhang Y., Zhang F., Abalos D., Luo Y., Hui D., Hungate B.A., García-Palacios P., Kuzyakov Y., Olesen J.E., Jørgensen U., Chen J. Global Change Biology. Blackwell Publishing Ltd. Vol. 28. 2022. P. 2158-2168
ROOT EXUDATE CHEMISTRY AFFECTS SOIL CARBON MOBILIZATION VIA MICROBIAL COMMUNITY REASSEMBLY Article Wen T., Yu G.-H., Hong W.-D., Yuan J., Niu G.-Q., Xie P.-H., Sun F.-S., Guo L.-D., Kuzyakov Y., Shen Q.-R. Fundamental Research. KeAi Communications Co.. 2022.
FUNGAL KEY PLAYERS OF CELLULOSE UTILIZATION: MICROBIAL NETWORKS IN AGGREGATES OF LONG-TERM FERTILIZED SOILS DISENTANGLED USING 13C-DNA-STABLE ISOTOPE PROBING Article Miao Y., Lin Y., Chen Z., Zheng H., Niu Y., Kuzyakov Y., Liu D., Ding W. Science of the Total Environment. Elsevier B.V.. Vol. 832. 2022.
FUNGAL KEY PLAYERS OF CELLULOSE UTILIZATION: MICROBIAL NETWORKS IN AGGREGATES OF LONG-TERM FERTILIZED SOILS DISENTANGLED USING <SUP>13</SUP>C-DNA-STABLE ISOTOPE PROBING Article Miao Y., Lin Y., Chen Z., Zheng H., Niu Y., Liu D., Ding W., Kuzyakov Y. Science of the Total Environment. Elsevier B.V.. Vol. 832. 2022. 155051 p.
TEMPERATURE SENSITIVITY OF ANAEROBIC METHANE OXIDATION VERSUS METHANOGENESIS IN PADDY SOIL: IMPLICATIONS FOR THE CH<SUB>4</SUB> BALANCE UNDER GLOBAL WARMING Article Fan L., Kuzyakov Y., Dorodnikov M., Dippold M.A., Thiel V., Ge T., Wu J. Global Change Biology. Blackwell Publishing Ltd. Vol. 28. 2022. P. 654-664
THREE SOURCE-PARTITIONING OF CO2 FLUXES BASED ON A DUAL-ISOTOPE APPROACH TO INVESTIGATE INTERACTIONS BETWEEN SOIL ORGANIC CARBON, GLUCOSE AND STRAW Article Chen Z., Kumar A., Brookes P.C., Kuzyakov Y., Luo Y., Xu J. Science of the Total Environment. Elsevier B.V.. Vol. 811. 2022.
THE EFFECT OF FERTILIZER TYPE ON NITROGEN UPTAKE BY MAIZE FROM RECENTLY FORMED SOIL ORGANIC MATTER# Article Pedersen I.F., Hansen J., Peixoto L., Enggrob K.L., Kuzyakov Y., Rasmussen J. Journal of Plant Nutrition and Soil Science. Wiley-VCH Verlag. Vol. 185. 2022. P. 168-176
SOURCES AND INTENSITY OF CH<SUB>4</SUB> PRODUCTION IN PADDY SOILS DEPEND ON IRON OXIDES AND MICROBIAL BIOMASS Article Li Y., Zhu Z., Wei X., Li B., Wu J., Liu S., Ge T., Kuzyakov Y., Kim P.J. Biology and Fertility of Soils. Springer Verlag. Vol. 58. 2022. P. 181-191
STOICHIOMETRIC REGULATION OF PRIMING EFFECTS AND SOIL CARBON BALANCE BY MICROBIAL LIFE STRATEGIES Article Zhu Z., Fang Y., Liang Y., Li Y., Liu S., Li Y., Li B., Gao W., Yuan H., Kuzyakov Y., Wu J., Richter A., Ge T. Soil Biology and Biochemistry. Elsevier Ltd. Vol. 169. 2022.
DIVERSIFIED CROPPING SYSTEMS BENEFIT SOIL CARBON AND NITROGEN STOCKS BY INCREASING AGGREGATE STABILITY: RESULTS OF THREE FRACTIONATION METHODS Article Yan Z., Zhou J., Yang L., Gunina A., Yang Y., Peixoto L., Zeng Z., Zang H., Kuzyakov Y. Science of the Total Environment. Elsevier B.V.. Vol. 824. 2022.
INCREASED SOIL ORGANIC MATTER AFTER 28 YEARS OF NITROGEN FERTILIZATION ONLY WITH PLASTIC FILM MULCHING IS CONTROLLED BY MAIZE ROOT BIOMASS Article Ding F., Ji D., Yan K., Dijkstra F.A., Bao X., Li S., Kuzyakov Y., Wang J. Science of the Total Environment. Elsevier B.V.. Vol. 810. 2022.
INITIAL SOIL FORMATION BY BIOCRUSTS: NITROGEN DEMAND AND CLAY PROTECTION CONTROL MICROBIAL NECROMASS ACCRUAL AND RECYCLING Article Wang B., Huang Y., Li N., Yao H., Yang E., Soromotin A.V., Kuzyakov Y., Cheptsov V., Yang Y., An S. Soil Biology and Biochemistry. Elsevier Ltd. Vol. 167. 2022.
LOW CARBON AVAILABILITY IN PALEOSOLS NONLINEARLY ATTENUATES TEMPERATURE SENSITIVITY OF SOIL ORGANIC MATTER DECOMPOSITION Article Su J., Zhang H., Han X., Peñuelas J., Filimonenko E., Jiang Y., Kuzyakov Y., Wei C. Global Change Biology. Blackwell Publishing Ltd. Vol. 28. 2022. P. 4180-4193