Ecology, Environment and Health Lecture 14: Solvents & Pesticides (PDF)

Summary

This lecture provides information on chemical stressors, including solvents and pesticides, focusing on their sources, uses, and environmental effects. It details toxicokinetics and discusses common health effects of solvents and pesticide classes.

Full Transcript

Ecology, Environment and Health 1950-331

Lecture 14
Chemical Stressors:
Solvents & Pesticides
27 October 2024

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This Lecture Will Help You To:
Identify and describe sources and uses of solvents and
pesticides
Describe the movement of solvents in the environment
Identify the general mechanisms of toxicities of solvents
and pesticides
List and describe the major classes of pesticides and their
health effects

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Solvents

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What is a Solvent?
In the case of occupational toxicology:
Liquid
Organic compound
Dissolves other organic compounds
Lipophilic
Usually volatile

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Products – Mostly Solvents Products – Partly
Solvents
Glues
Gasoline Adhesives
Diesel Fuel Oil based paints
Charcoal lighter fluid Furniture polishes
Lantern fuel Floor polishes and
Grease waxes
Lubricating oils Spot removers
Degreasing agents Metal and wood
Paint stripers cleaners
White out
Paint thinner
Computer disk
Turpentine cleaner
Nail polish remover Varnishes and
shellacs
Wood and concrete
stains

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Chemical Classes of Solvents

Aliphatic hydrocarbons: Gasoline
Cyclic hydrocarbons: Cyclohexane

Aromatic hydrocarbons: Benzene, toluene
Ketones: Cyclohexanone, acetone
Aldehydes: Acetaldehyde
Alcohols: Ethanol, methanol
Ethers: Glycol ethers
Esters: Ethyl acetate

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Toxicokinetics of Solvents

Rapid absorption
Inhalation route (volatile solvents, by diffusion)
Transdermal route
Ingestion (uncommon)

Distribution
Depends on tissue lipid content and vascularity
Adipose and lipid-rich tissues are depots for storage

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Toxicokinetics of Solvents
Metabolism
Generally hepatic, by mixed function oxidase (MFO)
system
Bioactivation to toxic metabolites for some
compounds

Excretion
Urine, conjugated products
Expired air, volatile solvents

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Common Features in Toxicity of Solvents

Local dermal effects due to extraction of lipid
from dermis
CNS depressant effect
Neurotoxicity
Hepatotoxic effects
Nephrotoxicity
Variable cancer risk

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Peripheral Neurotoxicity (PN) and Solvents

Distal axonal neuropathy

Specific solvents known or suspected to cause PN:
n-hexane, methyl-n-butyl ketone (MnBK), carbon disulfide (known)
Styrene, tetrachlorethylene (suspected)

Generally presents first in lower extremities

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General Toxicology of Halogenated Aliphatic Solvents

May be significant water disinfection byproducts
Severe hepatotoxicity (CCl4, CHCl3)
Nephrotoxicity
Cardiac arrhythmias
Carcinogenicity:
Alkanes: polyhalides, chlorides
Alkenes: monohalides, chlorides

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Pesticides

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What are Pests?
Pests are not limited to organisms that transmit disease,
and could be any living thing that negatively affects
human interests. Some of the characteristics of pests
include:
A loss of resources such as agricultural crops, food and property damage, and
damage to lawns and gardens
Agents of disease
Sources of annoyance and discomfort

Examples of impacts of pests:
Weeds compete for agricultural space
Fresh mussels clog intake pipes
Rabbits decimate field crops
Wasps that sting
Moths that eat clothes
Roaches and flies that carry disease organisms into food

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Insects, fungi, or viruses that attack crops or people
Pesticides

A short video of a pesticide story:
http://www.youtube.com/watch?v=DSndZ9Xi640

Pesticide Food Poisoning from Contaminated Watermelons in California, 1985
https://nap.nationalacademies.org/read/4795/chapter/45

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Definition – US EPA
“…a pesticide is any substance or mixture of substances
intended for preventing, destroying, repelling, or
mitigating any pest.”

“…a pest is any harmful, destructive, or troublesome
animal, plant or microorganism.”

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Pesticide Benefits

Allow agricultural producers to improve the quality,
quantity, and diversity of our food supply
Used in timber, turf, horticulture, aquatic, and structural
pest control industries
Homeowners and home gardeners often use pesticides in
their homes, yards, and on pets

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What Happens After Application?
When pesticides are applied, the goal is that they will
remain in the target area long enough to control a specific
pest and then degrade into harmless compounds
Once applied, many pesticides are mobile in the
environment (air, soil, water)
This movement can be beneficial (moving pesticide to
target area, such as roots) but can also reduce the effect
on the target pest and injure nontarget plants and animals

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Properties of Pesticides

Vapor Pressure (volatility) – pesticides with a low
VP are more likely to change to a gas and escape
into the atmosphere

Sorption – attraction to soil surfaces, pesticides
with higher sorption values have reduced leaching

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Properties of Pesticides
Water Solubility/dissolvability - more soluble pesticides
have lower sorption and are more mobile in the
environment as they are leached or moved with runoff

Persistence – the amount of time a pesticide remains in
the environment, measured by half-life. Pesticides with
longer half-lives pose a greater threat to the environment

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Pathways of Environmental Transfer of Pesticides

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Problems

Bioaccumulate – example DDT, PCB
35,000 or more commercial products that use pesticides
Many pesticides are neurotoxic (affect the nervous
system)
Many kill desirable insects or plants
Contaminate streams and lakes

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Absorption

Ingestion
Inhalation (lung)
Skin (dermal)

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Home & Occupational Exposure
Home:
Accidental ingestion
Lawn and garden use
Insect control
Food supply
Water supply

Occupational:
Farms & farm worker
Pesticide applicator
Manufacture
Mixing & handling
Landscapers
Many more…
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Other Exposures

Dietary exposure
Pesticide residues on crops

Community exposure
Airborne drift from commercial application

Contaminated drinking water
Leaching from soils to ground water

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Insecticides

Insecticides (kill insects)
Organochlorines
Organophosphates
Carbamates
Synthetic Pyrethroids

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Mechanism of Action

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Organochlorines

Examples
DDT, methoxychlor, aldrin, dieldrin, endrin,
heptachlor, kepone, lindane, chlordane
Toxicity
Acute toxicity variable, CNS – convulsions, coma
Environmental characteristics
Highly persistent in environment
Fat soluble
Bioaccumulation
Biomagnification
Mostly banned in US and Europe
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Organophosphates

Examples
Malathion, parathion, guthion, diazinon, TPN,
TOCP, nerve gases – tabun, sarin, soman, VX
Toxicity
Acute toxicity highly variable – Parathion, TPN,
sarin very toxic, malathion much less
Environmental characteristics
Rapidly degrade in outdoor environment (last
longer in doors)
Do not bioaccumulate
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Organophosphates (contd)

Mechanism of toxicity
Inhibition of acetylcholinesterase (AchE) in nerve
tissue
Symptoms
Over-stimulation of parasympathetic nervous
system - salivation, constricted pupils, diarrhea,
sweating, muscle twitching, CNS disturbances –
coma and death
Treatment
Reverse AchE inhibition effects – use Atropine to
block Ach receptors or AchE inhibiton with 2-PAM
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Organophosphates (contd)

Other Toxic Effects
Delayed peripheral neuropathy (TOCP)
Not a carcinogen or teratogen
Possible long term neurological consequences
from repeated exposures

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Carbamates

Examples
Sevin (carbaryl), Baygon (propoxur), Temik
(aldicarb)
Toxicity
Aldicarb very toxic, others less toxic
Mechanism and signs of toxicity
Similar to organophosphates
Environmental characteristics
Not persistent in environment
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 How to get rid of pesticides residues from
vegetables
http://www.youtube.com/watch?v=lRe4jJF
Umrs

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Summary - Important Concepts to Focus On

For Solvents:
Uses/applications
Toxicokinetics: what makes them accumulate in tissues
Exposure routes: inhalation …why….
Major health effects

For pesticides:
How their properties affect environmental persistence and
exposure (slides 17-19)
Sources of exposure (slides 23-24)
Toxicity of organophosphates: main health effect and its
mechanism

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Assignment for Tuesday:

Midterm Review
Lectures 1 - 8

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