Ever since a new and deadly strain of coronavirus (SARS-CoV-2) emerged in China and then spread around the world, the virus has upended life in many countries. Scientists at NASA and other institutions have hustled to track and make sense of our new reality with every tool and technique at their disposal, including satellite data.
As several comprehensive NASA-funded research projects get started, here is a quick roundup of some of the more interesting satellite-related findings about the science of coronavirus and its effects on the environment.
A Welcome Breath of Cleaner Air
Much of the news about the new coronavirus is grim, but observations of air quality offer a breath of fresh air. Several satellite sensors have detected drops in air pollutants — including nitrogen dioxide, carbon monoxide, and fine particles — following restrictions on travel and economic activity. Teams of scientists have spotted changes in China, Europe, the U.S. Northeast and Southeast, and India.
Look here for some tips on how to find and visualize changes in nitrogen dioxide, one of the gases that most clearly shows the effects of quarantines and economic shutdowns. Also, look here for nitrogen dioxide data for cities all around the world. But beware: As University of Georgia meteorologist Marshall Shepherd has pointed out, clouds and rain can create confusing changes in nitrogen dioxide that have nothing to do coronavirus restrictions.
A New Coronavirus Tracking Tool
Given how much the virus has changed daily life, many of us find ourselves turning into armchair epidemiologists, trying to make sense of how the virus is spreading and what it means for our local area. If you are interested in taking a close look at new data as it comes in, this simple-to-use mapping tool from NASA’s Socioeconomic Data and Applications Center (SEDAC) might be of interest. It features demographic data, along with regularly updated information on reported global cases of the novel coronavirus (COVID-19). There is a short user guide here.
A Stream of New Seasonality Studies
One of the key unknowns about the new coronavirus is whether environmental conditions — such as temperature, humidity, and exposure to ultraviolet light — have any effect on how the virus spreads or on the severity of the symptoms. NASA-funded researchers are starting to investigate this in several ways, while others are using NASA data in their models and analyses.
Some controlled laboratory research has suggested that exposure to warm air may make it more difficult for the virus to survive and spread. That has led many researchers around the world to start analyzing epidemiological and meteorological data to see if certain environmental factors have a significant impact on the virus in the real world. At this point it is too early to say, declared the National Academy of Sciences in a report on April 7, 2020, but the research continues.
Learning to Live with Social Isolation
Billions of people are facing something that NASA astronauts have plenty of experience with—living in social isolation for long periods with just a few other people. Here are some tips from astronaut Anne McClain and psychologist Tom Williams.
Tags: coronavirus, covid-19
El presidente Trum ha venido manifestando desde que entro el virus a los EE UU, que este para la propagacion cuando cambie la estacion de frio a calor o verano.y esto no se a dado.Yo creo por mi observacion de la propagacion rapida del virus, son muchos factores que tenemos que estudiar: El clima, la humedad, la exagerada contaminacion del aire como:NO2-El PM 2.5- Altas concentraciones de AEROSOLES Y LA CAPA DE OZONO.LA CALIDAD DEL AGUA, LAS CONDICIONES HIGIENICAS etc.
I agree as Dario Lopera explained, May 16, 2020 at 5:18 pm
President Trump has been declaring since the virus entered the United States, that it is for the spread when the season changes from cold to hot or summer, and this has not happened, I believe from my observation of the rapid spread of the virus There are many factors that we have to study: Climate, humidity, exaggerated air pollution such as: NO2-PM 2.5- High concentrations of AEROSOLS AND THE OZONE LAYER, WATER QUALITY, HYGIENIC CONDITIONS, etc.