H. L. Lu, . St, and R. J. Leger, Insect Immunity to Entomopathogenic Fungi, Adv Genet, vol.94, pp.251-275, 2016.

M. T. Siva-jothy, Y. Moret, and J. Rolff, Insect immunity : An evolutionary ecology perspective, Insect Phys, vol.277, pp.1-48, 2005.

P. Schmid-hempel, Evolutionary parasitology, 2014.

J. C. De-roode and T. Lefèvre, Behavioral immunity in insects. Insects, vol.2012, pp.789-820

J. F. Hillyer, Insect immunology and hematopoiesis, Dev Comp Immunol, vol.58, pp.102-118, 2016.

S. Cremer, S. Armitage, and P. Schmid-hempel, Social immunity, vol.17, pp.693-702, 2007.

S. C. Cotter and R. M. Kilner, Personal immunity versus social immunity, Behav Ecol, vol.21, pp.663-283, 2010.

J. Meunier, Social immunity and the evolution of group living in insects, Philos Trans R Soc B 285 Biol Sci, vol.370, 2015.
URL : https://hal.archives-ouvertes.fr/hal-02117967

P. Schmid-hempel, Parasites in social insects, vol.287, p.10, 1998.

N. Wilson-rich, M. Spivak, N. H. Fefferman, and P. T. Starks, Genetic, individual, and group facilitation 288 of disease resistance in insect societies, Annu Rev Entomol, vol.54, pp.405-428, 2009.

A. Reber, J. Purcell, S. D. Buechel, P. Buri, and M. Chapuisat, The expression and impact of antifungal 290 grooming in ants, J Evol Biol, vol.24, pp.954-964, 2011.

J. A. Zeh, A. D. Zeh, and D. W. Zeh, Dump material as an effective small-scale deterrent to herbivory 292 by Atta cephalotes, Biotropica, vol.31, pp.368-371, 1999.

A. G. Hart, A. Bot, and M. Brown, A colony-level response to disease control in a leaf-cutting 294 ant, Naturwissenschaften, vol.89, pp.275-277, 2002.

M. D. Ulyshen and T. G. Shelton, Evidence of cue synergism in termite corpse response behavior, 296 Naturwissenschaften, vol.99, pp.89-93, 2012.

P. K. Visscher, The honey bee way of death: Necrophoric behaviour in Apis mellifera colonies

, Anim Behav, vol.31, pp.1070-1076, 1983.

J. Heinze and B. Walter, Moribund ants leave their nests to die in social isolation, Curr Biol, vol.300, issue.20, pp.249-52, 2010.

O. Rueppell, M. K. Hayworth, and N. P. Ross, Altruistic self-removal of health-compromised honey 302 bee workers from their hive, J Evol Biol, vol.23, pp.1538-1584, 2010.

L. Ugelvig and S. Cremer, Social prophylaxis: group interaction promotes collective immunity in 304 ant colonies, Curr Biol, vol.17, pp.1967-71, 2007.

N. Bos, T. Lefèvre, A. B. Jensen, D. 'ettorre, and P. , Sick ants become unsociable, J Evol Biol, vol.306, pp.342-51, 2012.
URL : https://hal.archives-ouvertes.fr/hal-02411120

M. M. López-uribe, A. Fitzgerald, and M. Simone-finstrom, Inducible versus constitutive social 308 immunity: examining effects of colony infection on glucose oxidase and defensin-1 309 production in honeybees, Open Sci, vol.4, pp.774-91, 2011.

D. Baracchi, G. Mazza, and S. Turillazzi, From individual to collective immunity: the role of the 312 venom as antimicrobial agent in the Stenogastrinae wasp societies, J Insect Physiol, vol.313, pp.188-93, 2012.

S. Cremer and M. Sixt, Analogies in the evolution of individual and social immunity, Philos Trans 315 R Soc London B Biol Sci, vol.364, pp.129-171, 2009.

. Schmid-hempel, P: Parasites and their social hosts, Trends Parasitol, vol.33, p.25, 2017.

S. Cremer, C. D. Pull, and M. A. Fürst, Social immunity: emergence and evolution of colony-level 318 disease protection, Annu Rev Entomol, vol.63, pp.105-123, 2018.

D. Naug and S. Camazine, The role of colony organization on pathogen transmission in social 320 insects, J Theor Biol, vol.215, pp.427-466, 2002.

L. Masri and S. Cremer, Individual and social immunisation in insects, Trends Immunol, vol.322, pp.471-482, 2014.

P. Kennedy, G. Baron, B. Qiu, D. Freitak, H. Helanterä et al., , p.324

S. Patalano and C. D. Pull, Deconstructing superorganisms and societies to address big 325 questions in biology, Trends Ecol Evol, vol.32, pp.861-872, 2017.

P. Christe, A. Oppliger, F. Bancalà, G. Castella, and M. Chapuisat, Evidence for collective medication 327 in ants, Ecol Lett, vol.6, pp.19-22, 2003.

M. Simone, J. D. Evans, and M. Spivak, Resin collection and social immunity in honey bees, Evolution, vol.329, pp.3016-3038, 2009.

O. Duangphakdee, N. Koeniger, S. Deowanish, H. R. Hepburn, and S. Wongsiri, Ant repellent resins of 331 honeybees and stingless bees, Insectes Soc, vol.56, pp.333-339, 2009.

J. C. De-roode, T. Lefèvre, and M. D. Hunter, Self-medication in animals, Science, vol.340, p.33, 2013.
URL : https://hal.archives-ouvertes.fr/hal-02411128

P. T. Starks, C. A. Blackie, and T. D. Seeley, Fever in honeybee colonies, Naturwissenschaften, vol.334, pp.229-260, 2000.

C. D. Pull, L. Ugelvig, F. Wiesenhofer, A. Grasse, S. Tragust et al., 336 Destructive disinfection of infected brood prevents systemic disease spread in ant colonies, vol.337, pp.1-29, 2018.

M. Konrad, M. L. Vyleta, F. J. Theis, M. Stock, S. Tragust et al., , p.339

S. Cremer, Social transfer of pathogenic fungus promotes active immunisation in ant 340 colonies, PLoS Biol, vol.10, p.1001300, 2012.

M. Konrad, C. D. Pull, S. Metzler, K. Seif, E. Naderlinger et al., Ants avoid 342 superinfections by performing risk-adjusted sanitary care, vol.343, p.37, 2018.

J. Kramer and J. Meunier, Kin and multilevel selection in social evolution: a never-ending 344 controversy?, vol.5, p.776, 2016.

J. D. Evans, K. Aronstein, Y. P. Chen, C. Hetru, J. Imler et al., , p.346

D. Hultmark, Immune pathways and defence mechanisms in honey bees Apis mellifera, Insect Mol Biol, vol.347, pp.645-56, 2006.

G. M. Weinstock, G. E. Robinson, . Gibbs-r-a, K. C. Worley, J. D. Evans et al., , p.349

D. B. Weaver, M. Beye, and P. Bork, Insights into social insects from the genome of the 350 honeybee Apis mellifera, Nature, vol.443, pp.931-949, 2006.

A. Stow, D. Briscoe, M. Gillings, M. Holley, S. Smith et al., 352 Antimicrobial defences increase with sociality in bees, Biol Lett, vol.3, p.41, 2007.

C. Turnbull, S. J. Hoggard, M. Gillings, C. Palmer, A. Stow et al., , p.354

A. Beattie, Antimicrobial strength increases with group size: implications for social 355 evolution, Biol Lett, vol.7, pp.249-52, 2011.

S. Otani, N. Bos, and S. H. Yek, Transitional Complexity of Social Insect Immunity. Front Ecol Evol, vol.357, pp.1-5, 2016.

S. M. Barribeau, B. M. Sadd, L. Du-plessis, M. J. Brown, S. D. Buechel et al., , p.359

O. Christiaens, T. J. Colgan, and S. Erler, A depauperate immune repertoire precedes 360 evolution of sociality in bees, Genome Biol, vol.361, p.44, 2015.

T. Chouvenc, C. A. Efstathion, M. L. Elliott, and N. Su, Extended disease resistance emerging from the 362 faecal nest of a subterranean termite, Proc R Soc B Biol Sci, vol.280, p.45, 2013.

J. M. Diehl, M. Körner, M. Pietsch, and J. Meunier, Feces production as a form of social immunity in 364 an insect with facultative maternal care, BMC Evol Biol, vol.15, p.46, 2015.

S. C. Cotter and R. M. Kilner, Sexual division of antibacterial resource defence in breeding burying 366 beetles, Nicrophorus vespilloides, J Anim Ecol, vol.79, pp.35-43, 2010.

R. B. Rosengaus, K. Mead, D. Comb, W. S. Benson, R. W. Godoy et al., Nest sanitation through 368 defecation: antifungal properties of wood cockroach feces, Naturwissenschaften, vol.369, pp.1051-1060, 2013.

M. R. Weiss, Defecation behavior and ecology of insects, Annu Rev Entomol, vol.51, p.49, 2006.

M. J. West and R. D. Alexander, Sub-social behavior in a burrowing cricket, Anurogryllus muticus 372 (De Geer), Ohio J Sci, vol.63, pp.19-24, 1963.

F. Mas and M. Kölliker, Differential effects of offspring condition-dependent signals on maternal 374 care regulation in the European earwig, Behav Ecol Soc, vol.65, pp.341-349, 2011.

M. Thiel, Extended parental care in marine amphipods II. Maternal protection of juveniles 376 from predation, J Exp Mar Bio Ecol, vol.234, pp.235-253, 1999.

T. Brütsch, A. Felden, A. Reber, and M. Chapuisat, Ant queens (Hymenoptera : Formicidae) are 378 attracted to fungal pathogens during the initial stage of colony founding, Myrmecological, vol.379, issue.2014, pp.71-76

L. Pontieri, S. Vojvodic, R. Graham, J. S. Pedersen, and T. A. Linksvayer, Ant colonies prefer infected 381 over uninfected nest sites, PLoS One, vol.9, p.111961, 2014.

J. Leclerc and C. Detrain, Ants detect but do not discriminate diseased workers within their 383 nest, Sci Nat, vol.103, p.70, 2016.

T. Brütsch, A. A. Chapuisat, and M. , No evidence for social immunity in co-founding queen 385 associations, Sci Rep, vol.7, p.16262, 2017.

S. R. Hopkins, J. M. Wojdak, and L. K. Belden, Defensive Symbionts Mediate Host-Parasite Interactions 387 at Multiple Scales, Trends Parasitol, vol.33, pp.53-64, 2017.

S. A. Babayan and D. S. Schneider, Immunity in society: diverse solutions to common problems

, PLoS Biol, vol.10, p.1001297, 2012.

K. Wilson and S. C. Cotter, Density-dependent prophylaxis in insects, Phenotypic plasticity of 391 insects, pp.137-176, 2009.

C. E. Reavey, L. Beare, and S. C. Cotter, Parental care influences social immunity in burying beetle 393 larvae, Ecol Entomol, vol.39, pp.395-398, 2014.

S. Boos, J. Meunier, S. Pichon, and M. Kölliker, Maternal care provides antifungal protection to eggs 395 in the European earwig, Behav Ecol, vol.25, pp.754-761, 2014.

P. Kohlmeier, K. Holländer, and J. Meunier, Survival after pathogen exposure in group-living 397 insects: don't forget the stress of social isolation, J Evol Biol, vol.29, p.62, 2016.

A. Duarte, S. C. Cotter, C. E. Reavey, R. Ward, O. De-gasperin et al., Social immunity of the 399 family: parental contributions to a public good modulated by brood size, Evol Ecol, vol.30, pp.123-135, 2015.

C. E. Reavey, N. D. Warnock, A. P. Garbett, and S. C. Cotter, Aging in personal and social immunity: do 402 immune traits senesce at the same rate?, Ecol Evol, vol.5, pp.4365-4375, 2015.

P. Biedermann and M. Rohlfs, Evolutionary feedbacks between insect sociality and microbial 404 management, Curr Opin Insect Sci, vol.22, pp.92-100, 2017.

S. C. Cotter, E. Topham, J. P. Price-a, and R. M. Kilner, Fitness costs associated with mounting a social 406 immune response, Ecol Lett, vol.13, pp.1114-1137, 2010.