2021年6月6日日曜日

Peter Daszak@EcoHealth Alliance

  2008; 5(2): 99–100.

Published online 2008 Jul 15. doi: 10.1007/s10393-008-0181-1
PMCID: PMC7087734
PMID: 18787913

EcoHealth and the Black Death in the Year of the Rat

The current issue of EcoHealth, timed to coincide with the Olympic Games in Beijing, has a special focus on China. China’s history is complex, steeped in a culture that intertwines philosophy, science, and art, and has a great deal of relevance to the ecological context of health. For example, this year marks the 662nd anniversary of the second siege of Caffa (in modern-day Ukraine), where the Black Death first entered European history (Wheelis, ). In the West, students are taught that the Black Death originated in China and swept across Central Asia into Europe via the Silk Road. To all intents, this appears as a simple case of globalized trade driving the emergence of a new pathogen from China, with echoes of SARS in 2003. Of course, this is not just a simplified view of one of the world’s greatest pandemics, it’s also wrong. There is convincing historical evidence that the plague bacterium, Yersinia pestis, and its rodent reservoirs were present much closer to Europe than often realized, including in the steppes of Southern Russia (Benedictow, ) where the Mongol leaders that besieged Caffa originated. Furthermore, religious and political changes meant that the Silk Road was effectively closed for European traffic in the few years prior to 1346.

So what were the origins and causes of the Black Death? As so often is the case with emerging diseases, the underlying causes are a complex amalgam of social, environmental, and ecological drivers that provided ideal conditions for Black Death’s rapid spread and high mortality rate. First, there was demography, with the burgeoning population of Europe (around 75 million) emerging from the Dark Ages into relative prosperity, stretching resources in the countryside, and flocking to overcrowded cities, leading to poverty and squalor—perfect breeding grounds for the key plague reservoir, the black rat. This inserts another driver, invasive species—the black rat is not endemic to Europe and was likely introduced from Asia many centuries earlier through trade. The plague vector, the rat flea, also finds ideal conditions in Medieval Europe, with the average peasant rarely bathing as part of a Christian ethos of avoiding temptations of the flesh, and for convenience’s sake. Indeed, Catherine of Siena (born in 1347) is alleged to have never bathed. Then there was a potential link with climate—the beginning of the Little Ice Age, which led to reduced crop yields, famine, and destitution of much of the peasant population. In Italy, the famine was still raging as the first plague deaths began. These climate changes also dried out some parts of the steppes, pushing human populations into new areas, and changing the spillover dynamics between plague reservoirs and people. Thus, when the plague entered the Tartar armies laying siege to Caffa, and moved over into the Genoese Italian merchants who founded the port, it entered a population and region primed for its explosive spread.

Returning to China, we are reminded that 2008 is the Year of the Rat. The Year of the Rat is not a celebration of this animal’s predilection for sewage systems and garbage. It’s more a celebration of the rat’s incredible propensity for industry in pushing the boundaries of escapism, colonization, and persistence. With this symbol in mind, and the global collective community focused on China for this unique sporting event, we ask ourselves what lessons we can learn from history about modern day plagues such as SARS. It’s true that the SARS pandemic of 2003 has many features in common with the Black Death. First, its origins are complex, and rooted in social change, demographic and ecological dynamics. The same demographic changes affecting Europe in the Middle Ages have swept across China in the last few decades, with a booming population and a massive influx into urban centers, as discussed in the article by Ali and Zhao () in this issue. This expanding prosperity and development is the overriding feature of modern China that will confront the millions of first-time visitors to our country this year. With it, we see an increasing demand for traditional wildlife food sources. At the same time, we are witnessing a period of globalization based around a still expanding air transport network which brings a dangerous type of close, yet poorly perceived contact with wildlife all around the world (Daszak et al., ). When SARS spread regionally and then internationally, just like the Black Death, it emerged into a dense, interconnected population of people with little (or no) herd immunity and an unprecedented ability to move around the planet.

So, how has our global response to pandemics changed over the six centuries since the siege of Caffa? In 2003, China moved rapidly and dramatically to deal with the threat of globalized outbreaks. Hospitals were built, quarantine measures put in place, and collaborative teams from around the world invited to work on identifying the cause of the outbreak and preventing its further spread. This spirit has continued, with pressure put on the wildlife markets (some of which were convincingly identified as the source of the agent) to close, and continued efforts to collaborate internationally to prevent the emergence of another pathogen. The SARS outbreak also made us realize the value of global communication. The world understands now that when someone in China butchers a wild animal in a restaurant, or for that matter, a farmer in Washington state sends a BSE-infected cow for slaughter, the impacts can be felt on the other side of the globe within days. The ultimate solutions to this weakness in our global system need not require dramatic modification of global behavior. Just like building in an earthquake zone—development within, and connections across, the network of emerging disease hotspots need to combine progress in commerce and trade with surveillance and control measures. In China, our own efforts, built around a new joint center for research on wildlife zoonoses in Shanghai, adjacent to a key hotspot, bring together a global network of scientists committed to identifying pathogens that threaten to emerge from wildlife into our globalized population. There are other significant advances—a network of CDCs across China linked to well-supported infectious disease labs, substantial and increasing international support from groups like the Pasteur Institute, Shanghai and the WHO, and a sophisticated body of Chinese research on biomedical solutions to emerging diseases.

There remains a great deal to understand about SARS and the ability of future pathogens to emerge in Southeast Asia. For example, we are still uncertain about exactly how (or if) the chain of transmission occurred from progenitor viruses in bats to SARS in people (Halpin et al., ). Here, we need to bring social science, demography, ecology, and infectious diseases together—a truly “EcoHealth” approach. We also might ask what is being done to uncover the social networks that underlie disease emergence globally. Who is studying global patterns of travel and trade as it relates to disease, or the ability of climate change to shunt disease vectors from A to B? Who is working on how livestock production patterns change as countries become richer and poorer, and how this relates to the risk of disease emergence? The answers, we hope, may be found with people reading this article—the new generation of EcoHealth scientists who see disciplinary boundaries as an interesting challenge to be broken down rather than an insurmountable obstacle. To you, we say jìxù hǎo hǎo gōngzuò (继续好好工作)1 and welcome you to this issue, with its special focus on EcoHealth in China.

Footnotes

1Keep up the Excellent Work!

Contributor Information

Shu-yi Zhang, nc.ude.unce.oib@gnahzys.

Peter Daszak, gro.enicidemnoitavresnoc@kazsad.

References

  • Ali R, Zhao H (2008) Wuhan, China, and Pittsburgh, USA: urban environmental health past, present, and future. EcoHealth 5: [PubMed]
  • Benedictow OJ. The Black Death 1346–1353: The Complete History. Woodbridge, UK: The Boydell Press; 2004. []
  • Daszak P, Epstein JH, Kilpatrick AM, Aguirre AA, Karesh WB, Cunningham AA. Collaborative research approaches to the role of wildlife in zoonotic disease emergence. Current Topics in Microbiology and Immunology. 2007;315:463–475. doi: 10.1007/978-3-540-70962-6_18. [PMC free article] [PubMed] [CrossRef] []
  • Halpin K, Hyatt AD, Plowright RK, Epstein JH, Daszak P, Field HE, et al. Emerging viruses: coming in on a wrinkled wing and a prayer. Clinical Infectious Diseases. 2007;44:711–717. doi: 10.1086/511078. [PMC free article] [PubMed] [CrossRef] []
  • Wheelis M. Biological warfare at the 1346 Siege of Caffa. Emerging Infectious Diseases. 2002;8:971–975. [PMC free article] [PubMed] []

https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7087734/




In April 2020 amid the COVID-19 pandemic caused by SARS-CoV-2, the NIH ordered EcoHealth Alliance to cease spending the remaining $369,819 from its current NIH grant at the request of the Trump administration due to their bat research relationship with the Wuhan Institute of Virology, located near the epicenter of the SARS-CoV-2.[7][8][9][10][11] The cancelled grant was supposed to run through 2024.[12] In August 2020, The EcoHealth Alliance secured a $7.5 million grant from the National Institutes of Health.[12]


4 days ago — Peter Daszak thanked Anthony Fauci for pushing back on the theory that the coronavirus leaked from a lab.




アウトですな・・・(爆wwwwwwwww




 

2 件のコメント:

匿名 さんのコメント...

イベント
令和3年2月24日~令和3年2月26日開催
「United States-Japan Cooperative Medical Sciences Program: Virtual Workshop on COVID-19」が開催されました
https://www.amed.go.jp/news/event/20210224_report.html

初日は、日米医学協力計画委員長の倉根一郎氏とDiane Griffin氏、NIAIDのGray Handley氏、厚生労働省の佐原康之総括審議官からの開会挨拶から始まりました。

Prof. Ling Fa WANGとDr. Peter Daszakは、参加者を交えて人獣共通感染症でもあるCOVID-19として、ウイルスの起源や伝播に関する議論も行われました。


倉根一郎
https://ja.wikipedia.org/wiki/%E5%80%89%E6%A0%B9%E4%B8%80%E9%83%8E


行政文書不開示決定通知書 (爆)
http://kimito39gmailcom.blog.fc2.com/blog-entry-29586.html

匿名 さんのコメント...

Peter Daszak  Victor Dzau

unicef

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