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Water Pollution due to Heavy metals, Pesticides, Oils and Detergents
Presented byJoy H JonesRoll No 08
M2 EE
Water Pollution
Water Pollution
• Water pollution may be defined as any impairment in its native characteristics by addition of anthropogenic contaminants to the extent that it either cannot serve to humans for drinking purposes and/or to support the biotic communities, such as fish.
•Water pollution is the contamination of water bodies such as lakes, rivers, oceans, and groundwater by human activities
Heavy Metal contamination in Water Body
Heavy Metals•The term heavy metal refers to any
metallic chemical element that has a relatively high density and is toxic or poisonous at low concentrations.
Heavy Metals• Heavy metals are naturally occurring
elements that have a high atomic weight and a density at least 5 times greater than that of water.
Heavy Metals
HEAVY METALS• are natural components of the Earth's crust• they cannot be degraded or destroyed• to a small extent they enter our bodies via food,
drinking water and air• as trace elements, some heavy metals (e.g.
copper, selenium, zinc) are essential to maintain the
metabolism of the human body• however, at higher concentrations they can lead
to poisoning• heavy metal poisoning could result, for instance,
from drinking-water contamination (e.g. lead pipes), high ambient air concentrations near emission sources, or intake via the food chain
Heavy metals• Heavy metals are dangerous because they tend
to bioaccumulate. • Bioaccumulation means an increase in the
concentration of a chemical in a biological organism over time, compared to the chemical's concentration in the environment.
• Compounds accumulate in living things any time they are taken up and stored faster than they are broken down (metabolized) or excreted.
Heavy MetalVillagers from Sahecun, in southern China, are suffering from hideous swellings caused by heavy metal pollution(lead) from a mine that closed a decade ago. Huang Guiqiang, 58, said: 'The lumps over my body are incredibly painful, and interspersed occasionally with periods where I can't feel anything at all in my body’
Heavy Metal• Heavy metal toxicity can result in
▫ damaged or reduced mental and central nervous function, ▫ lower energy levels, ▫ Damage
blood composition, lungs, kidneys, liver, and other vital organs.
▫ Long-term exposure may result in slowly progressing physical, muscular, and neurological degenerative processes that mimic Alzheimer's disease, Parkinson's disease, muscular dystrophy, and multiple sclerosis.
Allergies are not uncommon and repeated long-term contact with some metals or their
compounds may even cause cancer
Heavy Metal•The main threats to human health from
heavy metals are associated with exposure to lead, cadmium, mercury and arsenic. These metals have been extensively studied and their effects on human health regularly reviewed by international bodies such as the WHO
Lead•Exposure to inorganic lead occurs in mines
and smelters as well as welding of lead painted metal, and in battery plants.
• Low or moderate exposure may take place in the glass industry.
•Lead is present in fuels, on burning it will enter the air
•Airborne lead can be deposited on soil and water, thus reaching humans via the food chain.
Lead•In adults, inorganic lead does not
penetrate the blood–brain barrier, whereas this barrier is less developed in children. The high gastrointestinal uptake and the permeable blood–brain barrier make children especially susceptible to lead exposure and subsequent brain damage.
Lead•Acute exposure to lead is known to cause
proximal renal tubular damage.• Long-term lead exposure may also give
rise to kidney damage
Lead•IARC (International Agency Research on
Cancer) classified lead as a ‘possible human carcinogen’ based on sufficient animal data and insufficient human data in 1987.
• lung cancer, stomach cancer and gliomas can be caused due to lead
•A notably serious effect of lead toxicity is its teratogenic effect
Arsenic
•Arsenic is a widely distributed metalloid, occurring in rock, soil, water and air.
• Inorganic arsenic is present in groundwater used for drinking in several countries all over the world (e.g. Bangladesh, Chile and China),
•Organic arsenic compounds (such as arsenobetaine) are primarily found in fish, which thus may give rise to human exposure
Man affected with Heavy metal (Arsenic)
Arsenic•The latest WHO evaluation concludes that
arsenic exposure via drinking water is causally related to cancer in the lungs, kidney, bladder and skin, the last of which is preceded by directly observable precancerous lesions.
Arsenic
•Uncertainties in the estimation of past exposures are important when assessing the exposure–response relationships, but it would seem that drinking water arsenic concentrations of approximately 100 μg/l have led to cancer at these sites, and that precursors of skin cancer have been associated with levels of 50–100 μg/l.
Cadmium•Found in
▫Zinc smelting,▫ waste batteries, ▫e-waste, ▫paint sludge,▫ incinerations & fuel combustion
Cadmium entering in Water body
Cadmium•Cadmium is toxic at extremely low levels.• In humans, long term exposure results in
renal dysfunction.• Cadmium is also associated with bone
defects, viz; osteomalacia, osteoporosis and spontaneous fractures, increased blood pressure and myocardic dysfunctions.
Cadmium -effects
MercuryThe mercury compound cinnabar (HgS), was used in pre-historic cave paintings for red colours, and metallic mercury was known in ancient Greece where it (as well as white lead) was used as a cosmetic to lighten the skin.
In medicine, apart from the previously mentioned use of mercury as a cure for syphilis, mercury compounds have also been used as diuretics [calomel (Hg2Cl2)], and mercury amalgam is still used for filling teeth in many countries26
Mercury
Inorganic Mercury•Acute mercury exposure may give rise to
lung damage. Chronic poisoning is characterized by neurological and psychological symptoms, such as tremor, changes in personality, restlessness, anxiety, sleep disturbance and depression.
•Renal dysfunctions are also caused by mercury exposure
Organic Mercury•Methyl mercury poisoning has a latency
of 1 month or longer after acute exposure, and the main symptoms relate to nervous system damage.
•High doses may lead to death, usually 2–4 weeks after onset of symptoms.
•
Organic Mercury• The Minamata catastrophe in Japan in the 1950s was
caused by methyl mercury poisoning from fish contaminated by mercury discharges to the surrounding sea.
• Minamata disease was first discovered in Minamata city in Kumamoto, Japan, in 1956. It was caused by the release ofmethylmercury in the industrial wastewater from the Chisso Corporation's chemical factory, which continued from 1932 to 1968.
• This highly toxic chemical bioaccumulated in shellfish and fish in Minamata Bay, which, when eaten by the local populace, resulted in mercury poisoning. While cat, dog, pig, and human deaths continued for 36 years,
Minamata
• In the early 1970s, more than 10,000 persons in Iraq were poisoned by eating bread baked from mercury-polluted grain, and several thousand people died as a consequence of the poisoning.
•However, the general population does not face significant health risks from methyl mercury exposure with the exception of certain groups with high fish consumption.
Organic Mercury•As of March 2001, 2,265 victims had been
officially recognised as having Minamata disease (1,784 of whom had died)[2] and over 10,000 had received financial compensation from Chisso
Pesticides and Water Pollution•It is considered that more than 50% of
the water pollution of streams and rivers occur due to leaching and mixing of chemicals from the agriculture practices.
•The next highest source is municipal source(about 12%).
Pesticides and Water Pollution•Pesticides
▫substances meant for attracting, seducing, and then destroying any pest. They are a class of biocide.
▫are designed and developed keeping in view killing the insects-pests in general and thus they are not species specific
Pesticides
Pesticides
• The positive aspect of application of pesti-cides renders enhanced crop/food productivity and drastic reduction of vector-borne diseases. However, their unregulated and indiscriminate applications have raised serious concerns about the entire environment in general and the health of humans, birds and animals in particular.
Pesticides
Application of Pesticides
How pesticides reach water
Effects of Pesticides on Human Health•Human health effects are caused by
▫1) Skin contact: handling of pesticide products,
▫ 2) Inhalation: breathing of dust or spray and
▫ 3) Ingestion.
Health Impacts• The first is the consumption of fish and
shellfish that are contaminated by pesticides; this can be a particular problem for subsistence fish economies that lie downstream of major agricultural areas.
• The second is the direct consumption of pesticide-contaminated water.▫. Many health and environmental protection
agencies have established “acceptable daily intake” (ADI) values that indicate the maximum allowable pesticide daily ingestion over a person’s lifetime without appreciable risk to the individual.
Harmful effects• The harmful efects of pesticides are• 1) Death of the organism,• 2) Cancers, tumours and lesions on fish and animals,• 3) Reproductive inhibition or failure,• 4) Suppression of immune system,• 5) Disruption of endo- crine (hormonal) system, • 6) Cellular and DNA damage, • 7) Teratogenic effects (physical deformities such as hooked
beaks on birds), • 8) Poor fish health marked by low red to white blood cell
ratio, excessive slime on fish scales and gills, etc., • 9) Intergenerational effects (effects are not apparent until
subsequent generations of the organism) and
pollution due to oil•Oil contains many toxic compounds.
Unicellular algae and fauna are more susceptible than other organisms. Zooplankton and crustacean larvae are also susceptible to small oil concentrations. Non petroleum pollutant is city sewages which also effect on algae and marine animals.
Pollution due to Detergents
• Detergents are toxic for sea life as it decreases the surface tension of water and has effect on sensitive marine organisms. Especially phosphates in detergent increase the toxicity. It causes eutrophication, which is called secondary pollution.
What are detergents?• Detergents are organic compounds, which have both polar
and non-polar characteristics. They tend to exist at phase boundaries, where they are associated with both polar and non-polar media.
• Detergents are of three types: anionic, cationic, and non-ionic.
• Anionic and cationic have permanent negative or positive charges, attached to non-polar (hydrophobic) C-C chains. Non-ionic detergents have no such permanent charge; instead, they have a number of atoms which are weakly electropositive and electronegative. This is due to the electron-attracting power of oxygen atoms.
Detergents•There are two kinds of detergents with
different characteristics: phosphate detergents and surfactant detergents. Detergents that contain phosphates are highly caustic, and surfactant detergents are very toxic. The differences are that surfactant detergents are used to enhance the wetting, foaming, dispersing and emulsifying properties of detergents. Phosphate detergents are used in detergents to soften hard water and help suspend dirt in water.
What do we use them for?•
Detergents are very widely used in both industrial and domestic premises like soaps and detergents to wash vehicles.
• The major entry point into water is via sewage works into surface water.
• They are also used in pesticide formulations and for dispersing oil spills at sea. The degradation of alkylphenol polyethoxylates (non-ionic) can lead to the formation of alkylphenols (particularly nonylphenols), which act as endocrine disruptors.
•High phosphate detergents such as tri-sodium phosphate (TSP) can be purchased at some paint and hardware stores. Regular cleaning with high phosphate detergents has proven to be effective in reducing lead dust. Lead dust accumulates in window wells and around doors or any other high friction surfaces.
What occurs if detergents show up in freshwaters?•
Detergents can have poisonous effects in all types of aquatic life if they are present in sufficient quantities, and this includes the biodegradable detergents. All detergents destroy the external mucus layers that protect the fish from bacteria and parasites; plus they can cause severe damage to the gills.
• Most fish will die when detergent concentrations approach 15 parts per million. Detergent concentrations as low as 5 ppm will kill fish eggs. Surfactant detergents are implicated in decreasing the breeding ability of aquatic organisms.
Detergents•Detergents also add another problem for
aquatic life by lowering the surface tension of the water. Organic chemicals such as pesticides and phenols are then much more easily absorbed by the fish. A detergent concentration of only 2 ppm can cause fish to absorb double the amount of chemicals they would normally absorb, although that concentration itself is not high enough to affect fish directly.
Detergents•Phosphates in detergents can lead to
freshwater algal blooms that releases toxins and deplete oxygen in waterways. When the algae decompose, they use up the oxygen available for aquatic life..
Detergents• The main contributors to the toxicity of detergents
were the sodium silicate solution and the surfactants-with the remainder of the components contributing very little to detergent toxicity.
• The potential for acute aquatic toxic effects due to the release of secondary or tertiary sewage effluents containing the breakdown products of laundry detergents may frequently be low.
• However, untreated or primary treated effluents containing detergents may pose a problem. Chronic and/or other sublethal effects also pose a problem
THANK YOU