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
SYNERGY OF SAPROTROPHS WITH MYCORRHIZA FOR LITTER DECOMPOSITION AND HOTSPOT FORMATION DEPENDS ON NUTRIENT AVAILABILITY IN THE RHIZOSPHERE СтатьяCao T., Fang Y., Chen Y., Kong X., Yang J., Alharbi H., Kuzyakov Y., Tian X.Geoderma. Том 410. 2022.
THREE SOURCE-PARTITIONING OF CO2 FLUXES BASED ON A DUAL-ISOTOPE APPROACH TO INVESTIGATE INTERACTIONS BETWEEN SOIL ORGANIC CARBON, GLUCOSE AND STRAW СтатьяChen Z., Kumar A., Brookes P.C., Kuzyakov Y., Luo Y., Xu J.Science of the Total Environment. Том 811. 2022.
SOIL PORE ARCHITECTURE AND RHIZOSPHERE LEGACY DEFINE N2O PRODUCTION IN ROOT DETRITUSPHERE СтатьяKim K., Gil J., Ostrom N.E., Gandhi H., Oerther M.S., Kuzyakov Y., Guber A.K., Kravchenko A.N.Soil Biology and Biochemistry. Том 166. 2022.
PRIMING EFFECTS IN SOILS ACROSS EUROPE СтатьяSiles J.A., Díaz-López M., Vera A., Eisenhauer N., Guerra C.A., Smith L.C., Buscot F., Reitz T., Breitkreuz C., Crowther T.W., Orgiazzi A., Kuzyakov Y., Delgado-Baquerizo M., Bastida F., Van Den Hoogen J.Global Change Biology. Том 28. 2022. С. 2146-2157
STIMULATION OF AMMONIA OXIDIZER AND DENITRIFIER ABUNDANCES BY NITROGEN LOADING: POOR PREDICTABILITY FOR INCREASED SOIL N2O EMISSION СтатьяZhang 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. Том 28. 2022. С. 2158-2168