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Author [ Title(Asc)] Type Year
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Peerawat M., Blaud A., Trap J., Chevallier T., Alonso P., Gay F., Thaler P., Spor A., Sebag D., Choosai C. et al..  2018.  Rubber plantation ageing controls soil biodiversity after land conversion from cassava. Agriculture, Ecosystems & Environment. 257:92-102.
-Manzo, II M, Ribes-Moya A.M, Pallotti C., Jimenez-Belenguer A., Moro C.P, Raigon M.D, Rodriguez-Burruezo A., Fita A..  2023.  Root-Soil Interactions for Pepper Accessions Grown under Organic and Conventional Farming. Plants-Basel. 12:23.
Fernández-Gómez MJ, Nogales R, Insam H, Romero E, Goberna M.  2011.  Role of vermicompost chemical composition, microbial functional diversity, and fungal community structure in their microbial respiratory response to three pesticides. Bioresource Technology. 102:9638-9645.
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.
Podmirseg S.M, Waldhuber S., Knapp B.A, Insam H., Goberna M..  2019.  Robustness of the autochthonous microbial soil community after amendment of cattle manure or its digestate. Biology and Fertility of Soils. 55:565-576.
Nguyen L.TT, Osanai Y., Lai K., Anderson I.C, Bange M.P, Tissue D.T, Singh B.K.  2018.  Responses of the soil microbial community to nitrogen fertilizer regimes and historical exposure to extreme weather events: Flooding or prolonged-drought. Soil Biology and Biochemistry. 118:227-236.
Yu J., Unc A., Zhang X.K, Steinberger Y..  2016.  Responses of the soil microbial catabolic profile and diversity to vegetation rehabilitation in degraded semiarid grassland. Applied Soil Ecology. 101:124-131.
Florio A., Brefort C., Gervaix J., Bérard A., Le Roux X..  2019.  The responses of NO2-- and N2O-reducing bacteria to maize inoculation by the PGPR Azospirillum lipoferum CRT1 depend on carbon availability and determine soil gross and net N2O production. Soil Biology and Biochemistry. 136:10.
Nazaries L., Singh B.P, Sarker J.R, Fang Y.Y, Klein M., Singh B.K.  2021.  The response of soil multi-functionality to agricultural management practices can be predicted by key soil abiotic and biotic properties. Agriculture, Ecosystems & Environment. 307:13.
Amarasinghe A., Knox O.GG, Fyfe C., de Bruyn L.AL, Wilson B.R.  2021.  Response of soil microbial functionality and soil properties to environmental plantings across a chronosequence in south eastern Australia. Applied Soil Ecology. 168:13.
Curlevski N.JA, Artz R.RE, Anderson I.C, Cairney J.WG.  2011.  Response of soil microbial communities to management strategies for enhancing Scots pine (Pinus sylvestris) establishment on heather (Calluna vulgaris) moorland. Plant and Soil. 339:413-424.
de Dato G., Lagomarsino A., Lellei-Kovacs E., Liberati D., R. Jaoude A, Marabottini R., Stazi S.R, Guidolotti G., Kovacs-Lang E., Kroel-Dulay G. et al..  2017.  The Response of Soil CO2 Efflux to Water Limitation Is Not Merely a Climatic Issue: The Role of Substrate Availability. Forests. 8:22.
Fikri M., Joulian C., Motelica-Heino M., Norini M.P, Hellal J..  2021.  Resistance and Resilience of Soil Nitrogen Cycling to Drought and Heat Stress in Rehabilitated Urban Soils. Frontiers in Microbiology. 12:14.
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.
Bonner M.TL, Shoo L.P, Brackin R., Schmidt S..  2018.  Relationship between microbial composition and substrate use efficiency in tropical soil. Geoderma. 315:96-103.
Yates C.F, Trexler R.V, Bonet I., King W.L, Hockett K.L, Bell T.H.  2022.  Rapid niche shifts in bacteria following conditioning in novel soil environments. Functional Ecology. 36:3085-3095.
Campbell C.D, Chapman S.J, Cameron C.M, Davidson M.S, Potts J.M.  2003.  A rapid microtiter plate method to measure carbon dioxide evolved from carbon substrate amendments so as to determine the physiological profiles of soil microbial communities by using whole soil. Applied and Environmental Microbiology. 69:3593-3599.
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Guo K, Zhao Y, Liu Y, Chen J, Wu Q, Ruan Y, Li S, Shi J, Zhao L, Sun X et al..  2020.  Pyrolysis temperature of biochar affects ecoenzymatic stoichiometry and microbial nutrient-use efficiency in a bamboo forest soil. Geoderma. 363:114162.
Avalos M., Garbeva P., Raaijmakers J.M, van Wezel G.P.  2020.  Production of ammonia as a low-cost and long-distance antibiotic strategy by Streptomyces species. Isme Journal. 14:569-583.
Weitzman JN, Forshay KJ, Kaye JP, Mayer PM, Koval JC, Walter RC.  2014.  Potential nitrogen and carbon processing in a landscape rich in milldam legacy sediments. Biogeochemistry. 120:337-357.
Davey RS, McNeill AM, Barnett SJ, Gupta VVSR.  2021.  Potential for suppression of Rhizoctonia root rot is influenced by nutrient (N and P) and carbon inputs in a highly calcareous coarse-textured topsoil. Soil Research. :-.
Garcia-Pausas J., Romanya J., Casals P..  2022.  Post-fire recovery of soil microbial functions is promoted by plant growth. European Journal of Soil Science. 73:15.
Nie M, Pendall E, Bell C, Gasch CK, Raut S, Tamang S, Wallenstein MD.  2013.  Positive climate feedbacks of soil microbial communities in a semi-arid grassland. Ecology Letters. 16:234-241.
Escapa I.F, García J.L, Bühler B., Blank L.M, Prieto M.A.  2012.  The polyhydroxyalkanoate metabolism controls carbon and energy spillage in Pseudomonas putida. Environmental Microbiology. 14:1049-1063.
Schirmel J., Albert J., Kurtz M.P, Munoz K..  2018.  Plasticulture changes soil invertebrate assemblages of strawberry fields and decreases diversity and soil microbial activity. Applied Soil Ecology. 124:379-393.