1. Items (plastic) removed from the gullet of a fledgling Laysan albatross http://gadgets.boingboing.net/2007/08/3 1/plastic-litters-our.html What did you think of the “Toxic Garbage Island”?

2. What criteria should be used to determine the safety of a chemical? What should the balance be between convenience, economy, and safety? How should conflicting or controversial data be interpreted? Who should make these decisions?

3. What happens as populations approach their carrying capacity?

4. 36.4 9 2.3 UN Department of Economic and Social Affairs Population Division (2004) Fig 52.17

5. CB 52.22 Human Population Growth

6. Spanish flu of 1918-1919

7. Killed between 20-50 million people worldwide; 675,000 in the U.S. (2.5%-5% of world population) Infected 1/5 to 1/4 of world population Was most lethal to people 20-40 years old http://virus.stanford.edu/uda/

8. Spanish flu of 1918-1919 People on their way to work suddenly developing the flu and dying within hours (Henig). One physician writes that patients with seemingly ordinary influenza would rapidly "develop the most viscous type of pneumonia that has ever been seen" and later when cyanosis appeared in the patients, "it is simply a struggle for air until they suffocate," (Grist, 1979). Another physician recalls that the influenza patients "died struggling to clear their airways of a blood-tinged froth that sometimes gushed from their nose and mouth," (Starr, 1976). http://virus.stanford.edu/uda/

9. The high fatality rate from the Spanish flu was probably due to an immune system over- reaction

10. Viruses

11. Fig 35.5

13. Fig 35.6 Types of viruses: coat and genetic material

14. Viruses cause disease Fig 35.1

15. Living organisms must fit all of the following criteria: (modified from Campbell “Biology”) 1. They must have organization. 2. They must have metabolism. 3. They must respond to the environment. 4. They must be able to reproduce themselves.

16. Basic viral reproductive cycle Fig 35.8

17. Spanish flu of 1918-1919 This influenza virus was similar to avian flu

18. Avian flu exists in two distinct forms: High pathogenicity AI virus that produce >75% mortality (HPAI) Low pathogenicity is everything else (LPAI) Public Health Risk from Avian Influenza Viruses by Perdue and Swayne in AVIAN DISEASES 49:317–327, 2005

19. Avian flu is maintained in wild birds as low pathogenicity, and occasionally mutates to high pathogenicity in domesticated birds. Approximately 25 outbreaks since 1959 15 since 1990 and 6 since 2000 Public Health Risk from Avian Influenza Viruses by Perdue and Swayne in AVIAN DISEASES 49:317–327, 2005

20. Membrane protein Viruses enter cells via membrane proteins. virus cell

21. Membrane protein Viral genetic material can change allowing the virus to infect different cells or organisms. virus cell

22. Virus 1 Virus 2 Virus 1+2 During co-infection viral genomes can be mixed resulting in a new hybrid virus.

23. Virus 1 Virus 2 Virus 1+2 One concern is a person who is infected with human flu and high pathogenicity avian flu.

24. Public Health Risk from Avian Influenza Viruses by Perdue and Swayne in AVIAN DISEASES 49:317–327, 2005

25. How is bird flu being spread? To lower the chance of a pandemic, we need to understand the spread of the disease. Declan Butler NATURE Vol 439 pg 772 February 16, 2006

26. http://news.bbc.co.uk/1/shared/spl/hi/world/05/bird_flu_map/html/1.stm Bird Flu Spread

27. Migratory wild birds or Poultry trade (black market) Prevention efforts will only be effective if the source can be defined

28. If the flu is being spread by migratory birds, why are some migratory routes free of flu? Bird migration is mostly N ⇔ S

29. In 2004 an outbreak in Tibet was traced to illegal poultry transport from China.

30. Even with today’s vaccine technology and the knowledge that vaccines will prevent severe illness and death, only 300 million doses are produced and used worldwide. More than 95% of the world’s population remains at risk for infection. Each year an estimated 250,000 to 500,000 people die worldwide as a result of influenza virus infections. Public Health Risk from Avian Influenza Viruses by Perdue and Swayne in AVIAN DISEASES 49:317–327, 2005

31. It is estimated that in the United States, for example, the yearly economic burden caused by influenza deaths, infections, vaccinations, loss of productivity, and attendant health care costs is equal to 0.1%–0.5% of the gross domestic product. Public Health Risk from Avian Influenza Viruses by Perdue and Swayne in AVIAN DISEASES 49:317–327, 2005

32. 36.4 9 2.3 UN Department of Economic and Social Affairs Population Division (2004) Fig 52.17