This document discusses water quality parameters and testing. It outlines that water quality depends on physical, chemical and biological characteristics. Approximately 25% of the world's population lacks access to potable water. Key water quality parameters that are tested include turbidity, pH, hardness, nitrates, chlorides, fluoride, and heavy metals. Testing methods examine parameters like color, odor, dissolved solids, and presence of bacteria, protozoa, and other microorganisms. Maintaining high-quality drinking water requires regular monitoring, sample collection, and analysis of water sources.
2. Water quality is the physical, chemical and
biological characteristics of water
The vast majority of surface water on the
planet is neither potable (fit for drinking) nor
toxic
Approximately 25% of the world’s population
has no access to potable water
3. Free from pathogenic organisms
Clear
Not saline
Free from offensive taste or smell
Free from compounds that may have adverse
effect on human health
Free from chemicals that cause corrosion of
water supply systems
4. Contaminants that may be in untreated
water include:
◦ microorganisms (viruses and bacteria)
◦ inorganic contaminants (salts and metals)
◦ pesticides and herbicides
◦ sediments
◦ organic chemical contaminants from industrial
processes and petroleum use
◦ radioactive contaminants.
Water quality depends on the local geology
and ecosystem, as well as human uses
(sewage dispersion, industrial pollution, use
of water bodies as a heat sink)
6. COLOUR:
May be due to the Presence of organic matter,
metals(iron, manganese) or highly coloured
industrial waste
Desirable that drinking water be colorless
The Guideline value is up to 15 true color
units(TCU)
7. Mainly due to organic substances, ,Biological
activity, industrial pollution
Taste buds in the oral cavity specially detect
inorganic compounds of metals like
magnesium, calcium, sodium, copper, iron
and zinc
Water should be free from objectionable taste
and odour.
8. Caused by suspended matter
High level turbidity shield and protect
bacteria from the action of disinfecting
agents
Desirable limit-5NTU(Nephlometric turbidity unit)
Should be below 1 NTU when disinfection is
practiced
Permissible limit-10NTU
9. It is the measure of hydrogen ion
concentration
pH<7 cause corrosion of distribution pipes
and elevates the level of lead
pH>8 cause decrease in efficiency of
chlorination disinfection process
Desirable limit 6.5-8.5. Beyond this limit the
water will affect the mucous membrane and
water supply system
10. Determine types of organisms that can live
in water
Affects how much oxygen water can hold
◦ Warm water holds less oxygen
Thermal Pollution (increased water
temperature)
◦ decreasing oxygen supply
◦ killing fish juveniles which are vulnerable to small
increases in temperature
◦ affecting ecosystem composition.
11. CHLORIDES
Causes
o Dissolution of salt deposit
o Discharge of effluents
o Intrusion of sea water
Acceptable limit - 250 mg/litre
12. Increasing level of nitrate is due to:
o Agricultural fertilizers, manure, animal dung,
nitrogenous material ,sewage pollution
(blue baby diseases to infants)
Maximum permissible limit 45 mg / litre
13. Fluoride is released into water bodies
mainly during manufacture & use of
fertilizers
Long term consumption above permissible
level can cause –
o Dental fluorosis (molting of teeth)
o Skeletal fluorosis
Acceptable limit – 1.5 mg / litre
15. One of the earth’s most plentiful resource
High iron causes brown or yellow staining of
laundry, household fixtures
Iron promotes growth of “Iron Bacteria”, which
derives their energy from the oxidation of
ferrous iron to ferric iron.
Ferric ions give an objectionable “reddish
brown” color to the water.
Acceptable limit – 0.3 mg / litre
16. Arsenic is introduced into water through the
dissolution of minerals and ores, from
industrial effluents and from atmospheric
depositions.
High arsenic causes various type of
dermatological lesions, muscular weakness,
paralysis of lower limbs, can also cause skin
and lung cancer
A provisional guideline value for arsenic in
drinking water of 0.01 mg/litre is established
17. Present as mineral in soil and rocks of earth
Industries:
Battery – Lead & Nickel
Textile - Copper
Photography – Silver
Steel production – Iron
20. BACTERIOLOGICAL INDICATOR:
Coliform Organisms:
o Includes all aerobic & facultative anaerobic,
gram negative, non-sporing, non- motile
rods capable of fermenting lactose at 35-37
deg C in less than 48 hours.
o If the coliform organisms are present in a
water sample, the assumption is the probable
presence of intestinal pathogens
21. Faecal streptococci:
o Finding of faecal streptococci in water is
regarded as important confirmatory evidence of
recent faecal pollution of water
Clostridium perfringes:
o The presence of spores of Cl.perfringes in a
natural water suggests that faecal contamination
has occurred, and their presence, in the absence
of coliform group, suggests that faecal
contamination has occurred at remote time.
22. Species of protozoa known to have been
transmitted by the ingestion of contaminated
drinking water include Entamoeba histolytica,
Giardia spp. And rarely, Balantandium coli.
These organisms can be introduced into
water supply by human or animal faecal
contamination
23. Visible effects Reason
Iron taste, change in colour after
exposure to atmosphere, change in
colour of cloths,utensils Oily appea-
rance on top of water body
Iron
Soap not lathering Hardness
Brownish black streaks on teeth Fluoride
Growth of Algae Nitrate,
phosphate
Fish kills Low pH
Less DO
Salty taste Chloride
24. Intended to protect public from waterborne
diseases
Elements of Surveillance Program are:
o Sanitary survey
o Sampling
o Bacteriological surveillance
o Biological examination
o Chemical surveillance
25. On the spot inspection & evaluation by a
qualified person of entire water supply
Purpose – detection & correction of faults
&deficiencies.
It is essential for adequate interpretation of
laboratory results
26. Samples for physical & chemical examination:
o Collected in a clean glass stoppered bottle made of neutral glass of
capacity not less than 2 litres
Samples for bacteriological examination:
o Collected in clean sterilized 200-250ml bottle made of neutral
glass provided with a ground glass stopper having an overlapping
rim
o When samples is to be collected from a TAP in regular use , the
water is first run to waste for 2 min & then water is collected
o In case of TAPS not in regular use, it is first sterilized with a blow
lamp or with an ignited piece of cotton soaked in methylated spirit
27. o For collecting samples directly from rivers, lakes, tanks
etc. a bottle with a string attached to the neck which is
fully wrapped in paper and sterilized should be used.
TRANSPORT AND STORAGE OF SAMPLES
o Where immediate commencement of examination is not
feasible samples should be kept in ice until it is taken for
analysis
o Particulars regarding the date and time of collection and
dispatch, source of water, particulars of recent rainfall and
findings of the sanitary survey should be also be supplied
with the sample.
29. Presumptive Coliform test:
Multiple tube method:
o Based on estimating most probable number(MPN) of
coliform organisms in 100ml of water.
o The test is carried out by inoculating measured
quantities of the sample water(0.1,1.0,10,50ml)onto
tubes of McConkey`s Lactose Bile Salt Broth with
bromcresol purple as an indicator.
o The tubes are incubated for 48 hours. From the
number of tubes showing acid and gas, an estimate
of the MPN obtained from statistical table
30. Membrane filtration technique:
o Measured Vol. of the sample is filtered through a
membrane specially made of cellulose ester.
o All bacteria present in water are retained on the surface of
membrane and by inoculating the membrane face upwards
on suitable media, it is possible to count the colonies
COLONY COUNT:
o Colony counts on nutrient agar at 37 deg C and 22 deg C
are frequently used in bacteriological examination of water
o Colony count provide an estimate of general bacterial
purity of water.
31. “Planktons” produce objectionable tastes & odours in
water.
Degree of pollution is assessed qualitatively &
quantitatively by noting the type & number of organisms
prevailing in water
CHEMICAL EXAMINATION:
Basic tests for pH, turbidity, chlorides, ammonia etc are
performed
Complete chemical analysis would also include analysis for
toxic metals, pesticide, persistent organic chemicals and
radioactivity.
32. TEXTBOOK OF PREVENTIVE AND SOCIAL
MEDICINE(22nd edition)- K.PARK
WATER QUALITY PARAMETERS-
ABDUNNASAR,UK
WATER QUALITY-JAMES M.EBELING
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