Chemical and Physical Quality Criteria of Bulakba GJ Stream in Turkey and Usage of Drinking , Fisheries , and Irrigation

Water quality parameters were analyzed in Bulakbaşı stream. The in situ measurements and laboratory analyses were made on water samples taken from 4 sampling points on the Bulakbaşı stream monthly. During the study, the average water temperature as 16.3C, dissolved oxygen (DO) 12.91mg/L, oxygen saturation (OS) 152.8%, pH 8.25, electrical conductivity (EC) 779.6μS/cm, salinity 0.435‰, chloride 83.97mg/L, calcium 56.5mg/L, magnesium 57.1mg/L, total hardness 391.1mg/L CaCO


Introduction
Water is an indispensible substance to be utilized for the survival of all biological organisms.Moreover, water is an essential requirement of human life and activities associated with industry, agriculture, fisheries, and others, and it is considered one of the most delicate parts of the environment [1].For centuries, people have chosen to settle in areas which have been rich in water and eked out their living nearby water resources where they can use from plenty of water, or in which aquatic resources can easily and abundantly be obtained.However, the perturbations in the hydrodynamics in the earth's ecosystems and the population increases have imposed strains and stresses on water resources over time in these areas and necessitated water bodies to be constructed in order to have an adequate utilization and management of water resources.Furthermore, the amount of water in the world is limited, and it is a known fact that water can never be replaced with any other element in nature.The required quantity and quality of water resources in any given region are limited.Various factors are believed to contribute to a degradation and slump in water resources.For aquatic ecosystems, pollution is on of the most important problems nowadays; therefore, aquatic resources must be protected very well [2].
In meeting the energy needs, and of all natural resources, streams are considered to provide cheap, clean, and continuous supplies for biological species.It is therefore imperative to establish an appropriate regulatory system for the management and utilization of water resources.The potential of herbal production, flora, and fauna in any given area is proportionate to the potential of water resources to be utilized there.Facilities established for transportation, tourism, and recreation activities in any region also depend upon a healthy and effective management of water resources.It would therefore be of paramount significance for human beings eking out their livings in the local and natural environment to have an effective management of the water resources and protect the ecosystems of biological species in any given region on earth.In the biological richness of valuable fish stocks, there can be found numerous favors and utilities for humanity.In order to take due advantages and benefits from the rivers in the most effective way, their natural potential, physical wealth should be protected to ensure continuity and sustainability of their ecosystems; due examinations and analyses to be conducted about their chemical and biological properties are also of great value in order to have adequate utilization and management of these resources [3].However, in recent years, decreases in the amount of potable water have prompted authorities to have much more effective management and control; it has become indispensable for them to take due measures [4].
No study has been conducted on the limnological features, water quality, and pollution of Bulakbas ¸ı water so far.In this study, the current situation of Bulakbas ¸ı, water quality criteria, and basic pollution parameters were discussed within the context of the aforementioned points and premises.Bulakbas ¸ı stream was also investigated and analyzed for its properties of drinking, fisheries, and irrigation and recommendations were made for prospective researchers and authorities to conduct further studies on this stream.

Materials and Methods
Bulakbas ¸ı stream is in eastern Turkey, within the domains of Igdır province, intersecting with the borders of Armenia and Iran, in the foothills of Mount Ararat and within 39 ∘ 56  N and 44 ∘ 15  E coordinates.The altitude is between 820 and 850 m, average annual temperature is 12 ∘ C, and rainfall is about 255.2 mm around the area where the stream is scattered into mountainous terrain.The resources of this stream are within boundaries of Bulakbas ¸ı, Aktas ¸, and Yazlık villages which are foothills of Mount Ararat.A regulator and irrigation channels have been constructed alongside the stream.Remaining water is poured into the Aras River using in this channel which is about 65 km far away (Figure 1).Around the terrain are large pastures [5].
Four sampling points, which were considered to be likely changed in water quality, have been determined to collect water samples and to make in situ measurements from Bulakbas ¸ı stream (Figure 1).Research was carried out between October 2011 and September 2012.Examples were taken 15-20th days of each month at 12:00-15:00 hours.Water temperature, pH, EC, DO, OS (%), and salinity (‰) were determined through the measurements conducted in the field of investigation with HACH-LANGE HQ40D multimeter.After the in situ measurements, the samples were taken in a volume of 1.5 L bottle, and we brought them to our laboratory, and then analyses were performed in replicates of two or three.

Results and Discussion
Due to the channel and regulator on the Bulakbas ¸ı stream source, the original bottom and coastal structures degraded.Throughout the study, in the stream, freezing has not been observed.Slope along the river is low; the bottom is sandy and muddy.In the downside, a slight turbidity of the water can be observed.Water temperature, DO, OS, pH, EC, and salinity values have been recorded through in situ measurements in the field, which are given in Table 1 according to the average of the months.
Temperature is important in the nutrition, reproduction, growth, and migration of fish and other aquatic organisms.Temperature changes will affect parameters such as pH, EC, and DO [12].Water temperature also directly affects the metabolism and physiology of aquatic organisms.Also temperature has an impact on the speed of the chemical reaction, the solubility of the gases, the taste, smell, and other properties of the water [11].Temperature of drinking water has a direct association with the taste.Optimum drinking temperature is considered to be 10-12 ∘ C [13].In this study, the average annual water temperature was defined as 16.3 ∘ C, and the samples may be included in the first class according to [8][9][10] and WHO and EU drinking and fisheries directive [11].The average values throughout the year never exceed 20 ∘ C. Upper regions are suitable for trout aquaculture, and subregions for carp aquaculture [14].Temperature values have been reported to be in Nazik Lake 2-24.5 ∘ C [15], in Akköprü stream −1.0-24.5 ∘ C [16], and in Karasu Stream 0.8-24.5 ∘ C [17].These values are similar to those found in our study.
The DO is one of the most important criteria for water quality control.Oxygen-saturated water has a good taste and the absence of water gives an insipid taste.Therefore, if there is a DO problem in drinking water, it should be ventilated [11].The amount of DO in water is an indicator of the level of the water supply which is generally healthy [12].DO value of this study was 12.91 mg/L and OS was 152.80%.DO and OS values, in Akköprü stream 8.2 mg/L and 98.8% [16], in Karasu stream 10.03 mg/L and 119.4% [17], in Nazik Lake from 1.0 to 13.2 mg/L [15], in Sakegaon River 6.5-8.2 mg/L [18], in Yuvarlakc ¸ay stream 5.5-14.4mg/L [19], in Kelkit stream 7.68-9.90mg/L [20], in Bhavani River 6.56-12.0mg/L [21], in Sarada River 7.0-7.8mg/L [22], in El-Kabir River 7.1 mg/L [23], in Cauvery River 1.34-5.5 mg/L [24], in Kosi River 6.2-6.8 mg/L [25], in Semenyih River 4.18-7.44[1], and in Nainital Lake 5.77-8.2mg/L [26], were reported.Bulakbas ¸ı stream is in the first-class water with regard to WPRC [10].In trout farming, the DO should also be higher than 7 mg/L [14].In first-class drinking water, OS in the EU directives must be 70% and above [11].
The pH of water plays an important role in the reproduction, growth, and nutrition.The higher the pH increases, the toxic the effect of ammonia is [12].In waters, various chemical reactions are controlled by pH.A vast majority of biological activities are restricted within a narrow range between pHs 5 and 8. Highly acidic or alkaline water is undesirable because of corrosion problems [11].Optimum limit of pH for aquatic life is between 6.5 and 9.0 [4].In [8,9], the optimum pH range for first-class drinking water is between 6.5 and 9.5, and in [10] and EU directive it is between 6.5 and 8.5 [11].For aquaculture, the pH values between 6.5 and 8.5 [14] and, in EU fisheries directive, between 6 and 9 [11] were adopted.The average pH was determined as 8.25 in Bulakbas ¸ı.The pH obtained from the study is suitable for general aquaculture.pH values are between 8.06 and 8.87 in [15], 7.19 and 7.32 in [18], 5.34 and 8.96 in [19], 7.76 and 8.45 in [20], 7.66 and 8.58 in [21], 7.85 and 8.0 in [22], 7.2 and 8.14 in [27], 7.3 and 7.9 in [25], 5.23 and 8.41 in [1], and 7.55 and 7.75 in [26], and an average of 7.98 in [23], 8.3 in [16], and 8.2 in [17] have been reported.
The EC of water source is connected with chemical structure of the stream bed and joins the speed and level of hydrocycle [12].EC increase in drinking water is an indicator of pollution or mixing of the sea water [13].The mean EC in Bulakbas ¸ı was defined as 779.6 S/cm.EC values were between 470 and 790 mhos/cm in [18], 200 and 570 S/cm in [19], 480 and 590 S/cm in [20], 450 and 1064 mhos/cm in [16], 414 and 808 S/cm in [17], 421 and 514 S/cm in [25], and 525 and 536 S/cm in [26].According to Turkish and EU drinking water standards [8,9,11], it is first class.According to Turkish irrigation water standards [10], Bulakbas ¸ı stream water is second class.Bulakbas ¸ı stream is in the middle class salty water for irrigation, and any measures taken to prevent the accumulation of salts in the soil can be in quality that can be given to any kind of soil and plant [28].
The values of analysis with titrimetric method were given in Table 2.
There is no gaseous chlorine in natural waters, in the form of chloride or salt.Chlorine will damage the gills of aquatic animals and lead to death.A healthy drinking water is one of the important indicators [12].It may be an indicator of sewage mixture and taste threshold value is between 250 and 500 mg/L.However, up to 1500 mg/L of concentration has been found to be harmless to health.250 mg/L of high concentrations of salts generates a bitter taste [11].It is the highest toxic effect wherein the anion and its content are above a certain value of irrigation water, which causes leaf blight in plants.The 100-200 mg/L of sodium chloride can damage some vegetables [28].The average chloride in the Bulakbas ¸ı stream was determined as 84.0 mg/L.Chloride values in [18] as 42-52 mg/L, in [20] as 74.3-205.8mg/L, in [22] as 192.1 mg/L, in [2] as 15-45 mg/L, in [16] as 27.29-70.29mg/L, in [24] as 176-254 mg/L, in [17] as 23.66-94.66mg/L, in [25] as 18.1-25.3mg/L, and in [26] as 14.5-16.75mg/L have been reported.In terms of chloride values, Bulakbas ¸ı is first-class water according to [8,9,11].
In total hardness Ca and Mg are the most important two elements.They are important for skeleton structure of both aquatic and terrestrial organisms.Also, Mg has an important function in the blood of the human and animals.Water hardness is very important quality criteria for fisheries and drinking [12].Generally, the total hardness is a function of the geology of the area with which the surface water is associated.Hardness has no known adverse influences on health; nevertheless, some evidence has been given to point out its impact on heart diseases [1].A high amount of Ca poses no hazards to human health, but in some cases Mg may cause damage to the eyes.Diarrhea is another complication which might occur in these cases when they are exposed to improper amounts of Mg.Similarly, higher amounts of Ca and hardness may cause a problem in terms of flavor inside the water.Also, due to the nature of the stone hot water facility will not be prompted.If the hardness is low, it leads to abrasive action [13].Although there may be health benefits in terms of hardness, this may cause disadvantages such as more energy to be spent on increasing the soap consumption, and heating systems are also available [11].Further, Ca in the irrigation water, enough to settle the matter in extreme cases, soil, and plants, leads to chlorosis and restricts the acquisition of certain nutrients.Small amount of Mg is sufficient for plant.Irrigation water at 24 mg/L concentration is allowed [28].High temperature, evaporation of water, weathering of rocks, and addition of calcium and magnesium salts by means of plants and living organism are contributing factors for the hardness of the water [26].The values of Ca, Mg, and total hardness were determined as 57.29 mg/L, 59.57 mg/L, and 391 mg/L as CaCO 3 , respectively, in this study.In fisheries, 400 mg/L calcium and hardness values are accepted as suitable [14].Bulakbas ¸ı stream may be included in the class of very hard waters.Total hardness was reported between 155 and 220 mg/L in [18], 188 and 310 mg/L in [15], 154 and 240 mg/L in [20], 184 and 211 mg/L in [25], and 241.5 and 250.0 mg/L in [26] and averages as 474.9 mg/L in [16] and as 536 mg/L in [17].
Bicarbonate was determined as 365.94 mg/L, but carbonate has not been observed in this study.Total alkalinity was determined as 299.84 mg/L.Alkalinity is important in terms of impact on the buffering capacity of the water.Bulakbas ¸ı may be included in the highly alkaline class water.In terms of value for rainbow trout farming are in the upper limit [11,12,14].Very small amount of carbonate is sufficient for plants.High concentrations of carbonate have toxic effects.It also negatively affects the physical properties of the soil.It reduces soil permeability.If the soil dries, it hardens and binds the duff layer.Soil large cracks are formed [28].The total alkalinity value in [18] as 201-230 mg/L, in [21] as 47.5-250.0mg/L, in [16] as 200-440.0mg/L, in [17] as 262.5-75.0mg/L, in [25] as 91-197 mg/L, and in [26] as 142.0-253.5 mg/L CaCO 3 was reported.
The values of analysis with spectrophotometric method were given in Table 3.
As is known, high levels of sulfates in water can be stem from volcanic contaminations [12].Bulakbas ¸ı is within the geographical domains of Mount Ararat.Sulfates are major pollutants due to taste, smell, toxicity, and corrosions that they form as a result of various reactions.Sodium sulfate and magnesium sulfate, which show laxative effects in humans at 250 mg/L, are limited to the upper limit.For animals the limit is of 1000 mg/L.Sulfate converts into H 2 S which is toxic and malodorous and formation of anaerobic conditions and bacteria activities.The value of corrosive effect of sulfate begins from 100-250 mg/L [13].According to Turkish and EU standards [8][9][10][11], it is first class.The value of sulfate in Bulakbas ¸ı was determined as 57.12 mg/L.It was reported in [18] as 29.2-40.32mg/L, in [20] as 63.3-94.3mg/L, in [21] as 609.6-740.9mg/L, in [22] as 61.5 mg/L, and in [1] as 1.67-61.0mg/L.
Potassium creates much bitter taste problems in drinking water.Sources of potassium create industrial pollution, agricultural fertilizers, and soil structure.It is one of the basic nutrients desirably present in irrigation water [28].The value of Bulakbas ¸ı was found as 4.52 mg/L.It was declared in [24] as 6.2-16.2mg/L and in [26] as 10.27-14.57mg/L.According to Turkish, WHO, and EU standards [8][9][10][11], it is first class.
Nitrate is the final product resulting from oxidation process by nitrogenous compounds.Through nitrification process higher nitrate levels affect water quality in a negative way.Nitrate may cause blood poisoning called the blue baby disease in the stomach of the infants younger than six months and may lead to death.Nitrate, in natural waters, soil, surface, and groundwater or discharged into water by means of domestic, agricultural and industrial waste, passes through the water; an excessive amount of nitrate in water allows the proliferation of algae and aquatic plants.The amount of nitrate nitrogen in water less than 40 mg/L is desirable [12].In Bulakbas ¸ı stream value was found as 4.7 mg/L.In other studies, it was declared to be 9.15-15.8mg/L in [20], 54.1 mg/L in [22], maximum 3.39 mg/L in [29], maximum 0.05 mg/L in [24], and 4.23-8.53mg/L in [1].In Turkish, EU, WHO, Germany, and USA drinking and fisheries standards, the water is first class [8][9][10][11]14].It is necessarily due to take place between irrigation waters among the essential ingredients of plant nutrients [28].
Nitrite is converted to nitrate oxidized intermediates in suitable conditions.Therefore, they are not long lasting in the natural waters.Presence in drinking water is definitely not required.They are toxic to aquatic organisms.There are toxic effects more than 100 g/L in soft water and 200 g/L in hard water for rainbow trout.Nitrite arises in water which has low oxygen and more organic matter problems [12,14].The nitrite value in our sample was determined as 25 g/L.The maximum values were reported by Duran et al. [20] as 680 g/L and Begum and Harikrishnarai [24] as 10 g/L.Since there is no oxygen deficit in Bulakbas ¸ı stream, nitritebased pollution is not considered to be a hazard.According to [8,9], WHO, and EU drinking water standards Bulakbas ¸ı stream is first-class water [11].
Ammonia in water is a result of physical and chemical events or microorganism activities and because of organicbased, it is dangerous.Ammonia in water appears in two forms, ammonia (NH 3 ) and ammonium (NH 4 ).NH 3 is toxic to all living organisms.It leads to impairments in taste and causes smelling problems.The presence of ammonia in water indicates that there is an infiltration of domestic waste water.If the ammonia is more than 50 g/L in water, it has been shown to be a sign of pollution [12,13].In Bulakbas ¸ı stream, an average of 40 g/L ammonia and 50 g/L ammonium was determined.In the salmonids farming, ammonia 12.5 g/L and ammonium 1000 g/L cannot be required to be more [14].Above 31 g/L of ammonia is not recommended for salmonids by EU fisheries directive.According to [8,9,11], Bulakbas ¸ı stream is first-class water.
Phosphorus has a role in the energy transfer and the presence of nucleic acid is required for biological activity.Food is one of the elements that are needed for aquatic algae as well as for macrophytes growth and proliferation.Water should be available in certain concentrations of phosphorus.If there is an excessive amount, it is based on pollution.In fertilizers, foods and detergents present in excess.It is carried to water sources via runoff, irrigation, drainage, and domestic waste water leaked into the groundwater [12].In Bulakbas ¸ı stream the values were determined to be 80 g/L as total P, 230 g/L as PO 4 , and 170 g/L as P 2 O 5 .It was declared in [20] as 190-3860 g/L PO 4 , in [29] as 20-340 g/L TP, in [1] as 80-1900 g/L PO 4 , and in [26] as 123-143 g/L PO 4 .Total phosphorus level in drinking water is recommended as maximum 400 g/L [4] and according to [9] this may be into the first quality class.EU directive designates first-class water at 400 g/L of P 2 O 5 ; in salmonids farming it is permitted in 65 g/L [11].
The presence of excessive iron in water gives a metallic taste to the water.Water makes variegation.Iron do not pose any problem in terms of health but may pose some risks to laundry, textile industry, soap and toothpaste, and paper industry used in the manufacture of products; such water is not desirable due to the presence of iron stain [13].Total iron in Bulakbas ¸ı stream was determined as 10 g/L.Iron value was declared in [20] as 37.6-99.16g/L, in [21] as 221-1326 g/L, in [24] as 560-5200 g/L, and in [26] as 680-700 g/L.For drinking water, according to [4,[8][9][10], EU, US, and WHO, it can be incorporated into the first quality class [11].In salmonids, it is permitted up to 500 g/L [14].
The presence of zinc is required in waters, because it is of vital importance for skin and hair cells [13].The average value of zinc in Bulakbas ¸ı was found to be 169 g/L.The value was reported in [20] as 0.36-0.72 g/L, in [29] as 70-440 g/L, and in [26] as 40-60 g/L.First-class value for zinc in drinking water is 100 g/L; the allowable upper limit is of 5000 g/L [4].EU drinking water directive in first-class water 500 g/L, the WHO directive 3000 g/L, and the EU directive for salmonids 10-125 g/L have been reported [11].In waters, chromium is available as +3 and +6 valence chromium.Cr +6 salts are carcinogenic properties.Therefore, drinking water should be protected from chromium contamination [30].Chromium is allergic to the skin of human [13].Cr +6 in Bulakbas ¸ı stream was determined as 24 g/L and reported in [21] as 120 g/L and in [24] as 100-120 g/L.According to TS 266 [8], WHCR [9] and WHO [11] chromium can be maximum 50 g/L In drinking waters and, in salmonids fisheries, it can be maximum 5-50 g/L [11].Considering the values obtained in the study results, average value is within the limit for chromium and it is the first quality class.
More than 500 g/L of manganese gives a metallic taste to the water.It is a basic element in the lives of humans and animals.A certain amount of it is recommended for human beings in the drinking water to improve cardiac health and reduce cardiovascular disease mortality [30].In this study the average value was determined as 400 g/L.According to [8,9], WHO, and the EU drinking water standards [11], Bulakbas ¸ı stream is second class.
In the nervous system and thyroid gland, cyanide causes significant problems.It is one of the most well-known poisons which is extremely dangerous to all organisms.Some fruits kernels (such as apricot and peach kernel) contain cyanide [13,31].Cyanide value in the study was determined as 6.8 g/L.According to [8][9][10], EU, and WHO, it is first-class [11].
Aluminum in water is present dissolved salt, colloidal, or insoluble compounds.It constitutes strong complex ions with organic materials sulfate and fluoride [30].When there is an excess of it, water has a discoloring property and gives turbid bluish image [13].Aluminum could not be found in Bulakbas ¸ı stream.
Copper causes the water taste problems and can lead to liver and kidney damage and accelerates the corrosion of other metals.Copper is originated from plating industry waste; copper sulfate is scattered the reservoirs in case of fight program with algae and pesticides.However, 1% remains in biologically available ions and passes to the remainder precipitates and sediments [13,30].Copper was not detected throughout the study in our sample.

Conclusion
When Bulakbas ¸ı stream is classified in terms of drinking, in respect to water, temperature, DO, OS, EC, pH, chloride, calcium, hardness, nitrate, nitrite, ammonia, sulfate, phosphorus, potassium, copper, aluminum, total iron, zinc, chromium, and cyanide, it can be first-class, and with regard to magnesium, it may be first and second class, and the manganese can be second quality class.In terms of fisheries, P 2 O 5 and alkalinity are only slightly above the first quality class.Bulakbas ¸ı stream has the first quality in terms of other parameters.With respect to analysis and measurement of all parameters, it is suitable quality of water for both salmonids and other species.In point of irrigation, it is considered as second quality class with respect to EC, magnesium, and alkalinity and first-class in terms of other parameters.Irrigation water is a quality that can be used easily.
In terms of quality and clean drinking water in our world in an age in which there is an increasing impoverishment, it is of paramount importance to protect natural resources, which must be well managed and kept clean.We should also implement due measures for the protection and rehabilitation of the available resources.
When taking into consideration research findings related with water quality classes described above, it would be much more tempting to say that Bulakbas ¸ı in Igdır as a drinking water supply for the surrounding settlements can be considered to possess features that are suitable for potable water and favorable for trout and carp farming.However, in order to determine the carrying capacity of water to be used, and taking into account the results obtained from this study, we should provide a good resource for management planning.

Table 1 :
Bulakbas ¸ı water results obtained based on in situ measurements.

Table 2 :
Data obtained from titrimetric analysis conducted on Bulakbas ¸ı water.

Table 3 :
Data obtained through analysis with spectrophotometer on Bulakbas ¸ı water.