Publications

Found 182 results
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Journal Article
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.
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.
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.
Peng X.Y, Gao S.H, Ma S.L, Liao H., Liu Y.R, Chen W.L, Huang Q.Y, Hao X.L.  2024.  Repeated labile carbon inputs trigger soil microbial necromass decomposition through increasing microbial diversity and hierarchical interactions. Soil Biology & Biochemistry. 191:11.
Peng X.Y, Gao S.H, Ma S.L, Liao H., Liu Y.R, Chen W.L, Huang Q.Y, Hao X.L.  2024.  Repeated labile carbon inputs trigger soil microbial necromass decomposition through increasing microbial diversity and hierarchical interactions. Soil Biology & Biochemistry. 191:11.
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.
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.
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.
Reynolds LL, Lajtha K, Bowden RD, Tfaily MM, Johnson BR, Bridgham SD.  2018.  The Path From Litter to Soil: Insights Into Soil C Cycling From Long-Term Input Manipulation and High-Resolution Mass Spectrometry. Journal of Geophysical Research: Biogeosciences. 123:1486-1497.
Song D.L, Dai X.L, Guo T.F, Cui J.W, Zhou W., Huang S.M, Shen J.B, Liang G.Q, He P., Wang X.B et al..  2022.  Organic amendment regulates soil microbial biomass and activity in wheat-maize and wheat-soybean rotation systems. Agriculture, Ecosystems & Environment. 333:13.
Menezes-Blackburn D., Paredes C., Zhang H., Giles C.D, Darch T., Stutter M., George T.S, Shand C., Lumsdon D., Cooper P. et al..  2016.  Organic Acids Regulation of Chemical Microbial Phosphorus Transformations in Soils. Environmental Science & Technology. 50:11521-11531.
Liu H.W, Carvalhais L.C, Rincon-Florez V., Crawford M., Dang Y.P, Dennis P.G, Schenk P.M.  2016.  One-time strategic tillage does not cause major impacts on soil microbial properties in a no-till Calcisol. Soil & Tillage Research. 158:91-99.
Liang Z., Olesen J.E, Jensen J.L, Elsgaard L..  2019.  Nutrient availability affects carbon turnover and microbial physiology differently in topsoil and subsoil under a temperate grassland. Geoderma. 336:22-30.
Morillas L, Durán J, Rodríguez A, Roales J, Gallardo A, Lovett GM, Groffman PM.  2015.  Nitrogen supply modulates the effect of changes in drying–rewetting frequency on soil C and N cycling and greenhouse gas exchange. Global Change Biology. 21:3854-3863.
Morillas L., Duran J., Rodriguez A., Roales J., Gallardo A., Lovett G.M, Groffman P.M.  2015.  Nitrogen supply modulates the effect of changes in drying-rewetting frequency on soil C and N cycling and greenhouse gas exchange. Global Change Biology. 21:3854-3863.
Grishko V.N, Syshchikova O.V, Zenova G.M, Kozhevin P.A, Dubrova M.S, Lubsanova D.A, Chernov I.Y.  2015.  Mycelial actinobacteria in salt-affected soils of arid territories of Ukraine and Russia. Eurasian Soil Science. 48:72-76.
Boulanger N., Aran D., Maul A., Camara B.I, Barthel C., Zaffino M., Lett M.C, Schnitzler A., Bauda P..  2024.  Multiple factors affecting Ixodes ricinus ticks and associated pathogens in European temperate ecosystems (northeastern France). Scientific Reports. 14:17.
Lozano Y.M, Lehnert T., Linck L.T, Lehmann A., Rillig M.C.  2021.  Microplastic Shape, Polymer Type, and Concentration Affect Soil Properties and Plant Biomass (vol 12, 616645, 2021). Frontiers in Plant Science. 12:1.
Lozano Y.M, Lehnert T., Linck L.T, Lehmann A., Rillig M.C.  2021.  Microplastic Shape, Polymer Type, and Concentration Affect Soil Properties and Plant Biomass. Frontiers in Plant Science. 12:14.
Lozano Y.M, Lehnert T., Linck L.T, Lehmann A., Rillig M.C.  2021.  Microplastic Shape, Polymer Type, and Concentration Affect Soil Properties and Plant Biomass. Frontiers in Plant Science. 12:14.
Lozano Y.M, Lehnert T., Linck L.T, Lehmann A., Rillig M.C.  2021.  Microplastic Shape, Polymer Type, and Concentration Affect Soil Properties and Plant Biomass (vol 12, 616645, 2021). Frontiers in Plant Science. 12:1.
Lozano Y.M, Lehnert T., Linck L.T, Lehmann A., Rillig M.C.  2021.  Microplastic Shape, Polymer Type, and Concentration Affect Soil Properties and Plant Biomass (vol 12, 616645, 2021). Frontiers in Plant Science. 12:1.
Lozano Y.M, Lehnert T., Linck L.T, Lehmann A., Rillig M.C.  2021.  Microplastic Shape, Polymer Type, and Concentration Affect Soil Properties and Plant Biomass. Frontiers in Plant Science. 12:14.
Lozano Y.M, Lehnert T., Linck L.T, Lehmann A., Rillig M.C.  2021.  Microplastic Shape, Polymer Type, and Concentration Affect Soil Properties and Plant Biomass. Frontiers in Plant Science. 12:14.
Lozano Y.M, Lehnert T., Linck L.T, Lehmann A., Rillig M.C.  2021.  Microplastic Shape, Polymer Type, and Concentration Affect Soil Properties and Plant Biomass (vol 12, 616645, 2021). Frontiers in Plant Science. 12:1.