Sergey Blagodatsky  | Сергей Благодатский
Sergey Blagodatsky | Сергей Благодатский
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Soil C and N availability determine the priming effect: microbial N mining and stoichiometric decomposition theories
R Chen, M Senbayram, S Blagodatsky, O Myachina, K Dittert, X Lin, ...
Global change biology, 2013
Priming effects in chernozem induced by glucose and N in relation to microbial growth strategies
EV Blagodatskaya, SA Blagodatsky, TH Anderson, Y Kuzyakov
Applied Soil Ecology 37, 95-105, 2007
A rehydration method of determining the biomass of microorganisms in soil
SA Blagodatskiy, YV Blagodatskaya, AY Gorbenko, NS Panikov
Soviet soil science 19, 1987
Carbon pools and fluxes in terrestrial ecosystems of Russia
VN Kudeyarov, GA Zavarzin, SA Blagodatskii, AV Borisov, PY Voronin, ...
Moscow, Russian: Nauka, 2007
Microbial growth in soil and nitrogen turnover: a theoretical model considering the activity state of microorganisms
SA Blagodatsky, O Richter
Soil Biology and Biochemistry 30 (13), 1743-1755, 1998
Contrasting effects of glucose, living roots and maize straw on microbial growth kinetics and substrate availability in soil
EV Blagodatskaya, SA Blagodatsky, TH Anderson, Y Kuzyakov
European Journal of Soil Science 60 (2), 186-197, 2009
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
Soil physics meets soil biology: towards better mechanistic prediction of greenhouse gas emissions from soil
S Blagodatsky, P Smith
Soil Biology and Biochemistry 47, 78-92, 2012
Turnover of soil organic matter and of microbial biomass under C3–C4 vegetation change: consideration of 13C fractionation and preferential substrate utilization
E Blagodatskaya, T Yuyukina, S Blagodatsky, Y Kuzyakov
Soil Biology and Biochemistry 43 (1), 159-166, 2011
Estimating the active and total soil microbial biomass by kinetic respiration analysis
SA Blagodatsky, O Heinemeyer, J Richter
Biology and fertility of soils 32 (1), 73-81, 2000
Model of apparent and real priming effects: linking microbial activity with soil organic matter decomposition
S Blagodatsky, E Blagodatskaya, T Yuyukina, Y Kuzyakov
Soil biology and biochemistry 42 (8), 1275-1283, 2010
Three-source-partitioning of microbial biomass and of CO2 efflux from soil to evaluate mechanisms of priming effects
E Blagodatskaya, T Yuyukina, S Blagodatsky, Y Kuzyakov
Soil Biology and Biochemistry 43 (4), 778-786, 2011
Microbial growth and carbon use efficiency in the rhizosphere and root-free soil
E Blagodatskaya, S Blagodatsky, TH Anderson, Y Kuzyakov
PloS one 9 (4), e93282, 2014
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
Effect of pH, temperature and substrate on N2O, NO and CO2 production by Alcaligenes faecalis p.
M Kesik, S Blagodatsky, H Papen, K Butterbach‐Bahl
Journal of Applied Microbiology 101 (3), 655-667, 2006
Model evaluation of different mechanisms driving freeze–thaw N2O emissions
AMG De Bruijn, K Butterbach-Bahl, S Blagodatsky, R Grote
Agriculture, ecosystems & environment 133 (3-4), 196-207, 2009
Microbial interactions affect sources of priming induced by cellulose
E Blagodatskaya, N Khomyakov, O Myachina, I Bogomolova, ...
Soil Biology and Biochemistry 74, 39-49, 2014
Soil respiration and carbon balance of gray forest soils as affected by land use’
AA Larionova, AM Yermolayev, SA Blagodatsky, ...
Biol. Fertil. Soils 27, 251-257, 1998
Survival time of microorganisms in permanently frozen sedimentary rocks and buried soils
DG Zvyagintsev, DA Gilichinskii, SA Blagodatskii, EVA VOROB, ...
Decomposition of biogas residues in soil and their effects on microbial growth kinetics and enzyme activities
R Chen, E Blagodatskaya, M Senbayram, S Blagodatsky, O Myachina, ...
biomass and bioenergy 45, 221-229, 2012
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