INCREASING CONTRIBUTION OF MICROBIAL RESIDUES TO SOIL ORGANIC CARBON IN GRASSLAND RESTORATION CHRONOSEQUENCE Article Yang Y., Dou Y., Wang B., Wang Y., Liang C., An S., Soromotin A., Kuzyakov Y. Soil Biology and Biochemistry. Elsevier Ltd. Vol. 170. 2022.
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.
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
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
SOIL HEALTH EVALUATION APPROACHES ALONG A RECLAMATION CONSEQUENCE IN HANGZHOU BAY, CHINA Article Wei 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. Elsevier B.V.. Vol. 337. 2022.
VULNERABILITY AND DRIVING FACTORS OF SOIL INORGANIC CARBON STOCKS IN CHINESE CROPLANDS Article 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.. Vol. 825. 2022.
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.
SOURCES AND INTENSITY OF CH4 PRODUCTION IN PADDY SOILS DEPEND ON IRON OXIDES AND MICROBIAL BIOMASS Article 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. Vol. 58. 2022. P. 181-191
C:P STOICHIOMETRIC IMBALANCE BETWEEN SOIL AND MICROORGANISMS DRIVES MICROBIAL PHOSPHORUS TURNOVER IN THE RHIZOSPHERE Article 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. Vol. 58. 2022. P. 421-433
LINKAGES BETWEEN THE TEMPERATURE SENSITIVITY OF SOIL RESPIRATION AND MICROBIAL LIFE STRATEGY ARE DEPENDENT ON SAMPLING SEASON Article Yang 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. Elsevier Ltd. Vol. 172. 2022.
SUBSTRATE CONTROL OF SULPHUR UTILISATION AND MICROBIAL STOICHIOMETRY IN SOIL: RESULTS OF 13C, 15N, 14C, AND 35S QUAD LABELLING Article Ma Q., Kuzyakov Y., Pan W., Tang S., Chadwick D.R., Wen Y., Hill P.W., Macdonald A., Ge T., Si L., Wu L., Jones D.L. ISME Journal. Springer Nature. 2021.
IN-SITU 13CO2 LABELING TO TRACE CARBON FLUXES IN PLANT-SOIL-MICROORGANISM SYSTEMS: REVIEW AND METHODOLOGICAL GUIDELINE Article Pang R., Xu X., Tian Y., Cui X., Ouyang H., Kuzyakov Y. Rhizosphere. Elsevier B.V.. Vol. 20. 2021.
THE FLUX OF ROOT-DERIVED CARBON VIA FUNGI AND BACTERIA INTO SOIL MICROARTHROPODS (COLLEMBOLA) DIFFERS MARKEDLY BETWEEN CROPPING SYSTEMS Article Li Z., Shi L., Kuzyakov Y., Pausch J., Scheu S., Pollierer M.M. Soil Biology and Biochemistry. Elsevier Ltd. Vol. 160. 2021.
LETTER-TO-THE-EDITOR: DOES ACIDIFICATION REALLY INCREASE SOIL CARBON IN CROPLANDS? HOW STATISTICAL ANALYSES OF LARGE DATASETS MIGHT MISLEAD THE CONCLUSIONS Article Kuzyakov Y., Kuzyakova I., Raza S., Zhou J., Zamanian K. Geoderma. Elsevier. Vol. 384. 2021.
MICROBIAL COMMUNITIES AND FUNCTIONS IN THE RHIZOSPHERE OF DISEASE-RESISTANT AND SUSCEPTIBLE CAMELLIA SPP. Article Li J., Zhang C., Qu X., Luo Z., Lu S., Kuzyakov Y., Alharbi H.A., Yuan J., Niu G. Frontiers in Microbiology. Frontiers Media S.A.. Vol. 12. 2021.