 |
 |
 |
 |
 |
 |
Sains Malaysiana 42(10)(2013):
1371–1376
A
Biomonitor of Heavy Metals on Ruderal Habitats in Turkey
– Diplotaxis tenuifolia (L.) DC.
(Suatu
Biopenunjuk bagi Logam Berat pada Habitat Rudera di Turki
– Diplotaxis
tenuifolia (L.) DC.)
M. Ozturk1 2*,
S. Sakcali3 4 1Ege University, Botany Department, Bornova, Izmir, Turkey 2Faculty of Forestry, Universiti
Putra Malaysia, 43400 Serdang, Selangor,
Malaysia 3Suleyman Demirel University,
Faculty of Science & Arts, Department of Biology, Isparta, Turkey Sarajevo, Bosnia Herzegovina 5Pamukkale University, Biology Department, Denizli, Turkey
Diserahkan:
10 Mac 2013/Diterima: 12 Mei 2013
ABSTRACT
Diplotaxis tenuifolia is a medicinally important perennial
plant species, distributed widely alongside the roads in Turkey. The samples
were collected from 54 sites, including highways, sideways, industrial areas,
urban centres and rural environs. Both the plant and soil samples were analysed
to determine the concentrations of different metals using AAS. The results showed
that in the soil samples copper and lead were highest near highway 45.533 and
2.865 mg/kg, respectively; but lowest values of copper were determined around
industrial areas (3.514 mg/kg), latter however showed higher concentrations of
cadmium (0.726 mg/kg) and iron (82.766 mg/kg). The lead as well as iron were
the lowest around sideways 1.917 mg/kg and 54.073 mg/kg, respectively, whereas
chromium concentrations in the soils were highest near sideways (18.397 mg/kg)
and lowest around industrial areas (0.182 mg/kg). The sideways showed very low
nickel concentrations (0.271 mg/kg), as compared to the rural areas which had
higher nickel concentrations (0.726 mg/kg). No cadmium was detected in the
urban soil samples. In the plants copper and chromium were higher in the urban
areas 50.130 and 0.238 mg/kg, respectively. The former was lowest around
sideways (32.377 mg/kg) and latter around highways (0.114 mg/kg). Both nickel
and cadmium were higher in the samples from industrial areas 0.238 and 0.016
mg/kg, respectively. Their values around the highways were lowest 0.182 and
0.005 mg/kg. The samples from urban sites revealed highest values of lead
(3.474 mg/kg) and iron (61.304 mg/kg), but the values of lead were lowest
around sideways (2.420 mg/kg) and those of iron in the vicinity of industrial
areas (20.600 mg/kg). All these findings depict that there is some aerial
deposition of these metals on the leaves. A significant correlation is seen
between the plants and the soils.
Keywords: Biomonitor; Diplotaxis tenuifolia; heavy metals; Turkey
ABSTRAK
Diplotaxis tenuifolia ialah suatu spesies tumbuhan saka yang
penting sebagai ubat, tertabur secara meluas di tepi jalan di Turki. Sampel
telah dikutip dari 54 tapak, termasuk lebuh raya, tepi jalan raya, kawasan
industri, pusat bandar dan persekitaran desa. Kedua-dua sampel tumbuhan dan
tanih telah dianalisis untuk menentukan kepekatan logam berbeza menggunakan AAS.
Hasil menunjukkan dalam sampel tanih, tembaga dan plumbum adalah paling tinggi
berdekatan lebuh raya masing-masing 45.533 dan 2.865 mg/kg, tetapi nilai paling
rendah bagi tembaga telah ditentukan di sekeliling kawasan industri (3.514
mg/kg), walau bagaimanapun menunjukkan kepekatan lebih tinggi bagi kadmium
(0.726 mg/kg) dan besi (82.766 mg/kg). Plumbum dan besi adalah paling rendah di
sekeliling tepi jalan, masing-masing 1.917 mg/kg dan 54.073 mg/kg, manakala
kepekatan kromium di dalam tanih adalah paling tinggi dekat tepi jalan (18.397
mg/kg) dan paling rendah di sekeliling kawasan industri (0.182 mg/kg). Tepi
jalan menunjukkan kepekatan nikel paling rendah (0.271 mg/kg), dibandingkan
dengan kawasan desa yang mempunyai kepekatan nikel paling tinggi (0.726 mg/kg).
Tiada cadmium telah dikesan dalam sampel tanih bandar. Dalam tumbuhan, tembaga
dan kromium adalah paling tinggi di kawasan bandar masing-masing 50.130 dan 0.238
mg/kg. Tembaga adalah paling rendah di tepi jalan (32.377 mg/kg) dan kemudian
di sekeliling lebuh raya (0.114 mg/kg). Kedua-dua nikel dan cadmium adalah
paling tinggi dalam sampel dari kawasan industri masing-masing 0.238 dan 0.016
mg/kg. Nilai mereka di sekeliling lebuh raya adalah paling rendah 0.182 dan
0.005 mg/kg. Sampel dari tapak bandar menunjukkan nilai paling tinggi bagi
plumbum (3.474 mg/kg) dan besi (61.304 mg/kg), tetapi nilai bagi plumbum adalah
paling rendah di sekeliling tepi jalan (2.420 mg/kg) dan nilai bagi besi di
sekitar kawasan industri (20.600 mg/kg). Semua penemuan ini menunjukkan bahawa
mungkin terjadi penumbukan dari udara bagi logam yang berkenaan pada daun.
Suatu korelasi yang signifikan telah dilihat antara tumbuhan dan tanih.
Kata kunci: Biopenunjuk; Diplotaxis tenuifolia; logam berat; Turki
RUJUKAN
Aksoy, A., Hale, W.H.G. & Dixon, J.M. 1999. Capsella
bursa-pastoris (L.) Medik. as a biomonitor of heavy metal pollution. Science
Total Environment 226: 177-186.
Aksoy, A. & Ozturk, M. 1996. Phoenix
dactylifera L. as a biomonitor of heavy metal pollution in Turkey. Journal
of Trace and Microprobe Technology 14: 605-614.
Aksoy, A. & Oztürk, M. 1997. Nerium
oleander L. as a biomonitor of lead and other heavy metal pollution in Mediterranean
environment. Science Total Environment 205: 145-150.
Aksoy, A., Celik, A., Ozturk, M. & Tulu, M.
2000. Roadside plants as possible indicators of heavy metal pollution in
Turkey. Chemia I Inzynieria Ekologiczna 7(11): 1152-1162.
Ashraf, M., Ozturk, M. & Ahmad, M.S.A. 2010.
Toxins and their phytoremediation. In Plant Adaptation and Phytoremediation. Springer Verlag-Tasks for Vegetation Science.
Atiq-Ur-Rehman, S.A. & Iqbal, M.Z. 2008.
Level of heavy metals in the foliage of naturally growing plants collected from
Korangi and Landhi industrial areas of Karachi city, Pakistan. Pakistan
Journal Botany 40: 785-789.
Boularbah, A., Schwartz, C., B?tton, G.,
Aboudrar, W., Ouhammou, A. & Morel, J.L. 2006. Heavy metal contamination
from mining sites in South Morocco: 2. Assessment of metal accumulation and
toxicity in plants. Chemosphere 63: 811-817.
Celik,
Sh., Yucel, E., Celik, S., Gucel, S. & Ozturk, M. 2009. Carolina poplar (Populus
x canadensis Moench) as a biomonitor of trace elements in the West Black
Sea region of Turkey. Journal of Environmental Biology Special Issue 31:
225-232.
Chen,
T.B., Zheng, Y.M.M., Lei, Z.C., Huang, H.T., Wu, H., Chen, K., Fan, K., Yu, K.,
Wu, X. & Tian, Q.Z. 2005. Assessment of heavy metal pollution in surface
soils of urban parks in Beijing, China. Chemosphere 60: 542-551.
Cicek,
A. & Koparal, A.S. 2004. Accumulation of sulphur and heavy metals in soil
and tree leaves sampled from the surroundings of Tunc-bilek thermal power
plant. Chemosphere 57: 1031-1036.
Dietl,
C., Waber, M., Peichl, L. & Vierle, O. 1996. Monitoring of airborne metals
in grass and deposition. Chemosphere 33(11): 2101-2111.
Djingova,
R. & Kuleff, I. 1993. Monitoring of heavy metal pollution by Taraxacum
officinale. In Plants as Biomonitors/ Indicators for Heavy Metals in the
Terrestrial Environment, edited by Markert, B. Weinheim: VCH Press.
Edem,
C., Dosunmu, M. & Bassey, F.I. 2009. Distribution of heavy metals in
leaves, stems and roots of fluted pumpkin (Telfeiria occidentalis). Pakistan
Journal of Nutrition 8: 222-224.
Garcia,
R. & Millan, E. 1998. Assessment of Cd, Pb and Zn contamination in roadside
soils and grasses from Gipuzkoa (Spain). Chemosphere 37(8): 1615-1625.
Gucel,
S., Kocbas, F. & Ozturk, M. 2009a. Heavy Metal Bioaccumulation by Barley
in Mesaoria Plain Alongside the Nicosia-Famagusta Highway, Cyprus 18(11):
2034-2039.
Gucel,
S., Ozturk, M., Yucel, E., Kadis, C. & Guvensen, A. 2009b. Studies on the
trace metals in the soils and plants growing in the vicinity of copper mining
area- Lefke, Cyprus. Fresenius Environmental Bulletin 18(3): 360-368.
Jarup,
L. 2003. Hazards of heavy metal contamination. British Medical Bulletin 68:
167-182.
Kanoun-Boule,
M., Albuquerque, M.B., Nabais, C. & Freitas. H. 2008. Copper as an
environmental contaminant: Phytotoxicity and human health implications. In Trace
Elements: Environmental Contamination, Nutritional Benefits and Health
Implications, edited by Prasad, M.N.V. Chapter 25, USA: John Wiley &
Sons.
Markert,
B. 1993. Plants as Biomonitors/Indicators for Heavy Metals in the
Terrestrial Environment. Weinheim: VCH Press.
Memon,
A.R., Yildizhan, Y. & Kaplan. E. 2008. Metal accumulation in crops-human
health issues. In Trace Elements: Environmental Contamination, Nutritional
Benefits and Health Implications, edited by Prasad, M.N.V. Chapter 4. USA:
John Wiley & Sons.
Ozturk,
M. & Turkan, I. 1993. Heavy metal accumulation by plants growing alongside
the motor roads: A case study from Turkey. In Plants as Biomonitors: Indicators
for Heavy Metals in the Terrestrial Environment, edited by Markert, B.
Germany: VCH Publishers.
Ozturk,
M., Yucel, E., Gucel, S., Sakcali, S. & Aksoy, A. 2008. Plants as
biomonitors of trace elements pollution in soil. In Trace Elements: Environmental
Contamination, Nutritional Benefits and Health Implications, edited by
Prasad, M.N.V. Chapter 28. USA: John Wiley & Sons.
Pandey,
S.N. 2006. Accumulation of heavy metals (Cd, Cr, Cu, Ni, and Zn) in Raphanus
sativus L. and Spinacia oleracea L. plants irrigated with industrial
effluent. Journal of Environmental Biology 27: 381-384.
Prasad,
M.N.V. 2008. Essentiality of zinc for human health and sustainable development.
In Trace Elements: Environmental Contamination, Nutritional Benefits and Health
Implications, edited by Prasad, M.N.V. Chapter 9. USA: John Wiley &
Sons.
Sakcali,
M.S. & Serin, M. 2009. Seed germination behaviour of Diplotaxis
tenuifolia. EurAsian Journal of BioScience 3(14): 107-112.
Sawidis,
T., Marnasidis, A., Zachariadis, G. & Stratis, J. 1995. A study of air
pollution with heavy metals in Thessaloniki city (Greece) using trees as
biological indicators. Archives Environmental Contamination and Toxicology 28:
118-124.
Sesli,
M. 2004. A study of lead contamination in tobacco leaves sampled from alongside
motor roads in the rapidly industralising city of Manisa, Turkey. Journal of
Biological Sciences 4(6): 768-770.
Tomasevic,
M., Rajsic, S., Dordevic, D., Tasic, M., Krstic, J. & Novakovic, V. 2004.
Heavy metals accumulation in tree leaves from urban areas. Environmental
Chemical Letters 2: 151-154.
Viard,
B., Pihan, F., Promeyrat, S. & Pihan, J.C. 2004. Integrated assessment of
heavy metal (Pb, Zn, Cd) highway pollution: Bioaccumulation in soil, Gramineae
and land snails. Chemosphere 55: 1349-1359.
Wittig,
R. 1993. General aspects of biomonitoring heavy metals by plants. In Plants
as Biomonitors / Indicators for Heavy Metals in the Terrestrial Environment, edited
by Markert, B. Weinheim: VCH Publisher.
Yilmaz,
R., Sakcali, S., Yarci, C., Aksoy, A. & Ozturk, M. 2006. Use of Aesculus
hippocastanum L. as a biomonitor of heavy metal pollution. Pakistan
Journal of Botany 38: 1519-1527.
*Pengarang untuk surat-menyurat; email: munirozturk@gmail.com
|
|||
|
