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( Gorris, M. E. , Anenberg, S. C. , Goldberg, D. L. , Kerr, G. H. , Stowell, J. D. , Tong, D. , & Zaitchik, B. F. (2021). Shaping the future of science: COVID‐19 highlighting the importance of GeoHealth. GeoHealth, 5(5). 10.1029/2021gh000412 )
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K. R. Smith, A. Woodward, D. Campbell‐Lendrum, D. D. Chadee, Y. Honda, Q. Liu (2014)
IPCC. Reports AR5 Climate Change 2014: Impacts, Adaptation, and Vulnerability. Part A, Global and Sectoral Aspects
J. Mackenzie, M. Jeggo, P. Daszak, J. Richt (2013)
One Health: The Human-Animal-Environment Interfaces in Emerging Infectious Diseases
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N. Grimm, Stuart Iii, B. Bierwagen, P. Gonzalez, P. Groffman, Yiqi Luo, F. Melton, K. Nadelhoffer, Amber Pairis, P. Raymond, J. Schimel, C. Williamson (2013)
The impacts of climate change on ecosystem structure and functionFrontiers in Ecology and the Environment, 11
( Carlton, E. J. , Eisenberg, J. N. S. , Goldstick, J. , Cevallos, W. , Trostle, J. , & Levy, K. (2013). Heavy rainfall events and diarrhea incidence: The role of social and environmental factors. American Journal of Epidemiology, 179(3), 344–352. 10.1093/aje/kwt279 24256618)
Carlton, E. J. , Eisenberg, J. N. S. , Goldstick, J. , Cevallos, W. , Trostle, J. , & Levy, K. (2013). Heavy rainfall events and diarrhea incidence: The role of social and environmental factors. American Journal of Epidemiology, 179(3), 344–352. 10.1093/aje/kwt279 24256618Carlton, E. J. , Eisenberg, J. N. S. , Goldstick, J. , Cevallos, W. , Trostle, J. , & Levy, K. (2013). Heavy rainfall events and diarrhea incidence: The role of social and environmental factors. American Journal of Epidemiology, 179(3), 344–352. 10.1093/aje/kwt279 24256618, Carlton, E. J. , Eisenberg, J. N. S. , Goldstick, J. , Cevallos, W. , Trostle, J. , & Levy, K. (2013). Heavy rainfall events and diarrhea incidence: The role of social and environmental factors. American Journal of Epidemiology, 179(3), 344–352. 10.1093/aje/kwt279 24256618
Jack O’Connor, C. Eberle, D. Cotti, M. Hagenlocher, Jonathan Hassel, S. Janzen, Liliana Narvaez, Amy Newsom, Andrea Ortiz-Vargas, Simon Schuetze, Z. Sebesvari, Dominic Sett, Y. Walz (2021)
Interconnected Disaster Risks
( Yokohata, T. , Tanaka, K. , Nishina, K. , Takahashi, K. , Emori, S. , Kiguchi, M. , et al. (2019). Visualizing the interconnections among climate risks. Earth's Future, 7(2), 85–100. 10.1029/2018ef000945 )
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M. Gorris, S. Anenberg, D. Goldberg, G. Kerr, Jennifer Stowell, D. Tong, B. Zaitchik (2021)
Shaping the future of science: COVID-19 highlighting the importance of GeoHealth
F. Keesing, L. Belden, P. Daszak, A. Dobson, C. Harvell, R. Holt, P. Hudson, A. Jolles, Kate Jones, C. Mitchell, S. Myers, T. Bogich, R. Ostfeld (2010)
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C. Sorensen, M. Borbor-Cordova, Emilie Calvello-Hynes, Avriel Diaz, J. Lemery, Anna Stewart-Ibarra (2017)
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( Grimm, N. B. , Chapin, F. S. , Bierwagen, B. , Gonzalez, P. , Groffman, P. M. , Luo, Y. , et al. (2013). The impacts of climate change on ecosystem structure and function. Frontiers in Ecology and the Environment, 11(9), 474–482. 10.1890/120282 )
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World Health Organization (WHO) . (2019). 2018 WHO Health and Climate Change Survey report: Tracking global progress. World Health Organization. (WHO/CED/PHE/EPE/19.11).World Health Organization (WHO) . (2019). 2018 WHO Health and Climate Change Survey report: Tracking global progress. World Health Organization. (WHO/CED/PHE/EPE/19.11)., World Health Organization (WHO) . (2019). 2018 WHO Health and Climate Change Survey report: Tracking global progress. World Health Organization. (WHO/CED/PHE/EPE/19.11).
T. Yokohata, Katsumasa Tanaka, K. Nishina, Kiyoshi Takahashi, S. Emori, Masashi Kiguchi, Y. Iseri, Y. Honda, M. Okada, Y. Masaki, A. Yamamoto, M. Shigemitsu, M. Yoshimori, T. Sueyoshi, K. Iwase, N. Hanasaki, Akihiko Ito, G. Sakurai, T. Iizumi, M. Nishimori, Wee Lim, Wee Lim, C. Miyazaki, A. Okamoto, S. Kanae, T. Oki, T. Oki (2015)
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( Zhu, Y.‐G. , Gillings, M. , & Penuelas, J. (2020). Integrating biomedical, ecological, and sustainability sciences to manage emerging infectious diseases. One Earth, 3(1), 23–26. 10.1016/j.oneear.2020.06.004 34173527)
Zhu, Y.‐G. , Gillings, M. , & Penuelas, J. (2020). Integrating biomedical, ecological, and sustainability sciences to manage emerging infectious diseases. One Earth, 3(1), 23–26. 10.1016/j.oneear.2020.06.004 34173527Zhu, Y.‐G. , Gillings, M. , & Penuelas, J. (2020). Integrating biomedical, ecological, and sustainability sciences to manage emerging infectious diseases. One Earth, 3(1), 23–26. 10.1016/j.oneear.2020.06.004 34173527, Zhu, Y.‐G. , Gillings, M. , & Penuelas, J. (2020). Integrating biomedical, ecological, and sustainability sciences to manage emerging infectious diseases. One Earth, 3(1), 23–26. 10.1016/j.oneear.2020.06.004 34173527
Hariprasad Hariharan, A. Surendran, R. Haridasan, Sriram Venkitaraman, Dennis Robert, Sorna Narayanan, P. Mammen, Selva Siddharth, S. Kuriakose (2021)
Global COVID‐19 Transmission and Mortality—Influence of Human Development, Climate, and Climate Variability on Early Phase of the PandemicGeoHealth, 5
D. Dovie, M. Dzodzomenyo, O. Ogunseitan (2017)
Sensitivity of health sector indicators' response to climate change in Ghana.The Science of the total environment, 574
( Sandifer, P. A. , Knapp, L. C. , Collier, T. K. , Jones, A. L. , Juster, R. , Kelble, C. R. , et al. (2017). A conceptual model to assess stress‐associated health effects of multiple ecosystem services degraded by disaster events in the Gulf of Mexico and elsewhere. GeoHealth, 1(1), 17–36. 10.1002/2016gh000038 30596189)
Sandifer, P. A. , Knapp, L. C. , Collier, T. K. , Jones, A. L. , Juster, R. , Kelble, C. R. , et al. (2017). A conceptual model to assess stress‐associated health effects of multiple ecosystem services degraded by disaster events in the Gulf of Mexico and elsewhere. GeoHealth, 1(1), 17–36. 10.1002/2016gh000038 30596189Sandifer, P. A. , Knapp, L. C. , Collier, T. K. , Jones, A. L. , Juster, R. , Kelble, C. R. , et al. (2017). A conceptual model to assess stress‐associated health effects of multiple ecosystem services degraded by disaster events in the Gulf of Mexico and elsewhere. GeoHealth, 1(1), 17–36. 10.1002/2016gh000038 30596189, Sandifer, P. A. , Knapp, L. C. , Collier, T. K. , Jones, A. L. , Juster, R. , Kelble, C. R. , et al. (2017). A conceptual model to assess stress‐associated health effects of multiple ecosystem services degraded by disaster events in the Gulf of Mexico and elsewhere. GeoHealth, 1(1), 17–36. 10.1002/2016gh000038 30596189
Henrik Lerner, C. Berg (2017)
A Comparison of Three Holistic Approaches to Health: One Health, EcoHealth, and Planetary HealthFrontiers in Veterinary Science, 4
J. S. Mackenzie, M. Jeggo, P. Daszak, J. A. Richt (2013)
Current Topics in Microbiology and Immunology
World Health Organization (WHO) (2019)
2018 WHO Health and Climate Change Survey report: Tracking global progress
( Lerner, H. , & Berg, C. (2017). A comparison of three holistic approaches to health: One Health, ecohealth, and planetary health. Frontiers in Veterinary Science, 4(163). 10.3389/fvets.2017.00163 )
Lerner, H. , & Berg, C. (2017). A comparison of three holistic approaches to health: One Health, ecohealth, and planetary health. Frontiers in Veterinary Science, 4(163). 10.3389/fvets.2017.00163Lerner, H. , & Berg, C. (2017). A comparison of three holistic approaches to health: One Health, ecohealth, and planetary health. Frontiers in Veterinary Science, 4(163). 10.3389/fvets.2017.00163 , Lerner, H. , & Berg, C. (2017). A comparison of three holistic approaches to health: One Health, ecohealth, and planetary health. Frontiers in Veterinary Science, 4(163). 10.3389/fvets.2017.00163
( Sorensen, C. J. , Borbor‐Cordova, M. J. , Calvello‐Hynes, E. , Diaz, A. , Lemery, J. , & Stewart‐Ibarra, A. M. (2017). Climate variability, vulnerability, and natural disasters: A case study of Zika virus in Manabi, Ecuador following the 2016 Earthquake. GeoHealth, 1(8), 298–304. 10.1002/2017gh000104 32158994)
Sorensen, C. J. , Borbor‐Cordova, M. J. , Calvello‐Hynes, E. , Diaz, A. , Lemery, J. , & Stewart‐Ibarra, A. M. (2017). Climate variability, vulnerability, and natural disasters: A case study of Zika virus in Manabi, Ecuador following the 2016 Earthquake. GeoHealth, 1(8), 298–304. 10.1002/2017gh000104 32158994Sorensen, C. J. , Borbor‐Cordova, M. J. , Calvello‐Hynes, E. , Diaz, A. , Lemery, J. , & Stewart‐Ibarra, A. M. (2017). Climate variability, vulnerability, and natural disasters: A case study of Zika virus in Manabi, Ecuador following the 2016 Earthquake. GeoHealth, 1(8), 298–304. 10.1002/2017gh000104 32158994, Sorensen, C. J. , Borbor‐Cordova, M. J. , Calvello‐Hynes, E. , Diaz, A. , Lemery, J. , & Stewart‐Ibarra, A. M. (2017). Climate variability, vulnerability, and natural disasters: A case study of Zika virus in Manabi, Ecuador following the 2016 Earthquake. GeoHealth, 1(8), 298–304. 10.1002/2017gh000104 32158994
Yong-guan Zhu, M. Gillings, J. Peñuelas (2020)
Integrating Biomedical, Ecological, and Sustainability Sciences to Manage Emerging Infectious DiseasesOne Earth, 3
Kirk Smith, A. Woodward, D. Campbell-Lendrum, D. Chadee, Y. Honda, Qiyong Liu, J. Olwoch, B. Revich, R. Sauerborn, C. Aranda, H. Berry, C. Butler (2014)
Human health: impacts, adaptation, and co-benefits
Global response to climate‐sensitive infectious diseases has been uncertain and slow. The understanding of the underlying vulnerabilities which forms part of changes created by forces within the Earth system has never before been critical until the coronavirus disease 2019, “COVID‐19” pandemic with the initial developmental phase linked to weather elements and climate change. Hence, the heightened interest in climate‐sensitive infectious diseases and GeoHealth, evident in the renewed calls for “One Health” approach to disease management. “One Health” explains the commonality of human and animal medicine, and links to the bio‐geophysical environment, yet are at crossroads with how forces within the Earth system shape etiologies, incidences, and transmission dynamics of infectious diseases. Hence, the paper explores how these forces, which are multistage and driven by climate change impacts on ecosystems affect emerging infectious diseases, leading to the question “what drive the drivers of diseases?” Three questions that challenge broad theories of Earth system science on boundaries and connectivity emerged to guide study designs to further interrogating disease surveillance and health early warning systems. This is because, climate change (a) drives prevailing biological health hazards as part of forces within the Earth system, (b) shifts disease control services of ecosystems and functioning to effectively regulate disease incidence, and (c) modifies pathogen—species hosts relationships. Hence, the need to rethink pluralistic concepts of climate‐sensitive diseases in their infection and management from a GeoHealth perspective, which “One Health” potentially conveys, and to also maintain ecosystem health.
Geohealth – Wiley
Published: Apr 1, 2022
Keywords: biodiversity; climate change; early warning; Earth observation; ecosystem services; One Health
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