Sunday, May 10, 2020

Glacial ice will likely hold records of the COVID-19 pandemic, researchers say

by Laura Arenschield, The Ohio State University

Lonnie Thompson. Credit: The Ohio State University

Ice from glaciers around the world, undisturbed for centuries, show changes in how societies functioned throughout history—and will likely hold a record of the current impact of the COVID-19 pandemic for future generations.

The story of how the pandemic is affecting societies around the world is still unfolding, but ice accumulating on high-elevation ice fields around the world, as well as in Greenland, is almost certainly collecting physical, chemical and biological evidence of this time, said two researchers who have devoted their professional lives to studying ice.

"These records will be locked into the ice and preserved," said Lonnie Thompson, distinguished professor of earth sciences at The Ohio State University and a senior research scientist at Ohio State's Byrd Polar and Climate Research Center. "And that means that 100 or 200 years from now, that ice will be showing anything that is in the atmosphere now, and that will tell future generations about what is happening now."

There are signs already that the current COVID-19 pandemic is affecting Earth's atmosphere: As people stayed home and drove less, nitrogen dioxide and sulfur dioxide levels dropped over China and throughout much of the United States. Both are potent pollutants that primarily form by burning gas and oil—the fossil fuels that power most of our vehicles.

That decrease in nitrogen dioxide and sulfur dioxide levels will be evident in the nitrate and sulfate levels in ice cores retrieved by future glaciologists, Thompson said. There might be other signs of the pandemic that future scientists find in ice that is forming now—signs that today's scientists don't know about yet.

"Of course, this assumes that glaciers will continue to exist in the future," Thompson said.

Thompson for decades has led teams of scientists into some of the world's most remote areas to drill long columns of glacier ice, called cores. Snow and ice form each year on glaciers around the world. In the coldest parts of the planet, snow and ice don't melt—it all just accumulates year by year, stacking one year's snow and ice on top of all the previous years and on and on over thousands of years.

Snow and ice trap whatever is in the atmosphere at the time it forms. Researchers know that includes chemicals, minerals, as well as microbes such as bacteria and viruses, and other organic materials like the stems and leaves of plants.


That means the cores act as a timeline of sorts, in some cases showing changes in the atmosphere year-by-year, much like the rings of a tree.

In 2018, the ice core research team—which also includes microbiology professors and researchers from Ohio State—published a protocol for evaluating the cores for bacteria in the scientific journal Frontiers in Microbiology. A second paper describing a protocol for evaluating the cores for viruses is under review now.

The ice cores show environmental changes, both natural and those induced by humans. They show the onset of the Industrial Revolution in the late 1700s, and they point to the time when humans began adding chemicals, such as sulfate and nitrate, to the atmosphere and adding lead to gasoline. Ice cores also document the passage of the Clean Air Act in 1970, after which atmospheric sulfate concentrations have declined.

The cores also show the Plague, also known as the Black Death, a pandemic during the mid-1300s that remains the deadliest in recorded human history. On some glaciers the ice that formed during the years of the Plague contains less lead than ice that formed during preceding years, likely because mining and smelting activities sharply dropped off during that time, just as today, some industrial activities have stopped.

The cores show evidence of other disasters that severely affected the way humans live. During a major drought that lasted from around 1345 to 1390, Earth experienced the Black Death that peaked around 1350. As a result of the drought, lakes and other inland waters dried up and the chemical composition of the atmosphere changed—less moisture, more dust.

"The drought reduced the thickness of tree rings, but it also shows up in the ice cores in China and from Quelccaya ice cap in the Andes of Peru as decreases in the thickness of annual ice layers," Thompson said. "And we see higher levels of mineral dust and chloride and fluoride, which originate from evaporation as lakes dry up."

The cores show in part the way humans and the environment are connected, Thompson said. Because of that drought, people moved away from the farmlands where they'd lived for centuries and into cities. When the populations concentrated—and before humans developed better treatments and sanitation—illnesses, including the Plague, began to spread more easily.

The cores show physical changes, which can explain some of the science behind what happened around the world, but the researchers also need written histories from humans in order to understand exactly what happened. The cores show that in the mid-1300s something happened to increase dust in the atmosphere. But knowing exactly what occurred requires an understanding of what was happening in the world at that time.

"It's like being a detective as we are with the ice cores—if all you have are the ice core records, and you don't have the human history, you might miss the connection," said Ellen Mosley-Thompson, distinguished university professor of geography and a senior research scientist at the Byrd Center. "For example, if you are looking for evidence of old viruses, then you have to know precisely where to look in the cores."

Even more interesting, ice cores gathered from different places around the world show similar changes at the same times. For example, ice from the HuascarĂ¡n in Peru and ice from the Tibetan Plateau in the Himalayan Mountains, as well as ice from Kilimanjaro in Africa, all show evidence of a drought around 4,200 years ago—the same signature of changes in dust, chemicals and isotope levels, half a world away.

The cores show the drought, but it is only with recorded histories that researchers see what happened: The drought, many scientists believe, led to the collapse of cultures around the world—the Akkadian empire in Mesopotamia, societies around the Indus River and the Yangtze River in Asia, and the Old Kingdom in Egypt.

"The ice core records, along with many other paleoclimate records, show evidence of a major drought throughout the low latitudes around the world," Mosley-Thompson said. "And at the same time, a number of societies collapsed, even though these societies were not physically connected at all."

The history in the cores—of humankind changing the environment, adjusting to those changes, and dealing with hardship as well as causing problems and trying to fix them—can remind us that we've dealt with issues like the COVID-19 pandemic before, Thompson said.

"To me, it's always: Can we look at our past history and determine how we behaved and how cultures survived these major events?" he said. "I suspect there are some lessons here that would be useful today."

Explore further 

More information: Zhi-Ping Zhong et al. Clean Low-Biomass Procedures and Their Application to Ancient Ice Core Microorganisms, Frontiers in Microbiology (2018). 

Release date. August 30, 2009 (2009-08-30) (Nuremberg Fantasy Filmfest). Country, United States Canada. Language, English. The Thaw is a 2009 American science fiction horror thriller film directed by Mark A. Lewis and ... They transport the polar bear to their research station. David calls his daughter Evelyn (Martha ...


Mar 4, 2014 - An ancient virus has been brought back to life after lying dormant for 30000 years in the Siberian permafrost, scientists say.

May 4, 2017 - Long-dormant bacteria and viruses, trapped in ice and permafrost for centuries, ... and as the soils melt they are releasing ancient viruses and bacteria that, ... in the Arctic Circle, a 12-year-old boy died and at least twenty people were ... takes about 10,000 years for water from the surface to get into the cave.

Apr 29, 2019 - Nearly 200000 new marine viruses were identified in the Earth's ... sea ice along the Northwest Passage in the Canadian Arctic Archipelago. ... Thawing permafrost may release carbon and methane, contributing to further global warming ... hole at Copernicus' Atmospheric Monitoring Service (CAMS) made ...
Apr 10, 2020 - As the Arctic warms, 'zombie' viruses and microbes are rising from the thawing ground. ... Like a scene out of a sci-fi movie, the scientists thawed it and ... opening up new ways for microbes to get around and infect animals and humans. ... The final report of the meeting in Hannover hasn't been released yet.

Vitamin D appears to play role in COVID-19 mortality rates

vitamin d
Credit: CC0 Public Domain
After studying global data from the novel coronavirus (COVID-19) pandemic, researchers have discovered a strong correlation between severe vitamin D deficiency and mortality rates.
Led by Northwestern University, the research team conducted a statistical analysis of data from hospitals and clinics across China, France, Germany, Italy, Iran, South Korea, Spain, Switzerland, the United Kingdom (UK) and the United States.
The researchers noted that patients from countries with high COVID-19 mortality rates, such as Italy, Spain and the UK, had lower levels of  D compared to patients in countries that were not as severely affected.
This does not mean that everyone—especially those without a known deficiency—needs to start hoarding supplements, the researchers caution.
"While I think it is important for people to know that vitamin D deficiency might play a role in mortality, we don't need to push vitamin D on everybody," said Northwestern's Vadim Backman, who led the research. "This needs further study, and I hope our work will stimulate interest in this area. The data also may illuminate the mechanism of mortality, which, if proven, could lead to new therapeutic targets."
The research is available on medRxiv, a preprint server for health sciences.
Backman is the Walter Dill Scott Professor of Biomedical Engineering at Northwestern's McCormick School of Engineering. Ali Daneshkhah, a postdoctoral research associate in Backman's laboratory, is the paper's first author.
Backman and his team were inspired to examine vitamin D levels after noticing unexplained differences in COVID-19  from country to country. Some people hypothesized that differences in healthcare quality, age distributions in population, testing rates or different strains of the coronavirus might be responsible. But Backman remained skeptical.
"None of these factors appears to play a significant role," Backman said. "The healthcare system in northern Italy is one of the best in the world. Differences in mortality exist even if one looks across the same age group. And, while the restrictions on testing do indeed vary, the disparities in mortality still exist even when we looked at countries or populations for which similar testing rates apply.
"Instead, we saw a significant correlation with vitamin D deficiency," he said.
By analyzing publicly available patient data from around the globe, Backman and his team discovered a strong correlation between vitamin D levels and cytokine storm—a hyperinflammatory condition caused by an —as well as a correlation between vitamin D deficiency and mortality.
"Cytokine storm can severely damage lungs and lead to  and death in patients," Daneshkhah said. "This is what seems to kill a majority of COVID-19 patients, not the destruction of the lungs by the virus itself. It is the complications from the misdirected fire from the immune system."
This is exactly where Backman believes vitamin D plays a major role. Not only does vitamin D enhance our innate immune systems, it also prevents our immune systems from becoming dangerously overactive. This means that having healthy levels of vitamin D could protect patients against severe complications, including death, from COVID-19.
"Our analysis shows that it might be as high as cutting the mortality rate in half," Backman said. "It will not prevent a patient from contracting the virus, but it may reduce complications and prevent death in those who are infected."
Backman said this correlation might help explain the many mysteries surrounding COVID-19, such as why children are less likely to die. Children do not yet have a fully developed acquired immune system, which is the immune system's second line of defense and more likely to overreact.
"Children primarily rely on their innate immune system," Backman said. "This may explain why their  rate is lower."
Backman is careful to note that people should not take excessive doses of vitamin D, which might come with negative side effects. He said the subject needs much more research to know how vitamin D could be used most effectively to protect against COVID-19 complications.
"It is hard to say which dose is most beneficial for COVID-19," Backman said. "However, it is clear that vitamin D deficiency is harmful, and it can be easily addressed with appropriate supplementation. This might be another key to helping protect vulnerable populations, such as African-American and elderly patients, who have a prevalence of vitamin D deficiency."
More information: Ali Daneshkhah et al. The Possible Role of Vitamin D in Suppressing Cytokine Storm and Associated Mortality in COVID-19 Patients, MEDRXIV (2020).           DOI: 10.1101/2020.04.08.20058578
Provided by Northwestern University 

U.S. COVID-19 death rate is 1.3%, study finds

U.S. COVID-19 death rate is 1.3%, study finds
(HealthDay)—Among detected cases of COVID-19 in the United States, 1.3% of patients will die from the illness, according to a new calculation. But that rate could increase if current precautions and health care capacities change, the study's author said.
The 1.3% rate calculation is based on cumulative deaths and detected cases across the United States, but it does not account for undetected cases, where a person is infected but shows few or no symptoms, according to researcher Anirban Basu.
If those cases were added into the equation, the overall death rate might drop closer to 1%, Basu said.
He directs the department of pharmacy at the University of Washington in Seattle.
Basu stressed that the  apply "under the assumption that the current supply [as of April 20] of health care services, including hospital beds, ventilators, and access to health care providers, would continue in the future." Declines in the availability of  could increase COVID-19 death rates.
Most crucially, social distancing and other preventive measures will help keep the U.S. COVID-19 death rate down, Basu said. Accordingly, recent White House COVID-19 Taskforce projections of 100,000 to 200,000 deaths this year from COVID-19 are made with assumptions about the effectiveness of measures that are currently in place, he said.
Many states are already moving to relax restrictions on "shelter in place" rules, with businesses, beaches and parks reopening.
The estimated COVID-19 death rate of 1.3% is still much higher than the U.S. death rate for seasonal flu for 2018-2019, which was just 0.1% of cases, according to the U.S. Centers for Disease Control and Prevention.
On the other hand, the new estimate is much lower than prior death rate calculations. For example, China's COVID-19 death rate was initially reported to be 5.6%, falling to 3.8% by Feb. 20. But that could be due to timing: As in China, U.S. rates were much higher in the early stages of the pandemic, Basu noted.
The new study's findings are based on 40,835 confirmed COVID-19 cases and 1,620 confirmed deaths in 116 counties across 33 states through April 20. Death rates varied widely across locales, with some counties recording a death rate of just 0.5% while others went as high as 3.6%.
According to Basu, determining the COVID-19 death rate is crucial in the fight against the  pandemic.
"When used with other estimating approaches, our model and our estimates can help disease and policy modelers to obtain more accurate predictions for the epidemiology of the disease and the impact of alternative policy levers to contain this pandemic," he wrote in the report published online May 7 in Health Affairs.
"The CDC reports a significant variation in fatality rates by age groups. Further work is required on this front," Basu added in a journal news release.
The estimate of the U.S. COVID-19  rate is "not outside the ballpark" of estimated rates available from other countries, but lower, he concluded.Follow the latest news on the coronavirus (COVID-19) outbreak
More information: The U.S. Centers for Disease Control and Prevention has more on COVID-19.
Journal information: Health Affairs 
Wristband monitors personal exposure to air pollution

by Colin Poitras, Yale University

Credit: Krystal Pollitt

Whether it comes from second-hand cigarette smoke, motor vehicle exhaust, building materials or the fumes from household cleaning supplies, toxic air is all around us.

Doctors and scientists are notably concerned about air pollution as it ranks among the top 10 global health risks associated with non-communicable diseases. Organic air pollutants have been shown to contribute to respiratory and cardiac disease as well as reproductive and neurobehavioral problems.

Yet measuring personal exposure levels remains tricky.

Some scientists use expensive air monitors placed in strategic locations. Others employ bulky backpacks loaded with expensive filters and pumps. Wearable detection badges are useful for people working dangerous jobs. Yet each approach has its own limitations, from time consuming laboratory analysis to high risks of unrelated environmental contamination.

Yale School of Public Health Assistant Professor Krystal Pollitt is introducing a new option–a lightweight, unobtrusive, wearable air pollutant sampler she calls the Fresh Air wristband.

During initial testing, the device reliably collected and retained air pollutant molecules over time, allowing for easy analysis and scale-up to monitor large segments of a population.

While the wristband was initially designed to detect air pollutants, in light of the current pandemic, Pollitt is exploring its potential use in monitoring exposure to small airborne pathogens such as coronavirus. She is working with Jordan Peccia, the Thomas E. Golden Jr. professor of chemical and environmental engineering, and Dr. Jodi Sherman, associate professor of anesthesiology and of epidemiology (environmental health sciences), in conducting a field test of the wristbands' capabilities with the help of health care providers at Yale New Haven Hospital.

In a study recently published in the journal Environmental Science & Technology Letters, Pollitt and a team of YSPH graduate students used the Fresh Air wristband to investigate air pollutant exposure in a group of school-aged children in Springfield, Massachusetts. In this first large scale test of the device, the wristbands detected elevated levels of exposure to pyrene, nitrogen dioxide and other pollutants among children with asthma, those living in certain housing conditions and those taking cars rather than buses to school, illustrating the wristband's potential applications.
Credit: Yale University

"These results show the potential utility of the Fresh Air wristband as a wearable personal air pollutant sampler capable of assessing exposure among vulnerable populations, especially young children and pregnant women," said Pollitt, who holds joint appointments in the YSPH Department of Environmental Health Sciences and the Department of Chemical and Environmental Engineering in the Yale School of Engineering & Applied Science.

So how does it work? The Fresh Air wristband looks like a fashionable Swatch wristwatch with a quarter-sized plastic air sampler embedded where the watch face would normally be. Pop open the cover and inside is a small foam pad coated with a chemical (triethanolamine) that reacts with nitrogen dioxide, an air pollutant that is a byproduct of burned fossil fuels such as coal, oil and natural gas. The device also contains a small sorbent bar made of a silicone-based polymer (polydimethylsiloxane). The bar collects volatile organic compounds (the chemicals found in such things as glue, pesticides, cigarettes, and solvents) and polycyclic aromatic hydrocarbons (PAHs) like phenanthrene and chrysene, which can be found in car exhaust, cigarette smoke, wood smoke and fumes from cooking. The Fresh Air wristband is particularly good at capturing heavier molecular compounds and retaining them over multiple days.

The sampling pad and sorbent bars contained in the wristband can be easily inserted and removed, especially when testing personal exposures over time. As samples are collected, the wristband materials are placed in airtight amber glass vials for preservation until chemical analysis. Rather than extracting the samples using solvents (a labor-intensive lab process), Pollitt says her device allows for faster and easier analysis using mass spectrometry to get a detailed chemical profile of a person's chemical exposures.

In the Springfield study, 33 children ages 12 and13 wore the wristbands for 5 days, only taking them off at night where they were left next to their beds. The participants were predominately girls (69%) and a third had physician-diagnosed asthma. 

Key findings included:

Girls had higher levels of pollutant exposure than boys.

Children with asthma had elevated exposures to pyrene and acenapthylene, two aromatic hydrocarbons which could exacerbate breathing problems.

Children living in houses with gas stoves had increased exposure to certain pollutants compared to those with electric stoves.

Children in homes using stove ventilation hoods had lower exposure levels of nitrogen dioxide compared to homes without ventilation hoods.

Children who traveled by car to school had increased levels of aromatic hydrocarbons compared to their peers who walked or traveled by bus.

The research team has expanded its work globally and is currently using hundreds of the Fresh Air wristbands to explore chemical exposures among pregnant women, seniors and other demographics in other countries.

Pollitt, who invented the device, is currently in the process of filing for a patent. Students from her research group, Elizabeth Lin, Jeremy Koelmel, Alex Chen, and Anmol Arora, are forming a start-up company to make the product available to the public. The group was a recent finalist in this year's Startup Yale innovation and entrepreneurship competition. They have also received multiple start-up grants from the Tsai Center for Innovative Thinking at Yale and InnovateHealth Yale.

Pollitt envisions many important uses for the Fresh Air wristband.

"We see the Fresh Air wristband being an important tool in future epidemiological studies and potentially also for citizen science," said Pollitt. "It can provide insight into a single individual's pollutant profile and be scaled-up to collect data across large populations, which can help us better understand the environmental risk factors for disease."

More information: Elizabeth Z. Lin et al. The Fresh Air Wristband: A Wearable Air Pollutant Sampler, Environmental Science & Technology Letters (2020).

Journal information: Environmental Science & Technology Letters

Provided by Yale University 


Wristband samplers show similar chemical exposure across three continents

by Chris Branam, Oregon State University  APRIL 22, 2019

Oregon State University

To assess differences and trends in personal chemical exposure, Oregon State University researchers deployed chemical-sampling wristbands to individuals on three continents.

After they analyzed the wristbands that were returned, they found that no two wristbands had identical chemical detections. But the same 14 chemicals were detected in more than 50 percent of the wristbands returned from the United States, Africa and South America.

"Whether you are a farmworker in Senegal or a preschooler in Oregon, you might be exposed to those same 14 chemicals that we detected in over 50 percent of the wristbands," said Holly Dixon, a doctoral candidate at Oregon State and the study's lead author.

The study, funded by the National Institutes of Health, is published in the journal Royal Society Open Science.

This study demonstrates that the wristbands, which absorb chemicals from the air and skin, are an excellent screening tool for population exposures to organic chemicals, said Kim Anderson, an OSU environmental chemist and leader of the research team. It's notable, she said, that most of the 14 common chemicals aren't heavily studied.

"Some of these are not on our radar, yet they represent an enormous exposure," she said. "If we want to understand the impact of chemical exposures, this was very enlightening."

Anderson and her team invented the wristband samplers several years ago. They have been used in other studies, including one that measured Houston residents' exposure in floodwaters after Hurricane Harvey.

In this study, 242 volunteers from 14 communities in four countries—the United States, Senegal, South Africa and Peru—wore a total of 262 wristbands. The Houston residents were included in the study.

Oregon State researchers analyzed the wristbands for 1,530 unique organic chemicals. The number of chemical detections ranged from four to 43 per wristband, with 191 different chemicals detected. And 1,339 chemicals weren't detected in any wristband. They detected 36 chemicals in common in the United States, South America and Africa.

Because the wristbands don't measure chemical levels, the study authors didn't make any conclusions regarding health risks posed by the wearers of wristbands. But certain levels of chemical exposures are associated with adverse health outcomes.

For example, exposure to certain polycyclic aromatic hydrocarbons (PAHs) has been associated with cancer, self-regulatory capacity issues, low birth weight and respiratory distress. These chemicals were found in many of the wristbands.

Exposure to specific flame retardants, which were found in wristbands in the U.S. and South America, has been associated with cancer, neurotoxicity and cardiotoxicity.

And exposure to endocrine-disrupting chemicals (EDCs) has been linked to health effects such as low semen quality, adverse pregnancy outcomes and endocrine-related cancers.

The researchers detected 13 potential EDCs in more than half of all the wristbands.

Other notable findings in the study included:

Consumer product-related chemicals and phthalates—a group of chemicals found in plastics and vinyl—were a high percentage of chemical detections across all study locations.

U.S. children—11 years old or younger—had the highest percentage of flame-retardant detections compared with all other participants.

Wristbands worn in the Houston area immediately after Hurricane Harvey had the highest mean number of chemical detections—28—compared with other study locations, where the means ranged from 10-25.

Flame retardants were not detected in any wristbands in Africa. The absence of flame retardants in Senegal and South Africa wristbands may reflect a difference in flammability protection standards, housing materials and/or furniture used in certain Africa communities compared with communities in the U.S. and South America.

Toxicological and epidemiological studies often focus on one chemical or chemical class, yet people are exposed to complex chemical mixtures, rather than to a single chemical or an individual chemical class. The results reveal common chemical mixtures across several communities that can be prioritized for future study, Dixon said.

The study authors noted two significant limitations. They relied on a convenience sample of volunteers and did not randomly recruit participants, so the chemical exposures they reported may not be representative of all chemical exposures in the 14 communities.

Also, deployment length varied depending on the specific project. But they didn't detect a difference in the number of chemicals detected based on how long a participant wore a wristband.

Explore further

More information: Holly M. Dixon et al, Discovery of common chemical exposures across three continents using silicone wristbands, Royal Society Open Science (2019).


Journal information: Royal Society Open Science

Provided by Oregon State University 

Study: WeChat content outside China used for censorship

WeChat
Credit: CC0 Public Domain
Documents and images shared by users outside China on WeChat, the country's most popular social media platform, are being monitored and cataloged for use in political censorship in China, a new report says.
Citizen Lab, the University of Toronto online watchdog, says in Thursday's report that WeChat users outside of China are thus unwittingly contributing to censorship. That would bar the content they share that censors deem inappropriate from being seen by users inside China.
WeChat's parent, Tencent, issued a statement Friday saying that said "with regard to the suggestion that we engage in content surveillance of international users, we can confirm that all content shared among international users of WeChat is private."
WeChat was not known to be subjecting accounts registered outside of China to the same pervasive surveillance as domestic accounts. An estimated 100 million people use WeChat outside China, according to the Munich firm MessengerPeople.
Citizen Lab says its findings are based on technical experiments. It says it did not detect censorship in communications among accounts registered outside China. But it says it did identify surveillance of content—files and images—being sent exclusively between such accounts.
Tencent does not clearly state in its terms of service that it is surveilling accounts registered outside of China, Citizen Lab says. In its statement Friday, Tencent said "our policies and procedures comply with all laws and regulations in each country in which we operate" and said "privacy and data security are core values" for the company.
The researchers say they first contacted WeChat in January asking about their findings. They said they have not received a response despite WeChat's acknowledgment in February that it had received their questions.
With more than a billion users, WeChat is the world's No. 3 messaging app behind Facebook's WhatsApp and Messenger.
Within China, WeChat is censored and expected to adhere to content restrictions set by authorities.

Kids without computers are being left behind with schools closed by the coronavirus

Not all kids have computers – and they're being left behind with schools closed by the coronavirus
Credit: Chart: The Conversation, CC-BY-ND Source: University of Southern California Dornsife College of Letters, Arts and Sciences’ “Understanding Coronavirus in America” survey
Since 2014, the Dornsife Center for Economic and Social Research, located at the University of Southern California, has been tracking trends in health economic well-being, attitudes and behaviors through a nationwide survey for its Understanding America Study, asking the same individuals questions over time.
The nationally representative survey is now assessing how COVID-19 is affecting U.S. families. This includes their health, economic status and, for the first time, educational experiences. With two other education researchers Amie Rapaport and Marshall Garland, we analyzed the educational experience data that have recently been added to the study.
What we did
We worked with the broader Understanding America Study team to ask Americans about the effects the pandemic is having on students and their families.
About 1,450 families with children answered these questions between April 1 and April 15.
We found that nearly all—about 85% – of families with at least one child between kindergarten and their senior year of high  have  and a computer they can use for distance learning while school buildings are shuttered.
However, we found large disparities in technology access based on  income. Among the 20% of American households who make US$25,000 or less a year, just 63% of schoolchildren have access to a computer and the internet. In comparison, essentially all students from the most affluent families—those whose parents make $150,000 annually or more—do.
To be sure, that doesn't mean a third of poor kids are being locked out of getting an online education. Many of those students are also using tablets and smartphones to participate in educational activities. However, the types of educational activities a  can easily engage in with a computer and wireless internet –such as writing long essays—are broader than the types possible on a tablet or an even smaller screen and with just a cellular connection.
These inequities can leave low-income families scrambling for wireless access. Some of the limited options available can include include working from a car parked outside a local library or a McDonald's parking lot.
Why it matters
There's a big gap between how much access rich and poor children have to technology. This is known as the "digital divide."
This disparity contributes to the achievement gaps between students based largely on their .
These findings show that the digital divide is playing out in real time during this pandemic in ways that are sure to lead to unequal negative effects on already disadvantaged students.
What's next?
Most schools in the country are likely to remain closed for months – long after we collected this initial data. We believe that it's possible that this divide will narrow once more districts distribute computers, tablets and other hardware, more communities take steps to expand broadband access to those who can't afford it and teachers get better at educating kids online.
There's a chance that federal help could arrive, should Congress pass the Emergency Educational Connections Act of 2020, a measure authored and backed by House Democrats aimed at narrowing the . It would normally be states—which provide the largest share of funding for —that would address issues like technology in schools, but with states facing mounting budget constraints that's going to be a big challenge. A similar bill is pending in the Senate.
In our view, without federal intervention, these gaps will not meaningfully narrow.
COVID-19 crisis reveals 'digital divide' for L.A. County students
Provided by The Conversation This article is republished from The Conversation under a Creative Commons license. Read the original article.The Conversation

How the flowers you buy your mom for Mother's Day may be tied to the US war on drugs

What does Mother's Day have to do with cocaine?
Very little, most people would think. But as an economist, I often explain to my students that the world is economically connected, often in strange ways. The flower business is one of those strange economic connections.
Mother's Day, which this year falls on May 10, is typically big for the American floral industry, which depends on it for over a quarter of all holiday flower sales. It's especially important to flower vendors this year as the coronavirus has ravaged the industry, affecting both supply and demand.
About a third of cut flowers purchased in the U.S. come from California, while the rest are imported. About 80% of those come from Colombia or Ecuador.
The story of how both countries became such an important source of flowers for the U.S. can be traced back to the U.S. war on drugs.
In the late 2000s, the U.S. and Colombian government were looking for new ways to stem the flow of cocaine into the U.S. Part of the strategy involved law enforcement: increasing interdictions to stop drugs before they crossed the border and ramping up arrests of people selling drugs in the U.S.
Another part of this strategy, however, was to convince farmers in Colombia to stop growing coca leaves, a traditional Andean plant that provides the raw ingredient for making cocaine, by giving them preferential access to U.S. markets if they grow something else.
The goal of the program was to give these subsistence farmers a legal crop that would be roughly as profitable as growing coca leaves—whether flowers, honey or coffee. This is formally called crop substitution.
In theory, by cutting back the supply of coca leaves, the price of the key raw material in cocaine rises. This cost increase is passed along the supply chain, raising the price of cocaine at every point.
Why is raising the price of cocaine important? A basic idea in economics is the "law of demand," which says the higher the price of a product the less people buy, holding everything else constant. Pushing up the price of cocaine should reduce the amount Americans consume.
Not just Colombia but also Ecuador, Bolivia and Peru—all coca-producing countries—get duty-free access to U.S. markets in exchange for clamping down on illegal drugs, under the Andean Trade Promotion and Drug Eradication Act.
Has crop substitution worked?
Well, not to eradicate the  market. Only last year Colombia had a record coca crop, and the street price of cocaine hasn't budged. There are complicated reasons for this, including the persistence of U.S. demand for drugs, regardless of source, the ingenuity of  trafficking organizations, and the cultural significance of coca leaf in the Andean region.
But this failed U.S. drug policy did lead to a surge in cut flower exports to the U.S. from both Colombia and Ecuador. Colombia exported US$800 million worth of flowers to the U.S. in 2019, up from $350 million in 2000. Ecuador's exports tripled from $90 million in 2000 to $270 million in 2019. As a result of the increased supply, flower  in the U.S. rose less than average inflation.
So if you do manage to find  this Mother's Day, both your mom and the farmers who grow them will thank you for it.Colombia to stop spraying coca crops with glyphosate herbicide
Provided by The Conversation