EPI-SPECIES
Publications
- Rengifo-Correa, L., Rodríguez-Moreno, Á., Becker, I., Falcón-Lezama, J. A., Tapia-Conyer, R., Sánchez-Montes, S., Suzán, G., Stephens, C. R., & González-Salazar, C. (2024). Risk of a vector-borne endemic zoonosis for wildlife: Hosts, large-scale geography, and diversity of vector-host interactions for Trypanosoma cruzi. Acta Tropica, 251, 107117. https://doi.org/10.1016/j.actatropica.2024.107117
- Becker, I., Miranda-Ortiz, H., Fernández-Figueroa, E. A., Sánchez-Montes, S., Colunga-Salas, P., Grostieta, E., Juárez-Gabriel, J., Lozano-Sardaneta, Y. N., Arce-Fonseca, M., Rodríguez-Morales, O., Meneses-Ruíz, G., Pastén-Sánchez, S., López Martínez, I., González-Guzmán, S., Paredes-Cervantes, V., Moreira, O. C., Finamore-Araujo, P., Canseco-Méndez, J. C., Coquis-Navarrete, U., … Stephens, C. R. (2023). The Low Variability of Tc24 in Trypanosoma cruzi TcI as an Advantage for Chagas Disease Prophylaxis and Diagnosis in Mexico. Pathogens, 12(3), 368. https://doi.org/10.3390/pathogens12030368
- Jacinto-Maldonado, M., González-Salazar, C., Basanta, M. D., García-Peña, G. E., Saucedo, B., Lesbarrères, D., Meza-Figueroa, D., & Stephens, C. R. (2023). Water Pollution Increases the Risk of Chytridiomycosis in Mexican Amphibians. EcoHealth, 20(1), 74–83. https://doi.org/10.1007/s10393-023-01631-0
- Rengifo-Correa, L., González-Salazar, C., & Stephens, C. R. (2023). Disentangling the contributions of biotic and abiotic predictors in the niche and the species distribution model of Trypanosoma cruzi, etiological agent of Chagas disease. Acta Tropica, 238, 106757.
- González-Salazar, C., Meneses-Mosquera, A. K., Aguirre-Peña, A., Fernández-Castel, K. P. J., Stephens, C. R., Mendoza-Ponce, A., Velasco, J. A., Calderón-Bustamante, O., & Estrada, F. (2022). Toward New Epidemiological Landscapes of Trypanosoma cruzi (Kinetoplastida, Trypanosomatidae) Transmission under Future Human-Modified Land Cover and Climatic Change in Mexico. Tropical Medicine and Infectious Disease, 7(9), 221. https://doi.org/10.3390/tropicalmed7090221
- Constantino González-Salazar, Christopher R. Stephens, and Anny K. Meneses-Mosquera. Assessment of the potential establishment of Lyme endemic cycles in Mexico. Journal of Vector Ecology 46(2), 207-220, (4 November 2021). https://doi.org/10.52707/1081-1710-46.2.207
- Jesús Sotomayor-Bonilla, Enrique D. Callejo-Canal, Constantino González-Salazar, Gerardo Suzán, Christopher R. Stephens. Using data mining and network analysis to infer arboviral dynamics: The case of mosquito-borne flaviviruses reported in Mexico. Insects. 2021, 12, 398. https://doi.org/10.3390/insects12050398
- Fabiola Nieto-Rabiela, Oscar Rico-Chávez, Gerardo Suzán, Christopher R Stephens. Niche theory-based modeling of assembly processes of viral communities in bats. Ecol Evol. 2021; 11: 6305– 6314. https://doi.org/10.1002/ece3.7482
- Sotomayor-Bonilla, J., Callejo-Canal, E.D., González-Salazar, C., Suzán, G., Stephens, C.R. 2021. Using data mining and network analysis to infer arboviral dynamics: The case of mosquito-borne flaviviruses reported in Mexico. Insects. 2021, 12, 398. https://doi.org/10.3390/
- González-Salazar, C., Stephens, C.R. & Sánchez-Cordero, V. 2017. Response to letter to the editor” non-human hosts and Zika virus maintenance. EcoHealth 14: 200-202. doi.org/10.1007/s10393-017-1246-9.
- González-Salazar, C., Stephens, C.R. & Sánchez-Cordero, V. 2017. Predicting the Potential Role of Non-human Hosts in Zika Virus Maintenance EcoHealth 14: 1721-177 doi: 10.1007/s10393-017-1206-4.
- Rengifo-Correa, L., Stephens, C.R., Morrone, J.J., Téllez-Rendón, J.L. & González-Salazar, C. 2017. Understanding transmissibility patterns of Chagas disease through complex vector-host networks. Parasitology. 144: 760-772. doi: 10.1017/S0031182016002468.
- Rodríguez-Rojas, J. J., Rodríguez-Moreno, Á., Berzunza-Cruz, M., Gutiérrez-Granados, G., Becker, I., Sánchez-Cordero, V., … & Rebollar-Téllez, E. A. 2017. Ecology of phlebotomine sandflies and putative reservoir hosts of leishmaniasis in a border area in Northeastern Mexico: implications for the risk of transmission of Leishmania mexicana in Mexico and the USA. Parasite, 24.
- Ibarra-Cerdeña, C. N., Valiente-Banuet, L., Sánchez-Cordero, V., Stephens, C. R., & Ramsey, J. M. 2017. Trypanosoma cruzi reservoir—triatomine vector co-occurrence networks reveal meta-community effects by synanthropic mammals on geographic dispersal. PeerJ, 5, e3152.
- Stephens, C.R., González-Salazar, C., Sánchez-Cordero, V., Becker I., Rebollar-Téllez, E., Rodríguez-Moreno, Á., et al. 2016. Can you judge a disease host by the company it keeps? Predicting disease hosts and their relative importance: a case study for Leishmaniasis. PLoS Neglected Tropical Diseases 10(9): e0005004. doi:10.1371/journal.pntd.0005004.
- Berzunza-Cruz, M., Rodríguez-Moreno, Á., Gutiérrez-Granados, G., González-Salazar, C., Stephens C.R., et al. 2015. Leishmania (L.) mexicana Infected Bats in Mexico: Novel Potential Reservoirs. PLoS Neglected Tropical Diseases 9: e0003438.
- González-Salazar, C. & Stephens, C.R. 2012. Constructing Ecological Networks: A Tool to Infer Risk of Transmission and Dispersal of Leishmaniasis. Zoonoses and Public Health 59: 179–193.
- Stephens, C.R., Giménez, J., González-Rosas, C., Ibarra-Cerdeña, C., Sánchez-Cordero, V. & González-Salazar, C. 2009. Using Biotic Interaction Networks for Prediction in Biodiversity and Emerging Diseases. PLoS ONE 4: e5725.