Download - Fluoride Waters In Turkey[1]
Environ Geochem Health (2008) 30: 315-323
Occurrence and Problems of High Fluoride Waters in Turkey - An Overview
Nazmi ORUC
Eskisehir Environmentai Protection Association (NGO)
2510 F Blok D.8 Yenikent 26050 Eskisehir/TURKEY
e-mail: [email protected]
ABSTRACT
Endemic dental fluorosis was first observed in Turkey in Isparta Province located in SW of Anatolia
with mottled enamel related to the high levels of fluoride (1,5-4,0 ppm) in drinking waters about 55
years ago. The origin of fluoride was attributed to the contents of minerals in volcanic rocks, consisting
of pyroxene, hornblende, biotite, fluorapatite and glassy groundmass minerals. It was also reported
about 35 years ago that severe dental and skeletal fluorosis have been observed in human beings and
livestock in Dogubeyazıt and Caldiran areas located around Tendurek Volcano in eastern Turkey
where natural waters contained fluoride levels between 2,5-12,5 ppm. It was hypothesed that fluoride
which might be transported by fumaroles or escaped from devitrified lavas, could be held on the
surface of some minerals and then exchanged with OH- in ground-waters with high pH, at the foothills
of young Tendurek Volcano. Endemic dental and skeletal fluorosis was also observed in the
inhabitants in Kizilcaoren Village of Beylikova Town in Eskişehir Province situated at the mid-west of
Turkey, where the fluoride content of the drinking waters ranged from 3,9 to 4,8 ppm. The origin of
high fluoride in the natural waters was related to the fluorspar deposits, occurring in the catchment
area near the village.
During the survey in the Güllü Village of Esme-Usak, located in south-midwest of Turkey; it was
observed that most of the inhabitants born and raised in the village and aged hetween 10 to 30,
showed mild to moderate levels of mottled enamel. The fluoride contents of the deep well waters used
for drinking in the village, varied from 0,7 to 2,0 ppm. Amorphous microscopic fluorite existing in the
Pliocene lake limestones, was considered as a possible origin of fluoride in the waters.
Key words: Problems of high fluoride waters in Turkey
1. INTRODUCTION
Fluoride is widely distributed in a combined form in several naturally occuring minerals, including
fluorite (CaF2), cryolite (Na3AlF6), topaz, tourmaline and micas, in which it is found in combination with
silicates, but particularly in association with phosphorus as fluorapatite [Ca5(PO4)3F]. It was estimated
that fluoride constitutes about 0,032% of the earth's crust. Because of the wide interest in the
relationship of fluorides to general health, an extensive literature is available on high fluoride waters
(Edmunds and Smedley, 2005). Except in unusual circumstances, surface waters are generally low in
fluoride, the levels being below 1, 0 ppm. On the other hand ground-waters may have greater
opportunity to contact appreciable amounts of fluoride depending on geological conditions. Fluoride
levels will tend to be higher in alkaline waters and in geothermal areas. In many waters calcium ions
are in excess and under these conditions the concentration of fluoride is controlled by CaF2 which at
normal temperatures has a solubility of about 15 ppm., and fluoride ion level is limited to about 8 ppm.
1.1 Effects of Fluoride on Human Health : Fundamental information on the relationship fluoride and
human health has been very well documented by WHO (Fluoride and Human Health, 1970.,
Fluorine and Fluorides, 1984). The principal sources of fluoride available to humans are: 1) Water,
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Environ Geochem Health (2008) 30: 315-323
2) Some species of vegetation, 3) Certain edible marine animals, 4) Dusts in certain parts of the
world, 5) Certain industrial processes. It has been well established that where fluoride occurs in
abnormal amounts in water, chronic endemic fluorosis is likely to exist with the most obvious sign
of mottled enamel of local population. Clinically, mottled teeth are characterized by minute white
flecks, yellow or brown spot areas scattered irregularly over the tooth surface. The chronic toxic
effects of fluoride on the skeletal system have been described from certain geographical regions
of the world, such as India where drinking waters contained high levels of fluoride.
1.2 Effects of Fluoride on Animals: Various sources may contribute to the total fluoride intake of
animals. The most commonly encountered sources of excessive fluoride are: 1) High fluoride water
from natural or industrial sources, 2) Forage subjected to airborne contamination in industrial areas, 3)
Feed supplements and mineral mixtures containing excessive fluoride, 4) Vegetation growing in soils
with high fluoride, and 5) A combination of any or all of these. The most sensitive clinical index of
fluoride absorption is observed as the mottling, staining and excessive wearing of permanent teeth
which were forming at the time of fluoride ingestion. At a more advanced stage of fluorosis, a
distinctive bilateral lameness and stiffness of gait may be observed (Hobbs, et al., 1954, Suttie, 1977).
The main aim of this paper is to summarize the findings of the several researchers who have
conducted several studies on different aspects of high fluoride water problems in Turkey since
1955.
Fig.1 Map of the study areas of endemic fluorosis in Turkey (Tendurek Volcano,Isparta,Eskisehir,Usak)
2. FLUOROSIS IN WATER FROM AREAS OF TURKEY WITH HIGH NATURAL FLUORIDE
2.1 Province of Isparta : Dental fluorosis was observed for the first time about 55 years ago in Isparta
Province, situated at SW of Turkey and related to high fluoride indrinking waters (Ornek, 1955,
Velicangil and Demirhindi,1955, 1957, Ata, 1966). About 100 000 residents
of Isparta city had to use high fluoride waters that contained fluoride levels
between 1,5-6,0 ppm. Usmen (1975) and Samsar (1983) determined the
community index of dental fluorosis (Fci) and the incidence of dental decay
(DMF) on the large number of people living within Isparta city and
surrounding area. It was indicated that in places where high (Fci) values
were found, DMF values were low. A mottled enamel case is given in fig.2.
Oruc and Sansarci (1983) suggested the dilution of high fluoride water with
low fluoride waters to prevent dental fluorosis while supplying enough
2
İSTANBUL
ANKARA
ESKİŞEHİR
ISPARTA
UŞAK
TENDÜREKVOLCANO
Mediterranean Sea
Black Sea
Fig. 2 . Isparta City Centre ( Photo: Oruc,1983 )
Environ Geochem Health (2008) 30: 315-323
fluoride for the protection against caries. There was no investigation searching the possibilities of the
problems of skeletal fluorosis regarding to the ingestion of high fluoride waters in Isparta. However,
new water was brought from Egirdir Lake to the city center in 1995. With respect to the origin of
fluoride in the waters, several research workers have investigated the relationship between the fluoride
content of these waters and the various rocks in the Golcuk Lake area, located some 6 km. SW of the
Isparta city center (Ozkan, et al., 1988, Bilgin, et al., 1990, Pekdeger, et al., 1990, Ozgur, et al., 1992).
They indicated that Golcuk area consists of sedimentary and volcanic rocks. The volcanic rocks are
tephriphonolite, pyroclastic series and trachyandesite together with trachyite. As fluoride bearing
minerals, the volcanics consist of pyroxene, hornblende, biotite, fluorapatite and glassy groundmass.
The high fluoride content of the drinking water in the city area was related to the dissolution of fluoride
from these fluoride bearing rocks.
2.2 Environs of the Tendurek Volcano: The first report on the results of the analysis of high fluoride
waters and occurrence of fluorosis in humans and animals was prepared by Oruc (1972, 1973, 1976)
following the surveying and analyses of the natural water samples from Dogubeyazit area, located on
the N of Tendurek Volcano in eastern Anatolia. Mottled teeth cases from Tendurek Volcano are
illustrated in Figures of 3 and 4.
Fig. 3. N. of Tendurek Volcano (Photo: Oruc,1972) Fig. 4. S. of Tendurek Volcano (Photo: Oruc, 1976)
Since fluoride toxicity was widely seen in the region, comprising of about 5 000 -10 000 inhabitants
and approximately 40 000-50 000 livestock, several other research workers also conducted many
studies on the endemic fluorosis in the area. Even under the CENTO (Central Treaty Organization)
Scientific Organization)’’ A Seminar on Problems of High Fluoride Waters" was held in Ataturk
University on 6-10 June, 1977 in Erzurum, including a two days field trip in the endemic fluorosis
villages. Key findings from that seminar, are given below:
According to Oruc (1977) seven natural water samples, collected from Dogubeyazit area, contained
excessive amounts of fluoride ranging from 6,5 to 12,5 ppm. The water samples of Caldiran area (S of
Tendurek Volcano) also contained high amounts of fluoride varying between 2,0 and 7,5 ppm. On the
other hand water soluble fluoride determinations were made on soil and plant samples collected from
the fluoride contaminated and control sites around Tendurek Volcano. The fluoride levels of soils taken
from the contaminated and control sites ranged from 1,64 to 13,8 ppm. (median =12.0) and from 0,05
to 0,54 ppm. (median= 0,20), respectively. Analysis of plant samples growing in the fluoride
contaminated areas and control sites showed levels of fluoride ranging from 1,85 to 33,0 ppm.
(median=4,7) and 0,51 to 1,13 ppm. (median= 0,9), respectively. It was concluded that water-borne
fluoride contribution to the water soluble contents of soils had a significant impact on the fluoride
uptake of the plants. In addition to the high uptake of fluoride from drinking waters, livestock grazing in
these areas, could also ingest some fluoride from soils and plants (Oruc, 1977).
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Oktay (1977), concluded that a) high fluoride intake had deleterious effect on skeletal development , b)
this deleterious effect had also occurred, but to a lesser extent on dental tissue. Oztopcular (1977)
examined 29 males and 12 females from the Dogubeyazit villages. In addition to walking difficulties
skeletal changes and changes in tendon reflexes, laboratory findings revealed that chronic fluoride
intoxication caused disturbances in serum electrolytes and in some cases collagen break down
(rheumatoid factor). Electroencephalographic(EEG) activities of the cases studied, showed significant
changes with a tendency towards hypoactive EEG patterns. Figures 5,6 and 7 show skeletal flurosis
cases from N. Tendurek areas.
Fig. 5. A group of patients from N. of Tendurek
Volkano showing O-leg, kyphosis and diffuse
muscular atrophy (From Öztopcular, 1977)
Fig.6. Severe periostal reaction Fig.7. Periostal reactions on the costae, between radius and ulna chalky appearance on the columa
(From Oztopcular, 1977) vertebralis (From Oztopcular,1977)
It was shown by Tuncel (1980) that over the age of 60, patients in the high fluoride group had a
significantly higher incidence of Moenckeberg calcification and there was a highly significant
correlation (p < 0,001) between the severity of these calcifications and severity of the skeletal changes
within the group.
Mermutlu (1977) indicated that the average fluoride levels (w/w) of dental calculus of inhabitants (20 in
each group) aged between 30-40 and 40-60, were 12,4%, and 18.44% from the endemic fluorosis
area, and were 2,72% and 3,53% for the two groups aged 20-40 and 40-60, respectively. Babacan
(1976) showed that chronic fluorosis was detected as a reason for the formation of anaemia both in
the cattle and in sheep with more obvious symptoms in the sheep from Dogubeyazit area. He also
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indicated that as clinical symptoms, pitted and worn teeth and temporary lameness were observed in
the sheep and cattle of the study area.
Sendil and Baysu (1973) first reported the occurrence of fluorosis in humans and animals in the
villages of Muradiye Town in Van Province at eastern Turkey. They indicated that 7 water samples
obtained from the S of Tendurek Volcano and 6 water samples from the N of the volcano, contained
fluoride, ranging from 5,7 to 15,2 ppm. and from 10,3 to 12,5 ppm, respectively. Dental stains and
abrasions, and temporary lameness were detected in sheep, cattle, water buffalo and some horses.
Mottling, staining and abrasions of teeth, arthrosis of joints and stiffness in walking were also observed
in inhabitants of the Caldiran area. Harmful effects of high fluoride on livestock are shown in figures
8,9 and 10.
Fig. 8. Coarsened wool and weakness of a 2 year old Fig. 9. Coarsened hair, dry skin and diarrhoea in a sheep from the Asagiyilanli Village, N. of 4 year old cow from the same village Tendurek Volcana (From Sendil and Baysu, 1973) (From Sendil and Baysu, 1973)
According to the findings of Ergun, et.al., (1987), the
average fluoride concentration of the urine samples from
eastern part (Tendurek Volcano) and western parts of
Turkey (fluoride free areas) in sheep were 8,12 and 1,49
ppm. and in humans 4,32 and 0,99 ppm., respectively.
Also the fluoride concentration in bone, teeth, plant, soil
and water samples from eastern parts were significantly
higher than those of the samples from western of Turkey.
The geological succession of the study area consists of
unexposed Bitlis masif (Paleozoic) metamorphics and
ophiolide overlain by young basaltic lava flows of the
Tendurek Volcano (Olmez, et al., 1994). Natural waters
emerge from these lavas, limestones and marbles in the
flysch and ophiolite rocks. Ten water samples taken from
these natural waters were analysed for chemical
characteristics. High fluoride waters were NaHCO3 type,
and low fluoride waters were Ca-MgHCO3 type. It was hypothised that fluoride which might be
transported by fumaroles or escaped from devitrified lavas, could be held on the surface of some
minerals and then exchanged with OH- ground-waters with high pH. These waters might then
discharge as high fluoride waters from the foothills of Tendurek Volcano (Oruc, et al., 1976).
In another study, 23 samples of natural waters collected from N of Tendurek Volcano were
determined by using potentiometric (fluoride-selective electrode) and spectrophotometric (zirconium-
alizarin) methods. The fluoride contents in these waters generally varied from 0,05 to 13,70 ppm.
Correlation coefficients between the methods used, were found to be statistically significant (Oruc,
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Fig. 10.Excessively worn and broken teeth of a 2 year old sheep from Gökcekaynak Village, N. of Tendurek Volcano (Photo: Oruc,1973)
Environ Geochem Health (2008) 30: 315-323
1983). A good quality drinking water (Q= 55 1/s) was conveyed to 45 villages from Balikli Lake in last
decades (Oruc, 2001).
2.3 Kizilcaoren Village of Beylikova . Eskisehir : Aksit, et al., (1980) carried out the first field survey
with respect to endemic fluorosis in Kizilcaoren Village, located about 36 km. north of the state road
between Ankara and Eskisehir in central Anatolia. Figure 11 shows mottled enamel case from
Kizilcaoren Village. According to their findings, dental defects were observed in 267 persons (75%) of
the population. All those of seven years of age and above born and raised in the village had dental
problems whereas, the knee, chest and pelvic X-rays in adults showed
evidence of fluorosis and approximately half of the 166 adults (75 or 45,2%)
had advanced fluorosis. It was reported that the fluoride content of the
waters ranged from 3,8 to 4,9 ppm. An extensive epidemiological survey of
the Kizilcaoren area was made by Uslu and Gogus (1981). They examined
157 children, of whom 58% showed typical symptoms of dental fluorosis.
They also observed that the advanced picture of crippling fluorosis was
strikingly uniform among the patients in the village. It was also noticed that
the advanced stage of skeletal fluorosis was the result of continuous
exposure of an individual to high fluoride daily over a period of 10-20 years.
Fluoride content of the drinking waters was reported as ranging from 3,9 to
4,9 ppm. On the other hand Fidanci, et al., (1994) indicated fluoride levels in natural waters varying
from 4,24 to 9,0 ppm around this village. They also noted that new water supplied to the village
contained fluoride between 0,10 to 0,25 ppm. Oruc and Aksit (1989) observed that 10 students among
the 24 elementary school children screened in 1988 still had mottled enamel to varying degrees, since
quantity of the new water supply was not enough especially during the dry seasons, some inhabitants
had to use high fluoride waters again. It was later learned that a good quality spring water has been
supplied to the village since 1992. The Kizilcaoren area is rich in hydrothermal ore deposits which also
formed the alkaline volcanic rocks, situated very close to the south of the village. The ore deposit
contains significant amounts of thorium and rare earth elements as well as fluorspar and barite. Then
the origin of high fluoride in the natural waters was related to the fluorspar ore deposits occurring in
the watershed area of the village (Celik, 1983, Kirikoglu, 1988).
2.4 Gullu Village of Esme, Usak : A study was carried out on the fluoride content of drinking waters
and it’s origin in Gullu Village of Esme Town in Usak Province, located in the mid-west of Anatolia
(Oruc and Vicil, 2001). Fluoride contents of 13 drinking water samples
(mostly deep well waters) varied from 0,7 to 2,0 ppm., (mean=1,35 ,
median=1,60).Fluoride levels were equal or higher than the recommended
limits (1,5 mg/1) set by WHO and Turkish Standarts. During the surveying
of the village, it was observed that about 80% of the inhabitants (total
population was about 1500) born and raised in the village and aged
between 10 and 30 had mottled enamel (dental fluorosis).
pH, Ca++ + Mg++, CO3=, Cl-, SO4
=, Na+ and K+ concentrations of the water
samples were also determined and statistically significant correlations
were found between F- content and Na+ , also negative correlation
between F- and Ca++ + Mg++ concentrations.
The geological survey of the village area and microscopic examination of the rock samples were
carried out to determine the origin of the fluoride. Amorphous microscopic fluorite existing in Pliocene
lake limestones (magnification: x 400) was considered as a possible origin of the fluoride in the deep
well water samples. A new water containing 0.4 ppm. fluoride has been supplied to the village since
1990.
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Fig. 11. Kizilcaoren Village (Photo: Oruc,1989)
Fig. 12. Gullu Village ( Photo: Oruc, 1984)
Environ Geochem Health (2008) 30: 315-323
According to the study with respect to defluoridation of drinking waters, it was indicated that locally
produced alumina gave promising and economically sound results in terms of defluoridation capacity
and availability in Turkey (Azbar and Turkman, 2000).
CONCLUSIONS
1)Endemic fluorosis that related to high fluoride waters, has been observed in some parts of Turkey,
about 55 years ago. In different parts of Anatolia surface and ground-water samples contained fluoride
between 1,5 to 13.70 ppm.High fluoride concentrations were generally associated with geochemical
formations. Most severe dental and skeletal fluorosis were especially observed in villages in the high
fluoride regions around Tendurek Volcano, effecting human and livestock health.
2)Isparta city center, Kizilcaoren village, Gullu village and 45 villages of Dogubeyazit region (N of
Tendurek Volcano), where varying degrees of dental and skeletal fluorosis existed, have been
supplied with low fluoride drinking waters in the last decades.
3)Low fluoride drinking waters should also be supplied for inhabitants and livestock in Caldiran area
(S. Tendurek Volcano).
Acknowledgements: I would like to thank Fatma BELEN and Fatih INCE for preparation of the
manuscript in digital form.
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