N. J. Bouskill, H. C. Lim, and S. Borglin, Pre-exposure to drought increases the resistance of tropical forest soil bacterial communities to extended drought, ISME J, vol.7, pp.384-394, 2013.

N. J. Bouskill, T. E. Wood, and R. Baran, , 2016.

, Tropical Forest Soil. II. Change in Microbial Function Impacts Carbon Composition, Terr Microbiol, vol.323

L. Boyero, R. G. Pearson, and D. Dudgeon, Global distribution of a key trophic guild contrasts with common latitudinal diversity patterns, Ecology, vol.92, pp.1839-1848, 2011.
URL : https://hal.archives-ouvertes.fr/hal-00979570

L. Boyero, R. G. Pearson, and M. O. Gessner, Leaf-litter breakdown in tropical streams: is variability the norm?, Freshw Sci, vol.34, pp.759-769, 2015.

O. Brouard, R. Céréghino, and B. Corbara, Understorey environments influence functional diversity in tank-bromeliad ecosystems, Freshw Biol, vol.57, pp.815-823, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00819103

A. Bruder, E. Chauvet, and M. O. Gessner, Litter diversity, fungal decomposers and litter decomposition under simulated stream intermittency, Funct Ecol, vol.25, pp.1269-1277, 2011.
DOI : 10.1111/j.1365-2435.2011.01903.x

URL : https://besjournals.onlinelibrary.wiley.com/doi/pdf/10.1111/j.1365-2435.2011.01903.x

S. Coq, J. Souquet, and E. Meudec, Interspecific variation in leaf litter tannins drives decomposition in a tropical rain forest of French Guiana, Ecology, vol.91, pp.2080-2091, 2010.

, Streams. Oikos, vol.85, pp.377-384

M. O. Gessner, C. M. Swan, and C. K. Dang, Diversity meets decomposition, Trends Ecol Evol, vol.25, pp.372-380, 2010.
DOI : 10.1016/j.tree.2010.01.010

G. S. Gilbert, K. E. Harms, D. N. Hamill, and S. P. Hubbell, Effects of seedling size, El Niño drought, seedling density, and distance to nearest conspecific adult on 6-year survival of Ocotea whitei seedlings in Panamá, Oecologia, vol.127, pp.509-516, 2001.

P. R. Grant, B. R. Grant, L. F. Keller, and K. Petren, Effects of El Niño events on Darwin's finch productivity, Ecology, vol.81, pp.2442-2457, 2000.

L. H. Gunderson, Ecological Resilience-In Theory and Application, Annu Rev Ecol Syst, vol.31, pp.425-439, 2000.
DOI : 10.1146/annurev.ecolsys.31.1.425

S. Hättenschwiler and H. B. Jørgensen, Carbon quality rather than stoichiometry controls litter decomposition in a tropical rain forest, J Ecol, vol.98, pp.754-763, 2010.

T. Itioka and M. Yamauti, Severe drought, leafing phenology, leaf damage and lepidopteran abundance in the canopy of a Bornean aseasonal tropical rain forest, J Trop Ecol, vol.20, pp.479-482, 2004.

M. Jocque, A. Kernahan, and A. Nobes, How effective are non-destructive sampling methods to assess aquatic invertebrate diversity in bromeliads, Hydrobiologia, vol.649, pp.293-300, 2010.

S. D. Langhans and K. Tockner, The role of timing, duration, and frequency of inundation in river-floodplain ecosystem (Tagliamento, northeastern Italy), Oecologia, vol.147, pp.501-509, 2006.

M. E. Ledger, L. E. Brown, and F. K. Edwards, Drought alters the structure and functioning of complex food webs, Nat Clim Change, vol.3, pp.223-227, 2013.

M. E. Ledger, R. Harris, P. D. Armitage, and A. M. Milner, Climate Change Impacts on Community Resilience, Advances in Ecological Research, pp.211-258, 2012.

C. Leroy, B. Corbara, A. Dejean, and R. Céréghino, Ants mediate foliar structure and nitrogen acquisition in a tank-bromeliad, New Phytol, vol.183, pp.1124-1133, 2009.
URL : https://hal.archives-ouvertes.fr/hal-00480370

C. Leroy, B. Corbara, O. Dézerald, M. K. Trzcinski, J. F. Carrias et al., What drives detrital decomposition in neotropical tank bromeliads, Hydrobiologia, vol.802, p.85, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01940177

,

A. S. Macdougall, K. S. Mccann, G. Gellner, and R. Turkington, Diversity loss with persistent human disturbance increases vulnerability to ecosystem collapse, Nature, vol.494, pp.86-89, 2013.

M. Makkonen, M. P. Berg, and I. T. Handa, Highly consistent effects of plant litter identity and functional traits on decomposition across a latitudinal gradient, Ecol Lett, vol.15, pp.1033-1041, 2012.

Y. Malhi, J. T. Roberts, and R. A. Betts, Climate change, deforestation, and the fate of the Amazon, Science, vol.319, pp.169-172, 2008.

A. A. Malik, S. Chowdhury, and V. Schlager, Soil fungal:bacterial ratios are linked to altered carbon cycling, Front Microbiol, vol.7, 2016.

C. Mille-lindblom and L. J. Tranvik, Antagonism between bacteria and fungi on decomposing aquatic plant litter, Microb Ecol, vol.45, pp.173-182, 2003.

J. Mora-gómez, S. Duarte, and F. Cássio, Microbial decomposition is highly sensitive to leaf litter emersion in a permanent temperate stream, Sci Total Environ, vol.621, pp.486-496, 2018.

T. H. Oliver, M. S. Heard, and N. Isaac, Biodiversity and resilience of ecosystem functions, Trends Ecol Evol, vol.30, pp.673-684, 2015.

J. Oksanen, F. G. Blanchet, and R. Kindt, Vegan: Community ecology package, 2015.

C. Pascoal and F. Cassio, Contribution of fungi and bacteria to leaf litter decomposition in a polluted river, Appl. Environ. Microbiol, vol.70, pp.5266-5273, 2004.

S. Pesce, O. Zoghlami, and C. Margoum, Combined effects of drought and the fungicide tebuconazole on aquatic leaf litter decomposition, Aquat Toxicol, vol.173, pp.120-131, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01804836

J. Pinheiro, D. Bates, S. Debroy, D. Sarkan, and . Team, Nlme: linear and nonlinear mixed effects models, 2014.

J. S. Powers, R. A. Montgomery, and E. C. Adair, Decomposition in tropical forests: a pantropical study of the effects of litter type, litter placement and mesofaunal exclusion across a precipitation gradient, J Ecol, vol.97, pp.801-811, 2009.

. R-core-team, A language and environment for statistical computing. R Foundation for Statistical Computing, p.541, 2014.

G. N. Rees, G. O. Watson, D. S. Baldwin, and A. M. Mitchell, Variability in sediment microbial communities in a semipermanent stream: impact of drought, J North Am Benthol Soc, vol.25, pp.370-378, 2006.

R. L. Kitching, Food Webs and Container Habitats: The Natural History and Ecology of Phytotelmata, 2009.

A. Shade, H. Peter, and S. D. Allison, Fundamentals of microbial community resistance and resilience, Front Microbiol, vol.3, p.417, 2012.

D. S. Srivastava, J. Kolasa, and J. Bengtsson, Are natural microcosms useful model systems for ecology?, Trends Ecol Evol, vol.19, pp.379-384, 2004.

R. Stewart, M. Dossena, and D. A. Bohan, Chapter Two-Mesocosm experiments as a tool for ecological climate change research, Advances in Ecological Research, pp.71-181, 2013.

M. S. Strickland, A. D. Keiser, and M. A. Bradford, Climate history shapes contemporary leaf litter decomposition, Biogeochemistry, vol.122, pp.165-174, 2015.

M. S. Strickland and J. Rousk, Considering fungal:bacterial dominance in soils-Methods, controls, and ecosystem implications, Soil Biol Biochem, vol.42, pp.1385-1395, 2010.

B. R. Taylor and D. Parkinso, Does repeated wetting and drying accelerate decay of leaf litter?, Soil Biol Biochem, vol.20, pp.647-656, 1988.

J. J. Tewksbury, R. B. Huey, and C. A. Deutsch, Putting the heat on tropical animals, Science, vol.320, pp.1296-1297, 2008.

M. K. Trzcinski, D. S. Srivastava, and B. Corbara, The effects of food web structure on ecosystem function exceeds those of precipitation, J Anim Ecol, vol.85, pp.1147-1160, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01933190

M. Wallestein and E. Hall, A trait-based framwork for predicting when and where microbial adaptation to climate change will affect ecosystem functionning, Biogeochemistry, vol.109, pp.35-47, 2012.

A. S. Wymore, Z. G. Compson, and C. M. Liu, Contrasting rRNA gene abundance patterns for aquatic fungi and bacteria in response to leaf-litter chemistry, Freshw Sci, vol.32, pp.663-672, 2013.

Q. Zhang, J. Wu, and F. Yang, Alterations in soil microbial community composition and biomass following agricultural land use change, Sci Rep, vol.6, p.36587, 2016.

G. Zotz and V. Thomas, How much water is in the tank? Model calculations for two epiphytic bromeliads, Ann Bot, vol.83, pp.183-192, 1999.