Publications

Dacal M., Garcia-Palacios P., Asensio S., Wang J.T, Singh B.K, Maestre F.T.  2022.  Climate change legacies contrastingly affect the resistance and resilience of soil microbial communities and multifunctionality to extreme drought. Functional Ecology. 36:908-920.

Drage S., Engelmeier D., Bachmann G., Sessitsch A., Mitter B., Hadacek F..  2012.  Combining microdilution with MicroResp (TM): Microbial substrate utilization, antimicrobial susceptibility and respiration. Journal of Microbiological Methods. 88:399-412.

Adapa L.M, Azimi Y., Singh S., Porcelli D., Thompson I.P.  2016.  Comparative study of chemical and physical methods for distinguishing between passive and metabolically active mechanisms of water contaminant removal by biofilms. Water Research. 101:574-581.

Bittleston L.S, Gralka M., Leventhal G.E, Mizrahi I., Cordero O.X.  2020.  Context-dependent dynamics lead to the assembly of functionally distinct microbial communities. Nature Communications. 11:10.

Mucsi M., Krett G., Szili-Kovacs T., Moga J., Borsodi A.K.  2021.  Denaturing gradient gel electrophoresis and multi-SIR profiles of soil microbial communities from a karst doline at Aggtelek National Park, Hungary. Folia Microbiologica. 66:107-114.

Lin H., Sun W.C, Zhang Z.L, Chapman S.J, Freitag T.E, Fu J.R, Zhang X., Ma J.W.  2016.  Effects of manure and mineral fertilization strategies on soil antibiotic resistance gene levels and microbial community in a paddy-upland rotation system. Environmental Pollution. 211:332-337.

Addison S.L, Smaill S.J, Garrett L.G, Wakelin S.A.  2021.  Fertiliser use has multi-decadal effects on microbial diversity and functionality of forest soils. Applied Soil Ecology. 163:8.

Knox O.GG, Gupta V, Lardner R..  2014.  Field evaluation of the effects of cotton variety and GM status on rhizosphere microbial diversity and function in Australian soils. Soil Research. 52:203-215.

Wakelin S.A, Macdonald L.M, Rogers S.L, Gregg A.L, Bolger T.P, Baldock J.A.  2008.  Habitat selective factors influencing the structural composition and functional capacity of microbial communities in agricultural soils. Soil Biology and Biochemistry. 40:803-813.

Menezes-Blackburn D., Al-Ismaily S., Al-Mayahi A., Al-Siyabi B., Al-Kalbani A., Al-Busaid H., Al-Naabi I., Al-Mazroui M., Al-Yahyai R..  2021.  Impact of a Nature-Inspired Engineered Soil Structure on Microbial Diversity and Community Composition in the Bulk Soil and Rhizosphere of Tomato Grown Under Saline Irrigation Water. Journal of Soil Science and Plant Nutrition. 21:173-186.

Hammerschmiedt T., Holatko J., Huska D., Kintl A., Skarpa P., Bytesnikova Z., Pekarkova J., Kucerik J., Mustafa A., Radziemska M. et al..  2022.  Impact of smart combinations of graphene oxide and micro/nanosized sulfur particles on soil health and plant biomass accumulation. Chemical and Biological Technologies in Agriculture. 9:13.

Palomino J., Garcia-Palacios P., De Deyn G.B, Martinez-Garcia L.B, Sanchez-Moreno S., Milla R..  2023.  Impacts of plant domestication on soil microbial and nematode communities during litter decomposition. Plant and Soil. 487:419-436.

Yu X.Q, Polz M.F, Alm E.J.  2019.  Interactions in self-assembled microbial communities saturate with diversity. Isme Journal. 13:1602-1617.

Smith T.P, Mombrikotb S., Ransome E., Kontopoulos D.G, Pawar S., Bell T..  2022.  Latent functional diversity may accelerate microbial community responses to temperature fluctuations. ElifeElife. 11:22.

Wakelin S.A, Condron L.M, Gerard E., Dignam B.EA, Black A., O'Callaghan M..  2017.  Long-term P fertilisation of pasture soil did not increase soil organic matter stocks but increased microbial biomass and activity. Biology and Fertility of Soils. 53:511-521.

Pinzari F., Cuadros J., Migliore M., Napoli R., Najorka J..  2018.  Manganese translocation and concentration on Quercus cerris decomposing leaf and wood litter by an ascomycetous fungus: an active process with ecosystem consequences? FEMS Microbiology Ecology. 94:16.

Delgado-Baquerizo M., Trivedi P., Trivedi C., Eldridge D.J, Reich P.B, Jeffries T.C, Singh B.K.  2017.  Microbial richness and composition independently drive soil multifunctionality. Functional Ecology. 31:2330-2343.

Delgado-Baquerizo M., Reich P.B, Trivedi C., Eldridge D.J, Abades S., Alfaro F.D, Bastida F., Berhe A.A, Cutler N.A, Gallardo A. et al..  2020.  Multiple elements of soil biodiversity drive ecosystem functions across biomes. Nature Ecology & Evolution. 4:210-220.

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.

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.

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.

Chen H.H, Mothapo N.V, Shi W..  2014.  The significant contribution of fungi to soil N2O production across diverse ecosystems. Applied Soil Ecology. 73:70-77.

Armitage D.W.  2016.  Time-variant species pools shape competitive dynamics and biodiversity - ecosystem function relationships. Proceedings of the Royal Society B-Biological Sciences. 283:8.

Gupta V, Bramley R.GV, Greenfield P., Yu J., Herderich M.J.  2019.  Vineyard Soil Microbiome Composition Related to Rotundone Concentration in Australian Cool Climate 'Peppery' Shiraz Grapes. Frontiers in Microbiology. 10:19.