Predictive Intelligence for Cholera in Ukraine?

Cholera, an ancient waterborne diarrheal disease, remains a threat to public health, especially when climate/weather processes, microbiological parameters, and sociological determinants intersect with population vulnerabilities of loss of access to safe drinking water and sanitation infrastructure....

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Published inGeohealth Vol. 6; no. 9; pp. e2022GH000681 - n/a
Main Authors Usmani, Moiz, Brumfield, Kyle D., Magers, Bailey M., Huq, Anwar, Barciela, Rosa, Nguyen, Thanh H., Colwell, Rita R., Jutla, Antarpreet
Format Journal Article
LanguageEnglish
Published United States John Wiley & Sons, Inc 01.09.2022
American Geophysical Union (AGU)
Subjects
Algorithms
Cholera
climate
Decision making
Disease
Drinking water
environmental
Epidemics
Health risks
Human populations
Hypotheses
infectious disease
Infrastructure
Pathogens
Plankton
Population
Precipitation
Public health
Rain
Sanitation
Social unrest
Sociology
Ukraine
vibrios
War
Waterborne diseases
Weather
Haiti
Africa
Ukraine
Yemen
environmental
climate
vibrios
infectious disease
cholera
Ukraine
Online AccessGet full text
ISSN2471-1403
2471-1403
DOI10.1029/2022GH000681

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Abstract Cholera, an ancient waterborne diarrheal disease, remains a threat to public health, especially when climate/weather processes, microbiological parameters, and sociological determinants intersect with population vulnerabilities of loss of access to safe drinking water and sanitation infrastructure. The ongoing war in Ukraine has either damaged or severely crippled civil infrastructure, following which the human population is at risk of health disasters. This editorial highlights a perspective on using predictive intelligence to combat potential (and perhaps impending) cholera outbreaks in various regions of Ukraine. Reliable and judicious use of existing earth observations inspired mathematical algorithms integrating heuristic understanding of microbiological, sociological, and weather parameters have the potential to save or reduce the disease burden. Plain Language Summary Predictive intelligence using data for satellites, microbiology and sociology should be utilized to combat potential cholera outbreaks in war torn Ukraine. Key Points The risk of cholera in Ukraine will become significant with the noteworthy presence of plankton in the coastal regions, along with anomalous warm air temperatures and heavy precipitation Earth observations inspired anticipatory decision‐making framework is needed for preventing infectious disease outbreaks such as cholera in human population Regions such as Pakistan with massive flooding may experience similar risks and should be evaluated accordingly
AbstractList Cholera, an ancient waterborne diarrheal disease, remains a threat to public health, especially when climate/weather processes, microbiological parameters, and sociological determinants intersect with population vulnerabilities of loss of access to safe drinking water and sanitation infrastructure. The ongoing war in Ukraine has either damaged or severely crippled civil infrastructure, following which the human population is at risk of health disasters. This editorial highlights a perspective on using predictive intelligence to combat potential (and perhaps impending) cholera outbreaks in various regions of Ukraine. Reliable and judicious use of existing earth observations inspired mathematical algorithms integrating heuristic understanding of microbiological, sociological, and weather parameters have the potential to save or reduce the disease burden.
Cholera, an ancient waterborne diarrheal disease, remains a threat to public health, especially when climate/weather processes, microbiological parameters, and sociological determinants intersect with population vulnerabilities of loss of access to safe drinking water and sanitation infrastructure. The ongoing war in Ukraine has either damaged or severely crippled civil infrastructure, following which the human population is at risk of health disasters. This editorial highlights a perspective on using predictive intelligence to combat potential (and perhaps impending) cholera outbreaks in various regions of Ukraine. Reliable and judicious use of existing earth observations inspired mathematical algorithms integrating heuristic understanding of microbiological, sociological, and weather parameters have the potential to save or reduce the disease burden. Predictive intelligence using data for satellites, microbiology and sociology should be utilized to combat potential cholera outbreaks in war torn Ukraine. The risk of cholera in Ukraine will become significant with the noteworthy presence of plankton in the coastal regions, along with anomalous warm air temperatures and heavy precipitation Earth observations inspired anticipatory decision‐making framework is needed for preventing infectious disease outbreaks such as cholera in human population Regions such as Pakistan with massive flooding may experience similar risks and should be evaluated accordingly
Abstract Cholera, an ancient waterborne diarrheal disease, remains a threat to public health, especially when climate/weather processes, microbiological parameters, and sociological determinants intersect with population vulnerabilities of loss of access to safe drinking water and sanitation infrastructure. The ongoing war in Ukraine has either damaged or severely crippled civil infrastructure, following which the human population is at risk of health disasters. This editorial highlights a perspective on using predictive intelligence to combat potential (and perhaps impending) cholera outbreaks in various regions of Ukraine. Reliable and judicious use of existing earth observations inspired mathematical algorithms integrating heuristic understanding of microbiological, sociological, and weather parameters have the potential to save or reduce the disease burden.
Cholera, an ancient waterborne diarrheal disease, remains a threat to public health, especially when climate/weather processes, microbiological parameters, and sociological determinants intersect with population vulnerabilities of loss of access to safe drinking water and sanitation infrastructure. The ongoing war in Ukraine has either damaged or severely crippled civil infrastructure, following which the human population is at risk of health disasters. This editorial highlights a perspective on using predictive intelligence to combat potential (and perhaps impending) cholera outbreaks in various regions of Ukraine. Reliable and judicious use of existing earth observations inspired mathematical algorithms integrating heuristic understanding of microbiological, sociological, and weather parameters have the potential to save or reduce the disease burden. Plain Language Summary Predictive intelligence using data for satellites, microbiology and sociology should be utilized to combat potential cholera outbreaks in war torn Ukraine. Key Points The risk of cholera in Ukraine will become significant with the noteworthy presence of plankton in the coastal regions, along with anomalous warm air temperatures and heavy precipitation Earth observations inspired anticipatory decision‐making framework is needed for preventing infectious disease outbreaks such as cholera in human population Regions such as Pakistan with massive flooding may experience similar risks and should be evaluated accordingly
Cholera, an ancient waterborne diarrheal disease, remains a threat to public health, especially when climate/weather processes, microbiological parameters, and sociological determinants intersect with population vulnerabilities of loss of access to safe drinking water and sanitation infrastructure. The ongoing war in Ukraine has either damaged or severely crippled civil infrastructure, following which the human population is at risk of health disasters. This editorial highlights a perspective on using predictive intelligence to combat potential (and perhaps impending) cholera outbreaks in various regions of Ukraine. Reliable and judicious use of existing earth observations inspired mathematical algorithms integrating heuristic understanding of microbiological, sociological, and weather parameters have the potential to save or reduce the disease burden.Cholera, an ancient waterborne diarrheal disease, remains a threat to public health, especially when climate/weather processes, microbiological parameters, and sociological determinants intersect with population vulnerabilities of loss of access to safe drinking water and sanitation infrastructure. The ongoing war in Ukraine has either damaged or severely crippled civil infrastructure, following which the human population is at risk of health disasters. This editorial highlights a perspective on using predictive intelligence to combat potential (and perhaps impending) cholera outbreaks in various regions of Ukraine. Reliable and judicious use of existing earth observations inspired mathematical algorithms integrating heuristic understanding of microbiological, sociological, and weather parameters have the potential to save or reduce the disease burden.
Author Brumfield, Kyle D.
Nguyen, Thanh H.
Usmani, Moiz
Barciela, Rosa
Magers, Bailey M.
Huq, Anwar
Colwell, Rita R.
Jutla, Antarpreet
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  surname: Jutla
  fullname: Jutla, Antarpreet
  email: ajutla@ufl.edu
  organization: University of Florida
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Copyright 2022. The Authors. GeoHealth published by Wiley Periodicals LLC on behalf of American Geophysical Union.
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Issue 9
Keywords environmental
climate
vibrios
infectious disease
cholera
Ukraine
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Snippet Cholera, an ancient waterborne diarrheal disease, remains a threat to public health, especially when climate/weather processes, microbiological parameters, and...
Abstract Cholera, an ancient waterborne diarrheal disease, remains a threat to public health, especially when climate/weather processes, microbiological...
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StartPage e2022GH000681
SubjectTerms Algorithms
Cholera
climate
Decision making
Disease
Drinking water
environmental
Epidemics
Health risks
Human populations
Hypotheses
infectious disease
Infrastructure
Pathogens
Plankton
Population
Precipitation
Public health
Rain
Sanitation
Social unrest
Sociology
Ukraine
vibrios
War
Waterborne diseases
Weather
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Title Predictive Intelligence for Cholera in Ukraine?
URI https://onlinelibrary.wiley.com/doi/abs/10.1029%2F2022GH000681
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