Kuzyakov Y.

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STIMULATION OF AMMONIA OXIDIZER AND DENITRIFIER ABUNDANCES BY NITROGEN LOADING: POOR PREDICTABILITY FOR INCREASED SOIL N2O EMISSION

Статья

Zhang Y., Zhang F., Abalos D., Olesen J.E., Jørgensen U., Chen J., Luo Y., Hungate B.A., Hui D., García-Palacios P., Kuzyakov Y.

Global Change Biology. Blackwell Publishing Ltd. 2021.

COMPOSITIONAL VARIATIONS OF ACTIVE AUTOTROPHIC BACTERIA IN PADDY SOILS WITH ELEVATED CO2 AND TEMPERATURE

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Zhu C., Ling N., Li L., Guo S., Shen Q., Liu X., Zhang X., Dippold M.A., Kuzyakov Y.

Soil Ecology Letters. Springer Nature. Том 2. 2020. С. 295-307

15N-TRACER APPROACH TO ASSESS NITROGEN CYCLING PROCESSES: NITRATE REDUCTION, ANAMMOX AND DENITRIFICATION IN DIFFERENT PH CROPLAND SOILS

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Xue D., Yu H., Wang Y., Kuzyakov Y., Wang Z.L., Fang Y., Shan J., Xi D.

Catena. Elsevier B.V.. Том 193. 2020. 104611 с.

AN IRON-DEPENDENT BURST OF HYDROXYL RADICALS STIMULATES STRAW DECOMPOSITION AND CO2 EMISSION FROM SOIL HOTSPOTS: CONSEQUENCES OF FENTON OR FENTON-LIKE REACTIONS

Статья

Du H.Y., Chen C.M., Yu G.H., Sun F.S., Polizzotto M.L., Kuzyakov Y.

Geoderma. Elsevier. Том 375. 2020. 114512 с.

TEMPERATURE SENSITIVITY OF SOIL ORGANIC MATTER MINERALIZATION DECREASES WITH LONG-TERM N FERTILIZATION: EVIDENCE FROM FOUR Q10 ESTIMATION APPROACHES

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Zang H., Cheng F., Chen H., Zhang F., Fan M., Wen Y., Blagodatskaya E., Shi L., Kuzyakov Y., Zhao B.

Land Degradation and Development. John Wiley and Sons Ltd. Том 31. 2020. С. 683-693

ANAEROBIC OXIDATION OF METHANE IN PADDY SOIL: ROLE OF ELECTRON ACCEPTORS AND FERTILIZATION IN MITIGATING CH4 FLUXES

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Fan L., Kuzyakov Y., Dorodnikov M., Dippold M.A., Ge T., Wu J., Thiel V.

Soil Biology and Biochemistry. Elsevier Ltd. Том 141. 2020. 107685 с.

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

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

Global Change Biology. Blackwell Publishing Ltd. 2022.

FUNGAL KEY PLAYERS OF CELLULOSE UTILIZATION: MICROBIAL NETWORKS IN AGGREGATES OF LONG-TERM FERTILIZED SOILS DISENTANGLED USING 13C-DNA-STABLE ISOTOPE PROBING

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Miao Y., Lin Y., Chen Z., Zheng H., Niu Y., Liu D., Ding W., Kuzyakov Y.

Science of the Total Environment. Elsevier B.V.. Том 832. 2022. 155051 с.

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

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

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

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. Springer Verlag. Том 58. 2022. С. 181-191

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

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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.

TEMPERATURE SENSITIVITY OF ANAEROBIC METHANE OXIDATION VERSUS METHANOGENESIS IN PADDY SOIL: IMPLICATIONS FOR THE CH4 BALANCE UNDER GLOBAL WARMING

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Fan L., Kuzyakov Y., Dorodnikov M., Dippold M.A., Thiel V., Ge T., Wu J.

Global Change Biology. Blackwell Publishing Ltd. Том 28. 2022. С. 654-664

A NOVEL BELOWGROUND IN-SITU GAS LABELING APPROACH: CH4 OXIDATION IN DEEP PEAT USING PASSIVE DIFFUSION CHAMBERS AND 13C EXCESS

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Dorodnikov M., Fan L., Kuzyakov Y., Knorr K.H., Nilsson M.B.

Science of the Total Environment. Elsevier B.V.. Том 806. 2022. 150457 с.

IN-SITU 13CO2 LABELING TO TRACE CARBON FLUXES IN PLANT-SOIL-MICROORGANISM SYSTEMS: REVIEW AND METHODOLOGICAL GUIDELINE

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Pang R., Xu X., Tian Y., Cui X., Ouyang H., Kuzyakov Y.

Rhizosphere. Elsevier B.V.. Том 20. 2021.

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. Springer Verlag. Том 58. 2022. С. 63-75

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Bakaeva Z.B.

Записей: 6

Keith S.

Записей: 1

Список записей

STIMULATION OF AMMONIA OXIDIZER AND DENITRIFIER ABUNDANCES BY NITROGEN LOADING: POOR PREDICTABILITY FOR INCREASED SOIL N<SUB>2</SUB>O EMISSION

COMPOSITIONAL VARIATIONS OF ACTIVE AUTOTROPHIC BACTERIA IN PADDY SOILS WITH ELEVATED CO<SUB>2</SUB> AND TEMPERATURE

<SUP>15</SUP>N-TRACER APPROACH TO ASSESS NITROGEN CYCLING PROCESSES: NITRATE REDUCTION, ANAMMOX AND DENITRIFICATION IN DIFFERENT PH CROPLAND SOILS

AN IRON-DEPENDENT BURST OF HYDROXYL RADICALS STIMULATES STRAW DECOMPOSITION AND CO<SUB>2</SUB> EMISSION FROM SOIL HOTSPOTS: CONSEQUENCES OF FENTON OR FENTON-LIKE REACTIONS

TEMPERATURE SENSITIVITY OF SOIL ORGANIC MATTER MINERALIZATION DECREASES WITH LONG-TERM N FERTILIZATION: EVIDENCE FROM FOUR Q<SUB>10</SUB> ESTIMATION APPROACHES

ANAEROBIC OXIDATION OF METHANE IN PADDY SOIL: ROLE OF ELECTRON ACCEPTORS AND FERTILIZATION IN MITIGATING CH<SUB>4</SUB> FLUXES

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

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

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

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

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

TEMPERATURE SENSITIVITY OF ANAEROBIC METHANE OXIDATION VERSUS METHANOGENESIS IN PADDY SOIL: IMPLICATIONS FOR THE CH<SUB>4</SUB> BALANCE UNDER GLOBAL WARMING

A NOVEL BELOWGROUND IN-SITU GAS LABELING APPROACH: CH<SUB>4</SUB> OXIDATION IN DEEP PEAT USING PASSIVE DIFFUSION CHAMBERS AND <SUP>13</SUP>C EXCESS

IN-SITU 13CO2 LABELING TO TRACE CARBON FLUXES IN PLANT-SOIL-MICROORGANISM SYSTEMS: REVIEW AND METHODOLOGICAL GUIDELINE

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

Другие авторы

Bakaeva Z.B.

Keith S.