Location

Team

Research

Publications




Siegel der Fakultät

Publications



2021


Zhang XC, Myrold DD, Shi LL, Kuzyakov Y, Dai HC, Hoang DTT, Dippold MA, Meng XT, Song XN, Li ZY, Zhou J, Razavi BS 2021. Resistance of microbial community and its functional sensitivity in the rhizosphere hotspot to drought. Soil Biology and Biochemistry 161, 108360.


Guber A, Blagodatskaya E, Juyal A, Razavi BS, Kuzyakov Y, Kravchenko A 2021. Time-lapse approach to correct deficiencies of 2D soil zymography. Soil Biology and Biochemistry 157, 108225.


Rezaei-Chiyaneh E, Amirnia R, Chiyaneh SF, Maggi M, Barin M, Razavi BS 2021. Improvement of dragonhead (Dracocephalum moldavica L.) yield quality through coupled intercropping system and vermicompost application along with maintenance of soil microbial activity. Land Degradation and Development 32, 2833-2848.


Yu P, He XM, Baer M, Beirinckx S, Tian T, Moya YAT, Zhang XC, Deichmann M, Frey FP, Bresgen V, Li CJ, Razavi BS, Schaaf G, von Wirén N, Su Z, Bucher M, Tsuda K, Goormachtig S, Chen XP, Hochholdinger F 2021. Plant flavones enrich rhizosphere bacteria to improve maize performance under nitrogen deprivation. Nature Plants 7, 481-499.


Bonkowski M., Tarkka M, Razavi BS, Schmidt H, Blagodatskaya E, Koller R, Yu P, Knief C, Hochholdinger F, Vetterlein D 2021. Spatiotemporal dynamics of maize (Zea mays L.) root growth and its potential consequences for the assembly of the rhizosphere microbiota. Frontiers in Microbiology 12, 619499.


Hosseini SS, Lakzian A, Halajnia A, Razavi BS 2021. Optimization of EDTA and citric acid for risk assessment in the remediation of lead contaminated soil. Rhizosphere 17, 100277.


Greenfield LM, Razavi BS, Bilyera N, Zhang XC, Jones DL 2021. Root hairs and protein addition to soil promote leucine aminopeptidase activity of Hordeum vulgare L. Rhizosphere 18, 100329.


Ma ZZ, Zhang XC, Zheng BY, Yue SC, Zhang XC, Zhai BN, Wang ZH, Zheng W, Li ZY, Zamanian K, Razavi BS 2021. Effects of plastic and straw mulching on soil microbial P limitations in maize fields: Dependency on soil organic carbon demonstrated by ecoenzymatic stoichiometry. Geoderma 388, 114928.


Meng XT, Liao HK, Fan HX, Zhang XC, Li YY, Yao HY, Razavi BS 2021. The geographical scale dependence of diazotroph assembly and activity: Effect of a decade fertilization. Geoderma 386, 114923.


Liu S, Zhang SY, Dungait JAJ, Quine TA, Razavi BS 2021. Rare microbial taxa rather than phoD gene abundance determine hotspots of alkaline phosphomonoesterase activity in the karst rhizosphere soil. Biology and Fertility of Soils 57, 257-268.


Zhang X, Razavi BS, Liu J, Wang G, Zhang X, Li Z, Zhai B, Wang Z, Zamanian K 2021. Croplands conversion to cash crops in dry regions: consequences of nitrogen losses and decreasing nitrogen use efficiency for food chain system. Land Degradation and Development 32, 1103-1113.


2020


Bilyera N, Kuzyakova I, Guber A, Razavi BS, Kuzyakov Y 2020. How “hot” are hotspots: Statistically localizing the high-activity areas on soil and rhizosphere images. Rhizosphere 16, 100259.


Kravchenko AN, Guber AK, Razavi BS, Koestel J, Quigley MY, Robertson GP, Kuzyakov Y 2020. Reply to: “Variables in the effect of land use on soil extrapore enzymatic activity and carbon stabilization” by Glenn (2020). Nature Communications, 11, 6427.


Liu SB, Wang JY, Pu SY, Blagodatskaya E, Kuzyakov Y, Razavi BS 2020. Impact of manure application on soil biochemical properties: A global synthesis. Science of the Total Environment 745, 141003.


Liu SB, Pu SY, Deng DL, Huang HY, Yan C, Ma H, Razavi BS 2020. Comparable effects of manure and its biochar on reducing soil Cr bioavailability and narrowing the rhizosphere extent of enzyme activities. Environment International 134, 105277.


Zhang X, Kuzyakov Y, Zang H, Dippold MA, Shi L, Spielvogel S, Razavi BS 2020. Rhizosphere hotspots: root hairs and warming control microbial efficiency, carbon utilization and energy production. Soil Biology and Biochemistry 148, 107872.


Hoang DTT, Maranguit D, Kuzyakov Y, Razavi BS, 2020. Accelerated microbial activity, turnover and efficiency in the drilosphere is depth dependent. Soil Biology and Biochemistry 147, 107852.


Song X, Razavi BS, Ludwig B, Zamanian K, Zang H, Kuzyakov Y, Dippold MA, Gunina A. 2020. Combined biochar and nitrogen application stimulates enzyme activity and root plasticity. Science of the Total Environment 735, 139393.


Ndossi EM, Becker JN, Hemp A, Dippold MA, Kuzyakov Y, Razavi BS, 2020. Effects of land use and elevation on the functional characteristics of soil enzymes at Mt. Kilimanjaro. European Journal of Soil Biology 97, 103167.


Tian P, Razavi BS, Zhang XC, Wang QK, Blagodatskaya E, 2020. Microbial growth and enzyme kinetics in rhizosphere hotspots are modulated by soil organics and nutrient availability. Soil Biology and Biochemistry 141, 107662.


2019


Yuan HZ, Liu SL, Razavi BS, Zhran M, Wang JR, Zhu ZK, Wu JS, Ge TD, 2019. Differentiated response of plant and microbial C: N: P stoichiometries to phosphorus application in phosphorus-limited paddy soil. European Journal of Soil Biology 95, 103122.


Wei L, Razavi BS, Wang WQ, Zhu ZK, Liu SL, Wu JS, Kuzyakov Y, Ge TD, 2019. Labile carbon matters more than temperature for enzyme activity in paddy soil. Soil Biology and Biochemistry 135, 134-143.


Kuzyakov Y, Razavi BS, 2019. Rhizosphere size and shape: Temporal dynamics and spatial stationarity. Soil Biology and Biochemistry 135, 343-360.


Kravchenko AN, Guber AK, Razavi BS, Koestel J, Quigley MY, Robertson GP, Kuzyakov Y, 2019. Microbial spatial footprint as a driver of soil carbon stabilization. Nature Communications 10, 3121.


Razavi BS, Zhang X, Bilyera N, Guber A, Zarebanadkouki M, 2019. Soil zymography: simple and reliable? Review of current knowledge and optimization of method. Rhizosphere 11, 100161. (Invited review)


Kravchenko AN, Guber AK, Razavi BS, Koestel J, Blagodatskaya EV, Kuzyakov Y, 2019. Spatial patterns of extracellular enzymes: Combining X-ray computed micro-tomography and 2D zymography. Soil Biology and Biochemistry 135, 411-419.


Ma X, Mason-Jones K, Liu Y, Blagodatskaya E, Kuzyakov Y, Guber A, Dippold MA, Razavi BS, 2019. Coupling zymography with pH mapping reveals a shift in lupine phosphorus acquisition strategy driven by cluster roots. Soil Biology and Biochemistry 135, 420-428.


Mganga K, Razavi BS, Sanaullah M, Kuzyakov Y, 2019. Phenological stage, plant biomass and drought conditions affect enzyme activities and microbial biomass in the rhizosphere of Enteropogon macrostachyus. Pedosphere 29, 259-265.


Wei X, Hu Y, Razavi BS, Zhoua J, Shen J, Nannipieri P, Wu J, Ge T, 2019. Composition of phoD-harboring microbes in phosphorus-poor paddy soil and their contribution to inorganic P-pools. Soil Biology and Biochemistry 131, 62-70.


Wei X, Razavi BS, Hu YJ, Shen J, Wu J, Ge T, 2019. C/P stoichiometry of dying rice root defines the spatial distribution and dynamics of enzyme activities in root-detritusphere. Biology and Fertility of Soils 55, 251-263.


Zhang X, Dippold MA, Kuzyakov Y, Razavi BS, 2019. Spatial pattern of enzyme activities depends on root exudate composition. Soil Biology and Biochemistry 133, 83-93.


2018


Ma X, Zarebanadkouki M, Kuzyakov Y, Blagodatskaya E, Pausch J, Razavi BS, 2018. Spatial patterns of enzyme activities in the rhizosphere: Effects of root hairs and root radius. Soil Biology and Biochemistry 118, 69–78.


Wei X, Ge T, Zhu Z, Hua Y, Liu S, Li Y, Wu J, Razavi BS, 2018. Expansion of rice rhizosphere: temporal dynamics in response to phosphorus and cellulose application. Plant and Soil 433, 1573-5036.


Ahmadi K, Razavi BS, Maharjan M, Kuzyakov Y, Kostka SJ, Carminati A, Zarebanadkouki M, 2018. Effects of rhizosphere wettability on microbial biomass, enzyme activities and localization. Rhizosphere.


Ma X, Zarebanadkouki M, Blagodatskaya E, Razavi BS, Kuzyakov Y, 2018. Effects of plant growth and root morphology on spatio-temporal patterns of enzyme activity in the rhizosphere. Soil Biology and Biochemistry.


Guber A, Kravchenkoa A, Razavi BS, Uteau D, Peth S, Blagodatskaya E, Kuzyakov Y, 2018. Calibration of 2D soil zymography for correct analysis of enzyme distribution. European Journal of Soil Science. DOI: 10.1111/ejss.12744.


Guber A, Kravchenkoa A, Razavi BS, Uteau D, Peth S, Blagodatskaya E, Kuzyakov Y, 2018. Quantitative soil zymography: Mechanisms, processes of substrate and enzyme diffusion in porous media. Soil Biology and Biochemistry 127, 156–167.


2017


Razavi BS, Liu S, Kuzyakov Y, 2017. Hot experience for cold-adapted microorganisms: temperature sensitivity of soil enzymes. Soil Biology and Biochemistry 105, 236–243.


Razavi BS, Hoang D, Blagodatskaya E, Kuzyakov Y, 2017. Mapping footprint of nematodes in the rhizosphere: cluster root formation and spatial distribution of enzyme activities. Soil Biology and Biochemistry 115, 213-220.


Razavi BS, Hoang D, Kuzyakov Y, 2017. Visualization of enzyme activities in earthworm biopores by in situ soil zymography. Methods in Molecular Biology, ISBN: 978-1-4939-7111-4.


Liu S, Razavi BS, Su X, Maharjan M, Zarebanadkoukid M, Blagodatskaya E, Kuzyakov Y, 2017. Spatio-temporal patterns of enzyme activities after manure application reflect mechanisms of niche differentiation between plants and microorganisms. Soil Biology and Biochemistry 11, 100-109.


Ma X, Razavi BS, Holz M , Blagodatskaya E, Kuzyakov Y, 2017. Warming increases hotspot areas of enzyme activity and shortens the duration of hot moments in the detritusphere. Soil Biology and Biochemistry 107, 226-233.


Ge T, Wei X, Razavi BS*, Zhu Z, Hu Y, Kuzyakov Y , Jones D, Wu J, 2017. Stability and dynamics of enzyme activity patterns in the rice rhizosphere: Effects of plant growth and temperature. Soil Biology and Biochemistry 113, 108-115. *Corresponding author


2016


Razavi BS, Blagodatskaya E, Kuzyakov Y, 2016. Rhizosphere shape of lentil and maize: Spatial distribution of enzyme activities. Soil Biology and Biochemistry 96, 229-237.


Razavi BS, Blagodatskaya E, Kuzyakov Y, 2016. Temperature selects for stable versus flexible exoenzyme systems in soil. Soil Biology and Biochemistry 97, 15-22.


Hoang D*, Razavi BS*, Blagodatskaya E, Kuzyakov Y, 2016. Kinetics and spatial distribution of enzymes of carbon, nitrogen and phosphorus cycles in earthworm biopores. Soil Biology and Biochemistry 99, 94-103. *Two first authors contributed equally


Hoang D, Pausch J, Razavi BS, Kuzyakova I, Banfield CC, Kuzyakov Y, 2016. Hotspots of microbial activities induced by earthworms and roots in subsoil. Biology and Fertility of Soils, DOI: 10.1007/s00374-016-1148-y.


Sanaullah M, Razavi BS, Blagodatskaya E, Kuzyakov Y, 2016. Spatial distribution and catalytic mechanisms of β-glucosidase activity at the root-soil interface. Biology and Fertility of Soils 52, 505-514.


Maharjan M, Sanaullah M, Razavi BS, Kuzyakov Y, 2016. Effect of land use on microbial biomass and enzyme activities in subtropical soils. Applied Soil Ecology 113, 22-28.


Mganga K, Razavi BS, Kuzyakov Y, 2016. Microbial and enzymes response to land-use change conditions. Catena 141, 22–29.


2015


Razavi BS, Blagodatskaya E, Kuzyakov Y, 2015. Nonlinear temperature sensitivity of enzyme kinetics explains canceling effect—a case study on loamy haplic Luvisol. Frontiers in Microbiology 6, DOI:10.3389/fmicb.


Mganga K, Razavi BS, Kuzyakov Y, 2015. Microbial and enzymes response to nutrient additions in soils of Mt. Kilimanjaro region depending on land use. European Journal of Soil Biology 69, 33-40.


Gholami A, Razavi BS*, Parekar M, 2015. Investigation on pore water pressure in core of Karkheh dam, 2011. Advances in Environmental Biology, 2417-2421. *Corresponding author

 

 

 

 

 


Last update: 31 August 2021