{"id":3544,"date":"2020-05-02T20:47:30","date_gmt":"2020-05-02T20:47:30","guid":{"rendered":"http:\/\/theperihelioneffect.com\/?p=3544"},"modified":"2020-05-05T03:06:44","modified_gmt":"2020-05-05T03:06:44","slug":"virus-seasonality","status":"publish","type":"post","link":"https:\/\/theperihelioneffect.com\/virus-seasonality\/","title":{"rendered":"Virus Seasonality"},"content":{"rendered":"\n
Different diseases have different patterns. Some peak in early or late winter, others in spring, summer, or fall. Some diseases have different seasonal peaks depending on latitude. And many have no seasonal cycle at all. So no one knows whether SARS-CoV-2 will change its behavior come spring. \u201cI would caution over-interpreting that hypothesis,\u201d Nancy Messonnier, the point person for COVID-19 at the U.S. Centers for Disease Control and Prevention, said at a press conference on 12 February. If the seasons do affect SARS-CoV-2, it also could defy that pattern in this first year and keep spreading, because humanity has not had a chance to build immunity to it.<\/td><\/tr> |
Even for well-known seasonal diseases, it\u2019s not clear why they wax and wane during the calendar year. \u201cIt\u2019s an absolute swine of a field,\u201d says Andrew Loudon, a chronobiologist at the University of Manchester. Investigating a hypothesis over several seasons can take 2 or 3 years. \u201cPostdocs can only get one experiment done and it can be a career killer,\u201d Loudon says. The field is also plagued by confounding variables. \u201cAll kinds of things are seasonal, like Christmas shopping,\u201d says epidemiologist Scott Dowell, who heads vaccine development and surveillance at the Bill and Melinda Gates Foundation and in 2001 wrote a widely cited perspective that inspired Martinez\u2019s current study. And it\u2019s easy to be misled by spurious correlations, Dowell says.<\/p><\/td><\/tr> |
<p>Despite the obstacles, researchers are testing a multitude of theories. Many focus on the relationships between the pathogen, the environment, and human behavior. Influenza, for example, might do better in winter because of factors such as humidity, temperature, people being closer together, or changes in diets and vitamin D levels. Martinez is studying another theory, which Dowell\u2019s paper posited but didn\u2019t test: The human immune system may change with the seasons, becoming more resistant or more susceptible to different infections based on how much light our bodies experience.<\/td><\/tr> |