Publications

Smaill S.J, Garrett L.G, Addison S.L.  2023.  Accelerator trial series in Pinus radiata stands in New Zealand: Trial establishment, site description and initial soil, forest floor and tree data. Data in BriefData in Brief. 47:12.

Zhang L, Peng Y, Zhou J, George TS, Feng G.  2020.  Addition of fructose to the maize hyphosphere increases phosphatase activity by changing bacterial community structure. Soil Biology and Biochemistry. 142:107724.

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.

García-Palacios P, Milla R, lvaro-Sánchez MÁ, Martín-Robles N, Maestro M.  2013.  Application of a high-throughput laboratory method to assess litter decomposition rates in multiple-species experiments. Soil Biology and Biochemistry. 57:929-932.

Ding Y.J, Ge C.R, Yao H.Y.  2015.  Application of substrate utilization patterns and terminal restriction fragment length polymorphism analysis to characterize the oral bacterial community of healthy subjects and patients with periodontitis. Experimental and Therapeutic Medicine. 9:2013-2017.

Wang G.W, Jin Z.X, George T.S, Feng G., Zhang L..  2023.  Arbuscular mycorrhizal fungi enhance plant phosphorus uptake through stimulating hyphosphere soil microbiome functional profiles for phosphorus turnover. New Phytologist. 238:2578-2593.

Zhou J.C, Zhang L., Feng G., George T.S.  2022.  Arbuscular mycorrhizal fungi have a greater role than root hairs of maize for priming the rhizosphere microbial community and enhancing rhizosphere organic P mineralization. Soil Biology & Biochemistry. 171:12.

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.

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.

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.

Delgado-Baquerizo M., Morillas L., Maestre F.T, Gallardo A..  2013.  Biocrusts control the nitrogen dynamics and microbial functional diversity of semi-arid soils in response to nutrient additions. Plant and Soil. 372:643-654.

Wakelin S.A, Cavanagh J.AE, Young S., Gray C.W, van Ham R.JC.  2016.  Cadmium in New Zealand pasture soils: toxicity to Rhizobia and white clover. New Zealand Journal of Agricultural Research. 59:65-78.

Grover S.PP, Baldock J.A.  2012.  Carbon chemistry and mineralization of peat soils from the Australian Alps. European Journal of Soil Science. 63:129-140.

Yu J., Glazer N., Steinberger Y..  2014.  Carbon utilization, microbial biomass, and respiration in biological soil crusts in the Negev Desert. Biology and Fertility of Soils. 50:285-293.

Liu Y., Guo K.Y, Zhao Y.Z, Li S.H, Wu Q.F, Liang C.F, Sun X., Xu Q.F, Chen J.H, Qin H..  2020.  Change in composition and function of microbial communities in an acid bamboo (Phyllostachys praecox) plantation soil with the addition of three different biochars. Forest Ecology and Management. 473:10.

Gao F., Fan H.X, Chapman S.J, Yao H.Y.  2022.  Changes in soil microbial community activity and composition following substrate amendment within the MicroResp (TM) system. Journal of Soils and Sediments. 22:1242-1251.

Zhang K., Wang S., Guo P.H, Guo S.H.  2021.  Characteristics of organic carbon metabolism and bioremediation of petroleum-contaminated soil by a mesophilic aerobic biopile system. Chemosphere. 264:11.

Zhang K., Wang S., Guo P.H, Guo S.H.  2021.  Characteristics of organic carbon metabolism and bioremediation of petroleum-contaminated soil by a mesophilic aerobic biopile system. Chemosphere. 264:11.

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.

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.

Garcia-Palacios P., Shaw E.A, Wall D.H, Hattenschwiler S..  2017.  Contrasting mass-ratio vs. niche complementarity effects on litter C and N loss during decomposition along a regional climatic gradient. Journal of Ecology. 105:968-978.

Dacal M, García-Palacios P, Asensio S, Cano-Díaz C, Gozalo B, Ochoa V, Maestre FT.  2020.  Contrasting mechanisms underlie short- and longer-term soil respiration responses to experimental warming in a dryland ecosystem. Global Change Biology. 26:5254-5266.

Dacal M, García-Palacios P, Asensio S, Cano-Díaz C, Gozalo B, Ochoa V, Maestre FT.  2020.  Contrasting mechanisms underlie short- and longer-term soil respiration responses to experimental warming in a dryland ecosystem. Global Change Biology. 26:5254-5266.

Schoffer J.T, Aponte H., Neaman A., De la Fuente L.M, Arellano E.C, Gil P.M, Ginocchio R..  2022.  Copper content in soils and litter from fruit orchards in Central Chile and its relationship with soil microbial activity. Plant Soil and Environment. 68:115-128.