|Stimulation of microbial extracellular enzyme activities by elevated CO2 depends on soil aggregate size|
M Dorodnikov, E Blagodatskaya, S Blagodatsky, S Marhan, A Fangmeier, ...
Global Change Biology 15 (6), 1603-1614, 2009
|Elevated atmospheric CO2 increases microbial growth rates in soil: results of three CO2 enrichment experiments|
E Blagodatskaya, S Blagodatsky, M Dorodnikov, Y Kuzyakov
Global Change Biology 16 (2), 836-848, 2010
|Responses of enzymatic activities within soil aggregates to 9-year nitrogen and water addition in a semi-arid grassland|
R Wang, M Dorodnikov, S Yang, Y Zhang, TR Filley, RF Turco, Y Zhang, ...
Soil Biology and Biochemistry 81, 159-167, 2015
|Review and synthesis of the effects of elevated atmospheric CO2 on soil processes: No changes in pools, but increased fluxes and accelerated cycles|
Y Kuzyakov, WR Horwath, M Dorodnikov, E Blagodatskaya
Soil Biology and Biochemistry 128, 66-78, 2019
|Rice rhizodeposition and its utilization by microbial groups depends on N fertilization|
T Ge, B Li, Z Zhu, Y Hu, H Yuan, M Dorodnikov, DL Jones, J Wu, ...
Biology and Fertility of Soils 53, 37-48, 2017
|Source determination of lipids in bulk soil and soil density fractions after four years of wheat cropping|
GLB Wiesenberg, M Dorodnikov, Y Kuzyakov
Geoderma 156 (3-4), 267-277, 2010
|Plant-mediated CH4 transport and contribution of photosynthates to methanogenesis at a boreal mire: a 14C pulse-labeling study|
M Dorodnikov, KH Knorr, Y Kuzyakov, M Wilmking
Biogeosciences 8 (8), 2365-2375, 2011
|Stimulation of r - vs. K -selected microorganisms by elevated atmospheric CO 2 depends on soil aggregate size|
M Dorodnikov, E Blagodatskaya, S Blagodatsky, A Fangmeier, ...
FEMS Microbiology Ecology 69 (1), 43-52, 2009
|C and N in soil organic matter density fractions under elevated atmospheric CO2: turnover vs. stabilization|
M Dorodnikov, Y Kuzyakov, A Fangmeier, GLB Wiesenberg
Soil Biology and Biochemistry 43 (3), 579-589, 2011
|Effects of maize roots on aggregate stability and enzyme activities in soil|
A Kumar, M Dorodnikov, T Splettstößer, Y Kuzyakov, J Pausch
Geoderma 306, 50-57, 2017
|Anaerobic oxidation of methane in paddy soil: Role of electron acceptors and fertilization in mitigating CH4 fluxes|
L Fan, MA Dippold, T Ge, J Wu, V Thiel, Y Kuzyakov, M Dorodnikov
Soil Biology and Biochemistry 141, 107685, 2020
|Ecosystem carbon response of an Arctic peatland to simulated permafrost thaw|
C Voigt, ME Marushchak, M Mastepanov, RE Lamprecht, TR Christensen, ...
Global Change Biology 25 (5), 1746-1764, 2019
|Sensitivities to nitrogen and water addition vary among microbial groups within soil aggregates in a semiarid grassland|
R Wang, M Dorodnikov, FA Dijkstra, S Yang, Z Xu, H Li, Y Jiang
Biology and Fertility of Soils 53, 129-140, 2017
|Depth rather than microrelief controls microbial biomass and kinetics of C-, N-, P-and S-cycle enzymes in peatland|
S Parvin, E Blagodatskaya, JN Becker, Y Kuzyakov, S Uddin, ...
Geoderma 324, 67-76, 2018
|Weaker priming and mineralisation of low molecular weight organic substances in paddy than in upland soil|
H Qiu, X Zheng, T Ge, M Dorodnikov, X Chen, Y Hu, Y Kuzyakov, J Wu, ...
European Journal of Soil Biology 83, 9-17, 2017
|Thermal stability of soil organic matter pools and their δ13C values after C3–C4 vegetation change|
M Dorodnikov, A Fangmeier, Y Kuzyakov
Soil Biology and Biochemistry 39 (5), 1173-1180, 2007
|Response of paddy soil organic carbon accumulation to changes in long-term yield-driven carbon inputs in subtropical China|
A Chen, X Xie, M Dorodnikov, W Wang, T Ge, O Shibistova, W Wei, ...
Agriculture, Ecosystems & Environment 232, 302-311, 2016
|Effect of plant communities on aggregate composition and organic matter stabilisation in young soils|
A Gunina, I Ryzhova, M Dorodnikov, Y Kuzyakov
Plant and Soil 387, 265-275, 2015
|Effects of nitrate and sulfate on greenhouse gas emission potentials from microform-derived peats of a boreal peatland: a 13C tracer study|
I Lozanovska, Y Kuzyakov, J Krohn, S Parvin, M Dorodnikov
Soil Biology and Biochemistry 100, 182-191, 2016
|Active metabolic pathways of anaerobic methane oxidation in paddy soils|
L Fan, D Schneider, MA Dippold, A Poehlein, W Wu, H Gui, T Ge, J Wu, ...
Soil Biology and Biochemistry 156, 108215, 2021