key: cord-0990535-phy624we authors: Yan Yam, Esabelle Lo title: Climate change and the origin of SARS-CoV-2 date: 2020-12-02 journal: J Travel Med DOI: 10.1093/jtm/taaa224 sha: 9a4dd12b5b187ef32393ccb4c323dfc56a90bf2d doc_id: 990535 cord_uid: phy624we The origin of the severe acute respiratory syndrome coronavirus 2, the coronavirus that is still ravaging across the world almost a year after the first reported case, has been told in various ways—from the wildlife trade at the Wuhan wet market to the covert operations in laboratories. How does climate change fit in the narratives? Climate change has been blamed for emerging infectious diseases. The increase in extreme climate events such as storms, typhoons, cyclones and heatwaves, and heavy precipitations and droughts that reduce land productivity and habitability have led to increased population mobility and human migration. 1 In 2019, environmental disasters displaced 24.9 million people in 145 countries and territories, more than 95% of which were weatherrelated. 2 Although migration may be less of a disease threat than travel and tourism due to the much higher number of the latter, disease transmission may still occur during migration due to suboptimal living conditions. 3 Global warming also increases the geographic distribution of mosquitoes. Hence, a larger proportion of the world's population will be exposed to mosquito-borne diseases such as dengue, Zika and chikungunya. 4 Indeed, Europe has seen the biggest rise of West Nile encephalitis in recent years. 5 Could climate change also be blamed for the origin of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2)? The origin of SARS-CoV-2 is still unknown. Coronaviruses in humans such as SARS-CoV-1 and Middle East respiratory syndrome coronavirus (MERS-CoV) have a zoonotic origin. Although SARS-CoV-2 has not been isolated from a wild animal, 96.2% of its genome was found to be similar to bat SARS-related coronavirus, suggesting a probable origin in bats. The ecological distance between bats and humans also suggest intermediate hosts or amplifiers. For MERS and SARS, dromedary camels and civets may have been implicated, respectively, and for SARS-CoV-2 pangolins have been postulated to explain cross-species transmission. 6 So where and how did the spill-over to humans occur? The link to the infamous wet market in Wuhan is intriguing, especially given that the genome sequences from environmental samples at the market showed close relation to viruses sampled from the earliest Wuhan patients. Nonetheless, cases of SARS-CoV-2 as early as December 2019 have been reported without known exposure to the Wuhan wet market. Without direct animal sampling in the market, it would be impossible to ascertain if the outbreak at the wet market was a result of animal reservoirs or has been introduced by human traffic at the market. 6 The emergence story of COVID-19 may never be fully known. We can, however, suggest a few possible reasons related to environmental and climate change that could lead to zoonotic diseases. First, the impact of human activities such as deforestation on climate change and ecological changes may increase selection pressure on life forms including viruses. Second, human encroachment into wildlife habitats and exploitation of wildlife can lead to increase in interactions between humans and animals, and animals and animals, providing opportunities for viruses to jump between species. Third, the loss of biodiversity exacerbated by climate change reduces the buffer between animals for disease transmission, thereby increasing the chances for viruses to jump to humans. Given the enormous diversity of viruses in wildlife and their ongoing evolution, the best strategy to reduce the risk of future outbreaks is to study the relationship of humans, animals and Mother Nature in the emergence and spread of zoonotic diseases. What is the implication for travel medicine? While climate change and air pollution will affect human mobility and tourism, 7 including travellers' health, our natural curiosity to interact with wild animals and our desires to savour exotic foods will drive unhealthy wildlife trade. Stronger actions against illegal wildlife trade are needed, and removing mammalian and avian wildlife from food markets should be considered to control the emergence of zoonotic diseases. 6 Many lessons can be learnt from the COVID-19 pandemic to prepare us for the next crisis. No funding was used to support the writing of this manuscript. Human mobility and health in a warming world Internal Displacement Monitoring Centre Climate change impact on migration, travel, travel destinations and the tourism industry More arboviral disease outbreaks in continental Europe due to the warming climate? Nile in Europe: an increasing public health problem A genomic perspective on the origin and emergence of SARS-CoV-2 Exposure to air pollution is associated with adverse cardiopulmonary health effects in international travellers No conflict of interest to declare.