1. Pathogens in Air and Aquatic �Environments
3. Environments: �intercontinental dispersal of dust
4. How much dust is moving around?
5. How much dust is moving around?
6. Movements of Dust
7. Airborne plant pathogens: soybean rust Caused by a fungus. Spores are airborne
8. Airborne citrus diseases
9. Pathogens in space 234 microbial species were identified on Mir after 15 years in orbit
108 bacterial species, 126 fungal
The greatest diversity of “technophylic” fungi (eat polymers, corrode metals)
Evidence of multispecies biofilm on decorative surfaces
10. Factors that affect survival of pathogens in the air Atmosphere is inhospitable to microbes
UV, dessication, free radicals
11. UV-induced damage
12. Most airborne pathogens have mechanisms to resist UV, dessication
spore formation
pigments
13. Survival of Bacillus spores
14. Survival of Bacillus spores
15. Aquatic Environments Eutrophic
nutrient rich
typically shallow, warm
Oligotrophic
low productivity, nutrient-poor
16. Plankton Phytoplankton = primary producers
(CO2 + solar energy --> carbohydrates)
17. Marine Environments
18. the Ocean Photic zone
light can penetrate
200m down in clear water
1m in turbid coastal zones
Aphotic zone
No light
Neuston
air-water interface
Pelagic zone
water column, planktonic habitat
Upper part is epilagic zone = photic zone
Benthopelagic zone
sea-sediment interface
19. Aquatic Environments Benthic = interface between water column and mineral sub-surface
Lentic = standing water
Lotic = runnic water
20. Benthic habitat Benthos = a transition zone between
water column and mineral subsurface
Rich in organic matter and life forms
benthic life forms include enteric viruses, which were detected for up to 17 mo after dumping
21. Microbial mats
22. Pathogens in Aquatic Environments Sources:
run-off
shedding from animals
humans (directly)
many are normal aquatic microloflora, opportunistic pathoges
Factors influencing survival
Die-off
varying oxygen concentration, pH, UV
predation by amoeba, phages, predatory bacteria
23. Just how many of them are there?
24. Viruses in Aquatic Environments Survive in shellfish
Are carried by currents
Viruses can move 2 mph (in one study up to 141 mph(?)
Environmental conditions affect survival
Reoviruses (and other viruses) are only found during cooler months. Why?
HAV, enteroviruses, Norwalk-type viruses are detected in oyster beds after rains, and coincide with human outbreaks
Survive better in cooler temps (22C vs 33C), based on studies in the Keys
25. Survival of pathogens in aquatic environments Viable, non-culturable state
culturable counts decrease, bacteria are visible microscope, nucleic acids are detectable
respond to influx of DOM
Synthesis of new macromolecules ~ to the break down
“dwarf cells”, “round cells”
26. Survival of pathogens in aquatic environments Viable, non-culturable state
culturable counts decrease, bacteria are visible microscope, nucleic acids are detectable
respond to influx of DOM
Synthesis of new macromolecules ~ to the break down
“round cells”
27. Plankton: �free ride for the pathogens Using DNA probes and staining, Binsztein et al (2004) detected V. cholerae on phyto- and zooplankton, and in water.
Many V. cholerae cells were VBNC
28. Plankton-associated human pathogens�Magueri et al., 2004
29. Zooplankton:�bacteria eat it and develop appetite for humans Chitin - one of the most abundant C sources in the ocean
V. cholerae can grow on chitin as a sole C-source
V. cholerae has chitin-binding proteins on its surface
Human epithelial proteins are decorated with chitin monomers
30. Aquatic Environments: �sushi sampler special for Salmonella 4% are of human faecal origin, 20% are native bacteria and viruses
80% of mussels tested positive for at least one of the following:
Salmonella, Clostridium, E.coli-O157, Plesiomonas, Vibrio spp.
California study. Miller et al., 2006
Compared to other foods, seafood is still relatively safe!
31. V. vulnificus
32. Biotic and abiotic pressures in aquatic environments and air
