Impact of Cadmium and Lead Heavy Metal Stress on Plant Growth and Physiology of Rocket (Eruca sativa L.)
Yıl 2019,
, 843 - 850, 31.12.2019
Ertan Yıldırım
,
Melek Ekinci
,
Metin Turan
,
Güleray Agar
,
Selda Örs
,
Atilla Dursun
,
Raziye Kul
,
Tayfun Balcı
Öz
This
study was conducted to evaluate the influence of cadmium (Cd) (0, 100, 150 and
200 mg kg-1) and lead (Pb) (0, 1000, 1500 and 2000 mg kg-1)
on morphological, physiological and biochemical responses of rocket (Eruca sativa L.) in greenhouse
conditions. Plant growth, some physiological (membrane permeability, relative
water content, stomal conductance, etc.) and biochemical (antioxidant enzyme
activity, proline and sucrose content) parameters of rocket plants were altered
with Cd and Pb levels. The Cd and Pb content in rocket increased with elevated
concentration. Both Cd and Pb stress conditions negatively affected plant
growth, photosynthetic activity and chlorophyll content. The negative effect of
heavy metals elevated with increased doses of Cd and Pb. The treatment of Cd
and Pb significantly elevated antioxidant enzyme
activities.
Furthermore, the heavy metal stressed plants had more malondialdehyde
(MDA), hydrogen peroxide (H2O2), proline and sucrose as
compared to control plants. This study indicated that rocket plants developed
defense mechanisms by regulating enzyme activity and osmolyte accumulation
against heavy metal stress.
Destekleyen Kurum
Atatürk University, Scientific Research Projects Foundation
Proje Numarası
Project Number FHD-2018-6702
Teşekkür
We appreciate Atatürk University, Scientific Research Projects Foundation for generous financial support (Project Number FHD-2018-6702).
Kaynakça
- Ahmad IZ, Ahmad A, Mabood A, Tabassum H 2017. Effects of Different Metal Stresses on the Antioxidant Defense Systems of Medicinal Plants. In Reactive Oxygen Species and Antioxidant Systems in Plants: Role and Regulation under Abiotic Stress, Springer, Singapore, pp. 215-256.
Ahmad P, Nabi G, Ashraf M 2011. Cadmium-Induced Oxidative Damage in Mustard [Brassica junceaL.) Czern.& Coss.] Plants can be Alleviated by Salicylic Acid. S. Afr. J. Bot.,77: 36-44.
Akoumianakis KA, Passam HC, Barouchas PE, Moustakas NK 2008. Effect of Cadmium on Yield and Cadmium Concentration in the Edible Tissues of Endive (Cichorium endivia L.) and Rocket (Eruca sativa Mill.). J. Food Agric. Environ, 6(3-4): 206-209.
Alloway BJ 1995. Cadmium. In Alloway, B. J. (2.ed.) Heavy Metals in Soils. Blackie, London, pp. 122-152.
Alyemeni MN, Ahanger MA, Wijaya L, Alam P, Ahmad P 2017. Contrasting Tolerance Among Soybean Genotypes Subjected to Different Levels of Cadmium Stress. Pak. J. Bot., 49(3): 903-911,
Asada K, Takahashi M 1987. Production and Scavenging of Active Oxygen in Photosynthesis. In: Kyle DJ, Osmond C, Arntzen CJ (eds.), Photoinhibition, Elsevier, New York, pp. 227-297.
Asri ÖF, Sönmez S 2006. The Effect of Heavy Metal Toxicity on Plant Metabolism. West Mediterranean Agricultural Research Institute, Derim Journal 23(2): 36-45.
Asri FO, Sonmez S 2011. Ağır Metal Toksisitesinin Bitki Metabolizması Üzerine Etkileri www.batem.gov.tr/yayinlar/derim/2006/36-45.pdf.
Barceló J, Poschenrieder C, Andreu I, Gunsé B 1986. Cadmium-Induced Decrease of Water Stress Resistance in Bush Bean Plants (Phaseolus vulgaris L. cv. Contender). I. Effects of Cd on Water Potential, Relative water Content and Cell Wall Elasticity. J. Plant Physiol. 125:17-25.
Benavides MP, Gallego SM, Tomaro ML 2005. Cadmium Toxicity in Plants. Brazilian J Plant Physiol., (17): 21-34.
Cannata MG, Carvalho R, Bertoli AC, Augusto AS, Bastos ARR, Carvalho JG, Freitas MP 2013. Effects of Cadmium and Lead on Plant Growth and Content of Heavy Metals in Arugula Cultivated in Nutritive Solution. Commun. Soil Sci. Plant Anal., 44(5): 952-961.
Chugh LK, Sawhney SK 1999. Effect of Cadmium on Activities of Some Enzymes of Glycolysis and Pentose Phosphate Pathway in Pea. Biologia Plantarum, 42(3): 401-407.
Costa G, Morel JL 1994. Water Relations, Gas Exchange and Amino Acid Content in Cd-Treated Lettuce. Plant Physiol. Biochem. 32: 561-570.
Dixit V, Pandey V, Shyam R 2001. Differential Antioxidative Responses to Cadmium in Roots and Leaves of Pea (Pisum sativum L. cv. Azad). J. Exper. Bot., 52(358): 1101-1109.
Drążkiewicz M, Baszyński T 2005. Growth Parameters and Photosynthetic Pigments in Leaf Segments of Zea mays Exposed to Cadmium, as Related to Protection Mechanisms. J. Plant Physiol., 162(9): 1013-1021.
Ehlert C, Maurel C, Tardieu F, Simonneau T 2009. Aquaporin-Mediated Reduction in Maize Root Hydraulic Conductivity Impacts Cell Turgor and Leaf Elongation even without Changing Transpiration. Plant Physiol., 150(2): 1093-1104.
Emamverdian A, Ding Y, Mokhberdoran F, Xie Y 2015. Heavy Metal Stress and Some Mechanisms of Plant Defense Response. Scientific World Journal, Article ID 756120, 18P. http://dx.doi.org/10.1155/2015/756120
Foyer CH, Descourvieres P, Kunert KJ 1994. Protection Against Oxygen Radicals: An Important Defence Mechanism Studied in Transgenic Plants. Plant, Cell Environ., 17(5): 507-523.
Gallego SM, Benavides MP, Tomaro ML 1996. Effect of Heavy Metal Ion Excess on Sunflower Leaves: Evidence for Involvement of Oxidative Stress. Plant Sci., 121(2): 151-159.
González L, González-Vilar M 2001. Determination of Relative Water Content. In: Handbook of Plant Ecophysiology Techniques Springer, Dordrecht, pp. 207-212.
Gratao LP, Polle A, Lea P, Azevedo A 2005. Making the Life of Heavy Metal Stressed Plants a Little Easier. Func. Plant Biol., 32: 481-494.
Greger M, Ogren E 1991. Direct and Indirect Effects of Cd+2 on Photosynthetic in Sugar Beet (Beta vulgaris L.). Physiol. Plnat, 83: 129-135.
Groppa MD, Rosales EP, Iannone MF, Benavides M P 2008. Nitric Oxide, Polyamines and Cd-Induced Phytotoxicity in Wheat Roots. Phytochemistry, 69(14): 2609-2615. https://doi.org/10.1016/j.phytochem.2008.07.016
Hasan SA, Fariduddin Q, Ali B, Hayat S, Ahmad A 2009. Cadmium: Toxicity and Tolerance in Plants. J. Environ. Biol., 30(2): 165–74.
Hassan MJ, Zhang G, Zhu Z 2008. Influence of Cadmium Toxicity on Plant Growth and Nitrogen Uptake in Rice as Affected by Nitrogen Form. J. Plant Nutr., 31: 251–262.
Hatata MM, Abdel-Aal EA 2008. Oxidative Stress and Antioxidant Defense Mechanisms in Response to Cadmium Treatments. Amer. Eurasian J. Agric. Environ. Sci., 4(6): 655-669.
Helrich K 1990. Official Methods of Analysis of the Association of Official Analytical Chemists. Washington, DC.
Iqbal N, Masood A, Nazar R, Syeed S, Khan NA 2010. Photosynthesis, Growth and Antioxidant Metabolism in Mustard (Brassica juncea L.) Cultivars Differing in Cadmium Tolerance. Agric. Sci. China, 9(4): 519-527.
Irfan M, Ahmad A, Hayat S 2014. Effect of Cadmiumon the Growth and Antioxidant Enzymes in Two Varieties of Brassica juncea. Saudi J. Biol. Sci., 21: 125-131.
Jaleel CA, Gopi R, Sankar B, Manivannan P, Kishorekumar A, Sridharan R, Panneerselvam R 2007. Studies on Germination, Seedling Vigour, Lipid Peroxidation and Proline Metabolism in Catharanthus roseus Seedlings under Salt Stress. S. Afr. J. Bot., 73: 190-195.
Kabata-Pendias A, Pendias H 2001. Trace Elements in Soils and Plants. 3rd Edition, CRC Press, Boca Raton, 403 p.
Kamnev AA, Van der Lelie D 2000. Chemical and Biological Parameters as Tools to Evaluate and Improve Heavy Metal Phytoremediation. Bioscience Reports, 20: 239-258.
Karcz W, Kurtyka R 2007. Effect of Cadmium on Growth, Proton Extrusion and Membrane Potential in Maize Coleoptile Segments. Biol. Plantarum, 51: 713-719.
Khavari-Nejad RA, Najafi F, Angaji SA, Shaflei S 2013. Molecular and Physiological Studies on Basil (Ocimum basilicum L.) Under Cadmium Stress. American Eurasian J. Agric. Environ. Sci., 13:754–762
Kim DY, Bovet L, Maeshima M, Martinoia E, Lee Y 2007. The ABC Transporter AtPDR8 is a Cadmium Extrusion Pump Conferring Heavy Metal Resistance. The Plant Journal, 50(2): 207-218.
Krupa Z, Baszynski T 1995. Some Aspects of Heavy Metals Toxicity Towards Photosynthetic Apparatus-Direct and Indirect Effects on Light and Dark Reactions. Acta Physiol. Plantarum, 2(17).
Liu S, Dong Y, Xu L, Kong J 2014. Effects of Foliar Applications of Nitric Oxide and Salicylic Acid on Salt-Induced Changes in Photosynthesis and Antioxidative Metabolism of Cotton Seedlings. Plant Growth Regul., 73: 67-78.
Lozano-Rodriguez E, Hernandez LE, Bonay P, Carpena-Ruiz RO 1997. Distribution of Cadmium in Shoot and Root Tissues. J. Exper. Bot., 48(1): 123-128.
Maia ML, Correia-Sá L, Coelho A, Barroso MF, Domingues VF, Delerue-Matos C 2015. Eruca sativa: Benefits as Antioxidants Source Versus Risks of Already Banned Pesticides. J. Environ. Sci. Health, Part B, 50(5): 338-345.
Malik D, Sheoran S, Singh P 1992. Carbon Metabolism in Leaves of Cadmium Treated Wheat Seedlings. Plant Physiol. Biochem., 30: 223–229.
Man D, Bao Y-X, Han L-B, Zhang X 2011. Drought Tolerance Associated with Proline and Hormone Metabolism in Two Tall Fescue Cultivars. HortSci., 46: 1027-1032.
Manousaki E, Kalogerakis N 2009. Phytoextraction of Pb and Cd by the Mediterranean saltbush (Atriplex halimusL.): Metal Uptake in Relation to Salinity. Environ. Sci. Pollut. R., 16: 844-854.
Marshner P 2012. Marschner’s Mineral Nutrition of Higher Plants. Third ed. Academic Press; London, UK.
Mobin M, Khan NA 2007. Photosynthetic Activity, Pigment Composition and Antioxidative Response of Two Mustard (Brassica juncea) Cultivars Differing in Photosynthetic Capacity Subjected to Cadmium Stress. J. Plant Physiol., 164(5): 601-610.
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Ağır Metal Stresinin Rokada (Eruca sativa L.) Bitki Büyümesi ve Fizyolojisi Üzerine Etkisi
Yıl 2019,
, 843 - 850, 31.12.2019
Ertan Yıldırım
,
Melek Ekinci
,
Metin Turan
,
Güleray Agar
,
Selda Örs
,
Atilla Dursun
,
Raziye Kul
,
Tayfun Balcı
Öz
Bu
çalışma, sera koşullarında kadmiyum (Cd) (0, 100, 150 ve 200 mg kg-1)
ve kurşunun (Pb) (0, 1000, 1500 ve 2000 mg kg-1) rokada (Eruca sativa L.) morfolojik, fizyolojik ve biyokimyasal tepkiler üzerine etkilerini
belirlemek amacıyla yapılmıştır. Roka bitkilerinin büyüme, bazı fizyolojik
(membran geçirgenliği, nisbi su içeriği, stoma iletkenliği vb.) ve biyokimyasal
(antioksidan enzim aktivitesi, prolin ve sukroz içeriği) parametreleri ağır
metal stres koşulları altında değişmiştir. Rokanın Cd ve Pb içeriği yüksek
konsantrasyonla artmıştır. Hem Cd hem de Pb stres koşulları bitki büyümesini,
fotosentetik aktiviteyi ve klorofil içeriğini olumsuz etkilemiştir. Ağır
metallerin negatif etkisi artan Cd ve Pb dozları ile daha fazla olmuştur. Cd ve
Pb uygulamaları antioksidan enzim aktivitelerini önemli ölçüde artırmıştır.
Ayrıca, ağır metal stresli bitkilerde, kontrol bitkilerine kıyasla daha fazla
malondialdehit (MDA), hidrojen peroksit (H2O2), prolin ve
sukroz bulunmuştur. Bu çalışma, roka bitkilerinin enzim aktivitesini ve osmolit
birikimini düzenleyerek ağır metal stresine karşı savunma mekanizmaları
geliştirdiklerini göstermiştir.
Proje Numarası
Project Number FHD-2018-6702
Kaynakça
- Ahmad IZ, Ahmad A, Mabood A, Tabassum H 2017. Effects of Different Metal Stresses on the Antioxidant Defense Systems of Medicinal Plants. In Reactive Oxygen Species and Antioxidant Systems in Plants: Role and Regulation under Abiotic Stress, Springer, Singapore, pp. 215-256.
Ahmad P, Nabi G, Ashraf M 2011. Cadmium-Induced Oxidative Damage in Mustard [Brassica junceaL.) Czern.& Coss.] Plants can be Alleviated by Salicylic Acid. S. Afr. J. Bot.,77: 36-44.
Akoumianakis KA, Passam HC, Barouchas PE, Moustakas NK 2008. Effect of Cadmium on Yield and Cadmium Concentration in the Edible Tissues of Endive (Cichorium endivia L.) and Rocket (Eruca sativa Mill.). J. Food Agric. Environ, 6(3-4): 206-209.
Alloway BJ 1995. Cadmium. In Alloway, B. J. (2.ed.) Heavy Metals in Soils. Blackie, London, pp. 122-152.
Alyemeni MN, Ahanger MA, Wijaya L, Alam P, Ahmad P 2017. Contrasting Tolerance Among Soybean Genotypes Subjected to Different Levels of Cadmium Stress. Pak. J. Bot., 49(3): 903-911,
Asada K, Takahashi M 1987. Production and Scavenging of Active Oxygen in Photosynthesis. In: Kyle DJ, Osmond C, Arntzen CJ (eds.), Photoinhibition, Elsevier, New York, pp. 227-297.
Asri ÖF, Sönmez S 2006. The Effect of Heavy Metal Toxicity on Plant Metabolism. West Mediterranean Agricultural Research Institute, Derim Journal 23(2): 36-45.
Asri FO, Sonmez S 2011. Ağır Metal Toksisitesinin Bitki Metabolizması Üzerine Etkileri www.batem.gov.tr/yayinlar/derim/2006/36-45.pdf.
Barceló J, Poschenrieder C, Andreu I, Gunsé B 1986. Cadmium-Induced Decrease of Water Stress Resistance in Bush Bean Plants (Phaseolus vulgaris L. cv. Contender). I. Effects of Cd on Water Potential, Relative water Content and Cell Wall Elasticity. J. Plant Physiol. 125:17-25.
Benavides MP, Gallego SM, Tomaro ML 2005. Cadmium Toxicity in Plants. Brazilian J Plant Physiol., (17): 21-34.
Cannata MG, Carvalho R, Bertoli AC, Augusto AS, Bastos ARR, Carvalho JG, Freitas MP 2013. Effects of Cadmium and Lead on Plant Growth and Content of Heavy Metals in Arugula Cultivated in Nutritive Solution. Commun. Soil Sci. Plant Anal., 44(5): 952-961.
Chugh LK, Sawhney SK 1999. Effect of Cadmium on Activities of Some Enzymes of Glycolysis and Pentose Phosphate Pathway in Pea. Biologia Plantarum, 42(3): 401-407.
Costa G, Morel JL 1994. Water Relations, Gas Exchange and Amino Acid Content in Cd-Treated Lettuce. Plant Physiol. Biochem. 32: 561-570.
Dixit V, Pandey V, Shyam R 2001. Differential Antioxidative Responses to Cadmium in Roots and Leaves of Pea (Pisum sativum L. cv. Azad). J. Exper. Bot., 52(358): 1101-1109.
Drążkiewicz M, Baszyński T 2005. Growth Parameters and Photosynthetic Pigments in Leaf Segments of Zea mays Exposed to Cadmium, as Related to Protection Mechanisms. J. Plant Physiol., 162(9): 1013-1021.
Ehlert C, Maurel C, Tardieu F, Simonneau T 2009. Aquaporin-Mediated Reduction in Maize Root Hydraulic Conductivity Impacts Cell Turgor and Leaf Elongation even without Changing Transpiration. Plant Physiol., 150(2): 1093-1104.
Emamverdian A, Ding Y, Mokhberdoran F, Xie Y 2015. Heavy Metal Stress and Some Mechanisms of Plant Defense Response. Scientific World Journal, Article ID 756120, 18P. http://dx.doi.org/10.1155/2015/756120
Foyer CH, Descourvieres P, Kunert KJ 1994. Protection Against Oxygen Radicals: An Important Defence Mechanism Studied in Transgenic Plants. Plant, Cell Environ., 17(5): 507-523.
Gallego SM, Benavides MP, Tomaro ML 1996. Effect of Heavy Metal Ion Excess on Sunflower Leaves: Evidence for Involvement of Oxidative Stress. Plant Sci., 121(2): 151-159.
González L, González-Vilar M 2001. Determination of Relative Water Content. In: Handbook of Plant Ecophysiology Techniques Springer, Dordrecht, pp. 207-212.
Gratao LP, Polle A, Lea P, Azevedo A 2005. Making the Life of Heavy Metal Stressed Plants a Little Easier. Func. Plant Biol., 32: 481-494.
Greger M, Ogren E 1991. Direct and Indirect Effects of Cd+2 on Photosynthetic in Sugar Beet (Beta vulgaris L.). Physiol. Plnat, 83: 129-135.
Groppa MD, Rosales EP, Iannone MF, Benavides M P 2008. Nitric Oxide, Polyamines and Cd-Induced Phytotoxicity in Wheat Roots. Phytochemistry, 69(14): 2609-2615. https://doi.org/10.1016/j.phytochem.2008.07.016
Hasan SA, Fariduddin Q, Ali B, Hayat S, Ahmad A 2009. Cadmium: Toxicity and Tolerance in Plants. J. Environ. Biol., 30(2): 165–74.
Hassan MJ, Zhang G, Zhu Z 2008. Influence of Cadmium Toxicity on Plant Growth and Nitrogen Uptake in Rice as Affected by Nitrogen Form. J. Plant Nutr., 31: 251–262.
Hatata MM, Abdel-Aal EA 2008. Oxidative Stress and Antioxidant Defense Mechanisms in Response to Cadmium Treatments. Amer. Eurasian J. Agric. Environ. Sci., 4(6): 655-669.
Helrich K 1990. Official Methods of Analysis of the Association of Official Analytical Chemists. Washington, DC.
Iqbal N, Masood A, Nazar R, Syeed S, Khan NA 2010. Photosynthesis, Growth and Antioxidant Metabolism in Mustard (Brassica juncea L.) Cultivars Differing in Cadmium Tolerance. Agric. Sci. China, 9(4): 519-527.
Irfan M, Ahmad A, Hayat S 2014. Effect of Cadmiumon the Growth and Antioxidant Enzymes in Two Varieties of Brassica juncea. Saudi J. Biol. Sci., 21: 125-131.
Jaleel CA, Gopi R, Sankar B, Manivannan P, Kishorekumar A, Sridharan R, Panneerselvam R 2007. Studies on Germination, Seedling Vigour, Lipid Peroxidation and Proline Metabolism in Catharanthus roseus Seedlings under Salt Stress. S. Afr. J. Bot., 73: 190-195.
Kabata-Pendias A, Pendias H 2001. Trace Elements in Soils and Plants. 3rd Edition, CRC Press, Boca Raton, 403 p.
Kamnev AA, Van der Lelie D 2000. Chemical and Biological Parameters as Tools to Evaluate and Improve Heavy Metal Phytoremediation. Bioscience Reports, 20: 239-258.
Karcz W, Kurtyka R 2007. Effect of Cadmium on Growth, Proton Extrusion and Membrane Potential in Maize Coleoptile Segments. Biol. Plantarum, 51: 713-719.
Khavari-Nejad RA, Najafi F, Angaji SA, Shaflei S 2013. Molecular and Physiological Studies on Basil (Ocimum basilicum L.) Under Cadmium Stress. American Eurasian J. Agric. Environ. Sci., 13:754–762
Kim DY, Bovet L, Maeshima M, Martinoia E, Lee Y 2007. The ABC Transporter AtPDR8 is a Cadmium Extrusion Pump Conferring Heavy Metal Resistance. The Plant Journal, 50(2): 207-218.
Krupa Z, Baszynski T 1995. Some Aspects of Heavy Metals Toxicity Towards Photosynthetic Apparatus-Direct and Indirect Effects on Light and Dark Reactions. Acta Physiol. Plantarum, 2(17).
Liu S, Dong Y, Xu L, Kong J 2014. Effects of Foliar Applications of Nitric Oxide and Salicylic Acid on Salt-Induced Changes in Photosynthesis and Antioxidative Metabolism of Cotton Seedlings. Plant Growth Regul., 73: 67-78.
Lozano-Rodriguez E, Hernandez LE, Bonay P, Carpena-Ruiz RO 1997. Distribution of Cadmium in Shoot and Root Tissues. J. Exper. Bot., 48(1): 123-128.
Maia ML, Correia-Sá L, Coelho A, Barroso MF, Domingues VF, Delerue-Matos C 2015. Eruca sativa: Benefits as Antioxidants Source Versus Risks of Already Banned Pesticides. J. Environ. Sci. Health, Part B, 50(5): 338-345.
Malik D, Sheoran S, Singh P 1992. Carbon Metabolism in Leaves of Cadmium Treated Wheat Seedlings. Plant Physiol. Biochem., 30: 223–229.
Man D, Bao Y-X, Han L-B, Zhang X 2011. Drought Tolerance Associated with Proline and Hormone Metabolism in Two Tall Fescue Cultivars. HortSci., 46: 1027-1032.
Manousaki E, Kalogerakis N 2009. Phytoextraction of Pb and Cd by the Mediterranean saltbush (Atriplex halimusL.): Metal Uptake in Relation to Salinity. Environ. Sci. Pollut. R., 16: 844-854.
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