Since late 2003 several East and Southeast Asia countries have experienced large outbreaks of Highly Pathogenic Avian Influenza (HPAI, subtype H5N1), or bird flu. By April 6, 2006, HPAI outbreaks occurred in 45 countries, 3 continents, with a total of 192 human cases (109 deaths). Widespread circulation of the avian flu virus also increases the chances of mutation into a form that could pass from human to human, which could result in a new human flu pandemic of unknown magnitude. At present, the efforts in risk assessment early warning of HPAI are to large degree hampered by (i) the lack of comprehensive understanding of the ecology of avian influenza, particularly in relation to agricultural systems, poultry, wild birds, biophysical and biochemical environments, and (ii) the facts that geospatial datasets used for risk assessment and early warning are often out-of-date and at coarse spatial (e.g., national or provincial) and temporal (e.g., at annual) resolutions. This interdisciplinary and international project combines epidemiology, ornithology, agriculture and environmental remote sensing. Its overall goal is threefold: (a) to better understand the ecology of HPAI in Asia; (b) to develop a data-model integration system that could identify """"""""hot spots"""""""" (location-varying risk) and """"""""hot times"""""""" (time-varying risk) of HPAI in Asia, and (c) to provide near-real-time ecology-based risk assessment and early warning of HPAI in 2007-2009 for Asia. Specifically, it will (1) provide updated and improved geospatial datasets of HPAI-relevant ecological factors, including migration flyways and timing of wild waterfowls, agricultural systems (cropping intensity, crop calendar, and irrigation), seasonality of wetlands, and biophysical variables (e.g., land surface temperature) at moderate spatial resolution (500-m to 1-km); (2) quantify the relationships between HPAI and ecological variables; (3) develop a GIS-based epidemiological model; and (4) develop an internet-based geospatial web system (primarily through linking GoogleEarth with research-oriented websites, e.g., http://remotesensing.unh.edu') for distributed mapping and timely distribution of HPAI-relevant information. This project employs remote sensing and GIS/GPS, in-situ observations, epidemiological models, and internet technology. This interdisciplinary project will make significant contribution to the ecology of infectious diseases and public health. The resultant dynamic maps of """"""""hot spots"""""""" and """"""""hot times"""""""" of HPAI risk regions, when distributed in a timely fashion, will aid the public, researchers, business, and decision makers in preparedness of potential HPAI pandemic crisis. This project will also provide interdisciplinary education for next generation scientists (both graduate and undergraduate students) in epidemiology, ornithology, public health and Earth system science. ? ? ?

Agency
National Institute of Health (NIH)
Institute
Fogarty International Center (FIC)
Type
Research Project (R01)
Project #
7R01TW007869-04
Application #
7748402
Study Section
Special Emphasis Panel (ZRG1-BDA-A (52))
Program Officer
Jessup, Christine
Project Start
2006-09-15
Project End
2010-07-31
Budget Start
2008-09-01
Budget End
2009-07-31
Support Year
4
Fiscal Year
2008
Total Cost
$372,853
Indirect Cost
Name
University of Oklahoma Norman
Department
Other Basic Sciences
Type
Schools of Arts and Sciences
DUNS #
848348348
City
Norman
State
OK
Country
United States
Zip Code
73019
Njabo, Kevin Yana; Zanontian, Linda; Sheta, Basma N et al. (2016) Living with avian FLU--Persistence of the H5N1 highly pathogenic avian influenza virus in Egypt. Vet Microbiol 187:82-92
Prosser, Diann J; Palm, Eric C; Takekawa, John Y et al. (2016) Movement analysis of free-grazing domestic ducks in Poyang Lake, China: a disease connection. Int J Geogr Inf Sci 30:869-880
Larison, Brenda; Njabo, Kevin Y; Chasar, Anthony et al. (2014) Spillover of pH1N1 to swine in Cameroon: an investigation of risk factors. BMC Vet Res 10:55
Gilbert, Marius; Golding, Nick; Zhou, Hang et al. (2014) Predicting the risk of avian influenza A H7N9 infection in live-poultry markets across Asia. Nat Commun 5:4116
Cappelle, Julien; Zhao, Delong; Gilbert, Marius et al. (2014) Risks of avian influenza transmission in areas of intensive free-ranging duck production with wild waterfowl. Ecohealth 11:109-19
Robinson, Timothy P; Wint, G R William; Conchedda, Giulia et al. (2014) Mapping the global distribution of livestock. PLoS One 9:e96084
Sheta, Basma M; Fuller, Trevon L; Larison, Brenda et al. (2014) Putative human and avian risk factors for avian influenza virus infections in backyard poultry in Egypt. Vet Microbiol 168:208-13
Bridge, Eli S; Kelly, Jeffrey F; Xiao, Xiangming et al. (2014) Bird Migration and Avian Influenza: A Comparison of Hydrogen Stable Isotopes and Satellite Tracking Methods. Ecol Indic 45:266-273
Thanapongtharm, Weerapong; Van Boeckel, Thomas P; Biradar, Chandrashekhar et al. (2013) Rivers and flooded areas identified by medium-resolution remote sensing improve risk prediction of the highly pathogenic avian influenza H5N1 in Thailand. Geospat Health 8:193-201
Zhang, L; Guo, Z W; Bridge, E S et al. (2013) Distribution and dynamics of risk factors associated with highly pathogenic avian influenza H5N1. Epidemiol Infect 141:2444-53

Showing the most recent 10 out of 27 publications