Publications

Found 484 results
[ Author(Asc)] Title Type Year
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B
Blouin M., Karimi B., Mathieu J., Lerch T.Z.  2015.  Levels and limits in artificial selection of communities. Ecology Letters. 18:1040-1048.
Bittleston L.S, Gralka M., Leventhal G.E, Mizrahi I., Cordero O.X.  2020.  Context-dependent dynamics lead to the assembly of functionally distinct microbial communities. Nature Communications. 11:10.
Birt HWG, Bonnett SAF.  2018.  Microbial mechanisms of carbon and nitrogen acquisition in contrasting urban soils. European Journal of Soil Biology. 88:1-7.
Beuschel R, Piepho H-P, Joergensen RGeorg, Wachendorf C.  2020.  Effects of converting a temperate short-rotation coppice to a silvo-arable alley cropping agroforestry system on soil quality indicators. Agroforestry Systems. 94:389-400.
Beuschel R., Piepho H.P, Joergensen R.G, Wachendorf C..  2020.  Impact of willow-based grassland alley cropping in relation to its plant species diversity on soil ecology of former arable land. Applied Soil Ecology. 147:8.
Beuschel R., Piepho H.P, Joergensen R.G, Wachendorf C..  2019.  Similar spatial patterns of soil quality indicators in three poplar-based silvo-arable alley cropping systems in Germany. Biology and Fertility of Soils. 55:1-14.
Bernhardt L.T, Smith R.G, Grandy A.S, Mackay J.E, Warren N.D, Geyer K.M, Ernakovich J.G.  2022.  Soil microbial communities vary in composition and functional strategy across soil aggregate size class regardless of tillage. Elementa-Science of the Anthropocene. 10:19.
Berg N., Steinberger Y..  2010.  Are Biological Effects of Desert Shrubs More Important than Physical Effects on Soil Microorganisms? Microbial Ecology. 59:121-129.
Berg N., Steinberger Y..  2008.  Role of perennial plants in determining the activity of the microbial community in the Negev Desert ecosystem. Soil Biology and Biochemistry. 40:2686-2695.
Bérard A., Mazzia C., Sappin-Didier V., Capowiez L., Capowiez Y..  2014.  Use of the MicroResp™ method to assess Pollution-Induced Community Tolerance in the context of metal soil contamination. Ecological Indicators. 40:27-33.
Bérard A., Ben Sassi M., Renault P., Gros R..  2012.  Severe drought-induced community tolerance to heat wave. An experimental study on soil microbial processes. Journal of Soils and Sediments. 12:513-518.
Bérard A., Capowiez L., Mombo S., Schreck E., Dumat C., Deola F., Capowiez Y..  2016.  Soil microbial respiration and PICT responses to an industrial and historic lead pollution: a field study. Environmental Science and Pollution Research. 23:4271-4281.
Bérard A., Mazzia C., Sappin-Didier V., Capowiez L., Capowiez Y..  2014.  Use of the MicroResp (TM) method to assess Pollution-Induced Community Tolerance in the context of metal soil contamination. Ecological Indicators. 40:27-33.
Bérard A., Bouchet T., Sevenier G., Pablo A.L, Gros R..  2011.  Resilience of soil microbial communities impacted by severe drought and high temperature in the context of Mediterranean heat waves. European Journal of Soil Biology. 47:333-342.
Bérard A., Ben Sassi M., Kaisermann A., Renault P..  2015.  Soil microbial community responses to heat wave components: drought and high temperature. Climate Research. 66:243-264.
Ben Sassi M, Dollinger J, Renault P, Tlili A, Bérard A.  2012.  The FungiResp method: An application of the MicroResp™ method to assess fungi in microbial communities as soil biological indicators. Ecological Indicators. 23:482-490.
Ben Sassi M., Dollinger J., Renault P., Tlili A., Bérard A..  2012.  The FungiResp method: An application of the MicroResp (TM) method to assess fungi in microbial communities as soil biological indicators. Ecological Indicators. 23:482-490.
Bastida F., Bastidal F., Garcia C., Fierer N., Eldridge D.J, Bowker M.A, Abades S., Alfaro F.D, Berhe A.A, Cutler N.A et al..  2019.  Global ecological predictors of the soil priming effect. Nature Communications. 10:9.
Bardelli T., Gomez-Brandon M., Ascher-Jenull J., Fornasier F., Arfaioli P., Francioli D., Egli M., Sartori G., Insamb H., Pietramellara G..  2017.  Effects of slope exposure on soil physico-chemical and microbiological properties along an altitudinal climosequence in the Italian Alps. Science of The Total Environment. 575:1041-1055.
Baraza E., Bota J., Romero-Munar A., Nogales B..  2019.  Application of the Biolog™ ECO-plate technique for the study of the physiological profile of microbial communities in agricultural land. Ecosistemas. 28:46-53.
Barany A., Szili-Kovacs T., Krett G., Fuzy A., Marialigeti K., Borsodi A.K.  2014.  METABOLIC ACTIVITY AND GENETIC DIVERSITY OF MICROBIAL COMMUNITIES INHABITING THE RHIZOSPHERE OF HALOPHYTON PLANTS. Acta Microbiologica Et Immunologica Hungarica. 61:347-361.
Bao X.L, Yu J., Liang W.J, Lu C.Y, Zhu J.G, Li Q..  2015.  The interactive effects of elevated ozone and wheat cultivars on soil microbial community composition and metabolic diversity. Applied Soil Ecology. 87:11-18.
Banning N.C, Lalor B.M, Cookson W.R, Grigg A.H, Murphy D.V.  2012.  Analysis of soil microbial community level physiological profiles in native and post-mining rehabilitation forest: Which substrates discriminate? Applied Soil Ecology. 56:27-34.