Ge T.

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PADDY SOILS HAVE A MUCH HIGHER MICROBIAL BIOMASS CONTENT THAN UPLAND SOILS: A REVIEW OF THE ORIGIN, MECHANISMS, AND DRIVERS

Article

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. Том 326. 2022.

MICROBIAL IRON REDUCTION COMPENSATES FOR PHOSPHORUS LIMITATION IN PADDY SOILS

Article

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. Том 837. 2022.

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.

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

Article

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

Global Change Biology. Том 28. 2022. С. 654-664

STOICHIOMETRIC REGULATION OF PRIMING EFFECTS AND SOIL CARBON BALANCE BY MICROBIAL LIFE STRATEGIES

Article

Zhu 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.

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

Article

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

TEMPERATURE SENSITIVITY (Q10) OF STABLE, PRIMED AND EASILY AVAILABLE ORGANIC MATTER POOLS DURING DECOMPOSITION IN PADDY SOIL

Article

Wei L., Zhu Z., Liu S., Xiao M., Wang J., Wu J., Ge T., Deng Y., Kuzyakov Y.

Applied Soil Ecology. Том 157. 2021. 103752 с.

SUBSTRATE CONTROL OF SULPHUR UTILISATION AND MICROBIAL STOICHIOMETRY IN SOIL: RESULTS OF 13C, 15N, 14C, AND 35S QUAD LABELLING

Article

Ma Q., Pan W., Tang S., Wu L., Chadwick D.R., Wen Y., Hill P.W., Jones D.L., Kuzyakov Y., Macdonald A., Ge T., Si L.

ISME Journal. 2021.

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

Article

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

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

CARBON AND NITROGEN AVAILABILITY IN PADDY SOIL AFFECTS RICE PHOTOSYNTHATE ALLOCATION, MICROBIAL COMMUNITY COMPOSITION, AND PRIMING: COMBINING CONTINUOUS 13C LABELING WITH PLFA ANALYSIS

Article

Zhao Z., Kuzyakov Y., Ge T., Li Y., Zhu Z., Wu J., Gunina A., Peng P.

Plant and Soil. Том 445. 2019. С. 137-152

RICE RHIZODEPOSITS AFFECT ORGANIC MATTER PRIMING IN PADDY SOIL: THE ROLE OF N FERTILIZATION AND PLANT GROWTH FOR ENZYME ACTIVITIES, CO2 AND CH4 EMISSIONS

Article

Zhu Z., Ge T., Liu S., Hu Y., Xiao M., Tong C., Kuzyakov Y., Wu J., Ye R.

Soil Biology and Biochemistry. Том 116. 2018. С. 369-377

CARBON ALLOCATION AND FATE IN PADDY SOIL DEPENDING ON PHOSPHORUS FERTILIZATION AND WATER MANAGEMENT: RESULTS OF 13C CONTINUOUS LABELLING OF RICE

Article

Atere C.T., Ge T., Zhu Z., Wei L., Zhou P., Kuzyakov Y., Wu J., He X.

Canadian Journal of Soil Science. Том 98. 2018. С. 469-483

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Другие авторы

Akai O.M.

Записей: 10

Bundgaard H.

Записей: 1

Список записей

PADDY SOILS HAVE A MUCH HIGHER MICROBIAL BIOMASS CONTENT THAN UPLAND SOILS: A REVIEW OF THE ORIGIN, MECHANISMS, AND DRIVERS

MICROBIAL IRON REDUCTION COMPENSATES FOR PHOSPHORUS LIMITATION IN PADDY SOILS

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

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

STOICHIOMETRIC REGULATION OF PRIMING EFFECTS AND SOIL CARBON BALANCE BY MICROBIAL LIFE STRATEGIES

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

TEMPERATURE SENSITIVITY (Q<SUB>10</SUB>) OF STABLE, PRIMED AND EASILY AVAILABLE ORGANIC MATTER POOLS DURING DECOMPOSITION IN PADDY SOIL

SUBSTRATE CONTROL OF SULPHUR UTILISATION AND MICROBIAL STOICHIOMETRY IN SOIL: RESULTS OF <SUP>13</SUP>C, <SUP>15</SUP>N, <SUP>14</SUP>C, AND <SUP>35</SUP>S QUAD LABELLING

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

CARBON AND NITROGEN AVAILABILITY IN PADDY SOIL AFFECTS RICE PHOTOSYNTHATE ALLOCATION, MICROBIAL COMMUNITY COMPOSITION, AND PRIMING: COMBINING CONTINUOUS <SUP>13</SUP>C LABELING WITH PLFA ANALYSIS

RICE RHIZODEPOSITS AFFECT ORGANIC MATTER PRIMING IN PADDY SOIL: THE ROLE OF N FERTILIZATION AND PLANT GROWTH FOR ENZYME ACTIVITIES, CO<SUB>2</SUB> AND CH<SUB>4</SUB> EMISSIONS

CARBON ALLOCATION AND FATE IN PADDY SOIL DEPENDING ON PHOSPHORUS FERTILIZATION AND WATER MANAGEMENT: RESULTS OF <SUP>13</SUP>C CONTINUOUS LABELLING OF RICE

Другие авторы

Akai O.M.

Bundgaard H.