0000 2 indeks kelestarian lingkungan kualitas perairan biomonitoring
INDEKS KELESTARIAN LINGKUNGAN = Environmental
Sustainability Index
KUALITAS AIR
It’s a simple fact - we can’t live without water.
People use it every day for drinking, washing and cooking, as well as
for irrigating crops and generating electricity. Water is also
essential for maintaining the health of natural systems, which in
turn support us.
There are many actions to take to use water wisely at home and in
the garden to help secure water for our future.
Sumber: http://www.livinggreener.gov.au/water)
KUALITAS AIR Diunduh dari: http://en.wikipedia.org/wiki/Water_quality ……………… 28/11/2012
Kualitas air mencerminkan karakteristik kimia, fisika
dan biologis air.
It is a measure of the condition of water relative to the requirements of one or more biotic species and or to any human need or purpose. It is most frequently used by reference to a set of standards against which compliance can be assessed. The most common standards used to assess water quality relate to health of ecosystems, safety of human contact and drinking water. The parameters for water quality are determined by the intended use. Work in the area of water quality tends to be focused on water that is treated for human consumption, industrial use, or in the environment.
Environmental water quality, also called ambient water quality, relates to water bodies such as lakes, rivers, and oceans. Water quality standards for surface waters vary significantly due to different environmental conditions, ecosystems, and intended human uses. Toxic substances and high populations of certain micro- organisms can present a health hazard for non-drinking purposes such as irrigation , swimming , fishing, rafting , boating, and industrial uses. These conditions may also affect wildlife, which use the water for drinking or as a habitat. Modern water quality laws generally specify protection of fisheries and recreational use and require, as a minimum, retention of current quality standards.
Diunduh dari: http://en.wikipedia.org/wiki/Water_quality ……………… 28/11/2012
Parameter kualitas lingkungan air tawar
Freshwater environmental quality parameters are the natural and man-made chemical, biological and microbiological characteristics of rivers, lakes and ground- waters, the ways they are measured and the ways that they change. The values or concentrations attributed to such parameters can be used to describe the pollution status of an environment, its biotic status or to predict the likelihood or otherwise of a particular organisms being present. Monitoring of environmental quality parameters is a key activity in managing the environment, restoring polluted environments and anticipating the effects of man-made changes on the environment.
Diunduh dari: http://en.wikipedia.org/wiki/Freshwater_environmental_quality_parameters ……………… 28/11/2012
KONSUMSI MANUSIA
Contaminants that may be in untreated water include microorganisms such as viruses and bacteria; inorganic contaminants such as salts and metals; organic chemical contaminants from industrial processes and petroleum use; pesticides and herbicides; and radioactive contaminants. Water quality depends on the local geology and ecosystem, as well as human uses such as sewage dispersion, industrial pollution, use of water bodies as a heat sink, and overuse (which may lower the level of the water). In urbanized areas throughout the world, water purifcation technology is used in municipal water systems to remove contaminants from the source water (surface water or groundwater) before it is distributed to homes, businesses, schools and other users. Water drawn directly from a stream, lake, or aquifer and that has no treatment will be Diunduh dari: http://en.wikipedia.org/wiki/Water_quality ……………… 28/11/2012 of uncertain quality.
Dissolved minerals may affect suitability of water for a range of industrial and domestic purposes. The most familiar of these is probably the presence of ions of calcium and magnesium which interfere with the cleaning action of soap, and can form hard sulfate and soft carbonate deposits in water heaters or boilers. Hard water may be softened to remove these ions. The softening process often substitutes sodium cations. Hard water may be preferable to soft water for human consumption, since health problems have been associated with excess sodium and with calcium and magnesium deficiencies. Softening may sacrifice nutrition for cleaning effectiveness
Water Quality Indicators We will now take a look at the water quality indicators.
ALKALINITY
Alkalinity refers to the water’s ability to neutralize acids
Alkalinity is produced by minerals such as limestone.
Limestone is a type of ocean sediment
composed of calcium carbonate.
Limestone bedrock areas often
have caves and sinkholes, known
as Karst.Water with low alkalinity is usually acidic.
Ammonia
Ammonia is produced by the decay of
organic matter and animal waste.
Ammonia is toxic to most aquatic life,
especially at high pH.
Bacteria readily convert ammonia to
nitrate.(a plant nutrient)
Ammonia Ammonia is a form of nitrogen and part of the Nitrogen Cycle.
BACTERIA
Most bacteria are important in nutrient and other
organic cycles.
Excess nutrients cause algal blooms. As algae die and decay, the high bacterial load rapidly consumes dissolved oxygen.
Certain types of bacteria indicate animal and human waste pollution
Escherichia coli are coliform bacteria found in
the intestines of warm-blooded organisms.
Most strains are harmless but one E. coli
strain can cause severe diarrhea and kidney
damage.
Diunduh dari: step.nn.k12.va.us/science/envsci/ppt/Water_Quality_Indicators.ppt
Oksigen Terlarut Dissolved oxygen is a product of photosynthesis and diffusion.
The warmer the water, the less oxygen it can
hold. Diunduh dari: step.nn.k12.va.us/science/envsci/ppt/Water_Quality_Indicators.pptMost organisms need at least 5 or 6 ppm of oxygen in order to survive
Even cold water rarely contains more than 15
ppm. Summer is often a time of oxygen stress for
aquatic organisms.
Diunduh dari: step.nn.k12.va.us/science/envsci/ppt/Water_Quality_Indicators.ppt Oksigen Terlarut
Conductivity measures the water’s
ability to conduct an electrical current.
Pure water is a poor conductor
Diunduh dari: step.nn.k12.va.us/science/envsci/ppt/Water_Quality_Indicators.ppt
Konduktivitas
The addition of dissolved solids,
especially salts, increases the
conductivity of water.
Electrical current is measured using a
conductivity meter.
Konduktivitas
Hardness refers to the concentration of
calcium and magnesium in water.
Hard water has high concentrations of these
elements. Soft water has low
concentrations.
Water hardness often originates from
limestone.
Kesadahan
Nitrate is a primary plant nutrient. Nitrate is water soluble and moves easily from surface to groundwater.
Excess nitrate causes algal blooms
that reduce water quality.
Diunduh dari: step.nn.k12.va.us/science/envsci/ppt/Water_Quality_Indicators.ppt
Nitrat
Under normal conditions, the nitrogen
cycle keeps the amount of available nitrogen in balance with the demands.
However, excessive use of fertilizers and
nutrient rich sewage release have created a surplus of nitrate.
The result is eutrophication from excess
algae and bacteria with reduced dissolved oxygen.
These chemicals are very complex.
Effects on aquatic organisms – Moderately to highly toxic to mammals, molluscs, aquatic insects, amphibians and fish.
Pestisida
pH
pH is the measure of the hydrogen ion (H+)
concentration.
The pH scale is zero to 14. Seven is neutral,
below seven is acidic, and above seven is basic
(or alkaline).
Most aquatic organisms exist within a pH range of
5.5 to 9.5.Carbon dioxide reacts with water to form a weak acid called carbonic acid. pH tolerance for most aquatic life
Phosphate
Phosphate’s concentrations in
clean water is generally low;
however, phosphorus is used
extensively in fertilizer and other
chemicals.
Phosphate
The primary sources of
phosphates to surface water are
detergents, fertilizers, and
natural mineral deposits.
Phosphate
High levels of phosphate can over
stimulate the growth of aquatic plants
and algae.
This in turn, will cause high DO
consumption and death to fish and
many aquatic organisms.
Salinity
Salinity refers to the salt
concentration in water, mostly
sodium chloride. Salinity is historically measured in parts per thousand (ppt) or grams perliter.
Salinity
Saltwater can cause problems when it replaces fresh groundwater near the coastal areas.
Sediment Erosion causes loose soil to enter the waterways
Sediment
Suspended sediment blocks
sunlight to plants and reduces
dissolved oxygen.
As sediments settle, they can
smother bottom (benthic)
organisms.TEMPERATURE
Most aquatic organisms live within a
temperature range of +32º F (+0º C) to
90º F (32º C). Temperature can be measured using field thermometers but digital probes are much more accurate. Temperature is measured in Fahrenheit and Celsius degrees.Diunduh dari: step.nn.k12.va.us/science/envsci/ppt/Water_Quality_Indicators.ppt
Rapid temperature change and temperature extremes can
stress aquatic organisms.
Temperature affects the oxygen-carrying
14 Dissolved Oxygen (ppm)capacity of water.
1012 8 As the water warms, the 6 amount of dissolved 4 oxygen decreases. Winter Summer ____________________________________
TOTAL DISSOLVED SOLIDS (TDS)
TDS is the measure of the material
dissolved in water.
This measure is related to hardness,
salinity and conductivity.
Hard water has more TDS than soft water.
TOTAL SUSPENDED SOLIDS (TSS)
TSS is the measure of the sediment
suspended in the water.
TSS is related to turbidity.
Water with high TSS usually has high
Total Dissolved Solids (TDS) as well.TURBIDITY Turbidity refers to water clarity. Sediments suspended in the water increase turbidity.
A secchi disk is one type of instrument used to measure turbidity.
Senyawa Kimia Toksik
Toxic chemicals usually come
from industry and energy
production.
The effects are often not known
until years after they have entered
the environment.Toxic chemicals include heavy metals (lead, mercury), organic compounds (DDT, PCB), inorganic substances (arsenic) and others.
INDIKATOR AIR MINUM
1. An electrical conductivity meter is used to measure total dissolved
solids2. The following is a list of indicators often measured by situational category:
3. Alkalinity
4. WARNA AIR 5. pH
6. Taste and odor (geosmin, 2-Methylisoborneol (MIB), etc.)
7. Dissolved metals and salts (sodium, chloride, potassium, calcium,
manganese, magnesium)
8. Microorganisms such as fecal coliform bacteria (Escherichia coli),
Cryptosporidium, and Giardia lamblia9. Dissolved metals and metalloids (lead, mercury, arsenic, etc.)
10. Dissolved organics: colored dissolved organic matter (CDOM), dissolved organic carbon (DOC)
11. Radon
12. LOGAM – LOGAM BERAT
13. Pharmaceuticals 14. Hormone analogs. Diunduh dari: http://en.wikipedia.org/wiki/Water_quality ……………… 28/11/2012
INDIKATOR AIR
Indikator Fisika
1.Suhu Air = Water Temperature
2.Specifics Conductance or EC, Electrical Conductance, Conductivity
3.Total suspended solids (TSS)
4.Transparency or Turbidity
5.Total dissolved solids (TDS)
6.Bau air = Odor of Water
7.Warna air = Color of water
8.Rasa air = Taste of Water
Diunduh dari: http://en.wikipedia.org/wiki/Water_quality ……………… 28/11/2012
INDIKATOR AIR
Indikator Kimia 1.pH
2.Total Hardness, Hard water, TH = Permanent Hardness + Temporary Hardness
3.Dissolved oxygen (DO)
4.Nitrat-N
5.Orthofosfat
6.Chemical oxygen demand (COD)
7.Biochemical oxygen demand (BOD)
8.Pestisida 9.Logam-logam berat.
Diunduh dari: ……………… 28/11/2012
INDICATOR OF WATER
Biological Indicators/ assessment
1.Ephemeroptera
2.Plecoptera
3.Trichoptera
4.Escherichia Coli or E.Coli or E.coli
5.Coliform Biological monitoring metrics have been developed in many places, and one widely used measure is the presence and abundance of members of the insect orders
Ephemeroptera, Plecoptera and Trichoptera (EPT).
EPT indexes will naturally vary from region to region, but generally, within a region, the greater the number of taxa from these orders, the better the water quality. EPA and other organizations in the United States offer guidance on developing a monitoringprogram and identifying members of these and other aquatic insect orders.
Individuals interested in monitoring water quality who cannot afford or manage lab scale analysis can also use biological indicators to get a general reading of water quality. One example is the IOWATER volunteer water monitoring program, whichincludes a benthic macroinvertebrate indicator key.
Diunduh dari: ……………… 28/11/2012
WATER QUALITY INDEX
Diunduh dari: http://bcn.boulder.co.us/basin/watershed/wqi_info.html ……………… 28/11/2012
A water quality index provides a single number (like a grade) that expresses
overall water quality at a certain location and time based on several water
quality parameters. The objective of an index is to turn complex water quality
data into information that is understandable and useable by the public. This
type of index is similar to the index developed for air quality that shows if it’s
a red or blue air quality day.
The use of an index to "grade" water quality is a controversial issue among
water quality scientists. A single number cannot tell the whole story of water
quality; there are many other water quality parameters that are not included
in the index. The index presented here is not specifically aimed at human
health or aquatic life regulations. However, a water index based on some very
important parameters can provide a simple indicator of water quality. It gives
the public a general idea the possible problems with the water in the region.
BAKU MUTU AIR & PELAPORANNYA
2. ICMR Standards ICMR Standards for Drinking Water.
3. International standards or ISI Satandards Water quality regulated by the International Organization for Standardization (ISO) is covered in the section of ICS 13.060, ranging from water sampling, drinking water, industrial class water, sewage water, and examination of water for chemical, physical or biological properties. ICS 91.140.60 covers the standards of water supply systems.
Diunduh dari: ……………… 28/11/2012
KRITERIA KUALITAS AIR
Diunduh dari: http://water.epa.gov/scitech/swguidance/standards/criteria/index.cfm……………… 28/11/2012
These criteria are based solely on data and scientific judgments on
pollutant concentrations and environmental or human health effects.
Section 304(a) also provides guidance to states and tribes in adopting
water quality standards. Criteria are developed for the protection of
aquatic life as well as for human health.
KEHIDUPAN AKUATIK
1.Aquatic Life criteria lists chemical concentration goals to protect surface water for aquatic life use.
2.Biological criteria are based on the numbers and kinds of organisms present and describe the biological condition of aquatic communities inhabiting surface waters.
3.Nutrients are substances used by living things that promote growth (e.g., nitrogen and phosphorus). We are developing nutrient criteria to prevent over enrichment in surface waters of the U.S.A.
Diunduh dari: http://water.epa.gov/scitech/swguidance/standards/criteria/index.cfm……………… 28/11/2012
KESEHATAN MANUSIA
1.Human Health includes technical information and guidance on surface water, drinking water and microbials.
2.Microbial (Pathogen) criteria are used to protect the public from exposure to harmful levels of pathogens in ground and surface waters, food sources, and finished drinking water.
3.Recreational Criteria protect people who swim and play in coastal recreational waters from exposure to pathogens. We held an Experts Scientific Workshop to help map our future directions.
Diunduh dari: http://water.epa.gov/scitech/swguidance/standards/criteria/index.cfm……………… 28/11/2012
INDEKS KUALITAS AIR DAN INDIKATORNYA
The integrity of an ecosystem is typically assessed through its ability to provide goods and services on a continuous basis. Together with the air we breathe, the provision of clean water is arguably the most fundamental service provided by ecosystems. Yet, human activities have fundamentally altered inland water ecosystems and their catchments. As a consequence species dependant on inland waters are more likely to go extinct, and future extinction rates of freshwater animals could be up to 5 times higher than for terrestrial animals. Water quality refers to the physical, chemical and biological characteristics of a water body. These characteristics determine how and for what water can be used and the species and ecosystem process it can support.
Diunduh dari: http://www.unep.org/gemswater/AssessmentsandIndicators/WaterQualityIndexandIndicators/tabid/
BAKU MUTU AIR MINUM GLOBAL
1. Drinking Water Quality Index (DWQI) all parameters regardless of WHO designation
2. Source Water Quality Index (SWQI) health and microbial criteria only arsenic, boron, cadmium, chromium, copper, fluoride, lead, manganese, mercury, nitrate, nitrite, faecal coliforms
3. Acceptability Water Quality Index (AWQI) acceptability criteria only ammonia, chloride, iron, pH, sodium, sulphate, zinc 4. 4X4 Rule: Each parameter that contributes to the index must be measured at least 4 times per year at stations that have measured a minimum of 4 parameters per year.
Diunduh dari: http://www.unep.org/gemswater/AssessmentsandIndicators/WaterQualityIndexandIndicators/tabid/101094/
INDEKS KUALITAS AIR GLOBAL
Diunduh dari: http://www.unep.org/gemswater/AssessmentsandIndicators/WaterQualityIndexandIndicators/tabid/101094/
INDEKS KUALITAS AIR
In most of the cases, this index represents a numerical expression used in the
assessment of the flowing water quality, through the framing of the values in five
classes on the interval going from 1 to 100; a certain quality state, respectively a usage
domain correspond to each class (Adriano et al., 2006).
The raw values of each quality parameter must be compared with the standard
threshold values that are taken into account for the computation of the index, in the
view of the qualitative assessment. In all cases when the index must be determinate, the
computation formula is the following:
WQI – the Water Quality Index i – the quality parameter qi – the registered value wi – the rank of implication of the parameter in the computation formula The values of the Water Quality Index that were thus obtained are distributed on a number of intervals, which render the quality of the respective water and the usage domain (Table no. 1): 10–25
percent - highly polluted; 26–50 percent - polluted; 51–70 percent - reasonable; 71–90 percent - good;
91–100 percent - very good (House and Ellis, 1987).Peranan WQI
1. WQI numerically summarizes the information from multiple water quality parameters into a single value
2. The single value can be used to compare data from several sites
3. It can be used to look at trends over
time on a single siteParameter untuk WQI Parameter Units For a Q value of 90
DO % sat. % sat. >82% [>90% unless spawning, then >95%]
pH pH units 6.9 or 7.9 [6.5 to 8.5]E. coli CFU/100 mL <4 CFU/100 mL [406 CFU/100 mL for grab
sample] Temp °C +2.5°C or -4°C [<17.8 deg. C]Turbidity NTU
4.0 NTU’s T Phos mg/L P 0.05 mg/L P [0.1 mg/L P, Tualatin TMDL] NO 3 mg/L N 0.5 mg/L N BOD 5 mg/L 0.8 mg/L
Bagian-bagian dari WQI
1. Q-Value - indication of water
quality relative to 100 of one parameter2. Weighting Factor - sets the
relative importance of the
parameter to overall water qualityQ Value
- The Q-Value is an indication of how good (or bad) the water quality is
Q = 50 relative to one parameter.
Medium
Q = 25
Q = 75- 100 = Very Good • 1 = Very Bad
Very Very Good Bad
Q = 0 Q = 100
pH : Q-Graph & Q-Table
pH Q-Values- 6.6
- 6.8
- 7.0
- 7.2
- 7.4 100
- 7.6
- 7.8
- 8.0
- 8.2
10 20 30 40 50 60 70 80 90 100
- 8.4
2 3 4 5 6 7 8 9 10 11 Q 12 pH -V a lu e pH Q-Value
81
88
94
98
98
94
88
80
72 E.coli : Q-Graph & Q-Table
E. coli Q-Values
E. coli Q-Value 100
1 10 100 1000 10000 E. coli (CFU/100 mL) Q -V a lu e
1
99
2
94
5
10 20 30 40 50 60 70 80 90 100
10
84
20
80
50
74 100 69 200 65 500 27 1000
30
89
Faktor-faktor Pembobot
DO
0.18 pH
0.12 E. coli
0.17 Temp
0.11 Turbidity
0.09 T Phos
0.11 NO
3
0.10 BOD
0.12 Total
1.00 DO
E. coli pH BOD Temp
T Phos NO3 Turbidity
Interpretasi WQI
Kisaran WQI Kualitas Air 90-100
Excellent 70-89 Good 50-69
Medium 25-49 Bad 0-24
Very Bad
Contoh Perhitungan WQI Parameter Units Result Q-Value Weight Factor Parameter Index
0.2
69.2 Quality Rating = MEDIUM
69.2 WQI =
1.00
4.34 Total
0.11
36
6
9.12 BOD mg/L
0.1
91
0.4
5.50 NO3 mg/L N
0.1
50
DO % Sat %
95
10.55 E. coli CFU/100 mL 1750
98
0.17
17.67 pH pH units
8
88
0.11
23
0.09
0.16
3.94 Temp deg C 100
0.11
11.00 Turbidity NTU
10
79
7.07 T Phos mg/L P
Penyesuaian untuk data yang hilang
1. When a parameter is missing, the sum of the weighting factors
that have data can be used to
adjust the WQI2. Sum of the Parametric Index Values is divided by the sum of the weighting factors that have data.
Perhitungan dengan parameter yang
hilang Parameter Units Result Q-Value Weight Factor Parameter Index79
63.7 WQI =
0.89
4.34 Total
0.11
36
6
9.12 BOD mg/L
0.1
91
0.4
7.07 T Phos mg/L P NM NO3 mg/L N
0.09
10
DO % Sat %
11.00 Turbidity NTU
0.11
3.94 Temp deg C 100
0.16
23
10.55 E. coli CFU/100 mL 1750
0.11
88
8
17.67 pH pH units
0.17
98
95
71.6 Quality Rating = GOOD