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  • Aber, J., Melillo, J.M. & McClaugherty, C.A. (1990) Predicting long-term patterns of mass loss, nitrogen dynamics, and soil organic matter formation from initial fine litter chemistry in temperate forest ecosystems. Canadian Journal of Botany, 68, 22012208.
  • Allison, S.D. & Martiny, J.B.H. (2008) Resistance, resilience, and redundancy in microbial communities. Proceedings of the National Academy of Sciences of the United States of America, 105, 1151211519.
  • Ayres, E., Steltzer, H., Berg, B. & Wall, D.H. (2009a) Soil biota accelerate decomposition in high-elevation forests by specializing in the breakdown of litter produced by the plant species above them. Journal of Ecology, 97, 901912.
  • Ayres, E., Steltzer, H., Simmons, B.L., Simpson, R.T., Steinweg, J.M., Wallenstein, M.D., Mellor, N., Parton, W.J., Moore, J.C. & Wall, D.H. (2009b) Home-field advantage accelerates leaf litter decomposition in forests. Soil Biology & Biochemistry, 41, 606610.
  • Blanquart, F., Kaltz, O., Nuismer, S.L. & Gandon, S. (2013) A practical guide to measuring local adaptation. Ecology Letters, 16, 11951205.
  • Bradford, M.A. & Fierer, N. (2012) The biogeography of microbial communities and ecosystem processes: Implications for soil and ecosystem models. Soil Ecology and Ecosystem Services (eds D.H. Wall, R.D. Bardgett, V. Behan-Pelletier, J.E. Herrick, H. Jones, K. Ritz, J. Six, D.R. Strong & W.H. Van der Putten), pp. 189200. Oxford University Press, New York, USA.
  • Castanho, C.D. & de Oliveira, A.A. (2008) Relative effect of litter quality, forest type and their interaction on leaf decomposition in south-east Brazilian forests. Journal of Tropical Ecology, 24, 149156.
  • Clarke, S.R. & Norman, J.M. (1995) Home ground advantage of individual clubs in English soccer. Statistician, 44, 509521.
  • Clausen, J., Keck, D.D. & Hiesey, W.M. (1941) Regional differentiation in plant species. The American Naturalist, 75, 231250.
  • Courneya, K.S. & Carron, A.V. (1992) The home advantage in sport competitions: a literature review. Journal of Sport & Exercise Psychology, 14, 1327.
  • Freschet, G.T., Aerts, R. & Cornelissen, J.H.C. (2012) Multiple mechanisms for trait effects on litter decomposition: moving beyond home-field advantage with a new hypothesis. Journal of Ecology, 100, 619630.
  • Gholz, H.L., Wedin, D.A., Smitherman, S.M., Harmon, M.E. & Parton, W.J. (2000) Long-term dynamics of pine and hardwood litter in contrasting environments: toward a global model of decomposition. Global Change Biology, 6, 751765.
  • Gravel, D., Bell, T., Barbera, C., Bouvier, T., Pommier, T., Venail, P. & Mouquet, N. (2011) Experimental niche evolution alters the strength of the diversity-productivity relationship. Nature, 469, 89U1601.
  • van der Heijden, M.G.A., Bardgett, R.D. & van Straalen, N.M. (2008) The unseen majority: soil microbes as drivers of plant diversity and productivity in terrestrial ecosystems. Ecology Letters, 11, 296310.
  • Hunt, H.W., Ingham, E.R., Coleman, D.C., Elliott, E.T. & Reid, C.P.P. (1988) Nitrogen limitation of production and decomposition in prairie, mountain meadow, and pine forest. Ecology, 69, 10091016.
  • Jacob, M., Viedenz, K., Polle, A. & Thomas, F.M. (2010) Leaf litter decomposition in temperate deciduous forest stands with a decreasing fraction of beech (Fagus sylvatica). Oecologia, 164, 10831094.
  • Kawecki, T.J. & Ebert, D. (2004) Conceptual issues in local adaptation. Ecology Letters, 7, 12251241.
  • Keiser, A.D., Knoepp, J.D. & Bradford, M.A. (2013) Microbial communities may modify how litter quality affects potential decomposition rates as tree species migrate. Plant and Soil, 372, 167176.
  • Keiser, A.D., Strickland, M.S., Fierer, N. & Bradford, M.A. (2011) The effect of resource history on the functioning of soil microbial communities is maintained across time. Biogeosciences, 8, 14771486.
  • Milcu, A. & Manning, P. (2011) All size classes of soil fauna and litter quality control the acceleration of litter decay in its home environment. Oikos, 120, 13661370.
  • Olden, J.D., Larson, E.R. & Mims, M.C. (2009) Home-field advantage: native signal crayfish (Pacifastacus leniusculus) out consume newly introduced crayfishes for invasive Chinese mystery snail (Bellamya chinensis). Aquatic Ecology, 43, 10731084.
  • Ortegon-Campos, I., Abdala-Roberts, L., Parra-Tabla, V., Cervera, J.C., Marrufo-Zapata, D. & Herrera, C.M. (2012) Influence of multiple factors on plant local adaptation: soil type and folivore effects in Ruellia nudiflora (Acanthaceae). Evolutionary Ecology, 26, 545558.
  • Perez, G., Aubert, M., Decaëns, T., Trap, J. & Chauvat, M. (2013) Home-Field Advantage: A matter of interaction between litter biochemistry and decomposer biota. Soil Biology and Biochemistry, 67, 245254.
  • Prescott, C.E. (2010) Litter decomposition: what controls it and how can we alter it to sequester more carbon in forest soils? Biogeochemistry, 101, 133149.
  • Reed, H.E. & Martiny, J.B.H. (2007) Testing the functional significance of microbial composition in natural communities. Fems Microbiology Ecology, 62, 161170.
  • Schimel, J. & Schaeffer, S.M. (2012) Microbial control over carbon cycling in soil. Frontiers in Microbiology, 3, 348.
  • Sherrard, M.E. & Maherali, H. (2012) Local adaptation across a fertility gradient is influenced by soil biota in the invasive grass, Bromus inermis. Evolutionary Ecology, 26, 529544.
  • Snyder, E.E. & Purdy, D.A. (1985) The home advantage in collegiate basketball. Sociology of Sport Journal, 2, 352356.
  • Strickland, M.S., Lauber, C., Fierer, N. & Bradford, M.A. (2009a) Testing the functional significance of microbial community composition. Ecology, 90, 441451.
  • Strickland, M.S., Osburn, E., Lauber, C., Fierer, N. & Bradford, M.A. (2009b) Litter quality is in the eye of the beholder: initial decomposition rates as a function of inoculum characteristics. Functional Ecology, 23, 627636.
  • Throckmorton, H.M., Bird, J.A., Dane, L., Firestone, M.K. & Horwath, W.R. (2012) The source of microbial C has little impact on soil organic matter stabilisation in forest ecosystems. Ecology Letters, 15, 12571265.
  • Vergin, R.C. & Sosik, J.J. (1999) No place like home: an examination of the home field advantage in gambling strategies in NFL Football. Journal of Economics and Business, 1, 2131.
  • Vivanco, L. & Austin, A.T. (2008) Tree species identity alters forest litter decomposition through long-term plant and soil interactions in Patagonia, Argentina. Journal of Ecology, 96, 727736.
  • Wallenstein, M.D., Hess, A.M., Lewis, M.R., Steltzerae, H. & Ayres, E. (2010) Decomposition of aspen leaf litter results in unique metabolomes when decomposed under different tree species. Soil Biology & Biochemistry, 42, 484490.
  • Wang, Q., Zhong, M. & He, T. (2013) Home-field advantage of litter decomposition and nitrogen release in forest ecosystems. Biology and Fertility of Soils, 49, 427434.