Climate Matters: Integrating Bioclimatology into Dengue Vector Control within the One Health Framework
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1. Adnyana IMDM, Utomo B, Eljatin DS, Su¬daryati NLG (2023) One Health ap-proach and zoonotic diseases in Indone-sia: Ur¬gency of implementation and chal¬leng¬es. Narra J. 3(3): e257.
2. Adnyana IMDM, Utomo B (2023) Dengue elimination challenges in Bali: A one health perspective. Natl J Community Med. 14(8): 544–546.
3. Adnyana IMDM, Surya A (2023) Strategy to control and eradicate dengue hemor-rhagic fever vectors in Bali. Int J Publ Health Sci. 12(1): 196–202.
4. George AM, Ansumana R, de Souza DK, Niyas VKM, Zumla A, Bockarie MJ (2024) Climate change and the rising in-cidence of vector-borne diseases global-ly. Int J Infect Dis. 139: 143–145.
5. Carlassara M, Khorramnejad A, Oker H, Bahrami R, Lozada‐Chávez AN, Manci-ni MV, Quaranta S, Body MJA, Lahon-dère C, Bonizzoni M (2024) Popula-tion‐specific responses to developmental temperature in the arboviral vector Ae¬des albopictus: Implications for climate change. Glob Chang Biol. 30(3): 17226.
6. Lim AY, Jafari Y, Caldwell JM, Clapham HE, Gaythorpe KAM, Hussain-Alkhateeb L, Ohansson MA, Kraemer MUG, Maude RJ, McCormack CP, Mes-sina JP, Mor¬decai EA, Rabe IB, Reiner RC Jr, Ryan SJ, Salje H, Semenza JC, Rojas DP, Brady OJ (2023) A systematic review of the data, methods and envi-ronmental co¬variates used to map Ae¬des-borne arbo¬virus transmission risk. BMC Infect Dis. 23(1): 708.
7. Dennington NL, Grossman MK, Ware‐ Gilmore F, Teeple JL, Johnson LR, Shocket MS, McGraw EA, Thomas MB (2024) Phenotypic adaptation to tem¬per-ature in the mosquito vector, Ae¬des ae-gypti. Glob Chang Biol. 30: 17041.
8. Lippi CA, Mundis SJ, Sippy R, Flenniken JM, Chaudhary A, Hecht G, Carlson CJ, Ryan SJ (2023) Trends in mosquito spe-cies distribution modeling: insights for vector surveillance and disease control. Parasit Vectors. 16(1): 302.
9. Couper LI, Farner JE, Lyberger KP, Lee AS, Mordecai EA (2024) Mosquito ther-mal tolerance is remarkably con¬strained across a large climatic range. Proc R Soc Lond B Biol Sci. 291: 2457.
10. Singh S, Sharma P, Pal N, Sarma DK, Ti-wari R, Kumar M (2024) Holistic one health surveillance framework: Syner¬giz-ing environmental, animal, and hu¬man de¬terminants for enhanced infec¬tious dis¬ease management. ACS Infect Dis. 10 (3): 808–826.
11. Traore T, Shanks S, Haider N, Ahmed K, Jain V, Rüegg SR, Razavi A, Kock R, Erondu N, Rahman-Shepherd A, Yavlin-sky A, Mboera L, Asogun D, McHugh TD, Elton L, Oyebanji O, Okunromade O, Ansumana R, Djingarey MH, Ali Ahmed Y, Diallo AB, Balde T, Talisuna A, Ntoumi F, Zumla A, Heymann D, Fall IS, Dar O (2023) How prepared is the world? Identifying weaknesses in ex¬isting assessment frameworks for global health security through a One Health ap¬proach. Lancet. 401(10377): 673–687.
2. Adnyana IMDM, Utomo B (2023) Dengue elimination challenges in Bali: A one health perspective. Natl J Community Med. 14(8): 544–546.
3. Adnyana IMDM, Surya A (2023) Strategy to control and eradicate dengue hemor-rhagic fever vectors in Bali. Int J Publ Health Sci. 12(1): 196–202.
4. George AM, Ansumana R, de Souza DK, Niyas VKM, Zumla A, Bockarie MJ (2024) Climate change and the rising in-cidence of vector-borne diseases global-ly. Int J Infect Dis. 139: 143–145.
5. Carlassara M, Khorramnejad A, Oker H, Bahrami R, Lozada‐Chávez AN, Manci-ni MV, Quaranta S, Body MJA, Lahon-dère C, Bonizzoni M (2024) Popula-tion‐specific responses to developmental temperature in the arboviral vector Ae¬des albopictus: Implications for climate change. Glob Chang Biol. 30(3): 17226.
6. Lim AY, Jafari Y, Caldwell JM, Clapham HE, Gaythorpe KAM, Hussain-Alkhateeb L, Ohansson MA, Kraemer MUG, Maude RJ, McCormack CP, Mes-sina JP, Mor¬decai EA, Rabe IB, Reiner RC Jr, Ryan SJ, Salje H, Semenza JC, Rojas DP, Brady OJ (2023) A systematic review of the data, methods and envi-ronmental co¬variates used to map Ae¬des-borne arbo¬virus transmission risk. BMC Infect Dis. 23(1): 708.
7. Dennington NL, Grossman MK, Ware‐ Gilmore F, Teeple JL, Johnson LR, Shocket MS, McGraw EA, Thomas MB (2024) Phenotypic adaptation to tem¬per-ature in the mosquito vector, Ae¬des ae-gypti. Glob Chang Biol. 30: 17041.
8. Lippi CA, Mundis SJ, Sippy R, Flenniken JM, Chaudhary A, Hecht G, Carlson CJ, Ryan SJ (2023) Trends in mosquito spe-cies distribution modeling: insights for vector surveillance and disease control. Parasit Vectors. 16(1): 302.
9. Couper LI, Farner JE, Lyberger KP, Lee AS, Mordecai EA (2024) Mosquito ther-mal tolerance is remarkably con¬strained across a large climatic range. Proc R Soc Lond B Biol Sci. 291: 2457.
10. Singh S, Sharma P, Pal N, Sarma DK, Ti-wari R, Kumar M (2024) Holistic one health surveillance framework: Syner¬giz-ing environmental, animal, and hu¬man de¬terminants for enhanced infec¬tious dis¬ease management. ACS Infect Dis. 10 (3): 808–826.
11. Traore T, Shanks S, Haider N, Ahmed K, Jain V, Rüegg SR, Razavi A, Kock R, Erondu N, Rahman-Shepherd A, Yavlin-sky A, Mboera L, Asogun D, McHugh TD, Elton L, Oyebanji O, Okunromade O, Ansumana R, Djingarey MH, Ali Ahmed Y, Diallo AB, Balde T, Talisuna A, Ntoumi F, Zumla A, Heymann D, Fall IS, Dar O (2023) How prepared is the world? Identifying weaknesses in ex¬isting assessment frameworks for global health security through a One Health ap¬proach. Lancet. 401(10377): 673–687.
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| Issue | Articles In Press | |
| Section | Letter to the Editor | |
| Keywords | ||
| Bioclimatology Dengue Vector Control One Health Vector-Borne Disease Tropical Medicine | ||
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How to Cite
1.
Adnyana IMDM, Utomo B, Sulistiawati S, Adiwinoto RP, Sudaryati NLG. Climate Matters: Integrating Bioclimatology into Dengue Vector Control within the One Health Framework. J Arthropod Borne Dis. 2025;.
