Publications

Found 484 results
Author [ Title(Asc)] Type Year
A B C D E F G H I J K L M N O P Q R S T U V W X Y Z 
S
Csontos P., Mucsi M., Ragalyi P., Tamas J., Kalapos T., Papay G., Mjazovszky A., Penksza K., Szili-Kovacs T..  2021.  Standing Vegetation Exceeds Soil Microbial Communities in Soil Type Indication: A Procrustes Test of Four Salt-Affected Pastures. Agronomy-Basel. 11:12.
Raymond-Leonard L.J, Gravel D., Reich P.B, Handa I.T.  2018.  Springtail community structure is influenced by functional traits but not biogeographic origin of leaf litter in soils of novel forest ecosystems. Proceedings of the Royal Society B-Biological Sciences. 285:7.
Yan W, Artz RRE, Johnson D.  2008.  Species-specific effects of plants colonising cutover peatlands on patterns of carbon source utilisation by soil microorganisms. Soil Biology and Biochemistry. 40:544-549.
Wilkinson A, Alexander IJ, Johnson D.  2011.  Species richness of ectomycorrhizal hyphal necromass increases soil CO2 efflux under laboratory conditions. Soil Biology and Biochemistry. 43:1350-1355.
Lawrence D, Fiegna F, Behrends V, Bundy JG, Phillimore AB, Bell T, Barraclough TG.  2012.  Species Interactions Alter Evolutionary Responses to a Novel Environment. PLOS Biology. 10:e1001330.
Guillot E., Bertrand I., Rumpel C., Gomez C., Arnal D., Abadie J., Hinsinger P..  2021.  Spatial heterogeneity of soil quality within a Mediterranean alley cropping agroforestry system: Comparison with a monocropping system. European Journal of Soil Biology. 105:10.
Martirosyan V, Ehrlich R, Frend Y, Barness G, Steinberger Y.  2013.  Spatial heterogeneity of a microbial community in a sandy soil ecosystem. Pedobiologia. 56:195-203.
Amarasinghe A., Fyfe C., Knox O.GG, de Bruyn L.AL, Kristiansen P., Wilson B.R.  2021.  Spatial distribution of soil microbial activity and soil properties associated with Eucalyptus and Acacia plantings in NSW, Australia. Soil Research. 59:609-618.
Amarasinghe A., Fyfe C., Knox O.GG, de Bruyn L.ALobry, Kristiansen P., Wilson B.R.  2020.  Spatial distribution of soil microbial activity and soil properties associated with Eucalyptus and Acacia plantings in NSW, Australia. Soil Research. :-.
Erel R., Bérard A., Capowiez L., Doussan C., Arnal D., Souche G., Gavaland A., Fritz C., Visser E.JW, Salvi S. et al..  2017.  Soil type determines how root and rhizosphere traits relate to phosphorus acquisition in field-grown maize genotypes. Plant and Soil. 412:115-132.
Andruschkewitsch M., Wachendorf C., Sradnick A., Hensgen F., Joergensen R.G, Wachendorf M..  2014.  Soil substrate utilization pattern and relation of functional evenness of plant groups and soil microbial community in five low mountain NATURA 2000. Plant and Soil. 383:275-289.
Koudji E.G, Despland E., Caron A.S, Handa I.T.  2023.  Soil Springtail Communities Are Resilient to Forest Tent Caterpillar Defoliation in Quebec Mixed Hardwood Forests. Forests. 14:16.
de Varennes A., Qu G., Cordovil C., Goncalves P..  2011.  Soil quality indicators response to application of hydrophilic polymers to a soil from a sulfide mine. Journal of Hazardous Materials. 192:1836-1841.
Lemmel F, Maunoury-Danger F, Fanesi A, Leyval C, Cébron A.  2019.  Soil Properties and Multi-Pollution Affect Taxonomic and Functional Bacterial Diversity in a Range of French Soils Displaying an Anthropisation Gradient. Microbial Ecology. 77:993-1013.
Holatko J., Hammerschmiedt T., Kucerik J., Baltazar T., Radziemska M., Havlicek Z., Kintl A., Jaskulska I., Malicek O., Brtnicky M..  2022.  Soil Properties and Maize Yield Improvement with Biochar-Enriched Poultry Litter-Based Fertilizer. Materials. 15:12.
Klimek B., Chodak M., Jazwa M., Azarbad H., Niklinska M..  2020.  Soil physicochemical and microbial drivers of temperature sensitivity of soil organic matter decomposition under boreal forests. Pedosphere. 30:528-534.
Yao H, Campbell CD, Qiao X.  2011.  Soil pH controls nitrification and carbon substrate utilization more than urea or charcoal in some highly acidic soils. Biology and Fertility of Soils. 47:515-522.
Bonner M.TL, Herbohn J., Gregorio N., Pasa A., Avela M.S, Solano C., Moreno M.OM, Almendras-Ferraren A., Wills J., Shoo L.P et al..  2019.  Soil organic carbon recovery in tropical tree plantations may depend on restoration of soil microbial composition and function. Geoderma. 353:70-80.
Lagomarsino A., Grego S., Kandeler E..  2012.  Soil organic carbon distribution drives microbial activity and functional diversity in particle and aggregate-size fractions. Pedobiologia. 55:101-110.
Saez-Sandino T., Garcia-Palacios P., Maestre F.T, Plaza C., Guirado E., Singh B.K, Wang J.T, Cano-Díaz C., Eisenhauer N., Gallardo A. et al..  2023.  The soil microbiome governs the response of microbial respiration to warming across the globe. Nature Climate Change. 13:1382-+.
Ma J.W, Lin H., Sun W.C, Wang Q., Yu Q.G, Zhao Y.H, Fu J.R.  2014.  Soil microbial systems respond differentially to tetracycline, sulfamonomethoxine, and ciprofloxacin entering soil under pot experimental conditions alone and in combination. Environmental Science and Pollution Research. 21:7436-7448.
Albert J., More C., Korz S., Munoz K..  2023.  Soil Microbial Responses to Aflatoxin Exposure: Consequences for Biomass, Activity and Catabolic Functionality. Soil Systems. 7:26.
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.
Dacal M., Bradford M.A, Plaza C., Maestre F.T, Garcia-Palacios P..  2019.  Soil microbial respiration adapts to ambient temperature in global drylands. Nature Ecology & Evolution. 3:232-+.
Yu J, Steinberger Y.  2012.  Soil microbial metabolic profiles in two geomorphological units in a semistable sand-dune ecosystem. Soil Biology and Biochemistry. 45:71-78.