Kuzyakov Y.

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THE EFFECT OF FERTILIZER TYPE ON NITROGEN UPTAKE BY MAIZE FROM RECENTLY FORMED SOIL ORGANIC MATTER#

Article

Pedersen I.F., Hansen J., Peixoto L., Enggrob K.L., Rasmussen J., Kuzyakov Y.

Journal of Plant Nutrition and Soil Science. Том 185. 2022. С. 168-176

PLANT SPECIES AND PLANT NEIGHBOR IDENTITY AFFECT ASSOCIATIONS BETWEEN PLANT ASSIMILATED C INPUTS AND SOIL PORES

Article

Zheng H., Guber A.K., Kuzyakov Y., Zhang W., Kravchenko A.N.

Geoderma. Том 407. 2022.

RHIZOSPHERE BACTERIOME STRUCTURE AND FUNCTIONS

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Ling N., Wang T., Kuzyakov Y.

Nature Communications. Том 13. 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. 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. Том 169. 2022.

INCREASED SOIL ORGANIC MATTER AFTER 28 YEARS OF NITROGEN FERTILIZATION ONLY WITH PLASTIC FILM MULCHING IS CONTROLLED BY MAIZE ROOT BIOMASS

Article

Ding F., Ji D., Yan K., Dijkstra F.A., Bao X., Li S., Kuzyakov Y., Wang J.

Science of the Total Environment. Том 810. 2022.

DEEP-C STORAGE: BIOLOGICAL, CHEMICAL AND PHYSICAL STRATEGIES TO ENHANCE CARBON STOCKS IN AGRICULTURAL SUBSOILS

Article

Button E.S., Chadwick D.R., Jones D.L., Pett-Ridge J., Murphy D.V., Kuzyakov Y.

Soil Biology and Biochemistry. Том 170. 2022. 108697 с.

NITROGEN ADDITION TO SOIL AFFECTS MICROBIAL CARBON USE EFFICIENCY: META-ANALYSIS OF SIMILARITIES AND DIFFERENCES IN 13C AND 18O APPROACHES

Article

Hu J., Huang C., Zhou S., Kuzyakov Y.

Global Change Biology. 2022.

FERTILIZATION EFFECTS ON SOIL MICROBIAL COMPOSITION AND NUTRIENT AVAILABILITY IN INTEGRATED RICE-LIVESTOCK PRODUCTION SYSTEMS

Article

Denardin 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.

Applied Soil Ecology. Том 174. 2022.

DIVERSIFIED CROPPING SYSTEMS BENEFIT SOIL CARBON AND NITROGEN STOCKS BY INCREASING AGGREGATE STABILITY: RESULTS OF THREE FRACTIONATION METHODS

Article

Yan 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.

SOURCES AND INTENSITY OF CH4 PRODUCTION IN PADDY SOILS DEPEND ON IRON OXIDES AND MICROBIAL BIOMASS

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Li Y., Zhu Z., Wei X., Li B., Wu J., Liu S., Ge T., Kuzyakov Y., Kim P.J.

Biology and Fertility of Soils. Том 58. 2022. С. 181-191

DEPTH EFFECTS ON BACTERIAL COMMUNITY ASSEMBLY PROCESSES IN PADDY SOILS

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Li W., Kuzyakov Y., Zheng Y., Li P., Li G., Liu M., Alharbi H.A., Li Z.

Soil Biology and Biochemistry. Том 165. 2022.

INITIAL SOIL FORMATION BY BIOCRUSTS: NITROGEN DEMAND AND CLAY PROTECTION CONTROL MICROBIAL NECROMASS ACCRUAL AND RECYCLING

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Wang 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.

MODERATE GRAZING INCREASES NEWLY ASSIMILATED CARBON ALLOCATION BELOWGROUND

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Zhao Y., Tian Y., Gao Q., Li X., Zhang Y., Ding Y., Ouyang S., Yurtaev A., Kuzyakov Y.

Rhizosphere. Том 22. 2022.

HIGH FREQUENCY OF EXTREME PRECIPITATION INCREASES STIPA GRANDIS BIOMASS BY ALTERING PLANT AND MICROBIAL NITROGEN ACQUISITION

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Wen S., Tian Y., Ouyang S., Song M., Li X., Zhang Y., Gao S., Xu X., Kuzyakov Y.

Biology and Fertility of Soils. Том 58. 2022. С. 63-75

PLANT–MICROBIAL COMPETITION FOR AMINO ACIDS DEPENDS ON SOIL ACIDITY AND THE MICROBIAL COMMUNITY

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Pan W., Tang S., Zhou J., Liu M., Xu M., Kuzyakov Y., Ma Q., Wu L.

Plant and Soil. Том 475. 2022. С. 457-471

SOIL PORE ARCHITECTURE AND RHIZOSPHERE LEGACY DEFINE N2O PRODUCTION IN ROOT DETRITUSPHERE

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Kim K., Oerther M.S., Guber A.K., Kravchenko A.N., Gil J., Ostrom N.E., Gandhi H., Kuzyakov Y.

Soil Biology and Biochemistry. Том 166. 2022. 108565 с.

SYNERGY OF SAPROTROPHS WITH MYCORRHIZA FOR LITTER DECOMPOSITION AND HOTSPOT FORMATION DEPENDS ON NUTRIENT AVAILABILITY IN THE RHIZOSPHERE

Article

Cao T., Fang Y., Chen Y., Kong X., Yang J., Alharbi H., Kuzyakov Y., Tian X.

Geoderma. Том 410. 2022.

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. Том 822. 2022.

PRIMING EFFECTS IN SOILS ACROSS EUROPE

Article

Siles 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

THREE SOURCE-PARTITIONING OF CO2 FLUXES BASED ON A DUAL-ISOTOPE APPROACH TO INVESTIGATE INTERACTIONS BETWEEN SOIL ORGANIC CARBON, GLUCOSE AND STRAW

Article

Chen Z., Brookes P.C., Luo Y., Xu J., Kumar A., Kuzyakov Y.

Science of the Total Environment. Том 811. 2022. 152163 с.

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. Том 58. 2022. С. 421-433

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. Том 337. 2022.

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., Liu D., Ding W., Kuzyakov Y.

Science of the Total Environment. Том 832. 2022. 155051 с.

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. Том 28. 2022. С. 4194-4210

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Bakaeva Z.B.

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Keith S.

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Список записей

THE EFFECT OF FERTILIZER TYPE ON NITROGEN UPTAKE BY MAIZE FROM RECENTLY FORMED SOIL ORGANIC MATTER<SUP>#</SUP>

PLANT SPECIES AND PLANT NEIGHBOR IDENTITY AFFECT ASSOCIATIONS BETWEEN PLANT ASSIMILATED C INPUTS AND SOIL PORES

RHIZOSPHERE BACTERIOME STRUCTURE AND FUNCTIONS

ROOT EXUDATE CHEMISTRY AFFECTS SOIL CARBON MOBILIZATION VIA MICROBIAL COMMUNITY REASSEMBLY

NITRITE-DEPENDENT ANAEROBIC OXIDATION DECREASES METHANE EMISSIONS FROM PEATLANDS

INCREASED SOIL ORGANIC MATTER AFTER 28 YEARS OF NITROGEN FERTILIZATION ONLY WITH PLASTIC FILM MULCHING IS CONTROLLED BY MAIZE ROOT BIOMASS

DEEP-C STORAGE: BIOLOGICAL, CHEMICAL AND PHYSICAL STRATEGIES TO ENHANCE CARBON STOCKS IN AGRICULTURAL SUBSOILS

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

FERTILIZATION EFFECTS ON SOIL MICROBIAL COMPOSITION AND NUTRIENT AVAILABILITY IN INTEGRATED RICE-LIVESTOCK PRODUCTION SYSTEMS

DIVERSIFIED CROPPING SYSTEMS BENEFIT SOIL CARBON AND NITROGEN STOCKS BY INCREASING AGGREGATE STABILITY: RESULTS OF THREE FRACTIONATION METHODS

SOURCES AND INTENSITY OF CH<SUB>4</SUB> PRODUCTION IN PADDY SOILS DEPEND ON IRON OXIDES AND MICROBIAL BIOMASS

DEPTH EFFECTS ON BACTERIAL COMMUNITY ASSEMBLY PROCESSES IN PADDY SOILS

INITIAL SOIL FORMATION BY BIOCRUSTS: NITROGEN DEMAND AND CLAY PROTECTION CONTROL MICROBIAL NECROMASS ACCRUAL AND RECYCLING

MODERATE GRAZING INCREASES NEWLY ASSIMILATED CARBON ALLOCATION BELOWGROUND

HIGH FREQUENCY OF EXTREME PRECIPITATION INCREASES STIPA GRANDIS BIOMASS BY ALTERING PLANT AND MICROBIAL NITROGEN ACQUISITION

PLANT–MICROBIAL COMPETITION FOR AMINO ACIDS DEPENDS ON SOIL ACIDITY AND THE MICROBIAL COMMUNITY

SOIL PORE ARCHITECTURE AND RHIZOSPHERE LEGACY DEFINE N<SUB>2</SUB>O PRODUCTION IN ROOT DETRITUSPHERE

SYNERGY OF SAPROTROPHS WITH MYCORRHIZA FOR LITTER DECOMPOSITION AND HOTSPOT FORMATION DEPENDS ON NUTRIENT AVAILABILITY IN THE RHIZOSPHERE

CATALYTIC EFFICIENCY OF SOIL ENZYMES EXPLAINS TEMPERATURE SENSITIVITY: INSIGHTS FROM PHYSIOLOGICAL THEORY

PRIMING EFFECTS IN SOILS ACROSS EUROPE

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

C:P STOICHIOMETRIC IMBALANCE BETWEEN SOIL AND MICROORGANISMS DRIVES MICROBIAL PHOSPHORUS TURNOVER IN THE RHIZOSPHERE

SOIL HEALTH EVALUATION APPROACHES ALONG A RECLAMATION CONSEQUENCE IN HANGZHOU BAY, CHINA

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

PHOSPHORUS ADDITION DECREASES PLANT LIGNIN BUT INCREASES MICROBIAL NECROMASS CONTRIBUTION TO SOIL ORGANIC CARBON IN A SUBALPINE FOREST

Другие авторы

Bakaeva Z.B.

Keith S.