The Grass Was Greener-Climate Change, One Health, and the High Hopes to Mitigate COVID-19, Avian Influenza, and other Zoonotic Emerging Diseases

Over the last decades, global warming has significantly affected the world’s climate, negatively impacting numerous ecosystems (Cardenas et al., 2006; Beyer et al., 2021; Dupraz and Burnand, 2021). The accumulating influences of climate change, including the rise of the earth’s surface temperature a...

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Autores:: Bonilla Aldana, Diane Katterine
Faccini Martínez, Alvaro
Vallejo Timarán, Darío
Bocanegra, Flor
Ruiz Sáenz, Julián
Paniz Mondolfi, Alberto
Rodríguez Morales, Alfonso J.
Suárez, José Antonio

Tipo de recurso:: Article of investigation

Fecha de publicación:: 2021

Institución:: Universidad Cooperativa de Colombia

Repositorio:: Repositorio UCC

Idioma:

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dc.title.spa.fl_str_mv	The Grass Was Greener-Climate Change, One Health, and the High Hopes to Mitigate COVID-19, Avian Influenza, and other Zoonotic Emerging Diseases
title	The Grass Was Greener-Climate Change, One Health, and the High Hopes to Mitigate COVID-19, Avian Influenza, and other Zoonotic Emerging Diseases
spellingShingle	The Grass Was Greener-Climate Change, One Health, and the High Hopes to Mitigate COVID-19, Avian Influenza, and other Zoonotic Emerging Diseases Virus Climate Change Ecosystems One Health
title_short	The Grass Was Greener-Climate Change, One Health, and the High Hopes to Mitigate COVID-19, Avian Influenza, and other Zoonotic Emerging Diseases
title_full	The Grass Was Greener-Climate Change, One Health, and the High Hopes to Mitigate COVID-19, Avian Influenza, and other Zoonotic Emerging Diseases
title_fullStr	The Grass Was Greener-Climate Change, One Health, and the High Hopes to Mitigate COVID-19, Avian Influenza, and other Zoonotic Emerging Diseases
title_full_unstemmed	The Grass Was Greener-Climate Change, One Health, and the High Hopes to Mitigate COVID-19, Avian Influenza, and other Zoonotic Emerging Diseases
title_sort	The Grass Was Greener-Climate Change, One Health, and the High Hopes to Mitigate COVID-19, Avian Influenza, and other Zoonotic Emerging Diseases
dc.creator.fl_str_mv	Bonilla Aldana, Diane Katterine Faccini Martínez, Alvaro Vallejo Timarán, Darío Bocanegra, Flor Ruiz Sáenz, Julián Paniz Mondolfi, Alberto Rodríguez Morales, Alfonso J. Suárez, José Antonio
dc.contributor.author.none.fl_str_mv	Bonilla Aldana, Diane Katterine Faccini Martínez, Alvaro Vallejo Timarán, Darío Bocanegra, Flor Ruiz Sáenz, Julián Paniz Mondolfi, Alberto Rodríguez Morales, Alfonso J. Suárez, José Antonio
dc.subject.spa.fl_str_mv	Virus Climate Change Ecosystems One Health
topic	Virus Climate Change Ecosystems One Health
description	Over the last decades, global warming has significantly affected the world’s climate, negatively impacting numerous ecosystems (Cardenas et al., 2006; Beyer et al., 2021; Dupraz and Burnand, 2021). The accumulating influences of climate change, including the rise of the earth’s surface temperature and sea level as well as melting glaciers among many other direct and indirect effects (Calel et al., 2020; Harvey et al., 2020), are reshaping, not only the ecological landscape of many world regions, but also setting the stage for emerging diseases sceneries. Floods, droughts, hurricanes (Zambrano et al., 2021), heat waves and surging fires across all continents (Bonilla-Aldana et al., 2019) are all part of the human-driven fingerprint that has led to climate change (Figure 1). These effects have also resulted in a massive reduction of vegetation across many regions around the globe. As the legendary British rock 'n' roll band Pink Floyd once sang in their most celebrated song “High Hopes”, “…the grass was greener…” (Pink Floyd, dixit), framed in an environmental context these lyrics should call for a reflection on how climate change is leaving its mark on earth’s landscape
publishDate	2021
dc.date.available.none.fl_str_mv	2021-06 2022-01-25T20:49:25Z
dc.date.issued.none.fl_str_mv	2021-06
dc.date.accessioned.none.fl_str_mv	2022-01-25T20:49:25Z
dc.type.none.fl_str_mv	Artículos Científicos
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dc.identifier.issn.spa.fl_str_mv	2322-4568
dc.identifier.uri.spa.fl_str_mv	https://dx.doi.org/10.54203/scil.2021.wvj42
dc.identifier.uri.none.fl_str_mv	https://hdl.handle.net/20.500.12494/43426
dc.identifier.bibliographicCitation.spa.fl_str_mv	Bonilla-Aldana DK, Faccini-Martínez ÁA, Vallejo-Timaran DA, Bocanegra-Viteri FdeM, Ruiz-Saenz J, Paniz-Mondolfi AE, Rodriguez-Morales AJ, and Suárez JA (2021). The Grass Was Greener - Climate Change, One Health, and the High Hopes to Mitigate COVID-19, Avian Influenza, and other Zoonotic Emerging Diseases. World Vet. J., 11 (2): 313-316.
identifier_str_mv	2322-4568 Bonilla-Aldana DK, Faccini-Martínez ÁA, Vallejo-Timaran DA, Bocanegra-Viteri FdeM, Ruiz-Saenz J, Paniz-Mondolfi AE, Rodriguez-Morales AJ, and Suárez JA (2021). The Grass Was Greener - Climate Change, One Health, and the High Hopes to Mitigate COVID-19, Avian Influenza, and other Zoonotic Emerging Diseases. World Vet. J., 11 (2): 313-316.
url	https://dx.doi.org/10.54203/scil.2021.wvj42 https://hdl.handle.net/20.500.12494/43426
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dc.relation.ispartofjournal.spa.fl_str_mv	World’s Veterinary Journa
dc.relation.references.spa.fl_str_mv	Beyer RM, Manica A and Mora C (2021). Shifts in global bat diversity suggest a possible role of climate change in the emergence of SARS-CoV-1 and SARS-CoV-2. Science of the Total Environment, 767: Article number 145413. DOI: https://www.doi.org/10.1016/j.scitotenv.2021.145413 Bonilla-Aldana DK, Aguirre-Florez M, Villamizar-Pena R, Gutierrez-Ocampo E, Henao-Martinez JF, Cvetkovic-Vega A, Dhama K, Rabaan A, Sah R, Rodriguez-Morales AJ, et al. (2020a). After SARS-CoV-2, will h5n6 and other influenza viruses follow the pandemic path? Infezioni in Medicina, 28(4): 475-485. Available at: https://pubmed.ncbi.nlm.nih.gov/33257621/ Bonilla-Aldana DK, Dhama K and Rodriguez-Morales AJ (2020b). Revisiting the one health approach in the context of covid-19: A look into the ecology of this emerging disease. Advances in Animal and Veterinary Sciences, 8(3): 234-237. Available at: https://search.bvsalud.org/global-literature-on-novel-coronavirus-2019-ncov/resource/en/covidwho-822918 Bonilla-Aldana DK, Holguin-Rivera Y, Perez-Vargas S, Trejos-Mendoza AE, Balbin-Ramon GJ, Dhama K, Barato P, Lujan-Vega C, and Rodriguez-Morales AJ (2020c). Importance of the one health approach to study the sars-cov-2 in latin america. One Health, 10: Article number 100147. DOI: https://www.doi.org/10.1016/j.onehlt.2020.100147 Bonilla-Aldana DK, Jimenez-Diaz SD, Arango-Duque JS, Aguirre-Florez M, Balbin-Ramon GJ, Paniz-Mondolfi A, Suarez JA, Pachar MR, Perez-Garcia LA, Delgado-Noguera LA et al. (2021). Bats in ecosystems and their wide spectrum of viral infectious potential threats: Sars-Cov-2 and other emerging viruses. International Journal of Infectious Diseases, 102: 87-96. DOI: https://www.doi.org/10.1016/j.ijid.2020.08.050 Bonilla-Aldana DK, Suarez JA, Franco-Paredes C, Vilcarromero S, Mattar S, Gomez-Marin JE, Villamil-Gomez WE, Ruiz-Saenz J, Cardona-Ospina JA, Idarraga-Bedoya SE et al. (2019). Brazil burning! What is the potential impact of the amazon wildfires on vector-borne and zoonotic emerging diseases? - a statement from an international experts meeting. Travel Medicine and Infectious Diseases, 31: Article number 101474. DOI: https://www.doi.org/10.1016/j.tmaid.2019.101474 Breed AC, Yu M, Barr JA, Crameri G, Thalmann CM, and Wang LF (2010). Prevalence of henipavirus and rubulavirus antibodies in pteropid bats, Papua new guinea. Emerging Infectious Diseases, 16(12): 1997-1999. DOI: https://www.doi.org/10.3201/eid1612.100879 Calel R, Chapman SC, Stainforth DA, and Watkins NW (2020). Temperature variability implies greater economic damages from climate change. Nature Communications, 11(1): Article number 5028. DOI: https://www.doi.org/10.1038/s41467-020-18797-8 Cardenas R, Sandoval CM, Rodriguez-Morales AJ, and Franco-Paredes C (2006). Impact of climate variability in the occurrence of leishmaniasis in northeastern Colombia. American Journal of Tropical Medicine Hygiene, 75(2): 273-277. Available at: https://pubmed.ncbi.nlm.nih.gov/16896132/ Chowdhury FR, Ibrahim QSU, Bari MS, Alam MMJ, Dunachie SJ, Rodriguez-Morales AJ, and Patwary MI (2018). The association between temperature, rainfall and humidity with common climate-sensitive infectious diseases in Bangladesh. PLoS ONE, 13(6): e0199579. DOI: https://www.doi.org/10.1371/journal.pone.0199579 Chowdhury FR, Ibrahim QSU, Bari MS, Alam MMJ, Dunachie SJ, Rodriguez-Morales AJ, and Patwary MI (2020). Correction: The association between temperature, rainfall and humidity with common climate-sensitive infectious diseases in Bangladesh. PLoS ONE, 15(4): e0232285. DOI: https://www.doi.org/10.1371/journal.pone.0232285 Chua KB, Chua BH, and Wang CW (2002). Anthropogenic deforestation, El Nino and the emergence of Nipah virus in Malaysia. Malaysian Journal of Pathology, 24(1): 15-21. Available at: https://pubmed.ncbi.nlm.nih.gov/16329551/ Dhama K, Khan S, Tiwari R, Sircar S, Bhat S, Malik YS, Singh KP, Chaicumpa W, Bonilla-Aldana DK, and Rodriguez-Morales AJ (2020). Coronavirus disease 2019-covid-19. Clinical Microbiology Reviews, 33(4): e00028-20. DOI: https://www.doi.org/10.1128/CMR.00028-20 Dupraz J, and Burnand B (2021). Role of health professionals regarding the impact of climate change on health-an exploratory review. International Journal of Environmental Research and Public Health, 18(6): 3222. DOI: https://www.doi.org/10.3390/ijerph18063222 Escalera-Antezana JP, Rodriguez-Villena OJ, Arancibia-Alba AW, Alvarado-Arnez LE, Bonilla-Aldana DK, and Rodriguez-Morales AJ (2020). Clinical features of fatal cases of Chapare virus hemorrhagic fever originating from rural la Paz, bolivia, 2019: A cluster analysis. Travel Medicine and Infectious Diseases, 36: Article number 101589. DOI: https://www.doi.org/10.1016/j.tmaid.2020.101589 European Food Safety Authority, European Centre for Disease Prevention and Control and European Union Reference Laboratory for Avian Influenza, Adlhoch C, Fusaro A, Gonzales JL, Kuiken T, Marangon S, Niqueux E Staubach C, Terregino C, et al. (2021). Avian influenza overview December 2020 - February 2021. EFSA Journal, 19(3): e06497. DOI: https://www.doi.org/10.2903/j.efsa.2021.6497 Harvey JA, Heinen R, Gols R, and Thakur MP (2020). Climate change-mediated temperature extremes and insects: From outbreaks to breakdowns. Global Changes and Biology, 26(12): 6685-6701. DOI: https://www.doi.org/10.1111/gcb.15377 Kalbus A, de Souza Sampaio V, Boenecke J, and Reintjes R (2021). Exploring the influence of deforestation on dengue fever incidence in the Brazilian Amazonas State. PLoS ONE, 16(1): e0242685. DOI: https://www.doi.org/10.1371/journal.pone.0242685 Laporta GZ, Ilacqua RC, Bergo ES, Chaves LSM, Rodovalho SR, Moresco GG, Figueira EAG, Massad E, de Oliveira TMP, Bickersmith SA et al. (2021). Malaria transmission in landscapes with varying deforestation levels and timelines in the amazon: A longitudinal spatiotemporal study. Scientific Reports, 11(1): Article number 6477. DOI: https://www.doi.org/10.1038/s41598- 021-85890-3 Mirsaeidi M, Motahari H, Taghizadeh Khamesi M, Sharifi A, Campos M, and Schraufnagel DE (2016). Climate change and respiratory infections. Annals of the American Thoracic Society, 13(8): 1223-1230. DOI: https://www.doi.org/10.1513/AnnalsATS.201511-729PS Mohammed MEA (2021). The percentages of sars-cov-2 protein similarity and identity with SARS-CoV and batcov ratg13 proteins can be used as indicators of virus origin. Journal of Proteins and Proteomics, pp. 1-11. DOI: https://www.doi.org/10.1007/s42485-021-00060-3 ProMedMail (2021a). Avian influenza, human (02): Russia, h5n8, 1st case. Available at: Https://promedmail.Org/promedpost/?Id=8204014 ProMEDmail (2021b). Promedmail - avian influenza, human (09): China (JS) H10N3, 1st rep. Available at: Https://promedmail.Org/promed-post/?Id=20210602.8416833 ProMEDmail (2021c). Promedmail - avian influenza (45): Europe (UK, Croatia) seal, fox, wild bird, hpai h5n8, oie. Available at: Https://promedmail.Org/promed-post/?Id=20210317.8252821 Rodriguez-Morales AJ (2013). Climate change, climate variability and brucellosis. Recent Patents in Antiinfective Drug Discovery, 8(1): 4-12. DOI: https://www.doi.org/10.2174/1574891x11308010003 The Lancet Infectious D (2021). In an ocean of ashes, islands of order: Who's SARS-CoV-2 origin report. Lancet Infectious Diseases, 21(5): Article number 579. DOI: https://www.doi.org/10.1016/S1473-3099(21)00213-9 Uppal PK (2000). Emergence of Nipah virus in Malaysia. Annans of the New York Academy of Sciences, 916: 354-357. DOI: https://www.doi.org/10.1111/j.1749-6632.2000.tb05312.x Yan Yam EL (2020). Climate change and the origin of SARS-CoV-2. Journal of Travel Medicine, 27(8): 224. DOI: https://www.doi.org/10.1093/jtm/taaa224 Zambrano LI, Fuentes-Barahona IC, Henriquez-Marquez KI, Vasquez-Bonilla WO, Sierra M, Munoz-Lara F, Luna C, Bonilla-Aldana DK, and Rodriguez-Morales AJ (2021). Covid-19 and hurricanes: The impact of natural disasters during a pandemic in honduras, central america. Prehospital and Disaster Medicine, 36(2): 246-248. DOI: https://www.doi.org/10.1017/S1049023X21000182 Zhou P, Yang XL, Wang XG, Hu B, Zhang L, Zhang W, Si HR, Zhu Y, Li B, Huang CL et al. (2020). A pneumonia outbreak associated with a new coronavirus of probable bat origin. Nature, 579(7798): 270-273. DOI: https://www.doi.org/10.1038/s41586-020-2012-7
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spelling	Bonilla Aldana, Diane Katterine Faccini Martínez, AlvaroVallejo Timarán, DaríoBocanegra, FlorRuiz Sáenz, JuliánPaniz Mondolfi, AlbertoRodríguez Morales, Alfonso J. Suárez, José Antonio11 p.2022-01-25T20:49:25Z2021-062022-01-25T20:49:25Z2021-062322-4568https://dx.doi.org/10.54203/scil.2021.wvj42https://hdl.handle.net/20.500.12494/43426Bonilla-Aldana DK, Faccini-Martínez ÁA, Vallejo-Timaran DA, Bocanegra-Viteri FdeM, Ruiz-Saenz J, Paniz-Mondolfi AE, Rodriguez-Morales AJ, and Suárez JA (2021). The Grass Was Greener - Climate Change, One Health, and the High Hopes to Mitigate COVID-19, Avian Influenza, and other Zoonotic Emerging Diseases. World Vet. J., 11 (2): 313-316.Over the last decades, global warming has significantly affected the world’s climate, negatively impacting numerous ecosystems (Cardenas et al., 2006; Beyer et al., 2021; Dupraz and Burnand, 2021). The accumulating influences of climate change, including the rise of the earth’s surface temperature and sea level as well as melting glaciers among many other direct and indirect effects (Calel et al., 2020; Harvey et al., 2020), are reshaping, not only the ecological landscape of many world regions, but also setting the stage for emerging diseases sceneries. Floods, droughts, hurricanes (Zambrano et al., 2021), heat waves and surging fires across all continents (Bonilla-Aldana et al., 2019) are all part of the human-driven fingerprint that has led to climate change (Figure 1). These effects have also resulted in a massive reduction of vegetation across many regions around the globe. As the legendary British rock 'n' roll band Pink Floyd once sang in their most celebrated song “High Hopes”, “…the grass was greener…” (Pink Floyd, dixit), framed in an environmental context these lyrics should call for a reflection on how climate change is leaving its mark on earth’s landscapehttps://scienti.minciencias.gov.co/cvlac/visualizador/generarCurriculoCv.do?cod_rh=0000213748https://orcid.org/0000-0002-1447-1458https://scienti.minciencias.gov.co/gruplac/jsp/visualiza/visualizagr.jsp?nro=00000000000695julian.ruizs@campusucc.edu.cohttps://scholar.google.com/citations?user=o3Y7mZwAAAAJ&hl=es313-316Universidad Cooperativa de Colombia, Facultad de Ciencias de la Salud, Medicina Veterinaría y Zootecnia, BucaramangaMedicina veterinaria y zootecniaBucaramangahttps://wvj.science-line.com/attachments/article/65/WVJ%2011(2)%20313-316,%20June%2025,%202021.pdfWorld’s Veterinary JournaBeyer RM, Manica A and Mora C (2021). Shifts in global bat diversity suggest a possible role of climate change in the emergence of SARS-CoV-1 and SARS-CoV-2. Science of the Total Environment, 767: Article number 145413. DOI: https://www.doi.org/10.1016/j.scitotenv.2021.145413Bonilla-Aldana DK, Aguirre-Florez M, Villamizar-Pena R, Gutierrez-Ocampo E, Henao-Martinez JF, Cvetkovic-Vega A, Dhama K, Rabaan A, Sah R, Rodriguez-Morales AJ, et al. (2020a). After SARS-CoV-2, will h5n6 and other influenza viruses follow the pandemic path? Infezioni in Medicina, 28(4): 475-485. Available at: https://pubmed.ncbi.nlm.nih.gov/33257621/Bonilla-Aldana DK, Dhama K and Rodriguez-Morales AJ (2020b). Revisiting the one health approach in the context of covid-19: A look into the ecology of this emerging disease. Advances in Animal and Veterinary Sciences, 8(3): 234-237. Available at: https://search.bvsalud.org/global-literature-on-novel-coronavirus-2019-ncov/resource/en/covidwho-822918Bonilla-Aldana DK, Holguin-Rivera Y, Perez-Vargas S, Trejos-Mendoza AE, Balbin-Ramon GJ, Dhama K, Barato P, Lujan-Vega C, and Rodriguez-Morales AJ (2020c). Importance of the one health approach to study the sars-cov-2 in latin america. One Health, 10: Article number 100147. DOI: https://www.doi.org/10.1016/j.onehlt.2020.100147Bonilla-Aldana DK, Jimenez-Diaz SD, Arango-Duque JS, Aguirre-Florez M, Balbin-Ramon GJ, Paniz-Mondolfi A, Suarez JA, Pachar MR, Perez-Garcia LA, Delgado-Noguera LA et al. (2021). Bats in ecosystems and their wide spectrum of viral infectious potential threats: Sars-Cov-2 and other emerging viruses. International Journal of Infectious Diseases, 102: 87-96. DOI: https://www.doi.org/10.1016/j.ijid.2020.08.050Bonilla-Aldana DK, Suarez JA, Franco-Paredes C, Vilcarromero S, Mattar S, Gomez-Marin JE, Villamil-Gomez WE, Ruiz-Saenz J, Cardona-Ospina JA, Idarraga-Bedoya SE et al. (2019). Brazil burning! What is the potential impact of the amazon wildfires on vector-borne and zoonotic emerging diseases? - a statement from an international experts meeting. Travel Medicine and Infectious Diseases, 31: Article number 101474. DOI: https://www.doi.org/10.1016/j.tmaid.2019.101474Breed AC, Yu M, Barr JA, Crameri G, Thalmann CM, and Wang LF (2010). Prevalence of henipavirus and rubulavirus antibodies in pteropid bats, Papua new guinea. Emerging Infectious Diseases, 16(12): 1997-1999. DOI: https://www.doi.org/10.3201/eid1612.100879Calel R, Chapman SC, Stainforth DA, and Watkins NW (2020). Temperature variability implies greater economic damages from climate change. Nature Communications, 11(1): Article number 5028. DOI: https://www.doi.org/10.1038/s41467-020-18797-8Cardenas R, Sandoval CM, Rodriguez-Morales AJ, and Franco-Paredes C (2006). Impact of climate variability in the occurrence of leishmaniasis in northeastern Colombia. American Journal of Tropical Medicine Hygiene, 75(2): 273-277. Available at: https://pubmed.ncbi.nlm.nih.gov/16896132/Chowdhury FR, Ibrahim QSU, Bari MS, Alam MMJ, Dunachie SJ, Rodriguez-Morales AJ, and Patwary MI (2018). The association between temperature, rainfall and humidity with common climate-sensitive infectious diseases in Bangladesh. PLoS ONE, 13(6): e0199579. DOI: https://www.doi.org/10.1371/journal.pone.0199579Chowdhury FR, Ibrahim QSU, Bari MS, Alam MMJ, Dunachie SJ, Rodriguez-Morales AJ, and Patwary MI (2020). Correction: The association between temperature, rainfall and humidity with common climate-sensitive infectious diseases in Bangladesh. PLoS ONE, 15(4): e0232285. DOI: https://www.doi.org/10.1371/journal.pone.0232285Chua KB, Chua BH, and Wang CW (2002). Anthropogenic deforestation, El Nino and the emergence of Nipah virus in Malaysia. Malaysian Journal of Pathology, 24(1): 15-21. Available at: https://pubmed.ncbi.nlm.nih.gov/16329551/Dhama K, Khan S, Tiwari R, Sircar S, Bhat S, Malik YS, Singh KP, Chaicumpa W, Bonilla-Aldana DK, and Rodriguez-Morales AJ (2020). Coronavirus disease 2019-covid-19. Clinical Microbiology Reviews, 33(4): e00028-20. DOI: https://www.doi.org/10.1128/CMR.00028-20Dupraz J, and Burnand B (2021). Role of health professionals regarding the impact of climate change on health-an exploratory review. International Journal of Environmental Research and Public Health, 18(6): 3222. DOI: https://www.doi.org/10.3390/ijerph18063222Escalera-Antezana JP, Rodriguez-Villena OJ, Arancibia-Alba AW, Alvarado-Arnez LE, Bonilla-Aldana DK, and Rodriguez-Morales AJ (2020). Clinical features of fatal cases of Chapare virus hemorrhagic fever originating from rural la Paz, bolivia, 2019: A cluster analysis. Travel Medicine and Infectious Diseases, 36: Article number 101589. DOI: https://www.doi.org/10.1016/j.tmaid.2020.101589European Food Safety Authority, European Centre for Disease Prevention and Control and European Union Reference Laboratory for Avian Influenza, Adlhoch C, Fusaro A, Gonzales JL, Kuiken T, Marangon S, Niqueux E Staubach C, Terregino C, et al. (2021). Avian influenza overview December 2020 - February 2021. EFSA Journal, 19(3): e06497. DOI: https://www.doi.org/10.2903/j.efsa.2021.6497Harvey JA, Heinen R, Gols R, and Thakur MP (2020). Climate change-mediated temperature extremes and insects: From outbreaks to breakdowns. Global Changes and Biology, 26(12): 6685-6701. DOI: https://www.doi.org/10.1111/gcb.15377Kalbus A, de Souza Sampaio V, Boenecke J, and Reintjes R (2021). Exploring the influence of deforestation on dengue fever incidence in the Brazilian Amazonas State. PLoS ONE, 16(1): e0242685. DOI: https://www.doi.org/10.1371/journal.pone.0242685Laporta GZ, Ilacqua RC, Bergo ES, Chaves LSM, Rodovalho SR, Moresco GG, Figueira EAG, Massad E, de Oliveira TMP, Bickersmith SA et al. (2021). Malaria transmission in landscapes with varying deforestation levels and timelines in the amazon: A longitudinal spatiotemporal study. Scientific Reports, 11(1): Article number 6477. DOI: https://www.doi.org/10.1038/s41598- 021-85890-3Mirsaeidi M, Motahari H, Taghizadeh Khamesi M, Sharifi A, Campos M, and Schraufnagel DE (2016). Climate change and respiratory infections. Annals of the American Thoracic Society, 13(8): 1223-1230. DOI: https://www.doi.org/10.1513/AnnalsATS.201511-729PSMohammed MEA (2021). The percentages of sars-cov-2 protein similarity and identity with SARS-CoV and batcov ratg13 proteins can be used as indicators of virus origin. 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Emergence of Nipah virus in Malaysia. Annans of the New York Academy of Sciences, 916: 354-357. DOI: https://www.doi.org/10.1111/j.1749-6632.2000.tb05312.xYan Yam EL (2020). Climate change and the origin of SARS-CoV-2. Journal of Travel Medicine, 27(8): 224. DOI: https://www.doi.org/10.1093/jtm/taaa224Zambrano LI, Fuentes-Barahona IC, Henriquez-Marquez KI, Vasquez-Bonilla WO, Sierra M, Munoz-Lara F, Luna C, Bonilla-Aldana DK, and Rodriguez-Morales AJ (2021). Covid-19 and hurricanes: The impact of natural disasters during a pandemic in honduras, central america. Prehospital and Disaster Medicine, 36(2): 246-248. DOI: https://www.doi.org/10.1017/S1049023X21000182Zhou P, Yang XL, Wang XG, Hu B, Zhang L, Zhang W, Si HR, Zhu Y, Li B, Huang CL et al. (2020). A pneumonia outbreak associated with a new coronavirus of probable bat origin. Nature, 579(7798): 270-273. 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The Grass Was Greener-Climate Change, One Health, and the High Hopes to Mitigate COVID-19, Avian Influenza, and other Zoonotic Emerging Diseases

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