Publications

Found 287 results
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A
Ramezanian A, A. Dahlin S, Campbell CD, Hillier S, Mannerstedt-Fogelfors B, born IÖ.  2013.  Addition of a volcanic rockdust to soils has no observable effects on plant yield and nutrient status or on soil microbial activity. Plant and Soil. 367:419-436.
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.
Wakelin S, Lombi E, Donner E, MacDonald L, Black A, O'Callaghan M.  2013.  Application of MicroResp™ for soil ecotoxicology. Environmental Pollution. 179:177-184.
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.
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.
Berg N., Steinberger Y..  2010.  Are Biological Effects of Desert Shrubs More Important than Physical Effects on Soil Microorganisms? Microbial Ecology. 59:121-129.
Castillo-Monroy A.P, Bowker M.A, Garcia-Palacios P., Maestre F.T.  2015.  Aspects of soil lichen biodiversity and aggregation interact to influence subsurface microbial function. Plant and Soil. 386:303-316.
Hammerschmiedt T, Holatko J, Pecina V, Huska D, Latal O, Kintl A, Radziemska M, Muhammad S, Gusiatin ZM, Kolackova M et al..  2021.  Assessing the potential of biochar aged by humic substances to enhance plant growth and soil biological activity. Chemical and Biological Technologies in Agriculture. 8:46.
Hammerschmiedt T, Holatko J, Pecina V, Huska D, Latal O, Kintl A, Radziemska M, Muhammad S, Gusiatin ZM, Kolackova M et al..  2021.  Assessing the potential of biochar aged by humic substances to enhance plant growth and soil biological activity. Chemical and Biological Technologies in Agriculture. 8:46.
Vincent Q., Auclerc A., Beguiristain T., Leyval C..  2018.  Assessment of derelict soil quality: Abiotic, biotic and functional approaches. Science of The Total Environment. 613:990-1002.
Hammerschmiedt T., Kintl A., Holatko J., Mustafa A., Vitez T., Malicek O., Baltazar T., Elbl J., Brtnicky M..  2022.  Assessment of digestates prepared from maize, legumes, and their mixed culture as soil amendments: Effects on plant biomass and soil properties. Frontiers in Plant Science. 13:14.
Hammerschmiedt T., Kintl A., Holatko J., Mustafa A., Vitez T., Malicek O., Baltazar T., Elbl J., Brtnicky M..  2022.  Assessment of digestates prepared from maize, legumes, and their mixed culture as soil amendments: Effects on plant biomass and soil properties. Frontiers in Plant Science. 13:14.
Pignataro A, M. Moscatelli C, Mocali S, Grego S, Benedetti A.  2012.  Assessment of soil microbial functional diversity in a coppiced forest system. Applied Soil Ecology. 62:115-123.
B
Mwafulirwa L., Baggs E.M, Russell J., George T., Morley N., Sim A., Canto C.D, Paterson E..  2016.  Barley genotype influences stabilization of rhizodeposition-derived C and soil organic matter mineralization. Soil Biology and Biochemistry. 95:60-69.
Hammerschmiedt T., Holatko J., Sudoma M., Kintl A., Vopravil J., Ryant P., Skarpa P., Radziemska M., Latal O., Brtnicky M..  2021.  Biochar and Sulphur Enriched Digestate: Utilization of Agriculture Associated Waste Products for Improved Soil Carbon and Nitrogen Content, Microbial Activity, and Plant Growth. Agronomy-Basel. 11:14.
Wu Q, Lian R, Bai M, Bao J, Liu Y, Li S, Liang C, Qin H, Chen J, Xu Q.  2021.  Biochar co-application mitigated the stimulation of organic amendments on soil respiration by decreasing microbial activities in an infertile soil. Biology and Fertility of Soils.
Wu Q, Lian R, Bai M, Bao J, Liu Y, Li S, Liang C, Qin H, Chen J, Xu Q.  2021.  Biochar co-application mitigated the stimulation of organic amendments on soil respiration by decreasing microbial activities in an infertile soil. Biology and Fertility of Soils.
Borno M.L, Müller-Stöver D.S, Liu F.L.  2022.  Biochar modifies the content of primary metabolites in the rhizosphere of well-watered and drought-stressed Zea mays L. (maize). Biology and Fertility of Soils. 58:633-647.
Al-Rabaiai A, Menezes-Blackburn D, Al-Ismaily S, Janke R, Al-Alawi A, Al-Kindi M, Bol R.  2024.  Biochar pH reduction using elemental sulfur and biological activation using compost or vermicompost. Bioresource Technology. 401:130707.
Hupfauf S, Bachmann S, Juárez MFernández, Insam H, Eichler-Löbermann B.  2016.  Biogas digestates affect crop P uptake and soil microbial community composition. Science of The Total Environment. 542, Part B:1144-1154.
Richards S., Bidgood L., Watson H., Stutter M..  2022.  Biogeochemical impacts of sewage effluents in predominantly rural river catchments: Are point source inputs distinct to background diffuse pollution? Journal of Environmental Management. 311:15.
Dushchanova K.S, Ukrainskiy P.A, Kashirskaya N.N, Khomutova T.E, Borisov A.V.  2024.  Biomass and Functional Diversity of Microbial Communities in Catenas of Reserved and Arable Gray Soils and Chernozems. Eurasian Soil ScienceEurasian Soil Science. 57:275-289.
Enagbonma BJesuorsemw, Amoo AEunice, Babalola OOluranti.  2021.  Biopedturbation by Termites Affects Respiration Profiles of Microbial Communities from Termite Mound Soils. Journal of Soil Science and Plant Nutrition. 21:2115-2123.