J. R. Adrion, A. Kousathanas, M. Pascual, H. J. Burrack, N. M. Haddad et al., Drosophila suzukii: the genetic footprint of a recent, worldwide invasion, Mol Biol Evol, vol.31, pp.3148-3163, 2014.

U. Alam, J. Medlock, C. Brelsfoard, R. Pais, C. Lohs et al., Wolbachia symbiont infections induce strong cytoplasmic incompatibility in the tsetse fly Glossina morsitans, PLoS Pathog, vol.7, 2011.

M. K. Asplen, G. Anfora, and A. Biondi, Invasion biology of spotted wing Drosophila (Drosophila suzukii): a global perspective and future priorities, J Pest Sci, vol.88, issue.469, p.494, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01921732

C. M. Atyame, F. Delsuc, N. Pasteur, M. Weill, and O. Duron, Diversification of Wolbachia endosymbiont in the Culex pipiens mosquito, Mol Biol Evol, vol.28, pp.2761-2772, 2011.
URL : https://hal.archives-ouvertes.fr/hal-01924446

C. M. Atyame, J. Cattel, C. Lebon, O. Flores, and J. S. Dehecq, Wolbachia-based population control strategy targeting Culex quinquefasciatus mosquitoes proves efficient under semi-field conditions, PLoS ONE, vol.10, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01145019

A. A. Augustinos, G. A. Kyritsis, N. T. Papadopoulos, A. Abd-alla, and C. Cáceres, Exploitation of the Medfly gut microbiota for the enhancement of sterile insect technique: use of Enterobacter sp. in larval diet-based probiotic applications, PLoS ONE, vol.10, 2015.

B. W. Bahder, L. D. Bahder, K. A. Hamby, D. B. Walsh, and F. G. Zalom, Microsatellite variation of two Pacific coast Drosophila suzukii (Diptera: Drosophilidae) populations, Environ Entomol, vol.44, pp.1449-1453, 2015.

B. N. Barnes, J. H. Hofmeyr, S. Groenewald, D. E. Conlong, and M. Wohlfarter, The sterile insect technique in agricultural crops in South Africa: a metamorphosis?. but will it fly?, Afr Entomol, vol.23, pp.1-18, 2015.

B. Ami, E. Yuval, B. Jurkevitch, and E. , Manipulation of the microbiota of mass-reared Mediterranean fruit flies Ceratitis capitata (Diptera: Tephritidae) improves sterile male sexual performance, ISME J, vol.4, pp.28-37, 2010.

A. Berasategui, S. Shukla, H. Salem, and M. Kaltenpoth, Potential applications of insect symbionts in biotechnology, Appl Microbiol Biotechnol, vol.100, pp.1567-1577, 2016.

G. Bian, D. Joshi, Y. Dong, P. Lu, G. Zhou et al., Wolbachia invades Anopheles stephensi populations and induces refractoriness to Plasmodium infection, vol.340, pp.748-751, 2013.

M. Bolda, R. Goodhue, and F. G. Zalom, Spotted wing Drosophila: potential economic impact of a newly established pest, Agric Resour Econ Update, vol.13, pp.5-8, 2010.

K. Bourtzis, Wolbachia-based technologies for insect pest population control, vol.627, pp.104-113, 2008.

K. Bourtzis and T. A. Miller, Insect symbiosis, vol.1, 2003.
URL : https://hal.archives-ouvertes.fr/hal-01737129

K. Bourtzis and A. S. Robinson, Insect pest control using Wolbachia and/or radiation, vol.2, pp.225-246, 2006.

K. Bourtzis, S. L. Dobson, H. R. Braig, O. Neill, and S. L. , Rescuing Wolbachia have been overlooked, Nature, vol.391, issue.6670, pp.852-853, 1998.

K. Bourtzis, S. L. Dobson, Z. Xi, J. L. Rasgon, M. Calvitti et al., Harnessing mosquito-Wolbachia symbiosis for vector and disease control, Acta Trop, vol.132, pp.150-163, 2014.

K. Bourtzis, R. S. Lees, J. Hendrichs, and M. J. Vreysen, More than one rabbit out of the hat: radiation, transgenic and symbiontbased approaches for sustainable management of mosquito and tsetse fly populations, Acta Trop, vol.157, pp.115-130, 2016.

C. L. Brelsfoard, W. St-clair, and S. L. Dobson, Integration of irradiation with cytoplasmic incompatibility to facilitate a lymphatic filariasis vector elimination approach, Parasit Vectors, vol.2, p.38, 2009.

N. A. Broderick and B. Lemaitre, Gut-associated microbes of Drosophila melanogaster, Gut Microbes, vol.3, pp.307-321, 2012.

G. Calabria, J. Máca, G. Bachli, L. Serra, and M. Pascual, First records of the potential pest species Drosophila suzukii (Diptera: Drosophilidae) in Europe, J Appl Entomol, vol.136, pp.139-147, 2012.

B. Calla, B. Hall, S. Hou, and S. M. Geib, A genomic perspective to assessing quality of mass-reared SIT flies used in Mediterranean fruit fly (Ceratitis capitata) eradication in California, BMC Genom, vol.15, p.98, 2014.

J. Cattel, R. Kaur, P. Gibert, J. Martinez, A. Fraimout et al., Wolbachia in European populations of the invasive pest Drosophila suzukii: regional variation in infection frequencies, PLoS ONE, vol.11, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01916774

J. Cattel, J. Martinez, F. Jiggins, L. Mouton, and P. Gibert, Wolbachiamediated protection against viruses in the invasive pest Drosophila suzukii, Insect Mol Biol, vol.25, pp.595-603, 2016.

S. Chabert, R. Allemand, M. Poyet, P. Eslin, and P. Gibert, Ability of European parasitoids (Hymenoptera) to control a new invasive Asiatic pest, Drosophila suzukii, Biol. Control, vol.63, pp.40-47, 2012.
URL : https://hal.archives-ouvertes.fr/hal-01917394

J. A. Chandler, J. M. Lang, S. Bhatnagar, J. A. Eisen, and A. Kopp, Bacterial communities of diverse Drosophila species: ecological context of a host-microbe model system, PLoS Genet, vol.7, 2011.

C. Chireceanu, A. Chiriloaie, and A. Teodoru, First record of spotted wing drosophila Drosophila suzukii (Diptera: Drosophilidae) in Romania, Rom J Plant Prot, vol.8, pp.86-95, 2015.

A. Cini, C. Ioriatti, and G. Anfora, A review of the invasion of Drosophila suzukii in Europe and a draft research agenda for integrated pest management, Bull Insectol, vol.65, pp.149-160, 2012.

H. Colinet and G. Boivin, Insect parasitoids cold storage: a comprehensive review of factors of variability and consequences, Biol Control, vol.58, pp.83-95, 2011.
URL : https://hal.archives-ouvertes.fr/hal-00629730

H. Colinet and A. A. Hoffmann, Comparing phenotypic effects and molecular correlates of developmental, gradual and rapid cold acclimation responses in Drosophila melanogaster, Funct Ecol, vol.26, pp.84-93, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00780191

C. Pontaroli, A. C. Shimkets, L. J. Bennetzen, J. L. Habel, K. E. Promislow et al., Geographical distribution and diversity of bacteria associated with natural populations of Drosophila, Appl Environ Microbiol, vol.73, pp.3470-3479, 2007.

K. M. Daane, X. G. Wang, and A. Biondi, First exploration of parasitoids of Drosophila suzukii in South Korea as potential classical biological agents, Pest Sci, vol.89, pp.823-835, 2016.

D. T. Dalton, V. M. Walton, P. W. Shearer, D. B. Walsh, J. Caprile et al., Laboratory survival of Drosophila suzukii under simulated winter conditions of the Pacific northwest and seasonal field trapping in five primary regions of small and stone fruit production in the United States, Pest Manag Sci, vol.67, pp.1368-1374, 2011.

M. De-ro, IPMDROS: Integrated pest management strategies against Drosophila suzukii. Poster session presented at 66th session of EPPO Council, 2016.

M. Deprá, J. L. Poppe, H. J. Schmitz, D. Toni, D. C. Valente et al., The first records of the invasive pest Drosophila suzukii in the South American continent, J Pest Sci, vol.87, pp.379-383, 2014.

L. M. Diepenbrock and H. J. Burrack, Variation of within-crop microhabitat use by Drosophila suzukii (Diptera: Drosophilidae) in blackberry, J Appl Entomol, vol.141, pp.1-7, 2017.

A. E. Douglas, Lessons from studying insect symbioses, Cell Host Microbe, vol.10, pp.359-367, 2011.
DOI : 10.1016/j.chom.2011.09.001

URL : https://doi.org/10.1016/j.chom.2011.09.001

V. A. Dyck, J. Hendrichs, and A. S. Robinson, Sterile insect technique: principles and practice in area-wide integrated pest management, p.787, 2005.

I. Eleftherianos, J. Atri, J. Accetta, and J. C. Castillo, Endosymbiotic bacteria in insects: guardians of the immune system?, Front Physiol, vol.4, p.46, 2013.

P. Engel and N. A. Moran, The gut microbiota of insects-diversity in structure and function, FEMS Microbiol Rev, vol.37, pp.699-735, 2013.

J. Engelstädter and G. Hurst, The ecology and evolution of microbes that manipulate host reproduction, Annu Rev Ecol Evol Syst, vol.40, pp.127-149, 2009.

W. Enkerlin, Guidance for packing, shipping, holding and release of sterile flies in area-wide fruit fly control programmes, 2007.

T. Enriquez and H. Colinet, Basal tolerance to heat and cold exposure of the spotted wing Drosophila, Drosophila suzukii, PeerJ, vol.5, p.3112, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01507693

P. A. Follett, A. Swedman, and D. K. Price, Postharvest irradiation treatment for quarantine control of Drosophila suzukii (Diptera: Drosophilidae) in fresh commodities, J Econ Entomol, vol.107, pp.964-969, 2014.

A. Fraimout, V. Debat, S. Fellous, R. A. Hufbauer, and J. Foucaud, Deciphering the routes of invasion of Drosophila suzukii by means of ABC random forest, Mol Biol Evol, vol.34, pp.980-996, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01582586

A. Fytrou, P. G. Schofield, A. R. Kraaijeveld, and S. F. Hubbard, Wolbachia infection suppresses both host defence and parasitoid counter-defence, Proc Biol Sci, vol.273, pp.791-796, 2006.

S. Gavriel, E. Jurkevitch, Y. Gazit, and B. Yuval, Bacterially enriched diet improves sexual performance of sterile male Mediterranean fruit flies, J App Entomol, vol.135, pp.564-573, 2011.

A. S. Gilchrist, E. C. Cameron, J. A. Sved, and A. W. Meats, Genetic consequences of domestication and mass rearing of pest fruit fly Bactrocera tryoni (Diptera: Tephritidae), J Econ Entomol, vol.10, pp.1051-1056, 2012.

D. M. Gilligan and R. Frankham, Dynamics of genetic adaptation to captivity, Conserv Genet, vol.4, pp.189-197, 2003.

H. Godfray, M. Bolda, D. Farnsworth, J. C. Williams, and F. G. Zalom, Spotted wing Drosophila infestation of California strawberries and raspberries: economic analysis of potential revenue losses and control costs, Parasitoids: behavioral and evolutionary ecology, vol.67, pp.1396-1402, 1994.

J. A. Grant and A. A. Sial, Potential of muscadine grapes as a viable Host of Drosophila suzukii (Diptera: Drosophilidae) in blueberry-producing regions of the southeastern United States, J Econ Entomol, vol.109, pp.1261-1266, 2016.

A. Grassi, L. Giongo, and L. Palmieri, Drosophila (Sophophora) suzukii (Matsumura), new pest of soft fruits in Trentino (NorthItaly) and in Europe, IOBC/WPRS Bull, vol.70, pp.121-128, 2011.

H. Hamden, M. M. Guerfali, S. Fadhl, M. Saidi, and C. Chevrier, Fitness improvement of mass-reared sterile males of Ceratitis capitata (Vienna 8 strain) (Diptera: Tephritidae) after gut enrichment with probiotics, J Econ Entomol, vol.106, pp.641-647, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01321916

C. A. Hamm, D. J. Begun, A. Vo, C. C. Smith, P. Saelao et al., Wolbachia do not live by reproductive manipulation alone: infection polymorphism in Drosophila suzukii and D. subpulchrella, Mol Ecol, vol.23, pp.4871-4885, 2014.

M. S. Hauser and M. D. Gaimari, Drosophila suzukii new to North America, Fly Times, vol.43, pp.12-15, 2009.

A. A. Hoffmann, D. Clancy, and J. Duncan, Naturally-occurring Wolbachia infection in Drosophila simulans that does not cause cytoplasmic incompatibility, Heredity (Edinb), vol.76, pp.1-8, 1996.

A. A. Hoffmann, R. Hallas, C. Sinclair, and L. Partridge, Rapid loss of stress resistance in Drosophila melanogaster under adaptation to laboratory culture, Evolution, vol.55, pp.436-438, 2001.

C. Ioriatti, V. Walton, D. Dalton, G. Anfora, A. Grassi et al., Drosophila suzukii (Diptera: Drosophilidae) and its potential impact to wine grapes during harvest in two cool climate wine grape production regions, J Econ Entomol, vol.108, pp.1148-1155, 2015.

R. Jakobs, T. D. Gariepy, and B. J. Sinclair, Adult plasticity of cold tolerance in a continental-temperate population of Drosophila suzukii, J Insect Physiol, vol.79, pp.1-9, 2015.

B. Z. Kacsoh and T. A. Schlenke, High hemocyte load is associated with increased resistance against parasitoids in Drosophila suzukii, a relative of D. melanogaster, PLoS ONE, vol.7, 2012.

Z. Kambris, A. M. Blagborough, S. B. Pinto, M. S. Blagrove, H. C. Godfray et al., Sinkins SP (2010) Wolbachia stimulates immune gene expression and inhibits plasmodium development in

J. Martinez, B. Longdon, S. Bauer, Y. S. Chan, W. J. Miller et al., Symbionts commonly provide broad spectrum resistance to viruses in insects: a comparative analysis of Wolbachia strains, PLoS Pathog, vol.10, p.1004369, 2014.

W. J. Miller, L. Ehrman, and D. Schneider, Infectious speciation revisited: impact of symbiont-depletion on female fitness and mating behavior of Drosophila paulistorum, PLoS Pathog, vol.6, 2010.

B. Miller, G. Anfora, M. Buffington, K. M. Daane, D. T. Dalton et al., Seasonal occurrence of resident parasitoids associated with Drosophila suzukii in two small fruit production regions of Italy and the USA, Bull Insectol, vol.68, pp.255-263, 2015.

H. Mitsui, K. Van-achterberg, G. Nordlander, and M. T. Kimura, Geographical distributions and host associations of larval parasitoids of frugivorous Drosophilidae in Japan, J Nat Hist, vol.41, pp.1731-1738, 2007.

L. A. Moreira, I. Iturbe-ormaetxe, J. A. Jeffery, G. Lu, A. T. Pyke et al., A Wolbachia symbiont in Aedes aegypti limits infection with dengue, chikungunya, and Plasmodium, Cell, vol.139, pp.1268-1278, 2009.

L. Mouton, H. Henri, M. Boulétreau, and F. Vavre, Effect of temperature on Wolbachia density and consequences on cytoplasmic incompatibility, Parasitology, vol.132, pp.49-56, 2006.

L. Mouton, H. Henri, D. Charif, M. Boulétreau, and F. Vavre, Interaction between host genotype and environmental conditions affects bacterial density in Wolbachia symbiosis, Biol Lett, vol.3, pp.210-213, 2007.
URL : https://hal.archives-ouvertes.fr/hal-00434634

G. Munhenga, B. D. Brooke, J. R. Gilles, K. Slabbert, A. Kemp et al., Mating competitiveness of sterile genetic sexing strain males (GAMA) under laboratory and semi-field conditions: steps towards the use of the sterile insect technique to control the major malaria vector Anopheles arabiensis in South Africa, Parasit Vectors, vol.9, p.122, 2016.

G. Neelakanta, H. Sultana, D. Fish, J. F. Anderson, and E. Fikrig, Anaplasma phagocytophilum induces Ixodes scapularis ticks to express an antifreeze glycoprotein gene that enhances their survival in the cold, J Clin Invest, vol.120, pp.3179-3190, 2010.

P. Neuenschwander, K. Russ, E. Hoebaus, and S. Michelakis, Ecological studies on Rhagoletis cerasi in Crete for the use of the incompatible insect technique. In: Calvalloro R (ed) Fruit flies of economic importance, Proceedings of the CEC/IOBC international symposium Athens, pp.366-370, 1982.

O. Connor, L. Plichart, C. Sang, A. C. Brelsfoard, C. L. Bossin et al., Dobson SL (2012) Open release of male mosquitoes infected with a Wolbachia biopesticide: field performance and infection containment, PLoS Negl Trop Dis, vol.6

L. Ometto, A. Cestaro, S. Ramasamy, A. Grassi, S. Revadi et al., Linking genomics and ecology to investigate the complex evolution of an invasive Drosophila pest, Genome Biol Evol, vol.5, pp.745-757, 2013.

A. Orhan, R. Aslanta?, B. ?. Önder, and G. Tozlu, First record of the invasive vinegar fly Drosophila suzukii (Matsumura) (Diptera: Drosophilidae) from eastern Turkey, Turk J Zool, vol.40, pp.290-293, 2016.

R. Pereira, B. Yuval, P. Liedo, P. Teal, T. E. Shelly et al., Improving sterile male performance in support of programmes integrating the sterile insect technique against fruit flies, J Appl Entomol, vol.137, pp.178-190, 2013.

D. Pimentel, L. Lach, R. Zuniga, and D. Morrison, Environmental and economic costs of non-indigenous species in the United States, Bioscience, vol.50, pp.53-65, 2000.

D. Pimentel, R. Zuniga, and D. Morrison, Update on the environmental and economic costs associated with alien-invasive species in the United States, Ecol Econ, vol.52, pp.273-288, 2005.

C. Plantamp, K. Salort, P. Gibert, A. Dumet, G. Mialdea et al., All or nothing: survival, reproduction and oxidative balance in spotted wing Drosophila (Drosophila suzukii) in response to cold, J Insect Physiol, vol.89, pp.28-36, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01301136

M. Poyet, S. Havard, G. Prevost, O. Chabrerie, G. Doury et al., Resistance of Drosophila suzukii to the larval parasitoids Leptopilina heterotoma and Asobara japonica is related to haemocyte load, Physiol Entomol, vol.38, pp.45-53, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01917402

M. Poyet, P. Eslin, M. Héraude, L. Roux, V. Prévost et al., Invasive host for invasive pest: when the Asiatic cherry fly (Drosophila suzukii) meets the American black cherry (Prunusserotina) in Europe, Agric For Entomol, vol.16, pp.251-259, 2014.

M. Poyet, L. Roux, V. Gibert, P. Meirland, A. Prevost et al., The wide potential trophic niche of theAsiatic fruit fly Drosophila suzukii: the key of its invasive success in temperate Europe?, PLoS ONE, vol.10, 2015.

K. A. Raphael, D. Shearman, A. S. Gilchrist, J. A. Sved, J. L. Morrow et al., Australian endemic pest tephritids: genetic, molecular and microbial tools for improved sterile insect technique, BMC Genet, vol.15, issue.2, p.9, 2014.

P. Rendon, D. Mcinnis, D. Lance, and J. Stewart, Comparison of Medfly male-only and bisexual releases in large scale field trials. In: Area-wide control of fruit flies and other insect pests, Joint proceedings of the international conference on area-wide control of insect pests, pp.517-525, 1998.

M. A. Rogers, E. C. Burkness, and W. D. Hutchison, Evaluation of high tunnels for management of Drosophila suzukii in fall-bearing red raspberries: potential for reducing insecticide use, J Pest Sci, vol.89, pp.815-821, 2016.

R. Stacconi, M. V. Buffington, M. Daane, K. M. Dalton, D. T. Grassi et al., Host stage preference, efficacy and fecundity of parasitoids attacking Drosophila suzukii in newly invaded areas, Biol Control, vol.84, pp.28-35, 2015.

M. V. Rossi-stacconi, A. Grassi, D. T. Dalton, B. Miller, M. Ouantar et al., First field records of Pachycrepoideus vindemiae as a parasitoid of Drosophila suzukii in European and Oregon small fruit production areas, vol.1, p.3, 2013.

M. V. Rossi-stacconi, R. Kaur, and V. Mazzoni, Multiple lines of evidence for reproductive winter diapause in the invasive pest Drosophila suzukii: useful clues for control strategies, J Pest Sci, vol.89, p.689, 2016.

O. Rota-stabelli, M. Blaxter, and G. Anfora, Drosophila suzukii, Curr Biol, vol.23, pp.8-9, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01916774

G. D. Ryan, L. Emiljanowicz, F. Wilkinson, M. Kornya, and J. A. Newman, Thermal tolerances of the spotted-wing drosophila Drosophila suzukii, J Econ Entomol, vol.109, pp.746-752, 2016.

A. Saridaki and K. Bourtzis, Wolbachia: more than just a bug in insects genitals, Curr Opin Microbiol, vol.13, pp.67-72, 2010.

. Servicio-agrícola-y-ganadero, Resolución exenta No: 3672/2017: Establece medidas fitosanitarias de emergencia provisionales para la plaga drosófila de alas Manchadas, Drosophila suzukii (Matsumura). Diptera: Drosophilidae, 2017.

G. Sharon, D. Segal, J. M. Ringo, A. Hefetz, I. Zilber-rosenberg et al., Commensal bacteria play a role in mating preference of Drosophila melanogaster, PNAS, vol.107, pp.20051-20056, 2010.

P. W. Shearer, J. D. West, V. M. Walton, P. H. Brown, N. Svetec et al., Seasonal cues induce phenotypic plasticity of Drosophila suzukii to enhance winter survival, BMC Ecol, vol.16, p.11, 2016.

S. Siozios, A. Cestaro, R. Kaur, I. Pertot, O. Rota-stabelli et al., Draft genome sequence of the Wolbachia endosymbiont of Drosophila suzukii, Genome Announc, vol.1, 2013.

F. Staubach, J. F. Baines, S. Künzel, E. M. Bik, and D. A. Petrov, Host species and environmental effects on bacterial communities associated with Drosophila in the laboratory and in the natural environment, PLoS ONE, vol.8, 2013.

A. R. Stephens, M. K. Asplen, W. D. Hutchison, and R. C. Venette, Cold hardiness of winter-acclimated Drosophila suzukii (Diptera: Drosophilidae) adults, Environ Entomol, vol.44, pp.1619-1626, 2015.

L. Teixeira, A. Ferreira, and M. Ashburner, The bacterial symbiont Wolbachia induces resistance to RNA viral infections in Drosophila melanogaster, PLoS Biol, vol.6, 2008.

S. Tochen, D. T. Dalton, N. Wiman, C. Hamm, P. W. Shearer et al., Temperature-related development and population parameters for Drosophila suzukii (Diptera: Drosophilidae) on cherry and blueberry, Environ Entomol, vol.43, pp.501-510, 2014.

J. Toxopeus, R. Jakobs, L. V. Ferguson, T. D. Gariepy, and B. J. Sinclair, Reproductive arrest and stress resistance in winter-acclimated Drosophila suzukii, J Insect Physiol, vol.89, pp.37-51, 2016.

C. R. Vilela and L. Mori, The invasive spotted-wing Drosophila (Diptera, Drosophilidae) has been found in the city of São Paulo (Brazil), Revista Brasileira de Entomologia, vol.58, pp.371-375, 2014.

M. Vreysen, J. Hendrichs, W. Enkerlin, K. Saleh, F. Mramba et al., Research Institute of Pomology and Floriculture in Journal of Fruit and Ornamental Plant Research 14; 107-132; Pest and weed control in sustainable fruit production by Research Institute of Pomology and Floriculture Vreysen MJB, PLoS Negl Trop Dis, vol.8, 2006.

A. K. Wallingford and G. M. Loeb, Developmental acclimation of Drosophila suzukii (Diptera: Drosophilidae) and its effect on diapause and winter stress tolerance, Environ Entomol, vol.45, pp.1081-1089, 2016.

A. K. Wallingford, J. C. Lee, and G. M. Loeb, The influence of temperature and photoperiod on the reproductive diapause and cold tolerance of spotted-wing drosophila, Drosophila suzukii, Entomol Exp Appl, vol.159, pp.327-337, 2016.

D. B. Walsh, M. P. Bolda, R. E. Goodhue, A. J. Dreves, J. Lee et al., Drosophila suzukii (Diptera: Drosophilidae): invasive pest of ripening soft fruit expanding its geographic range and damage potential, J Integr Pest Manag, vol.2, pp.1-7, 2011.

X. G. Wang, G. Kaçar, A. Biondi, and K. M. Daane, Foraging efficiency and outcomes of interactions of two pupal parasitoids attacking the invasive spotted wing Drosophila, Biol Control, vol.96, pp.64-71, 2016.

B. Weiss and S. Aksoy, Microbiome influences on insect host vector competence, Trends Parasitol, vol.27, pp.514-522, 2011.

J. H. Werren, Biology of Wolbachia, Annu Rev Entomol, vol.42, pp.587-609, 1997.

J. H. Werren, L. Baldo, and M. E. Clark, Wolbachia: master manipulators of invertebrate biology, Nat Rev Microbiol, vol.6, pp.741-751, 2008.

J. M. Woltz, K. M. Donahue, D. J. Bruck, and J. C. Lee, Efficacy of commercially available predators, nematodes and fungal entomopathogens for augmentative control of Drosophila suzukii, J Appl Entomol, vol.139, pp.759-770, 2015.

A. C. Wong, J. M. Chaston, and A. E. Douglas, The inconstant gut microbiota of Drosophila species revealed by 16S rRNA gene analysis, ISME J, vol.7, pp.1922-1932, 2013.

J. H. Yun, S. W. Roh, T. W. Whon, M. J. Jung, M. S. Kim et al., Insect gut bacterial diversity determined by environmental habitat, diet, developmental stage, and phylogeny of host, Appl Environ Microbiol, vol.80, pp.5254-5264, 2014.

S. Zabalou, M. Riegler, M. Theodorakopoulou, C. Stauffer, C. Savakis et al., Wolbachia-induced cytoplasmic incompatibility as a means for insect pest population control, Proc Natl Acad Sci, vol.101, pp.15042-15045, 2004.

S. Zabalou, A. Apostolaki, S. Pattas, Z. Veneti, C. Paraskevopoulos et al., Multiple rescue factors within a Wolbachia strain, Genetics, vol.178, pp.2145-2160, 2008.
URL : https://hal.archives-ouvertes.fr/hal-00420111

S. Zabalou, A. Apostolaki, I. Livadaras, G. Franz, A. Robinson et al., Incompatible insect technique: incompatible males from a Ceratitis capitata genetic sexing strain, Entomol Exp Appl, vol.132, pp.232-240, 2009.

E. Zchori-fein, K. Bourtzis, . Fn, S. Schmidt, M. Streitberger et al., On the overwintering ability of Drosophila suzukii in South Tyrol, J Berry Res, vol.5, pp.41-48, 2011.

Y. Zhai, Q. Lin, J. Zhang, F. Zhang, L. Zheng et al., Adult reproductive diapause in Drosophila suzukii females, J Pest Sci, vol.89, pp.679-688, 2016.

D. Zhang, R. S. Lees, Z. Xi, J. R. Gilles, and K. Bourtzis, Combining the sterile insect technique with Wolbachia-based approaches: II-a safer approach to Aedes albopictus population suppression programmes, designed to minimize the consequences of inadvertent female release, PLoS ONE, vol.10, 2015.

D. Zhang, X. Zheng, Z. Xi, K. Bourtzis, and J. R. Gilles, Combining the sterile insect technique with the incompatible insect technique: I-impact of Wolbachia infection on the fitness of tripleand double-infected strains of Aedes albopictus, PLoS ONE, vol.10, 2015.

D. Zhang, R. S. Lees, Z. Xi, K. Bourtzis, and J. R. Gilles, Combining the sterile insect technique with the incompatible insect technique: III-Robust mating competitiveness of irradiated triple Wolbachia-infected Aedes albopictus males under semi-field conditions, PLoS ONE, vol.11, p.151864, 2016.

R. Zindel, Y. Gottlieb, and A. Aebi, Arthropod symbioses: a neglected parameter in pest-and disease-control programmes, J Appl Ecol, vol.48, pp.864-872, 2011.

R. Zug and P. Hammerstein, Bad guys turned nice? A critical assessment of Wolbachia mutualisms in arthropod hosts, Biol Rev, vol.90, pp.89-111, 2015.

N. E. Zygouridis, Y. Argov, E. Nemny-lavy, A. A. Augustinos, D. Nestel et al., Genetic changes during laboratory domestication of an olive fly SIT strain, J Appl Entomol, vol.138, pp.423-432, 2014.