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The Green New Deal and Coronavirus: Intersections

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Remember the Green New Deal (see the February 19, 2019 blog)? Representative Alexandria Ocasio-Cortez (AOC) and Senator Ed Murphy introduced the broad resolution to both houses of congress last year. To emphasize the breath of the resolution, here is a section of the bill:

Resolved, That it is the sense of the House of Representatives—

(1) that it is the duty of the Federal Government to create a Green New Deal—

(A) to achieve net-zero greenhouse gas emissions through a fair and just transition for all communities and workers;
(B) to create millions of good, high-wage jobs and ensure prosperity and economic security for all people of the United States;
(C) to invest in the infrastructure and industry of the United States to sustainably meet the challenges of the 21st century;
(D) to secure for all people of the United States for generations to come

(i) clean air and water;
(ii) climate and community resiliency;
(iii) healthy food;
(iv) access to nature; and
(v) a sustainable environment…

The Sierra Club summarized it in the form of a Venn diagram:

Green New Deal, climate, jobs, equity

Figure 1 – Venn diagram of the Green New Deal

Unsurprisingly, on March 25, 2019, the resolution failed to advance in the Republican-controlled Senate.

Less than a year later, COVID-19 started to spread throughout the world.

Two weeks ago, we saw a new analysis of expected population growth trends in the 21st Century:

July 14, 2020

Reposting of press release published by The Lancet

  • By 2100, projected fertility rates in 183 of 195 countries will not be high enough to maintain current populations without liberal immigration policies.

  • World population forecasted to peak in 2064 at around 9.7 billion people and fall to 8.8 billion by century’s end, with 23 countries seeing populations shrink by more than 50%, including Japan, Thailand, Italy, and Spain.

  • Dramatic declines in working age-populations are predicted in countries such as India and China, which will hamper economic growth and lead to shifts in global powers.

  • Liberal immigration policies could help maintain population size and economic growth even as fertility falls.

  • Authors warn response to population decline must not compromise progress on women’s freedom and reproductive rights.

This means that for a more complete look at what is going on in the world and what the future of the Green New Deal might look like, we are going to have to expand the Venn diagram from Figure 1. We will need to take into account both the COVID-19 pandemic and the expected changes in world population. So now we need at least 5 circles in the diagram. That is a lot to keep track of.

As the Venn diagram shows, the climate, jobs, and equity all overlap. The other two do as well. Next week I will try to expand the diagram to include the missing components of the pandemic and projected global population changes.

But not all of the circles have the same time dependence. When we talk about climate change and global population changes, our time span is the rest of the century. When we speak about jobs and equity, we are looking at the present and near future. As for the pandemic, we expect it to either disappear or at least become more manageable within the next year or two.

For now, we saw some of the overlap between the coronavirus and climate change over the weekend. Figure 2 shows the coronavirus distribution in the US. In my morning newspaper (the NYT) I see the updates to this map every day. I saw it in April when I was in the middle of the epicenter of the pandemic and I see it now as the virus moves to the Southeast and the West. Florida, Texas, and California are now the biggest hot spots.

Coronavirus hot spots in the US

Figure 2Coronavirus cases in the US from this weekend

But the pandemic is not the only emergency that these states are facing. The year’s first hurricane hit Texas this weekend. Figure 3 illustrates its trajectory. Authorities advised people in southeast Texas to evacuate. How do you evacuate while maintaining social distancing, though? How will the pandemic impact the rescue operations needed to mitigate the impact of the hurricane?

Figure 3projected path of Hanna, the first hurricane of 2020 (from Friday, July 24, 2020)

Climate change is amplifying both the frequency and the intensity of hurricanes and tornadoes all over the world. The same holds for fire as droughts increase. Arizona has seen an intersection between fires and the coronavirus. One fire raged in Tucson, Arizona for nearly two months, eating up almost 120,000 acres, even as Arizona’s coronavirus cases skyrocketed. These interactions will only amplify as long the pandemic persists.

Meanwhile, in politics, Joe Biden has endorsed the Green New Deal in every aspect but its name. An article in The Guardian elaborates:

On Tuesday, Joe Biden did something unprecedented for a Democratic candidate assured of nomination: he moved left. In a speech delivered from Wilmington in his home state of Delaware, Biden unveiled the most ambitious clean energy and environmental justice plans ever proposed by the nominee of a major American political party. The plans, which the Biden campaign described to reporters as “the legislation he goes up to [Capitol Hill] immediately to get done,” outline $2tn in investments in clean energy, jobs and infrastructure that would be carried out over the four years of his first term.

Forty percent of these investments would be directed to communities of color living on the toxic edge of the fossil fuel economy – communities that have also been among the most devastated by the coronavirus pandemic. Biden proposes to pair these investments with new performance standards, most notably a clean electricity standard that would transition the United States to a carbon pollution-free power sector by 2035.

 To get humanity through the rest of the century we will need strong leadership and commitments to mitigation (especially regarding climate change). The next few months will provide important yardsticks for how hard those goals will be to accomplish. We should be looking at two major events this autumn: the US presidential elections and the global COVID-19 situation. Specifically, we will be watching how the first wave of global infection begins to subside and when the (almost) inevitable second wave will show up. It’s likely that the latter will coincide with flu season, which might make everything much more complicated. The outcome of both events will depend on us (adults) and the degree of commitment that we have to our children and grandchildren.

The US election is especially important given the country’s central global roles in both economics and military power. We need to try to mitigate global disasters such as climate change, the pandemic, and projected shifts in population demographics. Denying the existence of these threats is the opposite of effective.

Joe Biden’s commitment to the spirit of the Green New Deal gives me hope. This is especially true in contrast to the despair that President Trump’s repeated denial of climate change has wrought. Two trillion dollars in four years looks like a lot of money at first. But the US has a GDP/capita of more than $20 trillion and the dollar so dominates global currency that up until now, we have almost been able to print money at will under emergency conditions.

In light of those facts, $4tr/4 years is petty cash. For reference, the US congress immediately approved the more than $2-trillion-dollar CARES Act, and followed it up with a similar chunk of money. The EU has also been working to put forth aid money. The rest of the world is trying to follow to the best of its ability. The amount of money in Biden’s Green New Deal proposal shouldn’t be controversial. The timing of the changes it lays out leaves plenty of ground for productive negotiation without endangering the future.

Next week I will look more at how the components in the Venn diagram above intersect with the pandemic and projected global population changes. I hope to emphasize the societal connections between equity and jobs, as well as how they tie in to other global calamities.

About climatechangefork

Micha Tomkiewicz, Ph.D., is a professor of physics in the Department of Physics, Brooklyn College, the City University of New York. He is also a professor of physics and chemistry in the School for Graduate Studies of the City University of New York. In addition, he is the founding-director of the Environmental Studies Program at Brooklyn College as well as director of the Electrochemistry Institute at that same institution.

Source: http://climatechangefork.blog.brooklyn.edu/2020/07/28/green-new-deal-coronavirus-intersections/

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Hope for the Best, Prepare for the Worst: COVID-19

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Last week, I promised to shift my focus to COVID-19’s impact on developing countries. So far, most of the media attention has been limited to the coronavirus’ impact on richer countries (e.g. US, Europe, Australia, Canada, etc.). The exact definition of “rich” or “developed” differs by source but generally makes up roughly 15% of the population, globally. This leaves 85% of the global population unaccounted for. Given that COVID-19 is a global pandemic, we cannot stop it unless and until we address the ability of developing countries to fight it.

I have decided, however, to momentarily shelve that topic. Many of those wealthy countries are shifting their discussions from fighting the virus’ spread (flattening the curve) to mitigating its disastrous effects on the economy.

Countries have adopted social distancing policies, urging or demanding that their citizens stay home, since the virus emerged. China started these measures at the end of January; the US and Europe followed at the beginning of March (my school in NYC closed on March 11th). In the beginning of April, Dr. Deborah Birx, the White House coronavirus response coordinator, revealed the virus’ frightening impact in the US. She showed a model predicting the future development of the pandemic in the US, assuming continued social distancing.

Predicting the Future

I discussed her presentation in a previous blog (April 7th, 2020) but I didn’t go to any details about the model on which the predictions were based. At that time, we were looking at a possible 100,000-240,000 deaths just in the US. The curve shows the number of deaths per day vs. the expected number of days of the pandemic.

Deborah Birx, COVID-19, coronavirus, chart, prediction, model, modeling

Figure 1 Dr. Deborah Birx on March 31st

The curve in her chart comes from a model developed by Dr. Chris Murray from the University of Washington. His methodology incorporates almost everything we know about the pandemic. It is updated on an almost daily basis, using public sources.

IHME

The latest report from the Institute for Health Metrics and Evaluation (IMHE) came out on April 21st and included the data shown in Figure 2. It shows the number of deaths in the US starting to stabilize by the end of April, around 60,000.

COVID 19, coronavirus, IHME, report, forecast, future, model, deathsFigure 2 – Total number of deaths in the US, the predicted increases, and the estimates of the uncertainty in these predictions in the recent version of the IHME report.

Summary 

Background: Hospitals need to plan for the surge in demand in each state or region in the United States and the European Economic Area (EEA) due to the COVID-19 pandemic. Planners need forecasts of the most likely trajectory in the coming weeks and will want to plan for the higher values in the range of those forecasts. To date, forecasts of what is most likely to occur in the weeks ahead are not available for states in the USA or for all countries in the EEA.

 Methods: This study used data on confirmed COVID-19 deaths by day from local and national government websites and WHO. Data on hospital capacity and utilization and observed COVID 19 utilization data from select locations were obtained from publicly available sources and direct contributions of data from select local governments. We develop a mixed effects non-linear regression framework to estimate the trajectory of the cumulative and daily death rate as a function of the implementation of social distancing measures, supported by additional evidence from mobile phone data. An extended mixture model was used in data rich settings to capture asymmetric daily death patterns. Health service needs were forecast using a micro-simulation model that estimates hospital admissions, ICU admissions, length of stay, and ventilator need using available data on clinical practices in COVID-19 patients. We assume that those jurisdictions that have not implemented school closures, non-essential business closures, and stay at home orders will do so within twenty-one days.

Findings: Compared to licensed capacity and average annual occupancy rates, excess demand in the USA from COVID-19 at the estimated peak of the epidemic (the end of the second week of April) is predicted to be 9,079 (95% UI 253–61,937) total beds and 9,356 (3,526–29,714) ICU beds. At the peak of the epidemic, ventilator use is predicted to be 16,545 (8,083–41,991). The corresponding numbers for EEA countries are 120,080 (119,183–121,107), 32,291 (32,157– 32,425) and 28,973 (28,868–29,085) at a peak of April 6. The date of peak daily deaths varies from March 30 through May 12 by state in the USA and March 27 through May 4 by country in 31 the EEA. We estimate that through the end of July, there will be 60,308 (34,063–140,381) deaths from COVID-19 in the USA and 143,088 (101,131–253,163) deaths in the EEA. Deaths from COVID-19 are estimated to drop below 0.3 per million between May 4 and June 29 by state in the USA and between May 4 and July 13 by country in the EEA. Timing of the peak need for   hospital resource requirements varies considerably across states in the USA and across regions of Europe.

The IHME models and most other similar models worldwide are not designed as tools for policy makers and/or societies to decide when to start to relax lockdowns. They are meant to predict the capacity that health care systems will need to take care of the infected people. As everybody has seen, especially in hot spots such as New York City, when the flow of serious symptomatic infections exceeds the capacity of the healthcare system to handle these patients, many people die unnecessarily. Sending more people to already overcrowded healthcare facilities in the middle of pandemics is not the way to go. We have to be prepared.

The PDF format of the full report is a must-read. It lays out the methodology in great detail (some high math is involved) and points to the up-to-date global information on which the models are based. As in most predictive models, it includes three elements: past, future, and uncertainty (we can see them clearly in Figures 1 and 2). In Figure 1, the curve starts at the beginning of the impact in the US (18 deaths/day); in Figure 2 the starting point is basically the same. Close to three weeks later (April 20th), the total number of confirmed dead from COVID-19 in the US reached 40,000. From that point we start the prediction stage, including the range of uncertainty associated with these predictions.

Testing Antibodies

In the case of COVID-19, the main source of uncertainty is the global inability to measure the virus’ level of penetration. We have made some progress in this area, albeit small. The governor of New York State, Andrew Cuomo, just announced the results of a blood test of 3,000 randomly chosen NYC residents for new coronavirus antibodies. When a person is infected, his/her immune system creates specific antibodies that can fight the infection. Detection of these antibodies is one of the best indicators that a given person was infected with the virus.

The tests indicated 14% of the cases were positive. If we try (as the Governor did very cautiously) to expand this result to the entire population of New York State (about 20 million) and assume that the 3,000 people tested in NYC is a representative sample of the state population, the testing suggests that 14% of 20 million = 2.8 million people were infected. As of four days ago, the state officially reported about 260,000 positive cases, with mortalities close to 16,000 to date. Comparing these results would indicate that only 1 in 10 infected New Yorkers is being confirmed through testing. It would also indicate that the mortality rate of this pandemic in NYS is 0.5%, way below the 3.4% reported earlier by the WHO.

However, by universal admission (including that of Governor Cuomo) the sample of 3,000 from NYC is not representative of the rest of the state. Many of the infections throughout the world, including in NYC, are taking place in hot spots such as nursing homes, low-income neighborhoods, highly concentrated observant religious communities, etc. It will take many more tests to obtain reliable information—thus the uncertainty in the models.

Antibody test in various forms have already been taking place on an experimental basis throughout the world. But the tests are not reliably accurate. The results range from around 5% to 14% positive. There is agreement that such tests have the potential to give a wider view of the degree of infection than direct testing—especially because most of the latter goes to symptomatic cases.

After a Peak (If There Is One)

Nor do we know how exactly the pandemic will decline. It could be a single smooth event as shown directly in Figure 1 and indirectly in Figure 2 (Figure 2 shows cumulative deaths and daily deaths). Or it could—and most likely will—include several waves of infection before it plays out. The only valid “recent” precedent is the Spanish Flu of 1918-1919, which had an estimated fatality of one third of the global population. That pandemic ended after three waves, the middle one being the deadliest.

Let me now move to climate change. The issues are connected because, similarly to the present pandemic, we need to prepare in order to minimize the immense impacts. Preparation needs modeling of the future. We’ve discussed such modeling of climate change in previous blogs (type carbon intensity in the search box). Figure 3, for example, comes from my July 10, 2018 blog.

GHG, global warming, stabilization, carbon intensity, modeling

Figure 3 – Projected carbon intensity of global temperature increase caused by climate change

The emission of carbon dioxide is a measurable quantity. The impact of the increase in global temperature is shown on the vertical axis. The area between the top line and the bottom line in the figure is an estimate of the uncertainty (as in Figures 1 and 2). In this case, the uncertainty is not caused by the lack of measurements but rather by unpredictable contributions from feedbacks (see again the July 10, 2018 blog). For instance, the enhanced evaporation of water vapor serves as an effective greenhouse gas. One of the important differences between Figure 1 and Figure 3 is that Figure 1 has a maximum, after which the impact decreases until it disappears (not counting possible waves). Figure 3 doesn’t have one, at least within a human timescale. Climate change is an even larger existential threat than COVID-19. We can’t go backward in time to prevent the coronavirus but it’s not too early to minimize anthropogenic climate impacts through changes in the way we live.

Source: http://climatechangefork.blog.brooklyn.edu/2020/04/28/hope-for-the-best-prepare-for-the-worst-covid-19/

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Scaling Properties of COVID-19

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Saturday was a beautiful spring day. The Brooklyn green market downstairs was open. The street and the market were relatively (in the pandemic era) crowded; well managed social distancing was enforced but many people went without masks. The talk of the town almost everywhere was whether or not to re-open and how to do so.

The Economist invited contributions from a few influential contributors to outline their views on a post-COVID-19 world. Among them was Bill Gates, co-founder of Microsoft and co-director of the Bill and Melinda Gates Foundation. The latter is one of the leading global charities, whose motto is, “All lives have equal value.”

He addresses the repercussions of the coronavirus. But the majority of his contribution focuses on his belief that a post-COVID-19 world cannot come about until we can develop effective vaccines and treatments to eradicate the virus everywhere:

WHEN HISTORIANS write the book on the covid-19 pandemic, what we’ve lived through so far will probably take up only the first third or so. The bulk of the story will be what happens next.

In most of Europe, East Asia and North America the peak of the pandemic will probably have passed by the end of this month. In a few weeks’ time, many hope, things will return to the way they were in December. Unfortunately, that won’t happen.

I believe that humanity will beat this pandemic, but only when most of the population is vaccinated. Until then, life will not return to normal. Even if governments lift shelter-in-place orders and businesses reopen their doors, humans have a natural aversion to exposing themselves to disease. Airports won’t have large crowds. Sports will be played in basically empty stadiums. And the world economy will be depressed because demand will stay low and people will spend more conservatively.

As the pandemic slows in developed nations, it will accelerate in developing ones. Their experience, however, will be worse. In poorer countries, where fewer jobs can be done remotely, distancing measures won’t work as well. The virus will spread quickly, and health systems won’t be able to care for the infected. Covid-19 overwhelmed cities like New York, but the data suggest that even a single Manhattan hospital has more intensive-care beds than most African countries. Millions could die.

Wealthy nations can help, for example, by making sure critical supplies don’t just go to the highest bidder. But people in rich and poor places alike will be safe only once we have an effective medical solution for this virus, which means a vaccine.

Keep it global

I hope wealthy nations include poorer ones in these preparations, especially by devoting more foreign aid to building up their primary health-care systems. Even the most self-interested person—or isolationist government—should agree with this by now. This pandemic has shown us that viruses don’t obey border laws and that we are all connected biologically by a network of microscopic germs, whether we like it or not. If a novel virus appears in a poor country, we want its doctors to have the ability to spot it and contain it as soon as possible.

The future, according to Mr. Gates, relies on our ability to eliminate the virus from all countries, regardless of their economic status. So far, we have focused almost exclusively on the richest countries in the world, including the US, Europe, and China (which the World Bank classifies as upper-middle income).

Table 1 lists the number of new coronavirus cases and the resulting deaths in the world’s 10 most populous countries. Together, they account for 60% of the global population. I used data compiled from the Johns Hopkins University database on May 1st.

 Table 1 – COVID-19 cases in the most populous countries (May 1, 2020)

COVID 19, coronavirus, population, death

The richest country on this list is the USA. The order of magnitude of difference in density of COVID-19 cases and deaths between the US and the other countries on the list is striking. These differences might result from other location-sensitive causes, but I find that a weak argument. The other major collections of COVID-19 concentrations have been in rich European countries such as Italy, UK, Spain, and France, which are not included in Table 1. Considering that (as I have mentioned in previous blogs) even in the US, the number of cases—and even deaths—are grossly underestimated, we can only conclude that we have no idea what is happening in low- and middle-income countries. Within the US, it was only recently, and in a few states, that COVID-19-related deaths outside of hospitals were included in tallies. Poverty has a direct correlation to weakness in medical infrastructure, so it is unsurprising that other countries have an even harder time estimating casualties. As Mr. Gates has noted, the pandemic cannot be eradicated until it can be dealt with globally.

We can see the scaling of the pandemic everywhere we look. I live in the hottest hot spot in the US: New York City.

Figures 1 and 2 provide the May 1st COVID-19 case distributions in my state:

COVID 19, coronavirus, New York, cases, deaths Figure 1New York State coronavirus numbers, as of May 1st

COVID 19, coronavirus, New York, cases, deathsFigure 2The distribution of coronavirus cases in New York State (NYS)

The data show that my state, which makes up 6% of the country’s population, is “home” to 30% of the cases in the US. Meanwhile, NYC accounts for 55% of the cases in NYS, even though it only makes up 42% of the state’s population. We also have data that show the distribution by zip code. From there, one can identify hot spots where people refuse to take social distancing and lockdown measures and/or it is impossible to implement those policies. Of course, essential workers such as the medical community, police, firemen, and crucial online or off-line retail providers (e.g. pharmacies and grocery stores) cannot stay home. Nursing homes are incredibly vulnerable, as are foreign laborers that work in rich countries, homeless people everywhere, and prisoners. Meanwhile, some orthodox religious communities view certain communal activities to be more important than individual safety. By their nature, most of these exceptions to social distancing have much higher concentrations in urban environment than rural ones. Thus, urban hot spots such as NYC, London and Paris attract major headlines for their outbreaks.

Stay safe, everyone, and thanks to those essential workers!

About climatechangefork

Micha Tomkiewicz, Ph.D., is a professor of physics in the Department of Physics, Brooklyn College, the City University of New York. He is also a professor of physics and chemistry in the School for Graduate Studies of the City University of New York. In addition, he is the founding-director of the Environmental Studies Program at Brooklyn College as well as director of the Electrochemistry Institute at that same institution.

Source: http://climatechangefork.blog.brooklyn.edu/2020/05/05/scaling-properties-of-covid-19/

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How Do We End a Pandemic?

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When I read my morning paper on May 4th, three articles jumped out at me:

WASHINGTON — As President Trump presses states to reopen their economies, his administration is privately projecting a steady rise in coronavirus infections and deaths over the next several weeks, reaching about 3,000 daily deaths on June 1 — nearly double the current level.

The projections, based on data collected by various agencies, including the Centers for Disease Control and Prevention, and laid out in an internal document obtained Monday by The New York Times, forecast about 200,000 new cases each day by the end of May, up from about 30,000 cases now. There are currently about 1,750 deaths per day, the data shows.

Net hospitalizations for cases of Covid-19, the disease caused by the virus, must either show a continuous 14-day decline or total no more than 15 new hospitalizations a day on average over three days. The latter would probably be a realistic goal only in less populated areas.

  • 14-day decline in virus-related hospital deaths, or fewer than five a day, averaged over three days. New York City and many other parts of the state have reached that benchmark, but Long Island and the Hudson Valley have not.

  • A three-day rate of new hospitalizations below two per 100,000 residents a day, something that was well beyond the grasp of New York City and its suburbs on Monday.

  • A hospital-bed vacancy rate of at least 30 percent, which Mr. Cuomo has said is necessary to be prepared for possible new waves of the disease in the future. Most parts of New York have met the threshold, despite more than 9,600 coronavirus patients still being hospitalized.

  • An availability rate of at least 30 percent for intensive care unit beds; 3,330 people remain in such units, often on ventilators, which are needed in severe cases of the disease.

  • A weekly average of 30 virus tests per 1,000 residents a month. This category could be the most challenging one to meet in many rural or more remote areas, where testing, and thus positive results, has lagged far behind major cities, like New York, which already is surpassing this goal.

  • Finally, the governor also wants at least 30 working contact tracers per 100,000 residents as part of a program led by Michael R. Bloomberg, the former New York City mayor, who has given $10.5 million for the effort. Mr. Cuomo has described the initiative as “a monumental undertaking,” requiring “an army” of tracers, some of whom will be public employees who have been redeployed.

As the climate continues to warm over the next half-century, up to one-third of the world’s population is likely to live in areas that are considered unsuitably hot for humans, scientists said Monday.

Currently fewer than 25 million people live in the world’s hottest areas, which are mostly in the Sahara region in Africa with mean annual temperatures above about 84 degrees Fahrenheit, or 29 Celsius. But the researchers said that by 2070 such extreme heat could encompass a much larger part of Africa, as well as parts of India, the Middle East, South America, Southeast Asia and Australia.

With the global population projected to rise to about 10 billion by 2070, that means as many as 3.5 billion people could inhabit those areas. Some of them could migrate to cooler areas, but that would bring economic and societal disruption with it.

The parts of the world that could become unsuitably hot “are precisely the areas that are growing the fastest,” said Timothy A. Kohler, an archaeologist at Washington State University and an author of the study, which was published in Proceedings of the National Academy of Sciences.

All three of these articles made me think of the 1918-1919 Spanish flu pandemic. One third of the world population (then below 2 billion) was infected. The flu left about 50 million dead, especially impacting European colonies that have since become independent developing countries. Within the US, about 650,000 people died.

 

Newspaper image from 1918 about the Spanish flu

The pandemic, which overlapped with the end of WW1, occurred only about one generation (25 years or so) after scientists first discovered viruses.

It is unnerving that—like the Spanish flu—climate change could decimate the world population. Pandemics have an end, though. Once the number of cases reaches a critical level, the virus begins to decline. Climate change is not self-terminating (at least not on a human time scale). With no intervention, Earth will become yet another planet not suitable for life.

The 1918 pandemic reached its peak at one third of the global population (approximately 600 million). Since it struck so soon after the discovery of viruses, we did not have any of the modern-day technologies that we have now. There were no vaccines or medicines; our bodies’ immune systems had to produce antibodies with no outside help.

The main tool available at the time was social distancing, which was applied wherever possible. In the current pandemic, the virus spread too quickly for us to use our acquired scientific knowledge to curb it. We are once again relying mostly on social distancing. Now, though, almost the entire world is mobilizing to develop the tools that will limit further the spread of the virus. The goal is to end the pandemic by developing herd immunity. Israel has coordinated one such scientific mobilization.

Meanwhile, Sweden is trying to force herd immunity by closing its borders and limiting its social distancing measures to older citizens. The experiment is still in progress but it is costing a lot of lives. Sweden has the highest number of cases and deaths among the Scandinavian countries.

We still have a way to go before the end of the pandemic. Infectious disease expert Michael Osterholm has said we are only in the 2nd inning of a nine-inning game. Nor is everyone taking the necessary actions. Within the US, the federal government seems more preoccupied with the economy and the November elections than with how to end the pandemic with the minimum number of casualties.

With regards to both climate change and viral pandemics, we must strive for a balance between preserving the economy and preserving life. This should not mean that some people must sacrifice their lives to save the economy.

About climatechangefork

Micha Tomkiewicz, Ph.D., is a professor of physics in the Department of Physics, Brooklyn College, the City University of New York. He is also a professor of physics and chemistry in the School for Graduate Studies of the City University of New York. In addition, he is the founding-director of the Environmental Studies Program at Brooklyn College as well as director of the Electrochemistry Institute at that same institution.

Source: http://climatechangefork.blog.brooklyn.edu/2020/05/12/how-do-we-end-a-pandemic/

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