CATALYTIC EFFICIENCY OF SOIL ENZYMES EXPLAINS TEMPERATURE SENSITIVITY: INSIGHTS FROM PHYSIOLOGICAL THEORY Article Liu C., Tian H., Gu X., Li N., Zhao X., Lei M., Alharbi H., Megharaj M., He W., Kuzyakov Y. Science of the Total Environment. Elsevier B.V.. Vol. 822. 2022.
A NOVEL BELOWGROUND IN-SITU GAS LABELING APPROACH: CH4 OXIDATION IN DEEP PEAT USING PASSIVE DIFFUSION CHAMBERS AND 13C EXCESS Article Dorodnikov M., Knorr K.-H., Fan L., Kuzyakov Y., Nilsson M.B. Science of the Total Environment. Elsevier B.V.. Vol. 806. 2022.
NUTRIENTS IN THE RHIZOSPHERE: A META-ANALYSIS OF CONTENT, AVAILABILITY, AND INFLUENCING FACTORS Article Liu S., He F., Kuzyakov Y., Xiao H., Hoang D.T.T., Pu S., Razavi B.S. Science of the Total Environment. Elsevier B.V.. Vol. 826. 2022.
PADDY SOILS HAVE A MUCH HIGHER MICROBIAL BIOMASS CONTENT THAN UPLAND SOILS: A REVIEW OF THE ORIGIN, MECHANISMS, AND DRIVERS Article Wei L., Ge T., Zhu Z., Ye R., Peñuelas J., Li Y., Lynn T.M., Jones D.L., Wu J., Kuzyakov Y. Agriculture, Ecosystems and Environment. Elsevier B.V.. Vol. 326. 2022.
DEPTH EFFECTS ON BACTERIAL COMMUNITY ASSEMBLY PROCESSES IN PADDY SOILS Article Li W., Kuzyakov Y., Zheng Y., Li P., Li G., Liu M., Alharbi H.A., Li Z. Soil Biology and Biochemistry. Elsevier Ltd. Vol. 165. 2022.
NITRITE-DEPENDENT ANAEROBIC OXIDATION DECREASES METHANE EMISSIONS FROM PEATLANDS Article Shi Y., Ma Q., Kuzyakov Y., Sheng L., Liu H., Wang Z. Soil Biology and Biochemistry. Elsevier Ltd. Vol. 169. 2022.
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
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.
MICROBIAL IRON REDUCTION COMPENSATES FOR PHOSPHORUS LIMITATION IN PADDY SOILS Article Wang C., Thielemann L., Dippold M.A., Guggenberger G., Kuzyakov Y., Banfield C.C., Ge T., Guenther S., Bork P., Horn M.A., Dorodnikov M. Science of the Total Environment. Elsevier B.V.. Vol. 837. 2022.
PHOSPHORUS ADDITION DECREASES PLANT LIGNIN BUT INCREASES MICROBIAL NECROMASS CONTRIBUTION TO SOIL ORGANIC CARBON IN A SUBALPINE FOREST Article Luo R., Kuzyakov Y., Zhu B., Qiang W., Zhang Y., Pang X. Global Change Biology. Blackwell Publishing Ltd. Vol. 28. 2022. P. 4194-4210
MICROBIAL COMMUNITY MEDIATES HYDROXYL RADICAL PRODUCTION IN SOIL SLURRIES BY IRON REDOX TRANSFORMATION Article Wan D., Liu F.-F., Chen J.-B., Kappler A., Kuzyakov Y., Liu C.-Q., Yu G.-H. Water Research. Elsevier Ltd. Vol. 220. 2022.
PLANT–MICROBIAL COMPETITION FOR AMINO ACIDS DEPENDS ON SOIL ACIDITY AND THE MICROBIAL COMMUNITY Article Pan W., Tang S., Zhou J., Liu M., Xu M., Kuzyakov Y., Ma Q., Wu L. Plant and Soil. Springer International Publishing. Vol. 475. 2022. P. 457-471
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
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.
INVESTIGATION OF THE EFFECTS OF THE CONVERSION OF FORESTS AND RANGELAND TO CROPLAND ON FERTILITY AND SOIL FUNCTIONS IN MOUNTAINOUS SEMI-ARID LANDSCAPE Article Kooch Y., Ghorbanzadeh N., Kuzyakov Y., Praeg N., Ghaderi E. Catena. Elsevier B.V.. Vol. 210. 2022.