TEMPERATURE SENSITIVITY OF ANAEROBIC METHANE OXIDATION VERSUS METHANOGENESIS IN PADDY SOIL: IMPLICATIONS FOR THE CH4 BALANCE UNDER GLOBAL WARMING СтатьяFan L.C., Dippold M.A., Thiel V., Ge T.D., Wu J.S., Kuzyakov Y., Dorodnikov M.Global Change Biology. Том 28. 2022. С. 654-664
RHIZOSPHERE BACTERIOME STRUCTURE AND FUNCTIONS СтатьяLing N., Wang T., Kuzyakov Y.Nature Communications. Том 13. 2022.
SOIL HEALTH EVALUATION APPROACHES ALONG A RECLAMATION CONSEQUENCE IN HANGZHOU BAY, CHINA СтатьяWei L., Li Y., Zhu Z., Wang F., Liu X., Zhang W., Xiao M., Li G., Ding J., Chen J., Kuzyakov Y., Ge T.Agriculture, Ecosystems and Environment. Том 337. 2022.
METABOLIC PATHWAYS OF CO2 FIXING MICROORGANISMS DETERMINED C-FIXATION RATES IN GRASSLAND SOILS ALONG THE PRECIPITATION GRADIENT СтатьяHuang Q., Huang Y., Wang B., Dippold M.A., Li H., Li N., Jia P., Zhang H., An S., Kuzyakov Y.Soil Biology and Biochemistry. Том 172. 2022.
LINKAGES BETWEEN THE TEMPERATURE SENSITIVITY OF SOIL RESPIRATION AND MICROBIAL LIFE STRATEGY ARE DEPENDENT ON SAMPLING SEASON СтатьяYang S., Wu H., Wang Z., Semenov M.V., Ye J., Yin L., Wang X., Kravchenko I., Semenov V., Kuzyakov Y., Jiang Y., Li H.Soil Biology and Biochemistry. Том 172. 2022.
MICROBIAL IRON REDUCTION COMPENSATES FOR PHOSPHORUS LIMITATION IN PADDY SOILS СтатьяWang 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. Том 837. 2022.
EFFECTS OF PLASTIC FILM MULCH BIODEGRADABILITY ON NITROGEN IN THE PLANT-SOIL SYSTEM СтатьяWang K., Wang C., Chen M., Misselbrook T., Kuzyakov Y., Soromotin A., Dong Q., Feng H., Jiang R.Science of the Total Environment. Том 833. 2022.
FUNGAL KEY PLAYERS OF CELLULOSE UTILIZATION: MICROBIAL NETWORKS IN AGGREGATES OF LONG-TERM FERTILIZED SOILS DISENTANGLED USING 13C-DNA-STABLE ISOTOPE PROBING СтатьяMiao Y., Lin Y., Chen Z., Zheng H., Niu Y., Kuzyakov Y., Liu D., Ding W.Science of the Total Environment. Том 832. 2022.
MICROBIAL COMMUNITY MEDIATES HYDROXYL RADICAL PRODUCTION IN SOIL SLURRIES BY IRON REDOX TRANSFORMATION СтатьяWan D., Liu F.-F., Chen J.-B., Kappler A., Kuzyakov Y., Liu C.-Q., Yu G.-H.Water Research. Том 220. 2022.
INCREASING CONTRIBUTION OF MICROBIAL RESIDUES TO SOIL ORGANIC CARBON IN GRASSLAND RESTORATION CHRONOSEQUENCE СтатьяYang Y., Dou Y., Wang B., Wang Y., Liang C., An S., Soromotin A., Kuzyakov Y.Soil Biology and Biochemistry. Том 170. 2022.
PHOSPHORUS ADDITION DECREASES PLANT LIGNIN BUT INCREASES MICROBIAL NECROMASS CONTRIBUTION TO SOIL ORGANIC CARBON IN A SUBALPINE FOREST СтатьяLuo R., Kuzyakov Y., Zhu B., Qiang W., Zhang Y., Pang X.Global Change Biology. Том 28. 2022. С. 4194-4210
LOW CARBON AVAILABILITY IN PALEOSOLS NONLINEARLY ATTENUATES TEMPERATURE SENSITIVITY OF SOIL ORGANIC MATTER DECOMPOSITION СтатьяSu J., Zhang H., Han X., Peñuelas J., Filimonenko E., Jiang Y., Kuzyakov Y., Wei C.Global Change Biology. Том 28. 2022. С. 4180-4193
MICROBIAL GROWTH RATES, CARBON USE EFFICIENCY AND ENZYME ACTIVITIES DURING POST-AGRICULTURAL SOIL RESTORATION СтатьяSun T., Zhou J., Shi L., Feng W., Dippold M.A., Zang H., Kurganova I., Kalinina O., Giani L., Kuzyakov Y., De Gerenyu V.L.Catena. Том 214. 2022.
NUTRIENTS IN THE RHIZOSPHERE: A META-ANALYSIS OF CONTENT, AVAILABILITY, AND INFLUENCING FACTORS СтатьяLiu S., He F., Kuzyakov Y., Xiao H., Hoang D.T.T., Pu S., Razavi B.S.Science of the Total Environment. Том 826. 2022.
VULNERABILITY AND DRIVING FACTORS OF SOIL INORGANIC CARBON STOCKS IN CHINESE CROPLANDS СтатьяTao J., Raza S., Zhao M., Cui J., Wang P., Sui Y., Zamanian K., Kuzyakov Y., Xu M., Chen Z., Zhou J.Science of the Total Environment. Том 825. 2022.
DIVERSIFIED CROPPING SYSTEMS BENEFIT SOIL CARBON AND NITROGEN STOCKS BY INCREASING AGGREGATE STABILITY: RESULTS OF THREE FRACTIONATION METHODS СтатьяYan Z., Zhou J., Yang L., Gunina A., Yang Y., Peixoto L., Zeng Z., Zang H., Kuzyakov Y.Science of the Total Environment. Том 824. 2022.
MODERATE GRAZING INCREASES NEWLY ASSIMILATED CARBON ALLOCATION BELOWGROUND СтатьяZhao Y., Tian Y., Gao Q., Li X., Zhang Y., Ding Y., Ouyang S., Yurtaev A., Kuzyakov Y.Rhizosphere. Том 22. 2022.
STOICHIOMETRIC REGULATION OF PRIMING EFFECTS AND SOIL CARBON BALANCE BY MICROBIAL LIFE STRATEGIES СтатьяZhu 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. Том 169. 2022.
NITRITE-DEPENDENT ANAEROBIC OXIDATION DECREASES METHANE EMISSIONS FROM PEATLANDS СтатьяShi Y., Ma Q., Kuzyakov Y., Sheng L., Liu H., Wang Z.Soil Biology and Biochemistry. Том 169. 2022.
FERTILIZATION EFFECTS ON SOIL MICROBIAL COMPOSITION AND NUTRIENT AVAILABILITY IN INTEGRATED RICE-LIVESTOCK PRODUCTION SYSTEMS СтатьяDenardin L.G.D.O., Martins A.P., Flores J.P.M., Alves L.A., Pires C.B., Machado D.R., Anghinoni I., Carvalho P.C.F., Kuzyakov Y., Rice C.W., Chabbi A.Прикладная экология почв. Том 174. 2022.
CATALYTIC EFFICIENCY OF SOIL ENZYMES EXPLAINS TEMPERATURE SENSITIVITY: INSIGHTS FROM PHYSIOLOGICAL THEORY СтатьяLiu C., Tian H., Gu X., Li N., Zhao X., Lei M., Alharbi H., Megharaj M., He W., Kuzyakov Y.Science of the Total Environment. Том 822. 2022.
C:P STOICHIOMETRIC IMBALANCE BETWEEN SOIL AND MICROORGANISMS DRIVES MICROBIAL PHOSPHORUS TURNOVER IN THE RHIZOSPHERE СтатьяPeng Y., Duan Y., Huo W., Zhang Z., Huang D., Xu M., Wang X., Yang X., Wang B., Kuzyakov Y., Feng G.Biology and Fertility of Soils. Том 58. 2022. С. 421-433
NETWORK ANALYSIS REVEALS BACTERIAL AND FUNGAL KEYSTONE TAXA INVOLVED IN STRAW AND SOIL ORGANIC MATTER MINERALIZATION СтатьяXiao D., He X., Wang G., Xu X., Hu Y., Chen X., Zhang W., Su Y., Wang K., Soromotin A.V., Alharbi H.A., Kuzyakov Y.Прикладная экология почв. Том 173. 2022.
INITIAL SOIL FORMATION BY BIOCRUSTS: NITROGEN DEMAND AND CLAY PROTECTION CONTROL MICROBIAL NECROMASS ACCRUAL AND RECYCLING СтатьяWang B., Huang Y., Li N., Yao H., Yang E., Soromotin A.V., Kuzyakov Y., Cheptsov V., Yang Y., An S.Soil Biology and Biochemistry. Том 167. 2022.
FROM ENERGY TO (SOIL ORGANIC) MATTER СтатьяGunina A., Kuzyakov Y.Global Change Biology. Том 28. 2022. С. 2169-2182