Publications

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.

Gómez-Gener L, Obrador B, von Schiller D, Marcé R, Casas-Ruiz JPere, Proia L, Acuña V, Catalán N, Muñoz I, Koschorreck M.  2015.  Hot spots for carbon emissions from Mediterranean fluvial networks during summer drought. Biogeochemistry. 125:409-426.

Nunan N., Lerch T.Z, Pouteau V., Mora P., Changey F., Kätterer T., Giusti-Miller S., Herrmann A.M.  2015.  Metabolising old soil carbon: Simply a matter of simple organic matter? Soil Biology and Biochemistry. 88:128-136.

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.

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, 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.

Delgado-Baquerizo M., Garcia-Palacios P., Milla R., Gallardo A., Maestre F.T.  2015.  Soil characteristics determine soil carbon and nitrogen availability during leaf litter decomposition regardless of litter quality. Soil Biology and Biochemistry. 81:134-142.

Delgado-Baquerizo M., Garcia-Palacios P., Milla R., Gallardo A., Maestre F.T.  2015.  Soil characteristics determine soil carbon and nitrogen availability during leaf litter decomposition regardless of litter quality. Soil Biology and Biochemistry. 81:134-142.

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.

Prober S.M, Stol J., Piper M., Gupta V, Cunningham S.A.  2014.  Enhancing soil biophysical condition for climate-resilient restoration in mesic woodlands. Ecological Engineering. 71:246-255.

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.

Pailler A., Vennetier M., Torre F., Ripert C., Guiral D..  2014.  Forest soil microbial functional patterns and response to a drought and warming event: Key role of climate-plant-soil interactions at a regional scale. Soil Biology & Biochemistry. 70:1-4.

Prober S.M, Stol J., Piper M., Gupta V, Cunningham S..  2014.  Towards climate-resilient restoration in mesic eucalypt woodlands: characterizing topsoil biophysical condition in different degradation states. Plant and Soil. 383:231-244.

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.

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.

Boudiaf I., Baudoin E., Sanguin H., Beddiar A., Thioulouse J., Galiana A., Prin Y., Le Roux C., Lebrun M., Duponnois R..  2013.  The exotic legume tree species, Acacia mearnsii, alters microbial soil functionalities and the early development of a native tree species, Quercus suber, in North Africa. Soil Biology and Biochemistry. 65:172-179.

Ge T, Chen X, Yuan H, Li B, Zhu H, Peng P, Li K, Jones DL, Wu J.  2013.  Microbial biomass, activity, and community structure in horticultural soils under conventional and organic management strategies. European Journal of Soil Biology. 58:122-128.

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.

García-Palacios P, Milla R, Delgado-Baquerizo M, Martín-Robles N, lvaro-Sánchez MÁ, Wall DH.  2013.  Side-effects of plant domestication: ecosystem impacts of changes in litter quality. New Phytologist. 198:504-513.

Schmidt MA, Kreinberg AJ, Gonzalez JM, Halvorson JJ, French E, Bollmann A, Hagerman AE.  2013.  Soil microbial communities respond differently to three chemically defined polyphenols. Plant Physiology and Biochemistry. 72:190-197.

Gömöryová E, Ujházy K, Martinák M, Gömöry D.  2013.  Soil microbial community response to variation in vegetation and abiotic environment in a temperate old-growth forest. Applied Soil Ecology. 68:10-19.

Gömöryová E, Ujházy K, Martinák M, Gömöry D.  2013.  Soil microbial community response to variation in vegetation and abiotic environment in a temperate old-growth forest. Applied Soil Ecology. 68:10-19.

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.

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.

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.