TY - JOUR
T1 - Associations Between Eight Earth Observation-Derived Climate Variables and Enteropathogen Infection
T2 - An Independent Participant Data Meta-Analysis of Surveillance Studies With Broad Spectrum Nucleic Acid Diagnostics
AU - Colston, Josh M.
AU - Zaitchik, Benjamin F.
AU - Badr, Hamada S.
AU - Burnett, Eleanor
AU - Ali, Syed Asad
AU - Rayamajhi, Ajit
AU - Satter, Syed M.
AU - Eibach, Daniel
AU - Krumkamp, Ralf
AU - May, Jürgen
AU - Chilengi, Roma
AU - Howard, Leigh M.
AU - Sow, Samba O.
AU - Jahangir Hossain, M.
AU - Saha, Debasish
AU - Imran Nisar, M.
AU - Zaidi, Anita K.M.
AU - Kanungo, Suman
AU - Mandomando, Inácio
AU - Faruque, Abu S.G.
AU - Kotloff, Karen L.
AU - Levine, Myron M.
AU - Breiman, Robert F.
AU - Omore, Richard
AU - Page, Nicola
AU - Platts-Mills, James A.
AU - Ashorn, Ulla
AU - Fan, Yue Mei
AU - Shrestha, Prakash Sunder
AU - Ahmed, Tahmeed
AU - Mduma, Estomih
AU - Yori, Pablo Penatero
AU - Bhutta, Zulfiqar
AU - Bessong, Pascal
AU - Olortegui, Maribel P.
AU - Lima, Aldo A.M.
AU - Kang, Gagandeep
AU - Humphrey, Jean
AU - Prendergast, Andrew J.
AU - Ntozini, Robert
AU - Okada, Kazuhisa
AU - Wongboot, Warawan
AU - Gaensbauer, James
AU - Melgar, Mario T.
AU - Pelkonen, Tuula
AU - Freitas, Cesar Mavacala
AU - Kosek, Margaret N.
N1 - Publisher Copyright:
© 2021 The Authors. GeoHealth published by Wiley Periodicals LLC on behalf of American Geophysical Union.
PY - 2022/1
Y1 - 2022/1
N2 - Diarrheal disease, still a major cause of childhood illness, is caused by numerous, diverse infectious microorganisms, which are differentially sensitive to environmental conditions. Enteropathogen-specific impacts of climate remain underexplored. Results from 15 studies that diagnosed enteropathogens in 64,788 stool samples from 20,760 children in 19 countries were combined. Infection status for 10 common enteropathogens—adenovirus, astrovirus, norovirus, rotavirus, sapovirus, Campylobacter, ETEC, Shigella, Cryptosporidium and Giardia—was matched by date with hydrometeorological variables from a global Earth observation dataset—precipitation and runoff volume, humidity, soil moisture, solar radiation, air pressure, temperature, and wind speed. Models were fitted for each pathogen, accounting for lags, nonlinearity, confounders, and threshold effects. Different variables showed complex, non-linear associations with infection risk varying in magnitude and direction depending on pathogen species. Rotavirus infection decreased markedly following increasing 7-day average temperatures—a relative risk of 0.76 (95% confidence interval: 0.69–0.85) above 28°C—while ETEC risk increased by almost half, 1.43 (1.36–1.50), in the 20–35°C range. Risk for all pathogens was highest following soil moistures in the upper range. Humidity was associated with increases in bacterial infections and decreases in most viral infections. Several virus species' risk increased following lower-than-average rainfall, while rotavirus and ETEC increased with heavier runoff. Temperature, soil moisture, and humidity are particularly influential parameters across all enteropathogens, likely impacting pathogen survival outside the host. Precipitation and runoff have divergent associations with different enteric viruses. These effects may engender shifts in the relative burden of diarrhea-causing agents as the global climate changes.
AB - Diarrheal disease, still a major cause of childhood illness, is caused by numerous, diverse infectious microorganisms, which are differentially sensitive to environmental conditions. Enteropathogen-specific impacts of climate remain underexplored. Results from 15 studies that diagnosed enteropathogens in 64,788 stool samples from 20,760 children in 19 countries were combined. Infection status for 10 common enteropathogens—adenovirus, astrovirus, norovirus, rotavirus, sapovirus, Campylobacter, ETEC, Shigella, Cryptosporidium and Giardia—was matched by date with hydrometeorological variables from a global Earth observation dataset—precipitation and runoff volume, humidity, soil moisture, solar radiation, air pressure, temperature, and wind speed. Models were fitted for each pathogen, accounting for lags, nonlinearity, confounders, and threshold effects. Different variables showed complex, non-linear associations with infection risk varying in magnitude and direction depending on pathogen species. Rotavirus infection decreased markedly following increasing 7-day average temperatures—a relative risk of 0.76 (95% confidence interval: 0.69–0.85) above 28°C—while ETEC risk increased by almost half, 1.43 (1.36–1.50), in the 20–35°C range. Risk for all pathogens was highest following soil moistures in the upper range. Humidity was associated with increases in bacterial infections and decreases in most viral infections. Several virus species' risk increased following lower-than-average rainfall, while rotavirus and ETEC increased with heavier runoff. Temperature, soil moisture, and humidity are particularly influential parameters across all enteropathogens, likely impacting pathogen survival outside the host. Precipitation and runoff have divergent associations with different enteric viruses. These effects may engender shifts in the relative burden of diarrhea-causing agents as the global climate changes.
KW - climate
KW - diarrheal disease
KW - hydrometeorology
KW - infectious diseases
KW - pediatrics
KW - weather
UR - http://www.scopus.com/inward/record.url?scp=85123802329&partnerID=8YFLogxK
U2 - 10.1029/2021GH000452
DO - 10.1029/2021GH000452
M3 - Article
AN - SCOPUS:85123802329
SN - 2471-1403
VL - 6
JO - GeoHealth
JF - GeoHealth
IS - 1
M1 - e2021GH000452
ER -