Democrats Counter-proposal for Covid Stimulus Spending

The disgusting political pork, poison politics on full display. If for nothing else, we have learned another level of the nasty appropriations injected into crisis spending. This should never be overlooked or forgotten as we go to vote.
If you can stand to read the Democrats 1119 page fleecing of the taxpayer, click here.

If not, here is the Cliff note list which is hardly all of the items, but you get the idea:

  • $33,200,000 for NOAA to get new facilities for operations and research
  • $100,000,000 for NASA and $100,000,000 for construction and compliance
  • $278,000,000 to the IRS for taxpayer services
  • $90,000,000 for yet another HIV program
  • $36,000,000 for the National Center for Advancing Translational Sciences
  • $7,000,000 for one, ONE Washington DC Charter School called Gallaudet University
  • $23,000,000 handout to Howard University AND $647,000,000 endowment to Howard University
  • $300,000,000 to the Corporation for Public Broadcasting
  • $500,000,000 for the Institute of Museum and Library Services
  • $1,000,000 for the Senate Sergeant at Arms and the Doorkeeper of the Senate
  • $300,000,000 for Migration and Refugee Assistance
  • $22,000,000 for the Expansion of Use of Minority Banks and Minority Credit Unions
  • $300,000,000 to Expand Emergency Food Assistance Programs
  • $40,000,000 for a new division, the Oversight and Accountability Transparency Committee dedicated to coronavirus
  • $35,000,000 for the John F. Kennedy Center for the Performing Arts
  • $300,000,000 National Endowment of the Arts
  • $300,000,000 for National Endowment of the Humanities

Add in the following as noted by Senator Tom Cotton (R-Arkansas)

  • Removing all current debt of the US Postal Service
  • Monies for more REQUIRED early voting, same day voter registration AND registering to vote abilities via internet registration
  • Removing off the top $10,000 for every person holding a student loan
  • Any U.S. corporation accepting Federal government assistance must have 1/3 of their Board members chosen by their own emloyees
  • Additional provisions for official time for union collective bargaining
  • Full offset of airline emissions by 2025
  • Each airline flight must report greenhouse gas statistics (carbon output) of individual flights
  • Retirement benefits for community newspaper employees
  • Any and all corporations accepting Federal government assistance must pay all employees a minimum wage of $15/hr.
  • Permanent paid leave for all corporations receiving Federal assistance
  • Expansion of wind and solar tax credits
  • Election Assistance Commission

Now understand how the items referring to domestic corporations is actually a quid pro quo or rather extortion or rather nationalizing corporations in America.

Now this list, while being somewhat abbreviated, is not something just recently concocted by Democrats for this pending spending bill…consider these are items that have been sitting on the wish list for quite some time and these items are just like those that get injected into spending legislation all the time at the last minute when members of Congress get 30 minutes or less to read bills before they vote.

Pelosi’s $2.5 Trillion Virus Bill Delays Mortgage, Car Payments source and more details here

For those in the many domestic industries affected by being shuttered due to governor decrees, remember the hold up in financial stability, jobs and loans sits squarely in the lap of the Democrats led completely by the master legislator…Speaker Nancy Pelosi, third in line to the presidency. Scary….no terrifying.

 

Hey CNN/MSNBC for 15 Years, it has Been China’s SARS-CoV

So, President Trump is right…how about media being real journalists for a change? Tell Hillary, CNN and the rest that Trump is hardly “racist” and “xenophobic”.

Let’s travel over to Basel, Switzerland shall we?

Primer: MDPI is Molecular Diversity Preservation International/Multidisciplinary Digital Publishing Institute founded in 1996 located in Basel. The organization is an open access repository of medical journals where each paper has citations from medical academics and experts. Health issues include various human health conditions such as obesity, autism, Alzheimer’s disease, cancer and many many others.

Image result for sar cov china

So, media, when it comes to China and SAR-CoV, review their summary. (BTW, it is full of citations)

1. Introduction

Fifteen years after the first highly pathogenic human coronavirus caused the severe acute respiratory syndrome coronavirus (SARS-CoV) outbreak, another severe acute diarrhea syndrome coronavirus (SADS-CoV) devastated livestock production by causing fatal diseases in pigs. Both outbreaks began in China and were caused by coronaviruses of bat origin [1,2]. This increased the urgency to study bat coronaviruses in China to understand their potential of causing another virus outbreak.
In this review, we collected information from past epidemiology studies on bat coronaviruses in China, including the virus species identified, their host species, and their geographical distributions. We also discuss the future prospects of bat coronaviruses cross-species transmission and spread in China.

2. Why Study Bat Coronaviruses in China?

2.1. Coronavirus Taxonomy

Coronaviruses (CoVs) belong to the subfamily Orthocoronavirinae in the family Coronaviridae and the order Nidovirales. CoVs have an enveloped, crown-like viral particle from which they were named after. The CoV genome is a positive-sense, single-strand RNA (+ssRNA), 27–32 kb in size, which is the second largest of all RNA virus genomes. Typically, two thirds of the genomic RNA encodes for two large overlapping polyproteins, ORF1a and ORF1b, that are processed into the viral polymerase (RdRp) and other nonstructural proteins involved in RNA synthesis or host response modulation. The other third of the genome encodes for four structural proteins (spike (S), envelope (E), membrane (M), and nucleocapsid (N)) and other accessory proteins. While the ORF1a/ORF1b and the four structural proteins are relatively consistent, the length of the CoV genome is largely dependent on the number and size of accessory proteins [3].
Compared with other RNA viruses, the expanded genome size of CoVs is believed to be associated with increased replication fidelity, after acquiring genes encoding RNA-processing enzymes [4]. Genome expansion further facilitates the acquisition of genes encoding accessory proteins that are beneficial for CoVs to adapt to a specific host [5]. As a result, genome changes caused by recombination, gene interchange, and gene insertion or deletion are common among CoVs. The CoV subfamily is expanding rapidly, due to the application of next generation sequencing which has increased the detection and identification of new CoV species. As a result, CoV taxonomy is constantly changing. According to the latest International Committee of Taxonomy of Viruses (ICTV) classification, there are four genera (α-, β-, δ-, and γ-) consisting of thirty-eight unique species in the subfamily [6]. The number of species will continue to increase, as there are still many unclassified CoVs [7,8].
CoVs cause disease in a variety of domestic and wild animals as well as in humans, where α- and β-CoVs mainly infect mammals and γ- and δ-CoVs mainly infect birds (Table 1). Two highly pathogenic β-CoVs, SARS-CoV, and MERS-CoV have caused pandemics in humans since 2002 [1,9]. Originating in China and then spreading to other parts of the world, SARS-CoV infected around 8000 individuals with an overall mortality of 10% during the 2002–2003 pandemic [1]. Since its emergence in 2012 in the Middle East, MERS-CoV spread to 27 countries, resulting in 2249 laboratory-confirmed cases of infection with an average mortality of 35.5% (until September 2018) [9]. Besides these two viruses, α-CoVs 229E and NL63 and β-CoVs OC43 and HKU1 can also cause respiratory diseases in humans [10]. Moreover, CoVs cause pandemic disease in domestic and wild animals (Table 1). SADS-CoV was recently identified as the etiological agent responsible for a large-scale outbreak of fatal disease in pigs in China that caused the death of more than 20,000 piglets [2]. Porcine epidemic diarrhea virus (PEDV) and transmissible gastroenteritis virus (TGEV) that belong to α-CoV and porcine δ-CoV (PDCoV) are also important emerging and re-emerging viruses in pigs that pose significant economic threat to the swine industry [11]. In addition, avian infectious bronchitis virus (IBV, γ-CoV) causes a highly contagious disease that affects poultry production worldwide [12]. Coronaviruses have also been associated with catarrhal gastroenteritis in mink (MCoV) and whale deaths (BWCoV-SW1) [13,14].

Read on here if you need to.

Wonder if candidate Joe Biden or Bernie Sanders will reveal this as truth in their ad attacks?

Terrifying Facts about our Prescription Drugs

Congress, the FDA and the Pentagon is well aware of how tainted many of the drugs from China.

Priest, a retired Army colonel, delivered these remarks July 31 on Capitol Hill at a meeting of the U.S.-China Economic and Security Review Commission. The commission in-part investigates national security risks related to foreign trade and provides recommendations to Congress.

The U.S. purchases of drugs from foreign countries came under scrutiny earlier this year, when the Food and Drug Administration discovered that carcinogens in generic products used to treat high blood pressure and heart failure. Some of those drugs made their way to military treatment facilities, where veterans pick up their prescriptions.

The 10 most prescribed drugs are found here.

Made in China: new and potentially lifesaving drugs - SFGate source

The common debate on Capitol Hill has been the cost of prescription drugs, when the 800 lb. gorilla in the room has been uncontrolled ingredients in over-the-counter drugs as well as prescription that legislators have known about but ignored. The same debate continues with medical devices manufactured in China. The United States does not even produce vitamin C. Yeesh, and China has been called a drug cartel of distinction because of trafficking fentanyl.

Communist China controls 80% of American drugs - Metro ...

GoodRx, commercials often seen on TV to save money by using their APP recently published the following about bizarre ingredients:

1) Gold

Gold, of course, has been used for thousands of years in jewelry, but few know that it has therapeutic properties. Today, we have the oral anti-inflammatory medication, Ridaura (auranofin), which is used to treat rheumatoid arthritis. Likewise, an injectable gold known as gold sodium thiomalate (GST) is injected weekly or monthly into joints to treat arthritis. Fancy.

2) Saliva of a Gila monster

Ok, that’s slightly misleading. Exenatide, the active ingredient in Byetta and Bydureon, and an important medicine to control blood sugar in diabetics, is a man-made form of a protein found in the saliva of the Gila monster, a poisonous lizard native to the southwestern United States. Still weird.

3) Urine from pregnant horses

Premarin, a medication used as hormone replacement therapy to treat symptoms of menopause, comes from estrogen hormones isolated from pregnant horse urine. Yep.

4) Rooster combs

Synvisc and Synvisc-One (Hylan G-F 20), injectable medications given for knee arthritis to provide pain relief for up to six months, both contain hyaluronan, which is made from chicken combs. Hyaluronan makes joint fluid more flexible and fluid, so there’s better shock absorption in the knee. Cock-a-doodle-doo.

5) Poop

“Fecal pills”, used in fecal microbiota transplantations (FMTs), are capsules containing frozen bacteria collected from the stool of donor patients. Fecal pills taken orally have been shown to be 96% effective in treating C. diff diarrhea. A truly hard pill to swallow.

6) Formaldehyde

Yes, you heard that right. Formaldehyde, the main ingredient in embalming fluid and a common substance in household cleaning products, is used in medicine. Hiprex, which contains methenamine, is making a resurgence in popularity as an effective medication for preventing recurrent urinary tract infections. And methenamine works when it’s converted in urine to formaldehyde, the same chemical we use to embalm dead bodies.

7) Fish

While not exactly gross, the contribution of marine life to medicines is worth mentioning. Lovaza, the only pharmaceutical-grade fish oil on the market, is used to lower triglycerides, a type of fat found in your blood that can increase your risk of heart disease at high enough levels. The oils in cooked masses of fish are separated from the solids—and that’s how you get Lovaza. Ok, not so bad.

8) Urine from postmenopausal women

The urine of postmenopausal women is in many follicle stimulating hormone (FSH) preparations, including Repronex and Bravelle, which are used to treat infertility. Unlike donated blood, where the donation can be traced to one donor, these medications are made with pooled urine from multiple donors, so there’s some concern over safety. That’s why Follistim, which contains synthetic FSH is a good alternative. Pools of urine.

9) Pig pancreas

Creon (pancrelipase) is made from the pancreas of pigs and is available only with a prescription. Creon is used in patients who lack full pancreatic functionality, whether because of cystic fibrosis, chronic pancreatitis, type 1 diabetes or removal of the pancreas. Oink.

10) Pig thyroid gland

Armour thyroid comes from the dried out thyroid glands of pigs. Armour thyroid is prescribed for underactive thyroid, or hypothyroidism, and is less tightly regulated than Synthroid, a manufactured form of thyroid hormone. Oink take 2.

Setting aside for a moment how the United States has in recent days complained about China’s lack of cooperation with the United States over COVID-19, other nations have as well. Just a few day ago, the UK published an immediate report stating that China was to blame and noted that the lack of truth from China has caused the global health crisis.

So, there is an immediate movement authorized by President Trump to fast track domestic manufacture production of many top medicines not only for treating COVID-19 but other most prescribed drugs as well. The FDA is fast tracking several variations of chloroquine, which has several names including Aralen,Plaquenil or Avigan already used to treat COVID-19. Yes, however, this comes from China as well. In fact Wuhan and Shenzhen treated coronavirus patients with favipiravir with excellent success, meaning patient’s tests are negative just after 3-4 days.

***

Sen. Tom Cotton (R., Ark.) introduced legislation Thursday to repatriate pharmaceutical manufacturing from China to America, aiming to reduce a dependency that could seriously limit the U.S. coronavirus response.

The bill, which Cotton introduced with Rep. Mike Gallagher (R., Wis.), aims to severely curtail the volume of Chinese active pharmaceutical ingredients (APIs) from the U.S. medical drug supply. The PRC currently produces most of the world’s APIs—the “active ingredients” in commonly used drugs—leaving the United States and other nations critically dependent on it for medicines.

Cotton’s is just the latest proposal to onshore pharmaceutical supply chains, including a similar one from Sen. Marco Rubio (R., Fla.) and rumblings from the White House about a “buy American” executive order. Prompted by the coronavirus pandemic, many are beginning to see the cost-savings from Chinese-made pharmaceuticals as not worth the risk of undersupply during another pandemic, or during a potential conflict with America’s main geostrategic rival. More here.

 

 

(PanCAP)SynchronizationMatrix-COVID-19 Plan

The Defense Production Act. Read it here.

The president invoked the act Wednesday during a White House news briefing with members of the Coronavirus Task Force.

“It can do a lot of good things if we need it,” the president told reporters.

Image result for defense production act source

 

The 1950 act was periodically used during both the Korean War and throughout the Cold War, and was last invoked in June 2017 by Trump to provide technology in the space industrial base.

This is not about what the Federal government can provide, but rather the Federal government authorizing and hiring private business to produce products and service to fulfill the needs for the good of the nation. That is where innovation and capitalism works.

President Trump is pulling all the levers of government and plowing his way through regulations and bureaucracy. It is big and messy mostly because of Obamacare which installed 23000 pages of regulations. The PANCAP plan is found here in full. Additional levers are being created to stop the economic and financial damage the the nation.

Meanwhile, media has attacked President Trump for using the term ‘China virus’ and he defended that use, rightly so. The medical community uses several variations of the same phrase. It is about China and has been for decades. World leaders have challenged China for countless years over their reckless laws and lack of food, people, animal and health protections. I have seen it personally myself being in mainland China many years ago. I visited those wet markets where the food supply and lack of safety is not only disgusting but deadly. Truth be told, trafficking and breeding animals for food in China is estimated to be a $76 billion industry.

For perspective, this short video is a must watch.

Relations between the West and China has taken on a new attitude and approach and rightly so. The discussions should begin with China paying trillions in reparations to nations affected by not only the Covid-19 virus but even previous virus outbreaks as well. China holds an estimated $1.7 trillion of U.S. debt. China should forgive that debt today.

From an article written by Michael Auslin in part mentions:

Those concerned with global health issues may wonder why it is that China is wracked regularly by viral epidemics in addition to coronavirus, such as SARS, African Swine Fever, and avian flu (another outbreak is happening right now). Others may begin to look more carefully at China’s environmental devastation and the hundreds of thousands of premature deaths each year from air and water pollution.

On the trade side, many foreign corporations already have been reconsidering their operations in China, due to rampant intellectual property theft and rising production costs; now, they may seriously question how safe it is to continue to do business in China. Not only is the health of their employees at risk, but they no longer can be assured that China will be a stable supplier. If coronavirus becomes a seasonal phenomenon, as some experts predict, then even with a vaccine, new strains of the pathogen will always raise the specter of another out-of-control epidemic overwhelming the party-state’s capabilities and infecting the rest of the world.

China has a plan to be the world’s dominant power, what better way to achieve that mission than to infect the globe with a pandemic causing financial collapse? To prevent the China mission, Western nations must reassert nationalism including manufacturing and install policy that never allows vulnerabilities to health and national security, this includes 5G. China and Russia cannot be allowed to win much less have any kind of advantage over other nations.

U.S. citizens are very crafty, innovative and resourceful and given these skills and spirit, this will pass quickly.

 

COVID-19 Blame and Shame on Duke NUS Medical School

This is a very long read but since we are all sheltering in place, take the time to read it in full as it is jammed with fascinating facts. We have learned minute by minute due to media reporting all kinds of things about coronavirus but some REAL key facts have been omitted. Gotta ask why. We should start with Duke NUS Medical School/Singapore and domino from there. Doctors, scientists, lab techs, researchers and hunters all know very well the genesis of all potential 5000 strains of coronavirus and they collaborate and read published reports and discuss in seminars and educational events.

Lil Miss Shi knew as she is known as the bat-hunter in Wuhan. Beijing knew and kept quiet but Miss Shi did not. She warned for years and years and Duke University collaborated and likely the CDC and John Hopkins did also. Domestic biolabs and pharma all participate in the volumes of published reports and research.

Okay, read slowly and even take notes and list your questions.

Here we go.

Wuhan-based virologist Shi Zhengli has identified dozens of deadly SARS-like viruses in bat caves, and she warns there are more out there

By Jane Qiu

How China's "Bat Woman" Hunted Down Viruses from SARS to the New Coronavirus Shi Zhengli, known as China’s “bat woman” for her virus-hunting expeditions in bat caves, releases a fruit bat after taking blood and swab samples from it in 2004. Credit: Wuhan Institute of Virology

BEIJING—The mysterious patient samples arrived at Wuhan Institute of Virology at 7 P.M. on December 30, 2019. Moments later, Shi Zhengli’s cell phone rang. It was her boss, the institute’s director. The Wuhan Center for Disease Control and Prevention had detected a novel coronavirus in two hospital patients with atypical pneumonia, and it wanted Shi’s renowned laboratory to investigate. If the finding was confirmed, the new pathogen could pose a serious public health threat—because it belonged to the same family of bat-borne viruses as the one that caused severe acute respiratory syndrome (SARS), a disease that plagued 8,100 people and killed nearly 800 of them between 2002 and 2003. “Drop whatever you are doing and deal with it now,” she recalls the director saying.

Shi—a virologist who is often called China’s “bat woman” by her colleagues because of her virus-hunting expeditions in bat caves over the past 16 years—walked out of the conference she was attending in Shanghai and hopped on the next train back to Wuhan. “I wondered if [the municipal health authority] got it wrong,” she says. “I had never expected this kind of thing to happen in Wuhan, in central China.” Her studies had shown that the southern, subtropical areas of Guangdong, Guangxi and Yunnan have the greatest risk of coronaviruses jumping to humans from animals—particularly bats, a known reservoir for many viruses. If coronaviruses were the culprit, she remembers thinking, “could they have come from our lab?”

While Shi’s team at the Chinese Academy of Sciences institute raced to uncover the identity and origin of the contagion, the mysterious disease spread like wildfire. As of this writing, about 81,000 people in China have been infected. Of that number, 84 percent live in the province of Hubei, of which Wuhan is the capital, and more than 3,100 have died. Outside of China, about 41,000 people across more than 100 countries and territories in all of the continents except Antarctica have caught the new virus, and more than 1,200 have perished.

The epidemic is one of the worst to afflict the world in recent decades. Scientists have long warned that the rate of emergence of new infectious diseases is accelerating—especially in developing countries where high densities of people and animals increasingly mingle and move about.

“It’s incredibly important to pinpoint the source of infection and the chain of cross-species transmission,” says disease ecologist Peter Daszak, president of EcoHealth Alliance, a New York City–based nonprofit research organization that collaborates with scientists, such as Shi, around the world to discover new viruses in wildlife. An equally important task, he adds, is hunting down other related pathogens—the “known unknowns”—in order to “prevent similar incidents from happening again.”

Tracing the Virus at Its Source

To Shi, her first virus-discovery expedition felt like a vacation. On a breezy, sunny spring day in 2004, she joined an international team of researchers to collect samples from bat colonies in caves near Nanning, the capital of Guangxi. Her inaugural cave was typical of the region: large, rich in limestone columns and—being a popular tourist destination—easily accessible. “It was spellbinding,” Shi recalls, with milky-white stalactites hanging from the ceiling like icicles, glistening with moisture.

But the holidaylike atmosphere soon dissipated. Many bats—including several insect-eating species of horseshoe bats that are abundant in southern Asia—roost in deep, narrow caves on steep terrain. Often guided by tips from local villagers, Shi and her colleagues had to hike for hours to potential sites and inch through tight rock crevasses on their stomach. And the flying mammals can be elusive. In one frustrating week, the team explored more than 30 caves and saw only a dozen bats.

These expeditions were part of the effort to catch the culprit in the SARS outbreak, the first major epidemic of the 21st century. A Hong Kong team had reported that wildlife traders in Guangdong first caught the SARS coronavirus from civets, mongooselike mammals that are native to tropical and subtropical Asia and Africa.

Before SARS, the world had little inkling of coronaviruses—named because, seen under a microscope, their spiky surface resembles a crown—says Linfa Wang, who directs the emerging infectious diseases program at Singapore’s Duke-NUS Medical School. Coronavirues were mostly known for causing common colds. “The SARS outbreak was a game changer,” says Wang, whose work on bat-borne coronaviruses got a swift mention in the 2011 Hollywood blockbuster Contagion. It was the first time a deadly coronavirus with pandemic potential emerged. This discovery helped to jump-start a global search for animal viruses that could find their way into humans.

Shi was an early recruit of that worldwide effort, and both Daszak and Wang have since been her long-term collaborators. But how the civets got the virus remained a mystery. Two previous incidents were telling: Australia’s 1994 Hendra virus infections, in which the contagion jumped from horses to humans, and Malaysia’s 1998 Nipah virus outbreak, in which it moved from pigs to people. Both diseases were found to be caused by pathogens that originated in fruit-eating bats. Horses and pigs were merely the intermediate hosts.

In those first virus-hunting months in 2004, whenever Shi’s team located a bat cave, it would put a net at the opening before dusk—and then wait for the nocturnal creatures to venture out to feed for the night. Once the bats were trapped, the researchers took blood and saliva samples, as well as fecal swabs, often working into the small hours. After catching up on some sleep, they would return to the cave in the morning to collect urine and fecal pellets.

But sample after sample turned up no trace of genetic material from coronaviruses. It was a heavy blow. “Eight months of hard work seemed to have gone down the drain,” Shi says. “We thought coronaviruses probably did not like Chinese bats.” The team was about to give up when a research group in a neighboring lab handed it a diagnostic kit for testing antibodies produced by people with SARS.

There was no guarantee the test would work for bat antibodies, but Shi gave it a go anyway. “What did we have to lose?” she says. The results exceeded her expectations. Samples from three horseshoe bat species contained antibodies against the SARS virus. “It was a turning point for the project,” Shi says. The researchers learned that the presence of the coronavirus in bats was ephemeral and seasonal—but an antibody reaction could last from weeks to years. So the diagnostic kit offered a valuable pointer as to how to hunt down viral genomic sequences.

Shi’s team used the antibody test to narrow down locations and bat species to pursue in the quest for these genomic clues. After roaming mountainous terrain in the majority of China’s dozens of provinces, the researchers turned their attention to one spot: Shitou Cave on the outskirts of Kunming, the capital of Yunnan—where they conducted intense sampling during different seasons throughout five consecutive years.

The efforts paid off. The pathogen hunters discovered hundreds of bat-borne coronaviruses with incredible genetic diversity. “The majority of them are harmless,” Shi says. But dozens belong to the same group as SARS. They can infect human lung cells in a petri dish, cause SARS-like diseases in mice, and evade vaccines and drugs that work against SARS.

In Shitou Cave—where painstaking scrutiny has yielded a natural genetic library of bat viruses—the team discovered a coronavirus strain in 2013 that came from horseshoe bats and had a genomic sequence that was 97 percent identical to the one found in civets in Guangdong. The finding concluded a decade-long search for the natural reservoir of the SARS coronavirus.

Viral Melting Pots

In many bat dwellings Shi has sampled, including Shitou Cave, “constant mixing of different viruses creates a great opportunity for dangerous new pathogens to emerge,” says Ralph Baric, a virologist at the University of North Carolina at Chapel Hill. And in the vicinity of such viral melting pots, Shi says, “you don’t need to be a wildlife trader to be infected.”

Near Shitou Cave, for example, many villages sprawl among the lush hillsides in a region known for its roses, oranges, walnuts and hawthorn berries. In October 2015 Shi’s team collected blood samples from more than 200 residents in four of those villages. It found that six people, or nearly 3 percent, carried antibodies against SARS-like coronaviruses from bats—even though none of them had handled wildlife or reported SARS-like or other pneumonia-like symptoms. Only one had travelled outside of Yunnan prior to sampling, and all said they had seen bats flying in their village.

Three years earlier, Shi’s team had been called in to investigate the virus profile of a mineshaft in Yunnan’s mountainous Mojiang County—famous for its fermented Pu’er tea—where six miners suffered from pneumonialike diseases (two of them died). After sampling the cave for a year the researchers discovered a diverse group of coronaviruses in six bat species. In many cases, multiple viral strains had infected a single animal, turning it into a flying factory of new viruses.

“The mineshaft stunk like hell,” says Shi, who went in with her colleagues wearing a protective mask and clothing. “Bat guano, covered in fungus, littered the cave.” Although the fungus turned out to be the pathogen that had sickened the miners, she says it would only have been a matter of time before they caught the coronaviruses if the mine had not been promptly shut.

With growing human populations increasingly encroaching on wildlife habitats, with unprecedented changes in land use, with wildlife and livestock transported across countries and their products around the world, and with a sharp increase in both domestic and international travel, new disease outbreaks of pandemic scale are a near mathematical certainty. This had been keeping Shi and many other researchers awake at night—long before the mysterious samples landed at the Wuhan Institute of Virology on that ominous evening last December.

About a year ago, Shi’s team published two comprehensive reviews about coronaviruses in Viruses and Nature Reviews Microbiology. Drawing evidence from her own studies—many of which were published in top academic journals—and from others, Shi and her co-authors warned of the risk of future outbreaks of bat-borne coronaviruses.

Racing against a Deadly Pathogen

On the train back to Wuhan on December 30 last year, Shi and her colleagues discussed ways to immediately start testing the patient samples. In the following weeks—the most intense and the most stressful time of her life—China’s bat woman felt she was fighting a battle in her worst nightmare, even though it was one she had been preparing for over the past 16 years. Using a technique called polymerase chain reaction, which can detect a virus by amplifying its genetic material, the first round of tests showed that samples from five of seven patients contained genetic sequences known to be present in all coronaviruses.

Shi instructed her team to repeat the tests and, at the same time, sent the samples to another laboratory to sequence the full viral genomes. Meanwhile she frantically went through her own laboratory’s records from the past few years to check for any mishandling of experimental materials, especially during disposal. Shi breathed a sigh of relief when the results came back: none of the sequences matched those of the viruses her team had sampled from bat caves. “That really took a load off my mind,” she says. “I had not slept a wink for days.”

By January 7 the Wuhan team determined that the new virus had indeed caused the disease those patients suffered—a conclusion based on results from polymerase chain reaction analysis, full genome sequencing, antibody tests of blood samples and the virus’s ability to infect human lung cells in a petri dish. The genomic sequence of the virus—now officially called SARS-CoV-2 because it is related to the SARS pathogen—was 96 percent identical to that of a coronavirus the researchers had identified in horseshoe bats in Yunnan, they reported in a paper published last month in Nature. “It’s crystal clear that bats, once again, are the natural reservoir,” says Daszak, who was not involved in the study.

In 2004, an international team of scientists takes blood and swab samples from bats at night in order to discover potential bat-borne pathogens. Credit: Wuhan Institute of Virology

The genomic sequences of the viral strains from patients are, in fact, very similar to one another, with no significant changes since late last December, based on analyses of 326  published viral sequences. “This suggests the viruses share a common ancestor,” Baric says. The data also point to a single introduction into humans followed by sustained human-to-human transmission, researchers say.

Given that the virus seems fairly stable and that many infected individuals appear to have mild symptoms, scientists suspect the pathogen might have been around for weeks or even months before the first severe cases raised alarm. “There might have been mini outbreaks, but the virus burned out” before causing havoc, Baric says. “The Wuhan outbreak is by no means incidental.” In other words, there was an element of inevitability to it.

To many, the region’s burgeoning wildlife markets—which sell a wide range of animals such as bats, civets, pangolins, badgers and crocodiles—are perfect viral melting pots. Although humans could have caught the deadly virus from bats directly (according to several studies, including those by Shi and her colleagues), independent teams have suggested in preprint studies that pangolins may have been an intermediate host. These teams have reportedly uncovered SARS-CoV-2–like coronaviruses in these animals, which were seized in antismuggling operations in southern China.

On February 24 the nation announced a permanent ban on wildlife consumption and trade except for research or medicinal or display purposes—which will stamp out an industry worth $76 billion and put approximately 14 million people out of jobs, according to a 2017 report commissioned by the Chinese Academy of Engineering. Some welcome the initiative, whereas others, such as Daszak, worry that without efforts to change people’s traditional beliefs or provide alternative livelihoods, a blanket ban may push the business underground. This could make disease detection even more challenging. “Eating wildlife has been part of the cultural tradition in southern China” for thousands of years, Daszak says. “It won’t change overnight.”

In any case, Shi says, “wildlife trade and consumption are only part of problem.” In late 2016 pigs across four farms in Qingyuan county in Guangdong—60 miles from the site where the SARS outbreak originated—suffered from acute vomiting and diarrhea, and nearly 25,000 of the animals died. Local veterinarians could not detect any known pathogen and called Shi for help. The cause of the illness, called swine acute diarrhea syndrome (SADS), turned out to be a virus whose genomic sequence was 98 percent identical to a coronavirus found in horseshoe bats in a nearby cave.

“This is a serious cause for concern,” says Gregory Gray, an infectious disease epidemiologist at Duke University. Pigs and humans have very similar immune systems, making it easy for viruses to cross between the two species. Moreover a team at Zhejiang University in the Chinese city of Hangzhou found the SADS virus could infect cells from many organisms in a petri dish, including rodents, chickens, nonhuman primates and humans. Given the scale of swine farming in many countries, such as China and the U.S., Gray says, looking for novel coronaviruses in pigs should be a top priority.

Although the Wuhan outbreak is the sixth one caused by bat-borne viruses in the past 26 years —the other five being Hendra in 1994, Nipah in 1998, SARS in 2002, MERS (Middle East respiratory syndrome) in 2012, and Ebola in 2014—“the animals [themselves] are not the problem,” Wang says. In fact, bats help promote biodiversity and the health of their ecosystems by eating insects and pollinating plants. “The problem arises when we get in contact with them,” he says.

Fending Off Future Outbreaks

More than two months into the epidemic—and seven weeks after the Chinese government imposed citywide transportation restrictions in Wuhan, a megacity of 11 million—life feels almost normal, Shi says, laughing. “Maybe we are getting used to it. The worst days are certainly over.” The institute staffers have a special pass to travel from home to their laboratory, but they cannot go anywhere else. For more than a month, they had to subsist on instant noodles during their long hours in the lab because the institute’s canteen was closed.

The researchers found that the new coronavirus enters human lung cells using a receptor called angiotensin-converting enzyme 2 (ACE2). The scientists have since been screening for drugs that can block it. They, as well as other research groups, are also racing to develop vaccines and test promising candidates. In the long run, the team plans to develop broad-spectrum vaccines and drugs against coronaviruses deemed risky to humans. “The Wuhan outbreak is a wake-up call,” Shi says.

Many scientists say the world should move beyond merely responding to deadly pathogens when they arise. “The best way forward is prevention,” Daszak says. Because 70 percent of animal-borne emerging infectious diseases come from wild creatures, “where we should start is to find all those viruses in wildlife globally and develop better diagnostic tests,” he adds. Doing so would essentially mean rolling out what researchers such as Daszak and Shi have been doing on a much bigger scale.

Such efforts should focus on high-risk viral groups in certain mammals prone to coronavirus infections, such as bats, rodents, badgers, civets, pangolins, and nonhuman primates, Daszak says. He adds that developing countries in the tropics, where wildlife diversity is greatest, should be the front line of this battle against viruses.

In recent decades, Daszak and his colleagues analyzed approximately 500 human infectious diseases from the past century. They found that the emergence of new pathogens tended to happen in places where a dense population had been changing the landscape—by building roads and mines, cutting down forests and intensifying agriculture. “China is not the only hotspot,” he says, noting that other major emerging economies, such as India, Nigeria and Brazil, are also at great risk.

Once potential pathogens are mapped out, scientists and public health officials can regularly check for possible infections by analyzing blood and swab samples from livestock, wild animals that are farmed and traded, and high-risk human populations, such as farmers, miners, villagers who live near bats, and people who hunt or handle wildlife, Gray says. This approach, known as “One Health,”, aims to integrate the management of wildlife health, livestock health, and human health. “Only then can we catch an outbreak before it turns into an epidemic,” he says, adding that the approach could potentially save the hundreds of billions of dollars such an epidemic can cost.

Back in Wuhan, China’s bat woman has decided to retire from the front line of virus-hunting expeditions. “But the mission must go on,” says Shi, who will continue to lead research programs. “What we have uncovered is just the tip of an iceberg.” Daszak’s team has estimated that there are as many as 5,000 coronavirus strains waiting to be discovered in bats globally. Shi is planning a national project to systematically sample viruses in bat caves—with much greater scope and intensity than her team’s previous attempts.

“Bat-borne coronaviruses will cause more outbreaks,” she says with a tone of brooding certainty. “We must find them before they find us.”