A. T. Austin, L. Vivanco, A. González-arzac, and L. I. Pérez, There's no place like home? An 488 exploration of the mechanisms behind plant litter-decomposer affinity in terrestrial 489 ecosystems, New Phytologist, vol.204, pp.307-314, 2014.

M. A. Bakker, G. Carreño-rocabado, and L. Poorter, Leaf economics traits predict litter 491 decomposition of tropical plants and differ among land use types: Leaf economics traits and 492 decomposition, Functional Ecology, vol.25, pp.473-483, 2011.

L. Barbe, V. Jung, A. Prinzing, A. Bittebiere, O. Butenschoen et al., Functionally 494 dissimilar neighbors accelerate litter decomposition in two grass species, New Phytologist, vol.495, pp.1092-1102, 2017.

R. D. Bardgett and W. H. Van-der-putten, Belowground biodiversity and ecosystem 497 functioning, Nature, vol.515, pp.505-511, 2014.

A. Berlese, Apparicchio per raccogliere presto ed in gran numero di piccolo artropodi, 1905.

, Redia, vol.2, pp.85-89

E. A. Bernays, G. C. Driver, and M. Bilgener, Herbivores and plant tannins, Advances in 501 ecological research, vol.19, pp.263-302, 1989.

M. B. Bouché, Lombriciens de France: écologie et systématique, 1972.

M. B. Bouché, Stratégies lombriciennes. Ecological Bulletins, vol.25, pp.122-132, 1977.

D. D. Briske, Strategies of plant survival in grazed systems: a functional interpretation, 1996.

. Ms, W. K. Cornwell, J. M. Craine, D. E. Gurvich, C. Urcelay et al., , p.594

I. J. Wright, P. Ray, L. Enrico, J. G. Pausas, A. C. De-vos et al., , p.595

J. G. Hodgson, K. Thompson, H. D. Morgan, H. Ter-steege, L. Sack et al., , p.596

M. V. Vaieretti, G. Conti, A. C. Staver, S. Aquino, and J. Cornelissen, New handbook for 597 standardised measurement of plant functional traits worldwide, Australian Journal of Botan, vol.598, pp.167-234, 2013.

H. Petersen and M. Luxton, A Comparative Analysis of Soil Fauna Populations and Their 600 Role in Decomposition Processes, Oikos, vol.39, pp.288-388, 1982.

J. Ponge, S. Gillet, F. Dubs, E. Fedoroff, L. Haese et al., Collembolan 602 communities as bioindicators of land use intensification, Soil Biology and Biochemistry, vol.35, pp.603-813, 2003.

J. Ponge, G. Pérès, M. Guernion, N. Ruiz-camacho, J. Cortet et al., , p.605

R. Chaussod, F. Martin-laurent, A. Bispo, and D. Cluzeau, The impact of agricultural 606 practices on soil biota: A regional study, Soil Biology and Biochemistry, vol.67, pp.271-284, 2013.

H. Quested, O. Eriksson, C. Fortunel, and E. Garnier, Plant traits relate to whole-community 608 litter quality and decomposition following land use change, Functional Ecology, vol.21, pp.1016-609, 2007.

. R-core-team, R: A language and environment for statistical computing. R Foundation 611 for Statistical Computing, 2016.

, senescence of grassland species influence decomposition kinetics and litter compounds 616 dynamics?, Nutrient Cycling in Agroecosystems, vol.88, pp.159-171

L. S. Santiago, Extending the leaf economics spectrum to decomposition: evidence from 618 a tropical forest, Ecology, vol.88, pp.1126-1131, 2007.

M. Santonja, C. Fernandez, T. Gauquelin, and V. Baldy, Climate change effects on litter 620 decomposition: intensive drought leads to a strong decrease of litter mixture interactions, 621 Plant and Soil, vol.393, pp.69-82, 2015.

M. Santonja, Q. Foucault, A. Rancon, T. Gauquelin, C. Fernandez et al., , 2018.

, Contrasting responses of bacterial and fungal communities to plant litter diversity in a 624 Mediterranean oak forest, Soil Biology and Biochemistry, vol.125, pp.27-36

M. J. Swift, O. W. Heal, and J. M. Anderson, Decomposition in terrestrial ecosystems, vol.5, p.626, 1979.

Z. Thomas, B. W. Abbott, O. Troccaz, J. Baudry, and G. Pinay, Proximate and ultimate controls 628 on carbon and nutrient dynamics of small agricultural catchments, Biogeosciences, vol.13, pp.1863-629, 2016.

E. D. Vance, P. C. Brookes, and D. S. Jenkinson, An extraction method for measuring soil 631 microbial biomass C, Soil Biology and Biochemistry, vol.19, pp.703-707, 1987.

J. D. Van-elsas, J. T. Trevors, J. K. Jansson, and P. Nannipieri, Modern soil microbiology, p.683, 2006.

G. Veen, G. T. Freschet, A. Ordonez, and D. A. Wardle, Litter quality and environmental 635 controls of home-field advantage effects on litter decomposition, Functional 638 Ecology, vol.124, pp.1563-1574, 2015.

C. Violle, E. Garnier, J. Lecoeur, C. Roumet, C. Podeur et al., , 2009.

, Competition, traits and resource depletion in plant communities, Oecologia, vol.160, pp.747-755

D. A. Wardle, A comparative assessment of factors which influence microbial biomass 642 carbon and nitrogen levels in soil, Biological reviews, vol.67, pp.321-358, 1992.

I. J. Wright, P. B. Reich, M. Westoby, D. D. Ackerly, Z. Baruch et al., , p.644

T. Chapin, J. Cornelissen, M. Diemer, J. Flexas, E. Garnier et al., , p.645

K. , L. Bb, T. Lee, W. Lee, C. Lusk et al., , p.646

N. Osada, H. Poorter, P. Poot, L. Prior, V. I. Pyankov et al., , p.647

E. J. Veneklass and R. Villar, The worldwide leaf economics spectrum, Nature, vol.428, pp.821-827, 2004.

S. Wright, The method of path coefficients, The Annals of Mathematical Statistics, vol.5, p.649, 1934.