Found 430 results
Author Title [ Type(Desc)] Year
Journal Article
Papp R., Antisari L.V, Vianello G., Marabottini R., Marinari S..  2015.  SOIL MICROBIAL ACTIVITY IN HYDROMORPHIC-SUBAQUEOUS ECOSYSTEMS: PROCESSES AND FUNCTIONAL BIODIVERSITY. Eqa-International Journal of Environmental Quality. 18:11-19.
Burton J., Chen C.R, Xu Z.H, Ghadiri H..  2010.  Soil microbial biomass, activity and community composition in adjacent native and plantation forests of subtropical Australia. Journal of Soils and Sediments. 10:1267-1277.
McDaniel M.D, Grandy A.S.  2016.  Soil microbial biomass and function are altered by 12 years of crop rotation. SOIL. 2:583-599.
Marshall CB, McLaren JR, Turkington R.  2011.  Soil microbial communities resistant to changes in plant functional group composition. Soil Biology and Biochemistry. 43:78-85.
Schmidt MA, Kreinberg AJ, Gonzalez JM, Halvorson JJ, French E, Bollmann A, Hagerman AE.  2013.  Soil microbial communities respond differently to three chemically defined polyphenols. Plant Physiology and Biochemistry. 72:190-197.
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.
Gömöryová E, Ujházy K, Martinák M, Gömöry D.  2013.  Soil microbial community response to variation in vegetation and abiotic environment in a temperate old-growth forest. Applied Soil Ecology. 68:10-19.
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.
Su Y., Yu M., Xi H., Lv J.L, Ma Z.H, Kou C.L, Shen A..  2020.  Soil microbial community shifts with long-term of different straw return in wheat-corn rotation system. Scientific Reports. 10:10.
Gartzia-Bengoetxea N., Kandeler E., de Arano I.M, Arias-Gonzalez A..  2016.  Soil microbial functional activity is governed by a combination of tree species composition and soil properties in temperate forests. Applied Soil Ecology. 100:57-64.
Diakhate S., Gueye M., Chevallier T., Diallo N.H, Assigbetse K., Abadie J., Diouf M., Masse D., Sembene M., Ndour Y.B et al..  2016.  Soil microbial functional capacity and diversity in a millet-shrub intercropping system of semi-arid Senegal. Journal of Arid Environments. 129:71-79.
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.
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-+.
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.
Albert J., More C., Korz S., Munoz K..  2023.  Soil Microbial Responses to Aflatoxin Exposure: Consequences for Biomass, Activity and Catabolic Functionality. Soil SystemsSoil Systems. 7:26.
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.
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.
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.
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.
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.
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. MaterialsMaterials. 15:12.
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.
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.
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.
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.