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Prevalence of toxic agents in the environment Persistent, organic pollutants (POP’s) Bioaccumulation Biomagnification

Environmental Toxicology. Prevalence of toxic agents in the environment Persistent, organic pollutants (POP’s) Bioaccumulation Biomagnification Epidemiology, animal testing, and dose-response analysis Factors affecting toxicity. Toxicology.

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Prevalence of toxic agents in the environment Persistent, organic pollutants (POP’s) Bioaccumulation Biomagnification

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  1. Environmental Toxicology • Prevalence of toxic agents in the environment • Persistent, organic pollutants (POP’s) • Bioaccumulation • Biomagnification • Epidemiology, animal testing, and dose-response analysis • Factors affecting toxicity

  2. Toxicology • The study of poisonous substances and their effects on humans and other organisms • Toxicologists assess and compare toxic agents, or toxicants, for their toxicity, the degree of harm a substance can inflict. • Environmental toxicology focuses on effects of chemical poisons released into the environment.

  3. Synthetic chemicals are everywhere ! • Many thousands have been produced and released. • Some persist for long time periods or travel great distances. • Of the 100,000 synthetic chemicals on the market today, very few have been thoroughly tested for harmful effects.

  4. Environmental Toxicology • Studies toxicants that come from or are discharged into the environment, and: Health effects on humans Effects on animals Effects on ecosystems • Animals are studied: For their own welfare To warn of possible effects on humans

  5. Frogs show reproductive abnormalities in response to small doses of the herbicide atrazine. • Others suggest that atrazine may have effects on humans as well. • The fierce criticism from atrazine’s manufacturer reflects the high stakes in environmental toxicology. Tyrone Hayes (UC Berkeley)

  6. Synthetic Chemicals People are largely unaware of the health risks of many toxicants.

  7. Types of Toxicants • Carcinogens: cause cancer • Mutagens: cause mutations in DNA • Teratogens: cause birth defects • Allergens: cause unnecessary immune response • Neurotoxins: damage nervous system • Endocrine disruptors: interfere with hormones

  8. Types of Toxicants: Teratogens • The drug thalidomide, used to relieve nausea during pregnancy, turned out to be a potent teratogen, and caused thousands of birth defects before being banned in the 1960s. Thalidomide survivor Butch Lumpkin

  9. Endocrine Disruption • Some chemicals, once inside the bloodstream, can “mimic” hormones. • If molecules of the chemical bind to the sites intended for hormone binding, they cause an inappropriate response. • Thus these chemicals disrupt the endocrine system.

  10. The hormone system is geared to working with tiny concentrations of hormones, so it can respond to tiny concentrations of environmental contaminants. A 1992 study summarized results of sperm count studies worldwide since 1938. Data showed a significant decrease in men’s sperm counts over 50 years.

  11. Testicular Cancer • Others hypothesize that endocrine disruptors are behind the rise in testicular cancer in many nations.

  12. Toxicants Concentrate in Water • Surface water and groundwater can accumulate toxicants. • Runoff from large areas of land drains into water bodies, becoming concentrated. • Toxicants in groundwater or surface water reservoirs used for drinking water pose potential risks to human health.

  13. Airborne Toxicants • Volatile chemicals can travel long distances on atmospheric currents. • PCBs are carried thousands of miles from developed nations of the temperate zone up to the Arctic, where they are found in tissues of polar bears and seals.

  14. Persistence • Some chemicals are more stable than others, • persisting for longer in the environment. DDT and PCBs are persistent. Bt toxin in GM crops is not persistent. • Temperature, moisture, sun exposure, etc., affect rate of degradation. • Most toxicants degrade into simpler breakdown products. Some of these are also toxic. • (DDT breaks down to DDE, also toxic.)

  15. Typical Arctic Atmospheric Circulation Pattern in Winter

  16. Atmospheric Circulation Patterns from Densely- Populated Areas of Europe into the Canadian Arctic Source: Environmental Protection Division, Department of Renewable Resources, Government of the NWT

  17. Arctic Haze 1950’s Reddish –brown haze first observed in arctic atmosphere Pollution peaks from January to April, as strong low pressure systems in the Atlantic and Pacific bring pollution northward in lowest 1-2 km of atmosphere: most visible when sun returns Composed of solid and liquid natural compounds and contaminants (sulphates, soot from coal and petroleum production) Commoner, B., P.W. Bartlett, H. Eisl and K. Couchot. 2000. Long range air transport of dioxin from North American sources to ecologically-vulnerable receptors in Nunavut, Arctic Canada. Center for Biology of Natural Systems, Queen’s College, CUNY. (http://www.cec.org/programs_projects/pollutants_health/develop_tools/dioxins/dioxrep.pdf)

  18. Arctic haze is also of greater significance in winter since the atmosphere becomes stratified, with a stable layer of cold air near the surface (inhibits mixing) Summer values of pollutants are much lower (only 2-5% of winter values) Why ? Transport mechanisms are weaker, there is more photochemical breakdown, there is more vertical mixing and rain helps to flush the atmosphere Source is mainly from Europe due to atmospheric circulation; in North America, much of the pollution produced is pulled eastward, south of the Icelandic low

  19. Production Of Arctic Haze

  20. “Cleansing” of Arctic Haze Snow, rain, and dry deposition cleanse the air and contaminate the land Rivers carry and process contaminants by transportation, sedimentation and re-suspension of particles. Lakes, estuaries, and deltas serve as sediment traps and sinks for contaminants. Ice Shelves may also accumulate, transport and release pollutants in the biologically productive shelf seas, where they can be taken up into the food chain.

  21. Snowmelt: A springtime surge of contamination Melting snow facilitates the transport of contaminants Snow accumulates contaminants from the air throughout the long winter. Deep snow packs retain volatile contaminants, which would otherwise be released back into the air. Water-soluble chemicals concentrate in the melt-water during melt Meltwater generally flows over frozen ground directly into streams and lakes

  22. Sediments and contaminants in the ice are released during the spring melt Biological productivity within the water peaks early in the summer (coincides with high pollution) Contaminants can, therefore, build up in the winter and be efficiently incorporated into animal and plant life in the spring

  23. Bioaccumulation of toxic contaminants Biomagnification is the increase in contaminant load as predators obtain the chemicals eaten by their prey, thus further concentrating the toxic material at each trophic level Primary concern: levels of persistent organic pollutants (POP’s) are nine times higher in breast milk of northern women than in southern Canada Why is this ? Contaminants are preserved in cold climates due to the lack of microbial activity to degrade them People eat more country foods

  24. Why are POP’s so persistent ? POP’s are synthetic organic chemicals that (1) break down very slowly (2) are fat-soluble They are found in high concentrations in arctic animals because: (1) storing energy as fat is required for survival in cold climates (2) many arctic animals are carnivorous (high on the food chain

  25. Poisons move up the food chain • At each trophic level, chemical concentration increases: biomagnification. • DDT concentrations increase from plankton to fish to fish-eating birds. Figure 10.9

  26. Poisons Accumulate in Tissues • The body may excrete, degrade, or store toxicants. • Fat-soluble ones are stored. • DDT is persistent and fat soluble, • … so builds up in tissues: bioaccumulation. • Bioaccumulated chemicals may be passed on to animals that eat the organism—up the food chain…

  27. Effect of POP’s on living organisms In birds: Impacts upon ability to conceive and raise young. Affects egg development and mating behaviour in bird species In mammals: 1. Leads to malformations in reproductive organs, fewer young or infertility 2. Hormone disrupters mimic hormones because they are similar enough in structure to fit into the body’s biochemical receptors 3. Can affect the immune system, especially in the young 4. Carcinogenic

  28. Specifics on other contaminants: DDT Pesticide: toxic to more organisms than intended to kill Birds of prey began to die in large numbers in affected areas Evidence of long-range transport: Detected in the blubber of ringed seals in 1970 Banned for decades in circumpolar countries PCB’s Used in transformer fluids Carcinogenic, mutagenic

  29. Dioxins and furans Used in high temperature processes (stable) and herbicides Disturbed reproduction, suppressed immune function and highly carcinogenic Hexachlorobenzene (HCB) Used in pesticides and produced in waste incineration and metallurgical processes Affects reproductive and immune function

  30. Annual Contaminant Deposition in Precipitation (Gregor, 1990) Compound C. Ont. N. Sask. Arctic HCH 14 2.1-6.5 0.01-2.3 DDT 0.02 0.002-0.1 0.01-0.2 PCB’s 1.6 1.5-1.7 0.01-0.3 HCB 0.08 0.003 <0.01

  31. Organic compound concentrations in Animals of the Northwest Territories (Environment Canada, 1992) DDT HCH chlordane Caribou 1-4 1-42 0.2-8 Arctic Hare <0.2-0.9 1-50 0.6-4 Ptarmigan 0.3-11 0.4-53 0.2-7.4 Marine Fish 3-21 2-110 1-44 Seabirds 3-13000 5-10 7-230 Polar Bear 10-1200 300-870 1800-7000 Seal 2-4900 1-270 2-4600 Whale 320-800 150-240 30-2300

  32. All toxicants are not synthetic • Although toxicology tends to focus on man-made chemicals, it’s important to keep in mind that there are plenty of natural toxicants. • Many are toxins produced by animals or plants for protection against predators and pathogens.

  33. Dose-Response Analysis • Method of determining toxicity of a substance by measuring response to different doses • Lab animals are used. • Mice and rats breed quickly, and give data relevant to humans because they share mammal physiology with us. • Responses to doses are plotted on a dose-response curve.

  34. Dose-response curve LD50 = dose lethal to 50% of test animals Threshold = dose at which response begins Figure 10.10

  35. Dose-Response Curve • Dose-response curves allow us to predict effects of higher doses. • By extrapolating the curve out to higher values, we can predict how toxic a substance may be to humans at various concentrations. • In most curves, response increases with dose. But this is not always the case; the increase may not be linear.

  36. Factors Affecting Toxicity • Not all people are equal. Sensitivity to toxicant can vary with sex, age, weight, etc. • Babies, older people, or those in poor health are more sensitive. • Type of exposure: • acute = high exposure in short period of time • chronic = lower amounts over long period of time

  37. Mixtures of Toxicants • Substances may interact when combined together. • Mixes of toxicants may cause effects greater than the sum of their individual effects. These are called synergistic effects. • A challenging problem for toxicology: There is no way to test all possible combinations! (And the environment contains complex mixtures of many toxicants.)

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