P. Diosque, A. M. Padilla, R. O. Cimino, R. M. Cardozo, O. S. Negrette et al., ARGENTINA: EPIDEMIOLOGIC SURVEY IN HUMANS, RESERVOIRS, AND VECTORS, vol.71, pp.590-593, 2004.

K. A. Alroy, C. Huang, R. H. Gilman, V. R. Quispe-machaca, M. A. Marks et al., Prevalence and Transmission of Trypanosoma cruzi in People of Rural Communities of the High Jungle of Northern Peru, PLOS Neglected Tropical Diseases, vol.9, issue.5, 2015.

R. Gamboa-leon, C. Ramirez-gonzalez, F. S. Pacheco-tucuch, M. O'shea, K. Rosecrans et al., Seroprevalence of Trypanosoma cruzi Among Mothers and Children in Rural Mayan Communities and Associated Reproductive Outcomes, American Journal of Tropical Medicine and Hygiene, vol.91, issue.2, pp.348-353, 2014.

M. Z. Levy, N. M. Bowman, V. Kawai, L. A. Waller, J. G. Cornejo-del-carpio et al., Periurban Trypanosoma cruzi-infected Triatoma infestans, Emerging Infectious Diseases, vol.12, issue.9, pp.1345-1352, 2006.

Y. Guzman-tapia, M. J. Ramírez-sierra, and E. Dumonteil, Urban Infestation by Triatoma dimidiata in the City of Mérida, Yucatá n, México. Vector-Borne and Zoonotic Diseases, vol.7, pp.597-606, 2007.

S. Urdaneta-morales, Chagas' Disease: An Emergent Urban Zoonosis. The Caracas Valley (Venezuela) as an Epidemiological Model. Frontiers in Public Health, vol.2, 2014.

J. R. Coura, The main sceneries of Chagas disease transmission. The vectors, blood and oral transmissions-A comprehensive review, vol.110, pp.277-282, 2015.

A. Flores-ferrer, O. Marcou, E. Waleckx, E. Dumonteil, and S. Gourbière, Evolutionary ecology of Chagas disease; what do we know and what do we need?, Evolutionary Applications, vol.11, issue.4, pp.470-487, 2018.


E. Waleckx, S. Gourbière, and E. Dumonteil, Intrusive versus domiciliated triatomines and the challenge of adapting vector control practices against Chagas disease. Memó rias Do Instituto Oswaldo Cruz, vol.110, pp.324-338, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01240420

C. Barbu, E. Dumonteil, and S. Gourbière, Evaluation of Spatially Targeted Strategies to Control Non-Domiciliated Triatoma dimidiata Vector of Chagas Disease, PLoS Neglected Tropical Diseases, vol.5, issue.5, 2011.
URL : https://hal.archives-ouvertes.fr/halsde-00608441

E. Waleckx, J. Camara-mejia, J. Ramirez-sierra, M. Cruz-chan, V. Rosado-vallado et al., An innovative ecohealth intervention for Chagas disease vector control in Yucatan, Mexico. Transactions of the Royal Society of Tropical Medicine and Hygiene, vol.109, issue.2, pp.143-149, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01214995

E. Waleckx, S. Pé-rez-carrillo, S. Chá-vez-lazo, R. Pasos-alquicira, M. Cámara-heredia et al., Non-randomized controlled trial of the long-term efficacy of an Ecohealth intervention against Chagas disease in Yucatan, PLOS Neglected Tropical Diseases, vol.12, issue.7, 2018.

C. Monroy, X. Castro, D. M. Bustamante, S. S. Pineda, A. Rodas et al., An Ecosystem Approach for the Prevention of Chagas Disease in Rural Guatemala. Ecohealth Research in Practice: Innovative Applications of an Ecosystem Approach to Health, pp.153-162, 2012.

D. E. Lucero, L. A. Morrissey, D. M. Rizzo, A. Rodas, R. Garnica et al., Ecohealth Interventions Limit Triatomine Reinfestation following Insecticide Spraying in La Brea, Guatemala. American Journal of Tropical Medicine and Hygiene, vol.88, issue.4, pp.630-637, 2013.

D. M. Bustamante, S. M. Urioste-stone, J. G. Juá, and P. M. Pennington, Ecological, Social and Biological Risk Factors for Continued Trypanosoma cruzi Transmission by Triatoma dimidiata in Guatemala, PLOS ONE, vol.9, issue.8, 2014.

C. Barbu, E. Dumonteil, and S. Gourbière, Characterization of the Dispersal of Non-Domiciliated Triatoma dimidiata through the Selection of Spatially Explicit Models, vol.4, 2010.
URL : https://hal.archives-ouvertes.fr/halsde-00580785

G. Claeskens and N. L. Hjort, Model Selection and Model Averaging, Statistical and Probabilistic Mathematics, 2008.

P. Pelosse, C. M. Kribs-zaleta, M. Ginoux, J. E. Rabinovich, S. Gourbiere et al., Influence of vectors' risk-spreading strategies and environmental stochasticity on the epidemiology and evolution of vector-borne diseases: the example of Chagas' disease, PLoS One, vol.8, issue.8, 2013.
URL : https://hal.archives-ouvertes.fr/halsde-00856624

R. Zeledó-n, El Triatoma Dimidiata (Latreille, 1811) y su Relación con la Enfermedad de Chagas, 1981.

M. Jimenez-coello, M. Poot-cob, A. Ortega-pacheco, E. Guzman-marin, A. Ramos-ligonio et al., American trypanosomiasis in dogs from an urban and rural area of Yucatan, Mexico. Vector Borne and Zoonotic Diseases, vol.8, pp.755-761, 2008.

J. A. Panti-may, R. R. De-andrade, Y. Gurubel-gonzález, E. Palomo-arjona, L. Sodá--tamayo et al., A survey of zoonotic pathogens carried by house mouse and black rat populations in Yucatan, Mexico. Epidemiology and Infection, vol.145, issue.11, pp.2287-2295, 2017.

S. P. Otto and T. Day, A Biologist's Guide to Mathematical Modeling in Ecology and Evolution, vol.746, 2007.

O. Diekmann, J. Heesterbeek, and M. G. Roberts, The construction of next-generation matrices for compartmental epidemic models, J R Soc Interface, vol.7, issue.47, pp.873-85, 2010.

J. E. Rabinovich, C. Wisnivesky-colli, N. D. Solarz, and R. E. Gürtler, Probability of transmission of Chagas disease by Triatoma infestans (Hemiptera: Reduviidae) in an endemic area of Santiago del Estero, Argentina. Bull World Health Organ, vol.68, issue.6, pp.737-783, 1990.

J. Rabinovich, N. Schweigmann, V. Yohai, and C. Wisnivesky-colli, Probability of Trypanosoma cruzi transmission by Triatoma infestans (Hemiptera: Reduviidae) to the opossum Didelphis albiventris (Marsupialia: Didelphidae). The American journal of tropical medicine and hygiene, vol.65, pp.125-130, 2001.

M. A. Basombrío, D. Gorla, S. Catalá, M. A. Segura, M. C. Mora et al., Number of vector bites determining the infection of guinea pigs with Trypanosoma cruzi, Memorias do Instituto Oswaldo Cruz, vol.91, issue.4, pp.421-424, 1996.

D. Campbell-lendrum, V. Angulo, L. Esteban, Z. Tarazona, G. Parra et al., , 2007.

, House-level risk factors for triatomine infestation in Colombia, International Journal of Epidemiology, vol.36, issue.4, pp.866-872

Y. M. Provecho, M. S. Gaspe, M. Del-pilar-fernández, G. F. Enriquez, D. Weinberg et al., The peri-urban interface and house infestation with Triatoma infestans in the Argentine Chaco: an underreported process? Memórias Do Instituto Oswaldo Cruz, vol.109, pp.923-934, 2014.

G. Parra-henao, Á. S. Cardona, O. Quiró-s-gó-mez, V. Angulo, and N. Alexander, House-Level Risk Factors for Triatoma dimidiata Infestation in Colombia, The American Journal of Tropical Medicine and Hygiene, vol.92, issue.1, pp.193-200, 2015.

D. Urioste-stone, S. M. Pennington, P. M. Pellecer, E. Aguilar, T. M. Samayoa et al., Development of a community-based intervention for the control of Chagas disease based on peridomestic animal management: an eco-bio-social perspective, Transactions of the Royal Society of Tropical Medicine and Hygiene, vol.109, issue.2, pp.159-167, 2015.

J. M. Ramsey, A. L. Alvear, R. Ordoñez, G. Muñoz, A. Garcia et al., Risk factors associated with house infestation by the Chagas disease vector Triatoma pallidipennis in Cuernavaca metropolitan area, Mexico. Medical and Veterinary Entomology, vol.19, issue.2, pp.219-228, 2005.

A. Walter, I. P. Do-rego, A. J. Ferreira, and C. Rogier, Risk factors for reinvasion of human dwellings by sylvatic triatomines in northern Bahia State, Brazil. Cadernos de Saú de Pú blica, vol.21, pp.974-978, 2005.

D. M. Bustamante, C. Monroy, S. Pineda, A. Rodas, X. Castro et al., Risk factors for intradomiciliary infestation by the Chagas disease vector Triatoma dimidiatain Jutiapa, Guatemala. Cadernos de Saúde Pública, vol.25, pp.83-92, 2009.

M. C. Cecere, R. E. Gürtler, R. Chuit, and J. E. Cohen, Factors limiting the domestic density of Triatoma infestans in north-west Argentina: a longitudinal study, Bulletin of the World Health Organization, vol.76, issue.4, pp.373-384, 1998.

F. Lardeux, S. Depickère, C. Aliaga, T. Chavez, and L. Zambrana, Experimental control of Triatoma infestans in poor rural villages of Bolivia through community participation, Transactions of the Royal Society of Tropical Medicine and Hygiene, vol.109, issue.2, pp.150-158, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01251517

M. J. Grijalva, A. G. Villacís, A. L. Moncayo, S. Ocaña-mayorga, C. A. Yumiseva et al., Distribution of triatomine species in domestic and peridomestic environments in central coastal Ecuador, PLOS Neglected Tropical Diseases, vol.11, issue.10, 2017.

K. S. Enger, R. Ordoñez, M. L. Wilson, and J. M. Ramsey, Evaluation of Risk Factors for Rural Infestation by Triatoma pallidipennis (Hemiptera: Triatominae), a Mexican Vector of Chagas Disease, Journal of Medical Entomology, vol.41, issue.4, pp.760-767, 2004.

R. E. Gü, M. C. Cecere, M. B. Castanera, D. Canale, M. A. Lauricella et al., Probility of infection with Trypanosoma Cruzi of the vector Triatoma infestans fed on infected humans and dogs in northwest Argentina, Am J Trop Med Hyg, vol.55, issue.1, pp.24-31, 1996.

M. C. Fabrizio, N. J. Schweigmann, and N. J. Bartoloni, Analysis of the transmission of Trypanosoma cruzi infection through hosts and vectors, Parasitology, vol.143, issue.9, pp.1168-1178, 2016.

R. E. Gü, M. C. Cecere, M. A. Lauricella, R. Petersen, R. Chuit et al., INCIDENCE OF TRYPANOSOMA CRUZI INFECTION AMONG CHILDREN FOLLOWING DOMES-TIC REINFESTATION AFTER INSECTICIDE SPRAYING IN RURAL NORTHWESTERN ARGEN-TINA, The American Journal of Tropical Medicine and Hygiene, vol.73, issue.1, pp.95-103, 2005.

J. G. Estrada-franco, V. Bhatia, H. Diaz-albiter, L. Ochoa-garcia, A. Barbabosa et al., Human Trypanosoma cruzi Infection and Seropositivity in Dogs, Mexico. Emerging Infectious Diseases, vol.12, issue.4, pp.624-630, 2006.

R. E. Gü, M. C. Cecere, G. M. Vá-zquez-prokopec, L. A. Ceballos, J. M. Gurevitz et al., Domestic animal hosts strongly influence human-feeding rates of the Chagas disease vector Triatoma infestans in Argentina, PLoS Neglected Tropical Diseases, vol.8, issue.5, 2014.

A. M. Jansen, S. C. Xavier, and A. L. Roque, Trypanosoma cruzi transmission in the wild and its most important reservoir hosts in Brazil, Parasites & Vectors, vol.11, issue.1, p.502, 2018.

M. R. Evans, V. Grimm, K. Johst, T. Knuuttila, R. De-langhe et al., Do simple models lead to generality in ecology?, Trends in Ecology & Evolution, vol.28, issue.10, pp.578-583, 2013.

J. L. Brunner and R. S. Ostfeld, Multiple causes of variable tick burdens on small-mammal hosts, Ecology, vol.89, issue.8, pp.2259-2272, 2008.

S. E. Randolph and A. D. Dobson, Pangloss revisited: a critique of the dilution effect and the biodiversity-buffers-disease paradigm, Parasitology, vol.139, issue.7, pp.847-863, 2012.

A. M. Spagnuolo, M. Shillor, L. Kingsland, A. Thatcher, M. Toeniskoetter et al., A logistic delay differential equation model for Chagas disease with interrupted spraying schedules, Journal of Biological Dynamics, vol.6, issue.2, pp.377-394, 2012.

R. E. Gü, L. A. Ceballos, P. Ordó-Ñez-krasnowski, L. A. Lanati, R. Stariolo et al., Strong Host-Feeding Preferences of the Vector Triatoma infestans Modified by Vector Density: Implications for the Epidemiology of Chagas Disease, PLOS Neglected Tropical Diseases, vol.3, issue.5, 2009.

J. E. Simpson, P. Hurtado, J. Medlock, G. Molaei, T. Andreadis et al., Vector host-feeding preferences drive transmission of multi-host pathogens: West Nile virus as a model system, Proceedings of the Royal Society B: Biological Sciences, vol.279, pp.925-933, 1730.

L. Stevens, P. L. Dorn, J. Hobson, N. M. De-la-rua, D. E. Lucero et al., Vector Blood Meals and Chagas Disease Transmission Potential, United States, Emerging Infectious Diseases, vol.18, issue.4, 2012.

R. E. Gü and Z. E. Yadon, Eco-bio-social research on community-based approaches for Chagas disease vector control in Latin America, Transactions of the Royal Society of Tropical Medicine and Hygiene, vol.109, issue.2, pp.91-98, 2015.

B. Kaabi and S. B. Ahmed, Assessing the effect of zooprophylaxis on zoonotic cutaneous leishmaniasis transmission: A system dynamics approach, Biosystems, vol.114, issue.3, pp.253-260, 2013.
URL : https://hal.archives-ouvertes.fr/pasteur-01382163

B. Alexander, R. L. De-carvalho, H. Mccallum, and M. H. Pereira, Role of the domestic chicken (Gallus gallus) in the epidemiology of urban visceral leishmaniasis in Brazil. Emerging Infectious Diseases, vol.8, pp.1480-1485, 2002.

A. Saul, Zooprophylaxis or zoopotentiation: the outcome of introducing animals on vector transmission is highly dependent on the mosquito mortality while searching, Malaria Journal, vol.2, p.32, 2003.

C. Bøgh, S. E. Clarke, G. E. Walraven, and S. W. Lindsay, Zooprophylaxis, artefact or reality? A paired-cohort study of the effect of passive zooprophylaxis on malaria in The Gambia, Transactions of the Royal Society of Tropical Medicine and Hygiene, vol.96, issue.6, pp.90320-90322, 2002.

J. Ferral, L. Chavez-nuñez, M. Euan-garcia, M. J. Ramirez-sierra, M. R. Najera-vazquez et al., Comparative field trial of alternative vector control strategies for non-domiciliated Triatoma dimidiata, The American Journal of Tropical Medicine and Hygiene, vol.82, issue.1, pp.60-66, 2010.

M. A. Basombrio, M. A. Segura, M. Mc, and L. Gomez, Field Trial of Vaccination against American Trypanosomiasis (Chagas' Disease) in Dogs, The American Journal of Tropical Medicine and Hygiene, vol.49, issue.1, pp.143-51, 1993.

B. Basso, I. Castro, V. Introini, P. Gil, C. Truyens et al., Vaccination with Trypanosoma rangeli reduces the infectiousness of dogs experimentally infected with Trypanosoma cruzi, Vaccine, vol.25, pp.3855-3863, 2007.

I. A. Quijano-hernández, A. Castro-barcena, J. C. Vázquez-chagoyá-n, M. E. Bolio-gonzález, J. Ortega-lópez et al., Preventive and therapeutic DNA vaccination partially protect dogs against an infectious challenge with Trypanosoma cruzi, Vaccine, vol.31, issue.18, pp.2246-52, 2013.

R. Reithinger, L. Ceballos, R. Stariolo, D. Cliver, R. E. Gürtler et al., The American Journal of Tropical Medicine and Hygiene, vol.74, issue.5, pp.766-71

J. Péneau, A. Nguyen, A. Flores-ferrer, D. Blanchet, and S. Gourbière, Amazonian Triatomine Biodiversity and the Transmission of Chagas Disease in French Guiana, Medio Stat Sanitas, vol.10, 2016.

, WHO position statement on integrated vector management. Executive Summary of meeting on improving vaccine regulatory capacity, Weekly Epidemiological Record, vol.83, issue.20, pp.177-184, 2007.

P. Olliaro, F. Fouque, A. Kroeger, L. Bowman, R. Velayudhan et al., Improved tools and strategies for the prevention and control of arboviral diseases: A research-to-policy forum, PLoS Neglected Tropical Diseases, vol.12, issue.2, 2018.

C. I. Siettos and L. Russo, Mathematical modeling of infectious disease dynamics, Virulence, vol.4, issue.4, pp.295-306, 2013.

S. A. Herzog, S. Blaizot, and N. Hens, Mathematical models used to inform study design or surveillance systems in infectious diseases: a systematic review, BMC Infectious Diseases, vol.17, issue.1, p.29254504, 2017.

C. E. Walters, M. M. Meslé, and I. M. Hall, Modelling the global spread of diseases: A review of current practice and capability, Epidemics, vol.25, pp.1-8, 2018.

R. Anderson and M. G. Basanez, Mathematical Models for Neglected Tropical Diseases: Essential Tools for Control and Elimination, Part A, vol.87, 2015.

R. Anderson and M. G. Basanez, Mathematical Models for Neglected Tropical Diseases: Essential Tools for Control and Elimination, Part B, p.94, 2016.

A. Araú-jo, A. M. Jansen, K. Reinhard, and L. F. Ferreira, Paleoparasitology of Chagas disease: a review. Memórias Do Instituto Oswaldo Cruz, vol.104, pp.9-16, 2009.