The Occurrence of TDS and Conductivity of Domestic Water in Lumding Town of Nowgong District of Assam , N . E . India

Total dissolved solid (TDS) and Conductivity are important parameters to determine the quality of water. The seasonal variations in TDS are mainly due to the ionic composition of water. In the present study the seasonal variations in TDS and Conductivity of Lumding Town were studied from May, 2001 to April, 2004. It was found that the TDS of Dug well, Ring well and Ponds were maximum high, but the TDS of River water and Supply water were appreciable.


INTRODUCTION
Water-the elixir of the life system and without it life cannot exist.The diverse uses of water for drinking, cooking, washing, bathing a lot of other purposes.The presence of safe and reliable drinking water is an essential prerequisite for a stable community.So quality of water is to be determined for a locality of various purposes.Water covers about 71 percent of the earth's surface and it is abundant natural resource on the earth.It includes various resources such as rivers, seas, lakes, oceans, glaciers, groundwater, surface water, streams etc.Without water, life of any kind is not possible.
Drinking water quality is a matter of concern as it is related to human health and many hazardous problems may arise due to various pollutants in it.Drinking water sources have been poisoned by directly or indirectly by sewage, pesticides, fertilizers, excess salt, agricultural run off and drainage water from households and also from industrial run off or due to natural geological factors.It is difficult to get pure potable water for public health and water scarcity has led to take unsafe, unconventional water sources.The water Water is a " Cradle of life" on which all organism play.As water balances human body in a positive way, it has a negative role in transmitting variety diseases and other pathogenic germs.Many physico-chemical parameters in water is not in a proper way, they have harmful factor.In developing and underdeveloped countries to get pure potable water is a difficult term and contamination of drinking water by domestic and industrial water as well as human and animal excreta is a common feature.If the amount of certain chemicals crosses the permissible limit causes harmful to public health.Many studies have carried out on the quality of drinking water in various parts of the country but for Lumding Town no attempt has been taken so far.

Study area
The district of Nowgong is situated on the South bank of Brahmaputra occupies a central geographical position in the state of Assam.The district lies between 25 0 45" and 26 0 45" North latitudes and 91 0 50" and 93 0 20" East longitudes.There is no major industrial establishment in this town.There are a few factories like soaps, biscuits, potteries, plywood, and brick industries.The brick industries contribute to the soil and the land becomes unfertile and polluted.The big railway industry distributes effluent like burning diesel etc. to the soil and water.There are a few big drain of the railway and its attached area to release polluted waters from the town but there is no proper outlet for them.In civil areas many new drain construction are going on by municipality and PWD.The commercial wastes of the market and household wastes are dumped hither and thither inside the town.Sometimes these wastes are burnt without incinerators.Sometimes proper sanitary systems are not observed.They produce odor pollution and contamination and sewerage goes to the drinking water.
Increase of vehicles with leaded petrol contaminates to the nearby drinking water adjacent to the roads.Sometimes pitching makes water and soil pollution and the people are affected by carcinogen.Village people are dependent on rabi and kharif crops and for them they use various fertilizers and pesticides and ultimately affect their land use pattern and these washed away by surface run off.Overall the modern society uses various non-biodegradable polymeric products they accumulates in water bodies and also penetrates to the soil -thus pollutes the ground and surface water.
During the summer and rainy seasons various people of the locality are affected by water borne diseases like typhoid, dysentery, diarrhea, jaundice etc. and many lives have gone due to these diseases.Aquatic biotas are also affected by consuming polluted water.Common people are not concerned with the chemistry of water because polluted waters occur 80% of diseases.So it is important to determine the chemical quality of water for human welfare.

Aims and objectives
Water and its quality is deteriorated day by day by modern civilization, population explosion, household byproducts and sewage materials.The geochemical position of an area are also determines the presence of various chemicals present in drinking and other types of water in a locality.Due to direct relationship of water with human health and so very limited supply of freshwater for domestic purposes, the problems of them were considered.
The following objectives was aim of this study:-1.
To determine the quality of water from various drinking water sources with respect to the total dissolved solid (TDS) and Conductivity.2.
To determine the conclusion regarding the drinking water quality in Lumding Town of Nowgong District of Assam, India.

MATERIALS AND METHODS
To study the water quality parameters from different sources of Lumding Town of Nowgong District, the samples were collected season wise depending on climatic and geographical conditions of the town.

Total Dissolved Solids(TDS)
TDS is determined as according to the APHA procedure.TDS is determined as the residue left after evaporation of the filtered sample Where A = Mass of dried residue and beaker in g, (after evaporation), B = Initial weight of the beaker in g, V = Vol. of water taken.
The process is as above of the total solids determined, but here the water samples are filtered by Whatman 40 and having 50 ml.sample and then evaporated to dryness and then the beaker dried  TDS affects water quality in different ways.Excessive TDS in water imparts a bad taste in water due to mineralization of various salts.A dissolve solid over 2000 mg/l produces a laxative effect (Kumaraswamy, 1991, Dembere 1998) This is due to Magnesium sulphate along with some sodium sulphate.Sodium parts affect the cardiac part and women with toxemia associated with pregnancy (Train, 1979).The maximum permissible limit of TDS in drinking water is 1000 mg/l (WHO).For irrigation it is 500 mg/l and above this limit crops have detrimental effect (Dieborg 1991).
Total dissolved solids can be determined by two methods.In the first method the EC values are multiplied with factor, which is usually, varies from 0.55 mg/l to 0.75 mg/l depending upon the nature of ions present.Because electrical conductance and total dissolved solids are independent it is generally agreed that, if the TDS are less than 3000 mg/l, the factor 0.64 (Kumar and king, 2004) can be used to multiply the EC values to obtain the TDS values.In other method, the TDS values can be determined by evaporation technique in which the total solid material will be collected and determined gravimetrically.

Conductivity
Conductance of water is measured by a digital Conductivitymeter (systronic Model, 304, India) and first calibrated with standard 0.01 M KCl solution (of conductivity 1287 ms/cm at 298 K).
The conductivity is not a direct pollution parameter.It helps to give idea about the mineralization of water.The mineralization of ground water is due to perfect entrapment as well as recharge of solubilisation of minerals from soils.Higher mineralization may impart bad taste as potable water (Jain, 1998).Freshly distilled water has a conductivity value of 0.5 to 2 ms/cm which changes to ~ 4 ms/cm on standing due to absorption of atmospheric CO 2 .Drinking water has a conductivity in the range of 1500 mmho/cm (WHO, 1993).

Total Dissolved Solids (TDS)
The TDS contents of water samples are given in the ranges below -15 mg/l to 530 mg/l (Dug well water), 10 mg/l to 300.6 mg/l (Ring well water), 5.8 mg/l to 350 mg/l (Pond water), 45 mg/l to 253 mg/l (River water), 80.1 mg/l to 251 mg/l (Railway supply water) and 65 mg/l to 188 mg/l (PHE supply water).
In this investigation, the highest TDS content (530 mg/l) was recorded in the dugwell of Nadirpar (DW1) in the premonsoon season and the lowest value 5.8 mg/l was recorded in the pond water of Loco colony (P1) during monsoon season.
Maximum TDS was observed in the dug wells and ring wells during the pre monsoon was due to the addition of lime and bleaching powder in the wells as well as in the monsoon season for the treatment of water.The maximum permissible limit of TDS in drinking water is 500 mg/l by USEPA (1996) and 1000 mg/l (WHO, 1993).In drinking water, the dissolved solids may be due to inorganic salts, organic matter and dissolved gas.A concentration of dissolved solids over 2000 mg/l produces laxative effect (Dhembare et al, 1998).
The TDS contents of dug well water in Cuddaph town (Andhra Pradesh) were found to be extended over a range of 800-13,464 mg/l, with an average value of 2528 mg/l, which was very much higher than the permissible limit (Kumarswamy, 1991).A high TDS (8704 mg/l) was observed in the east coast of South India (Guru Prasad and Satya Narayan, 2004).Normally ground water has a higher TDS load compared to surface water (Veera Bhadram et al., 2004).Murugesan et al., (2004) showed high TDS (1000 to 1800 mg/l) in the ground water quality of seashore, due to seawater enter into the aquifers of the Chennai city of Tamilnadu.High values of TDS are due to salt-water contamination and industrial pollution (Kumar et al., 2005).The TDS content at deeper levels (> 40 m depth) is comparatively low in all the samples and lies well within desirable limit of 500 mg/l.It may conclude that there is more mineralization of ground water at depth upto 40 meters (Jain, 2004).
Viswanath and Anantha Murthy (2004) showed that high electrical conductivity (1580 mmho/cm) due to septic leakage from households.Prasad et al (2004) showed high conductivity (13390 mmho/cm) in different sources of ground water Machilipatnam town of Andhra Pradesh, Electrical conductivity of the ground water samples in both Mandya and Maddur towns (Andra Pradesh) ranged from 1524 to 2409 ms/cm which indicates the presence of high dissolved solids in ground water samples.(Shivashankara and Sharmila, 2004).A maximum conductivity value of 2210 ms/ cm and 1914 ms/cm was observed at Shasradhara (Dehradun, Uttranchal) was observed during pre and postmonsoon season (Jain, 2004) respectively.
The samples were collected in different seasons throughout the whole year from to May, 2001 to April, 2004.Water samples were collected in pre-cleaned polythene containers of 2 litres capacity from Dug well (DW), Ring well (RW), Pond (P), River water (R), Public Health Engineering (PHE) and Railway supply water (RSW).

Figs 1
Figs 1 to 6 represent ranges and seasonal averages of the conductance of various sources.The highest value of conductance was observed for the water samples of ring well of Patupather (DW4) in monsoon season.Again, the lowest value was observed in the pond water (P5).
Lumding Town is 90 Kilometer far South East direction of the Nowgong from the district.The Lumding town is surrounded by Mikir hills (Now N.C.hills/Dima Hasao District) on its three sides (east, west and south) and in the west it is covered by deep forest, which is named as Lanka Forest.

Table 1 : The name of the sampling stations, serial no. and nature of the sources are given below
Abb : DW -Dugwell, P = Pond, RSW -Railway supply water, RW -Ring Well, R -River, PHE -Public Health Engineering supply water.