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Impact of heavy metals zinc and lead on the photosynthetic pigment contents of Bryum schleicheri and Plagiomnium undulatum Bryophyta

Year 2016, Volume: 9 Issue: 2, 122 - 127, 15.08.2016

Abstract

Bryophytes is one of the important components of terrestrial ecosystems and widely used as biomonitoring is very important in the formation of the world's biodiversity. In this study, zinc and lead effects on photosynthetic pigment content of Bryum schleicheri and Plagiomnium undulatum species of heavy metals were investigated. Bryophytes species were determined utilizing a variety of flora works. 15 and 30 minutes between 10-2-10-4 M ZnSO4 and PbSO4 aqueous solutions treated on 0.1 g sample. Chlorophyll and carotenoid amount is determined to the Arnon method. Consequently, zinc and lead heavy metals have been found to affect the photosynthetic pigment amounts of Bryum schleicheri and Plagiomnium undulatum species. Lead heavy metal appears to be more effective in both species

References

  • Arnon, D.I. 1949. Copper enzymes in isolated chloroplasts Polyphanoloxidase in Beta vulgaris. Journal of Plant Physiology, 24: 1-15,1949.
  • Bricker, T.M., Newman, D.W., 1982. Changes in the chlorophyll-proteins and electron transport activities of soybean cotyledon chloroplasts during senescence. Photosynthesis 16:239-244.
  • Brown, D.H., Wells, J.M. 1990. Physiological effects of heavy metals on the moss Rhytidiadelphus squarrosus. Annals Botany 66: 641-647.
  • Chettri, M.K., Cook, C.M., Vardaka, E., Sawidis, T., Lanaras, T. 1998. The effect of Cu, Zn and Pb on the chlorophyll content of the lichens Cladonia convoluta and Cladonia rangiformis. Environmental and Experimental Botany, 39(1): 1-10.
  • Cortini Pedrotti, C. 2001. Flora dei muschi d’Italia, Sphagnopsida, Andreaopsida, Bryopsida (I parte). Roma, Antonia Delfino Editore, Medicina Science, 1-817p.
  • Cortini Pedrotti, C. 2006. Flora dei muschi d’Italia, Bryopsida (II parte). Roma, Antonia Delfino Editore, Medicina Science, 827-1235p.
  • Çepel, N. 1997. Toprak Kirliliği Erozyon ve Çevreye Verdiği Zararlar. TEMA Vakfı Yayınları, İstanbul, 111s.
  • Dean, M.A., Letner, C.A., Eley, J.H., 1993. Effect of autumn foliar senescence on chlorophyll a:b ratio and respiratory
  • enzymes of Populus tremuloides. Bulletin of the Torrey Botanical Club 120: 269-274.
  • Fatoba, P.O., Udoh Emem, G. 2008. Effects of Some Heavy Metals on Chlorophyll Accumulation in Barbula lambarenensis. Ethnobotanical Leaflets 12: 776-830.
  • Fernandez, J.A., Carballeira, A. 2002. Biomonitoring of metal deposition in Galicia (NW Spain) with mosses: factors affecting bioconcentration. Chemosphere, 2(46): 535–542.
  • Ghnaya, A.B., Charles, G., Hourmant, A., Hamida, J.B., Branchard, M. 2009. Physiological behavior of four rapeseed cultivar (Brassica napus L.) submitted to metal stress. Comptes Rendus Biologies, 332: 363–370.
  • Guschina, I.A., Harwood, J.L. 2002. Lipid metabolism in the moss Rhytidiadelphus squarrosus (Hedw.) Warnst. from lead-contaminated and non-contaminated populations. Journal of Experimental Botany 53: 455-463.
  • Kastori, R., Plesnicar, M., Sakac Z., Pankovic, D., Arsenijevic, Maksimovic, I. 1998. Effect of Pb excess on sunflower growth and photosynthesis. J Plant Nutri 21: 75–85.
  • Krupa, Z., Baranowska, M., Orzoł, D. 1996. Can anthocyanins be considered as heavy metal stress indicator in higher plants? Acta Physiol Plantarum 18:147–151.
  • Kumar, A., Prasad, M.N.V., Sytar, O. 2012. Lead toxicity, defense strategies and associated indicative biomarkers in Talinum triangulare grown hydroponically. Chemosphere 89: 1056–1165.
  • Lichtenthaler, H., Wellburn, A.R. 1983. Determination of total carotenoids and chlorophyll a and b of leaf extracts in different solvents. Biochemical Society Transactions, 603: 591–593.
  • Pätsikkä, E., Aro, E.-M., Tyystjärvi, E. 2001. Mechanism of copper-enhanched photoinhibition in thylakoid membranes. Physiologia Plantarum 113(1): 142-150.
  • Saxena, D.K., Singh, S., Srivastava, K. 2008. Metal precipitation in Garhwal hill area (India): Estimation based on native moss analysis. Aerosol and Air Quality Research, 8: 94–111.
  • Shakya K, Chettri, M.K., Sawidis, T. 2008. Impact of heavy metals (copper, zinc and lead) on the chlorophyll content of some mosses. Archives of Environmental Contamination and Toxicology, 54: 412–421.
  • Schofield, W.B. 2001. Introduction to Bryology. The Blackburn Press. 431 p.
  • Smith, A.J.E. 2004. The Moss Flora of Britain and Ireland. (Second Edition) Cambridge Univ. Pres.
  • Sytar, O., Kumar, A., Latowski, D., Kuczynska, P., Strzałka, K., Prasad, M.N.V. 2013. Heavy metal-induced oxidative damage, defense reactions, and detoxification mechanisms in plants. Acta Physiologiae Plantarum, 35(4): 985-999.
  • Tremper, A.H., Agneta, M., Burton, S., Higgs, D.E.B. 2004. Field and laboratory exposures of two moss species to low level metal pollution. J Atom Chem 49(1–3): 111–120.
  • Tukey J.W. 1954. Some selected quick and easy methods of statistical analysis. Trans. of New York Acad. Sci. 88-97.
  • Yücel, M., Yücel, E. 2013. On the ecotoxicological effects of heavy metal pollution of industrial origin determination of wheat varieties. Biological Diversity and Concervation, 6/3: 6-11.

Ağır metallerin çinko ve kurşun Bryum schleicheri and Plagiomnium undulatum Bryophyta ’un fotosentetik pigment miktarları üzerine etkisi

Year 2016, Volume: 9 Issue: 2, 122 - 127, 15.08.2016

Abstract

Karasal ekosistemin önemli bileşenlerinden olan ve biyomonitör olarak yaygın şekilde kullanılan briyofitler dünyadaki biyolojik çeşitliliğin oluşmasında çok önemlidir. Bu çalışmada çinko ve kurşun ağır metallerinin Bryum schleicheri ve Plagiomnium undulatum türlerinin fotosentetik pigment içeriği üzerine etkileri araştırılmıştır. Briyofit türleri çeşitli flora eserlerinden faydalanılarak tespit edilmiştir. 0,1 g örnek üzerine 15 ve 30 dakika 10-2-10-4 M arasında ZnSO4 ve PbSO4 sulu çözeltileri uygulanmıştır. Arnon metoduna göre klorofil ve karotenoid miktarları belirlenmiştir. Sonuç olarak çinko ve kurşun ağır metallerinin Bryum schleicheri ve Plagiomnium undulatum türlerinde fotosentetik pigment miktarlarını etkilediği tespit edilmiştir. Her iki türde de kurşun ağır metalinin etkisinin daha fazla olduğu görülmektedir

References

  • Arnon, D.I. 1949. Copper enzymes in isolated chloroplasts Polyphanoloxidase in Beta vulgaris. Journal of Plant Physiology, 24: 1-15,1949.
  • Bricker, T.M., Newman, D.W., 1982. Changes in the chlorophyll-proteins and electron transport activities of soybean cotyledon chloroplasts during senescence. Photosynthesis 16:239-244.
  • Brown, D.H., Wells, J.M. 1990. Physiological effects of heavy metals on the moss Rhytidiadelphus squarrosus. Annals Botany 66: 641-647.
  • Chettri, M.K., Cook, C.M., Vardaka, E., Sawidis, T., Lanaras, T. 1998. The effect of Cu, Zn and Pb on the chlorophyll content of the lichens Cladonia convoluta and Cladonia rangiformis. Environmental and Experimental Botany, 39(1): 1-10.
  • Cortini Pedrotti, C. 2001. Flora dei muschi d’Italia, Sphagnopsida, Andreaopsida, Bryopsida (I parte). Roma, Antonia Delfino Editore, Medicina Science, 1-817p.
  • Cortini Pedrotti, C. 2006. Flora dei muschi d’Italia, Bryopsida (II parte). Roma, Antonia Delfino Editore, Medicina Science, 827-1235p.
  • Çepel, N. 1997. Toprak Kirliliği Erozyon ve Çevreye Verdiği Zararlar. TEMA Vakfı Yayınları, İstanbul, 111s.
  • Dean, M.A., Letner, C.A., Eley, J.H., 1993. Effect of autumn foliar senescence on chlorophyll a:b ratio and respiratory
  • enzymes of Populus tremuloides. Bulletin of the Torrey Botanical Club 120: 269-274.
  • Fatoba, P.O., Udoh Emem, G. 2008. Effects of Some Heavy Metals on Chlorophyll Accumulation in Barbula lambarenensis. Ethnobotanical Leaflets 12: 776-830.
  • Fernandez, J.A., Carballeira, A. 2002. Biomonitoring of metal deposition in Galicia (NW Spain) with mosses: factors affecting bioconcentration. Chemosphere, 2(46): 535–542.
  • Ghnaya, A.B., Charles, G., Hourmant, A., Hamida, J.B., Branchard, M. 2009. Physiological behavior of four rapeseed cultivar (Brassica napus L.) submitted to metal stress. Comptes Rendus Biologies, 332: 363–370.
  • Guschina, I.A., Harwood, J.L. 2002. Lipid metabolism in the moss Rhytidiadelphus squarrosus (Hedw.) Warnst. from lead-contaminated and non-contaminated populations. Journal of Experimental Botany 53: 455-463.
  • Kastori, R., Plesnicar, M., Sakac Z., Pankovic, D., Arsenijevic, Maksimovic, I. 1998. Effect of Pb excess on sunflower growth and photosynthesis. J Plant Nutri 21: 75–85.
  • Krupa, Z., Baranowska, M., Orzoł, D. 1996. Can anthocyanins be considered as heavy metal stress indicator in higher plants? Acta Physiol Plantarum 18:147–151.
  • Kumar, A., Prasad, M.N.V., Sytar, O. 2012. Lead toxicity, defense strategies and associated indicative biomarkers in Talinum triangulare grown hydroponically. Chemosphere 89: 1056–1165.
  • Lichtenthaler, H., Wellburn, A.R. 1983. Determination of total carotenoids and chlorophyll a and b of leaf extracts in different solvents. Biochemical Society Transactions, 603: 591–593.
  • Pätsikkä, E., Aro, E.-M., Tyystjärvi, E. 2001. Mechanism of copper-enhanched photoinhibition in thylakoid membranes. Physiologia Plantarum 113(1): 142-150.
  • Saxena, D.K., Singh, S., Srivastava, K. 2008. Metal precipitation in Garhwal hill area (India): Estimation based on native moss analysis. Aerosol and Air Quality Research, 8: 94–111.
  • Shakya K, Chettri, M.K., Sawidis, T. 2008. Impact of heavy metals (copper, zinc and lead) on the chlorophyll content of some mosses. Archives of Environmental Contamination and Toxicology, 54: 412–421.
  • Schofield, W.B. 2001. Introduction to Bryology. The Blackburn Press. 431 p.
  • Smith, A.J.E. 2004. The Moss Flora of Britain and Ireland. (Second Edition) Cambridge Univ. Pres.
  • Sytar, O., Kumar, A., Latowski, D., Kuczynska, P., Strzałka, K., Prasad, M.N.V. 2013. Heavy metal-induced oxidative damage, defense reactions, and detoxification mechanisms in plants. Acta Physiologiae Plantarum, 35(4): 985-999.
  • Tremper, A.H., Agneta, M., Burton, S., Higgs, D.E.B. 2004. Field and laboratory exposures of two moss species to low level metal pollution. J Atom Chem 49(1–3): 111–120.
  • Tukey J.W. 1954. Some selected quick and easy methods of statistical analysis. Trans. of New York Acad. Sci. 88-97.
  • Yücel, M., Yücel, E. 2013. On the ecotoxicological effects of heavy metal pollution of industrial origin determination of wheat varieties. Biological Diversity and Concervation, 6/3: 6-11.
There are 26 citations in total.

Details

Primary Language Turkish
Journal Section Research Article
Authors

Tülay Ezer This is me

Tuba Yılmaz This is me

Cemil İşlek This is me

Bengü Türkyılmaz Ünal This is me

Publication Date August 15, 2016
Published in Issue Year 2016 Volume: 9 Issue: 2

Cite

APA Ezer, T., Yılmaz, T., İşlek, C., Türkyılmaz Ünal, B. (2016). Ağır metallerin çinko ve kurşun Bryum schleicheri and Plagiomnium undulatum Bryophyta ’un fotosentetik pigment miktarları üzerine etkisi. Biological Diversity and Conservation, 9(2), 122-127.

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