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Sergey Blagodatsky
Sergey Blagodatsky
Other namesСергей Благодатский, Sergey Blagodatskiy, Sergey Blagodatskii
Verified email at uni-koeln.de - Homepage
Title
Cited by
Cited by
Year
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
10402013
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
4782007
Carbon pools and fluxes in terrestrial ecosystems of Russia
VN Kudeyarov, GA Zavarzin, SA Blagodatskii, AV Borisov, PY Voronin, ...
M: Publishing house Nauka, 2007
408*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
359*1987
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
2522009
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
2492010
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
2462012
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
2452014
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
2432009
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
2382011
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
2171998
Estimating the active and total soil microbial biomass by kinetic respiration analysis
SA Blagodatsky, O Heinemeyer, J Richter
Biology and fertility of soils 32, 73-81, 2000
2132000
Nitrogen availability regulates topsoil carbon dynamics after permafrost thaw by altering microbial metabolic efficiency
L Chen, L Liu, C Mao, S Qin, J Wang, F Liu, S Blagodatsky, G Yang, ...
Nature communications 9 (1), 3951, 2018
207*2018
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
2002014
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
1982010
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
1902011
Temperature sensitivity and enzymatic mechanisms of soil organic matter decomposition along an altitudinal gradient on Mount Kilimanjaro
Е Blagodatskaya, S Blagodatsky, N Khomyakov, O Myachina, Y Kuzyakov
Scientific Reports 6 (1), 22240, 2016
1472016
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
1442012
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
1442006
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
1202009
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