NITRITE-DEPENDENT ANAEROBIC OXIDATION DECREASES METHANE EMISSIONS FROM PEATLANDS Статья Shi Y., Ma Q., Kuzyakov Y., Sheng L., Liu H., Wang Z. Soil Biology and Biochemistry. Elsevier Ltd. Том 169. 2022.
VULNERABILITY AND DRIVING FACTORS OF SOIL INORGANIC CARBON STOCKS IN CHINESE CROPLANDS Статья Tao 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. Elsevier B.V.. Том 825. 2022.
THREE SOURCE-PARTITIONING OF CO<SUB>2</SUB> FLUXES BASED ON A DUAL-ISOTOPE APPROACH TO INVESTIGATE INTERACTIONS BETWEEN SOIL ORGANIC CARBON, GLUCOSE AND STRAW Статья Chen Z., Brookes P.C., Luo Y., Xu J., Kumar A., Kuzyakov Y. Science of the Total Environment. Elsevier B.V.. Том 811. 2022. 152163 с.
EFFECT OF LONG-TERM FERTILISATION ON ENZYME ACTIVITIES AND MICROBIAL COMMUNITY COMPOSITION IN THE RICE RHIZOSPHERE Статья Li W., Kuzyakov Y., Zheng Y., Liu M., Wu M., Dong Y., Li Z. Acta Agriculturae Scandinavica Section B: Soil and Plant Science. Taylor and Francis Ltd.. Том 72. 2022. С. 454-462
MICROBIAL COMMUNITY MEDIATES HYDROXYL RADICAL PRODUCTION IN SOIL SLURRIES BY IRON REDOX TRANSFORMATION Статья Wan D., Liu F.-F., Chen J.-B., Kappler A., Kuzyakov Y., Liu C.-Q., Yu G.-H. Water Research. Elsevier Ltd. Том 220. 2022.
NITROGEN ADDITION TO SOIL AFFECTS MICROBIAL CARBON USE EFFICIENCY: META-ANALYSIS OF SIMILARITIES AND DIFFERENCES IN 13C AND 18O APPROACHES Статья Hu J., Huang C., Zhou S., Kuzyakov Y. Global Change Biology. Blackwell Publishing Ltd. 2022.
NETWORK ANALYSIS REVEALS BACTERIAL AND FUNGAL KEYSTONE TAXA INVOLVED IN STRAW AND SOIL ORGANIC MATTER MINERALIZATION Статья Xiao 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. Applied Soil Ecology. Elsevier B.V.. Том 173. 2022.
NITROGEN ADDITION TO SOIL AFFECTS MICROBIAL CARBON USE EFFICIENCY: META-ANALYSIS OF SIMILARITIES AND DIFFERENCES IN <SUP>13</SUP>C AND <SUP>18</SUP>O APPROACHES Статья Hu J., Huang C., Zhou S., Kuzyakov Y. Global Change Biology. Blackwell Publishing Ltd. 2022.
PHOSPHORUS ADDITION DECREASES PLANT LIGNIN BUT INCREASES MICROBIAL NECROMASS CONTRIBUTION TO SOIL ORGANIC CARBON IN A SUBALPINE FOREST Статья Luo R., Kuzyakov Y., Zhu B., Qiang W., Zhang Y., Pang X. Global Change Biology. Blackwell Publishing Ltd. Том 28. 2022. С. 4194-4210
SOIL PORE ARCHITECTURE AND RHIZOSPHERE LEGACY DEFINE N2O PRODUCTION IN ROOT DETRITUSPHERE Статья Kim K., Gil J., Ostrom N.E., Gandhi H., Oerther M.S., Kuzyakov Y., Guber A.K., Kravchenko A.N. Soil Biology and Biochemistry. Elsevier Ltd. Том 166. 2022.
INVESTIGATION OF THE EFFECTS OF THE CONVERSION OF FORESTS AND RANGELAND TO CROPLAND ON FERTILITY AND SOIL FUNCTIONS IN MOUNTAINOUS SEMI-ARID LANDSCAPE Статья Kooch Y., Ghorbanzadeh N., Kuzyakov Y., Praeg N., Ghaderi E. Catena. Elsevier B.V.. Том 210. 2022.
PADDY SOILS HAVE A MUCH HIGHER MICROBIAL BIOMASS CONTENT THAN UPLAND SOILS: A REVIEW OF THE ORIGIN, MECHANISMS, AND DRIVERS Статья 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.. Том 326. 2022.
MICROBIAL GROWTH RATES, CARBON USE EFFICIENCY AND ENZYME ACTIVITIES DURING POST-AGRICULTURAL SOIL RESTORATION Статья Sun 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. Elsevier B.V.. Том 214. 2022.
MODERATE GRAZING INCREASES NEWLY ASSIMILATED CARBON ALLOCATION BELOWGROUND Статья Zhao Y., Tian Y., Gao Q., Li X., Zhang Y., Ding Y., Ouyang S., Yurtaev A., Kuzyakov Y. Rhizosphere. Elsevier B.V.. Том 22. 2022.
SOURCES AND INTENSITY OF CH4 PRODUCTION IN PADDY SOILS DEPEND ON IRON OXIDES AND MICROBIAL BIOMASS Статья Li Y., Zhu Z., Wei X., Kuzyakov Y., Li B., Kim P.J., Wu J., Liu S., Ge T. Biology and Fertility of Soils. Springer Verlag. Том 58. 2022. С. 181-191
GLYCOPROTEINS OF ARBUSCULAR MYCORRHIZA FOR SOIL CARBON SEQUESTRATION: REVIEW OF MECHANISMS AND CONTROLS Статья Agnihotri R., Sharma M.P., Prakash A., Ramesh A., Bhattacharjya S., Patra A.K., Manna M.C., Kurganova I., Kuzyakov Y. Science of the Total Environment. Elsevier B.V.. Том 806. 2022.
FROM ENERGY TO (SOIL ORGANIC) MATTER Статья Gunina A., Kuzyakov Y. Global Change Biology. Blackwell Publishing Ltd. Том 28. 2022. С. 2169-2182
MICROBIAL IRON REDUCTION COMPENSATES FOR PHOSPHORUS LIMITATION IN PADDY SOILS Статья 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.. Том 837. 2022.
METABOLIC PATHWAYS OF CO2 FIXING MICROORGANISMS DETERMINED C-FIXATION RATES IN GRASSLAND SOILS ALONG THE PRECIPITATION GRADIENT Статья Huang Q., Huang Y., Wang B., Dippold M.A., Li H., Li N., Jia P., Zhang H., An S., Kuzyakov Y. Soil Biology and Biochemistry. Elsevier Ltd. Том 172. 2022.
C:P STOICHIOMETRIC IMBALANCE BETWEEN SOIL AND MICROORGANISMS DRIVES MICROBIAL PHOSPHORUS TURNOVER IN THE RHIZOSPHERE Статья Peng 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. Springer Verlag. Том 58. 2022. С. 421-433
MODELLING THE RHIZOSPHERE PRIMING EFFECT IN COMBINATION WITH SOIL FOODWEBS TO QUANTIFY INTERACTION BETWEEN LIVING PLANT, SOIL BIOTA AND SOIL ORGANIC MATTER Статья Chertov O., Kuzyakov Y., Priputina I., Frolov P., Shanin V., Grabarnik P. Plants. MDPI AG. Том 11. 2022. 2605 с.
TEMPERATURE SENSITIVITY OF ANAEROBIC METHANE OXIDATION VERSUS METHANOGENESIS IN PADDY SOIL: IMPLICATIONS FOR THE CH4 BALANCE UNDER GLOBAL WARMING Статья Fan L.C., Dippold M.A., Thiel V., Ge T.D., Wu J.S., Kuzyakov Y., Dorodnikov M. Global Change Biology. Blackwell Publishing Ltd. Том 28. 2022. С. 654-664
STIMULATION OF AMMONIA OXIDIZER AND DENITRIFIER ABUNDANCES BY NITROGEN LOADING: POOR PREDICTABILITY FOR INCREASED SOIL N2O EMISSION Статья 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. Том 28. 2022. С. 2158-2168
ROOT EXUDATE CHEMISTRY AFFECTS SOIL CARBON MOBILIZATION VIA MICROBIAL COMMUNITY REASSEMBLY Статья 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 Статья Miao Y., Lin Y., Chen Z., Zheng H., Niu Y., Kuzyakov Y., Liu D., Ding W. Science of the Total Environment. Elsevier B.V.. Том 832. 2022.