350 likes | 968 Views
Diseases & Causative Agents. Infectious Diseases Viral Prion Bacterial Protozoal Parasitic. Diseases & Causative Agents. Non-Infectious Diseases Chemical (pesticide, heavy metals, contaminants) Physiological Genetic Nutritional Trauma. H. A. H. A. E. Ex: Influenza
E N D
Diseases & Causative Agents • Infectious Diseases • Viral • Prion • Bacterial • Protozoal • Parasitic
Diseases & Causative Agents • Non-Infectious Diseases • Chemical (pesticide, heavy metals, contaminants) • Physiological • Genetic • Nutritional • Trauma
H A H A E Ex: Influenza Agent Increased A H Good Health “In Balance” Ex: Tularemia, Plague Host pop. increased
H A A H Ex: Flood -Environment upset & promotes growth of agent (typhoid fever, cholera) • Ex: Air Pollution • Environment upset & • makes host more • susceptible
Diseases & Causative Agents • Disease Transmission • Direct: usually within spp. • Indirect: through different spp.
Diseases & Causative Agents • Contagious – transmittable to others • All contagious diseases are infectious ContagiousInfectious (not contagious) cold tetanus
Diseases & Causative Agents • Chronic: slow-acting to overcome resistance of host (long-term) • Acute: short-term, agent overwhelms host rapidly • Subclinical: don’t develop clinical signs of disease
Diseases & Causative Agents • Pathogenic: ability of agent to induce disease • Virulence: severity of disease produced by agent e.g., common cold verypathogenic, not virulent rabies = not very pathogenic, veryvirulent
Wildlife Diseases • Interest from wildlife management point-of-view: • Domestic and/or wild animals can serve as reservoirs and/or vectors • Density of wildlife populations
Wildlife Diseases • Interest from human health & safety point-of-view: • Domestic and/or wild animals can serve as reservoirs and/or vectors • e.g., avian influenza • Since 2003, 393 human cases, 248 deaths (WHO)
Wildlife Diseases • Interest from pet/domestic animal health & safety point-of-view: • Domestic and/or wild animals can serve as reservoirs and/or vectors • e.g., bovine TB (Mycobacterium bovis)
Wildlife Diseases • Interest from wildlife management point-of-view: • Density of wildlife populations • DD response? • Red Grouse & strongylosis (caused by Trichostrongylus tenuis) • Lack’s rebuttal [food supply & weakened state of birds]
Wildlife Diseases • Interest from wildlife management point-of-view: • Small populations, threatened/endangered spp.
Wildlife Diseases • Interest from wildlife management point-of-view: • Small populations, threatened/endangered spp. • 1984 Patuxent Wildlife Research Center, 7 of 39 whooping cranes (18% of captive breeding flock) die of possible insect-borne virus
Wildlife Diseases • Interest from wildlife management point-of-view: • Part of community dynamics • Newfoundland, lynx biting caribou calves, transfer Pasteurella multocida in saliva via bites • 27% calf survival before lynx removal • 63% calf survival after lynx removal
Wildlife Diseases • Wildlife management responses: • Culling • Stanislaus Nat’l Forest (CA) 1924-1925, 22,000 mule deer killed in response to foot-and-mouth outbreak in cattle • 10% of these showed lesions
Wildlife Diseases • Wildlife management responses: • Monitor and “Clean up”/Contain • e.g., avian botulism
CWD • Captive and wild cervids • white-tailed deer • mule deer • elk • moose • First observed, 1967, Colorado Division of Wildlife’s Research Facility in Fort Collins, CO (initially thought to be malnutrition) • 1977 CWD determined to be TSE (mule deer) • 1981, 1st wild animal (elk) from Rocky Mt. Nat’l Park, diagnosed • Models suggests may have been present in free-ranging populations of mule deer for more than 40 years
CWD • Susceptibility of other cervids to CWD not known • Cattle and other domestic livestock appear to be resistant to natural infection (research continues) • Privately owned cervid facilities (POC) may allow spread
USDA APHIS WS • National Wildlife Research Center (NWRC) • Congressional appropriations for research and management of CWD (and many other conflict issues) Dr. Kurt VerCauteren
CWD in WI • Discovered wild deer in 2001/2002 • >700,000 deer hunters • Avg 460,000 deer harvested • Generates >$500 million retail • ~$1 billion impact to state’s economy
CWD in WI • Discovered wild deer in 2001/2002 • Spent $40+ million testing and drastically reducing deer populations since • Initially planned to kill all estimated 30,000 deer in focal area • Saskatchewan spent $30+ million
CWD in WI • Surveillance program to detect 1% prevalence • Difference in age/gender • 0.16% fawns + • Increase prevalence with age (faster in males) • 2-3% yearlings + • 2+ yrs (M = 10%, F = 4-5% +)
CWD in Michigan • Michigan : Michigan's First Case of Chronic Wasting Disease Detected at Kent County Deer Breeding Facility Date: August 25, 2008 Source: Michigan Department of Natural ResourcesLANSING - The Michigan departments of Agriculture (MDA) and Natural Resources (DNR) today confirmed the state's first case of Chronic Wasting Disease (CWD) in a three-year old white-tailed deer from a privately owned cervid (POC) facility in Kent County. The state has quarantined all POC facilities, prohibiting the movement of all - dead or alive - privately-owned deer, elk or moose. Officials do not yet know how the deer may have contracted the disease. To date, there is no evidence that CWD presents a risk to humans.
CWD in Michigan • Michigan : Tests of More Than 1,000 Deer Find No More Cases of Chronic Wasting Disease Date: October 07, 2008 Source: The Grand Rapids PressStatewide, 1,095 deer have been tested, with 964 testing clean and 131 awaiting results. More than 300 wild Kent County deer have been tested and found to be clear of chronic wasting disease after the highly contagious disorder was found in one northern Kent County farm-raised deer in August. Approximately $1 million spent on testing