Advanced search
Publication Cover
Archives of Agronomy and Soil Science Volume 62, 2016 - Issue 6
Submit an article Journal homepage
327
Views
27
CrossRef citations to date
0
Altmetric
Original Articles

A study on the effect of cadmium on the antioxidative defense system and alteration in different functional groups in castor bean and Indian mustard

Kuldeep BauddhCentre for Environmental Sciences, Central University of Jharkhand, Ranchi, India
,
Amit KumarPlant Ecology and Environmental Science Division, CSIR-National Botanical Research Institute (CSIR), Lucknow, India;Department of Environmental Science, Babasaheb Bhimrao Ambedkar University, Lucknow, India
,
Sudhakar SrivastavaInstitute of Environment and Sustainable Development, Banaras Hindu University, Varanasi, India
,
Rana P. SinghDepartment of Environmental Science, Babasaheb Bhimrao Ambedkar University, Lucknow, IndiaCorrespondence[email protected]
&
R.D. TripathiPlant Ecology and Environmental Science Division, CSIR-National Botanical Research Institute (CSIR), Lucknow, India
Pages 877-891 | Received 19 Apr 2015, Accepted 12 Aug 2015, Published online: 01 Sep 2015

References

  • Aebi H. 1974. Catalase. In: Bergmeyer HV, editor. Methods in enzymatic analysis. Vol. 2. New York (NY): Acadamic press; p. 674–684.
  • Ali NA, Bernal MP, Ater M. 2002. Tolerance and bioaccumulation of copper in Phragmites australis and Zea mays. Plant Soil. 239:103–111.
  • Amer N, Chami ZA, Bitar LA, Mondelli D, Dumontet S. 2013. Evaluation of Atriplex halimus, Medicago lupulina and Portulaca oleracea for phytoremediation of Ni, Pb, and Zn. Int J Phytoremed. 15:498–512.
  • Arleta M, Wieslawa J, Barbara T. 2001. Antioxidative defense to lead stress in subcellular compartments of pea root cells. Acta Biochim Pollut. 48:687–698.
  • Avsian-Kretchmer O, Gueta-Dahan Y, Lev-Yadun S, Gollop R, Ben-Hayyim G. 2004. The salt-stress signal transduction pathway that activates the GPX1 promoter is mediated by intracellular H2O2, different from the pathway induced by extracellular H2O2. Plant Physiol. 135:1685–1696.
  • Bates LS, Waldren RP, Teare ID. 1973. Rapid determination of free proline for water-stress studies. Plant Soil. 39:205–207.
  • Bauddh K, Singh RP. 2012a. Cadmium tolerance and its phytoremediation by two oil yielding plants Ricinus communis (L.) and Brassica juncea (L.) from the contaminated soil. Int J Phytoremed. 14:772–785.
  • Bauddh K, Singh RP. 2012b. Growth, tolerance efficiency and phytoremediation potential of Ricinus communis (L.) and Brassica juncea (L.) in salinity and drought affected cadmium contaminated soil. Ecotoxicol Environ Safe. 85:13–22.
  • Bauddh K, Singh RP. 2014. Studies on bio-accumulation and partitioning of Cd in Brassica juncea and Ricinus communis in presence of vermicompost, chemical fertilizers, biofertilizers and customized fertilizers. Ecol Eng. 74:93–100.
  • Bauddh K, Singh RP. 2015. Comparative potential of castor bean (Ricinus communis L.) and Indian mustard (Brassica juncea L.) for tolerance and phytoremediation of nickel from nickel containing soil. Biorem J. 19:124–138.
  • Beauchamp C, Fridovich I. 1971. Superoxide dismutase: improved assays and an assay applicaple to acrylamide gels. Anal Biochem. 44:151–155.
  • Belimov AA, Safronova VI, Demchinskaya SV, Dzyuba OO. 2007. Intraspecific variability of cadmium tolerance in hydroponically grown Indian mustard (Brassica juncea (L.) Czern.) seedlings. Acta Physiol Plant. 29:473–478.
  • Bjelková M, Genčurová V, Griga M. 2011. Accumulation of cadmium by flax and linseed cultivars in field-simulated conditions: a potential for phytoremediation of Cd contaminated soils. Ind Crop Prod. 33:761–774.
  • Bradford MM. 1976. A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding. Anal Biochem. 72:248–254.
  • Čásová K, Černý J, Száková J, Balík J, Tlustoš P. 2009. Cadmium balance in soils under different fertilization managements including sewage sludge application. Plant Soil Environ. 55:353–361.
  • Davis C, Cort T, Dai D, Illangasekare T, Munakata-Marr J. 2003. Effects of heterogeneity and experimental scale on the biodegradation of diesel. Biodegradation. 14:373–384.
  • Dixit V, Pandey V, Shyam R. 2001. Differential antioxidative responses to cadmium in roots and leaves of pea (Pisum sativum L. cv. Azad). J Exp Bot. 52:1101–1109.
  • Dong J, Wu F, Zhang G. 2006. Influence of cadmium on antioxidant capacity and four microelement concentrations in tomato seedlings (Lycopersicon esculentum). Chemosphere. 64:1659–1666.
  • Dwivedi S, Tripathi RD, Tripathi P, Kumar A, Dave R, Mishra S, Singh R, Sharma D, Rai UN, Chakrabarty D, et al. 2010. Arsenate exposure affects amino acids, mineral nutrient status and antioxidants in rice (Oryza sativa L.) genotypes. Environ Sci Technol. 44:9542–9549.
  • El-Beltagi HS, Mohamed AA, Rashed MM. 2010. Response of antioxidative enzymes to cadmium stress in leaves and roots of radish (Raphanus sativus L). Not Sci Biol. 2:76–82.
  • Elloumi N, Ferjani BA, Ali R, Bechir BR, Imed M, Makki B. 2007. Cadmium-induced growth inhibition and alteration of biochemical parameters in almond seedlings grown in solution culture. Acta Physiol Plant. 29:57–62.
  • Gaafar AZ, Ghdan AA, Siddiqui MH, Al-Whaibi MH, Basalah MO, Ali HM, Sakran AM. 2012. Influence of sulfur on cadmium (Cd) stress tolerance in Triticum aestivum L. Afri J Biotechnol. 11:10108–10114.
  • Ghavri SV, Singh RP. 2010. Phytotranslocation of Fe by biodiesel plant Jatropha curcas L. grown on iron rich wasteland soil. Braz J Plant Physiol. 22:235–243.
  • Ghavri SV, Singh RP. 2012. Growth, biomass production and remediation of copper contamination by Jatropha curcas plant in industrial wasteland soil. J Environ Biol. 33:207–214.
  • Ghosh M, Singh SP. 2005. A comparative study of cadmium phytoextraction by accumulator and weed species. Environ Pollut. 133:365–371.
  • Gueta-Dahan Y, Yaniv Z, Zilinskas BA, Ben-Hayyim G. 1997. Salt and oxidative stress: similar and specific responses and their relation to salt tolerance in Citrus. Planta. 203:460–469.
  • Gupta AK, Sinha S. 2009. Antioxidant response in sesame plants grown on industrially contaminated soil: effect on oil yield and tolerance to lipid peroxidation. Biores Technol. 100:179–185.
  • Habig WH, Jacoby WB. 1981. Assays for differentiation of glutathione S-transferase. Methods Enzymol. 77:398–405.
  • Hall JL. 2002. Cellular mechanisms for heavy metal detoxification and tolerance. J Exp Bot. 53:1–11.
  • Hatata MM, Abdel-Aal EA. 2008. Oxidative stress and antioxidant defense mechanisms in response to cadmium treatments. Am-Eur J Agric Environ Sci. 4:655–669.
  • Heath RL, Packer L. 1968. Photoperoxidation in isolated chloroplasts. I. Kinetic and stoichiometry of fatty acid peroxidation. Arch Biochem Biophys. 125:189–198.
  • Hemeda HM, Klein BP. 1990. Effects of naturally occurring antioxidants on peroxidase activity of vegetable extracts. J Food Sci. 55:184–185.
  • Henczová M, Deér AK, Filla A, Komlósi V, Mink J. 2008. Effects of Cu and Pb on different fish species: liver cytochrome P450-dependent monooxygenase activities and FTIR spectra. Comp Biochem Physiol. 148:53–60.
  • Kato M, Ishikawa S, Inagaki K, Chiba K, Hayashi H, Yanagisawa S, Yoneyama T. 2010. Possible chemical forms of cadmium and varietal differences in cadmium concentrations in the phloem sap of rice plants. Soil Sci Plant Nutr. 56:839–847.
  • Kumar N, Bauddh K, Kumar S, Dwivedi N, Singh DP, Barman SC. 2013. Heavy metal uptake by plants naturally grown on industrially contaminated soil and their phytoremediation potential. Ecol Eng. 61:491–495.
  • Kupper H, Lombi E, Zhao F-J, McGrath SP. 2000. Cellular compartmentation of cadmium and zinc in relation to other elements in the hyperaccumulator Arabidopsis halleri. Planta. 212:75–84.
  • Li Y, Heaton ACP, Carreira L, Meagher RB. 2006. Enhanced tolerance to and accumulation of mercury, but not arsenic, in plants overexpressing two enzymes required for thiol peptide synthesis. Physiol Plant. 128:48–57.
  • Liu KH, Yu FM, Li MM, Zhou ZM, Chen B, Lan D, Sun SY. 2011. Responses and resistance mechanism of Brassica campestris L. to cadmium stress. Ecol Environ. 17:1466–1470.
  • Liu X, Peng K, Wang A, Lian C, Shen Z. 2010. Cadmium accumulation and distribution in populations of Phytolacca americana L. and the role of transpiration. Chemosphere. 78:1136–1141.
  • Liu Z, Chen W, He X. 2011. Cadmium-induced changes in growth and antioxidative mechanisms of a medicine plant (Lonicera japonica Thunb.). J Med Plants Res. 5:1411–1417.
  • Marrs K. 1996. The functions and regulation of glutathione-S-transferases in plants. Annu Rev Plant Physiol Plant Mol Biol. 47:127–158.
  • Mishra S, Srivastava S, Tripathi RD, Dwivedi S, Shukla MK. 2008. Response of antioxidant enzymes in coontail (Ceratophyllum demersum L.) plants under cadmium stress. Environ Toxicol. 23:294–301.
  • Mishra S, Srivastava S, Tripathi RD, Govindarajan R, Kuriakose SV, Prasad MNV. 2006. Phytochelatin synthesis and response of antioxidants during cadmium stress in Bacopa monnieri L. Plant Physiol Biochem. 44:25–37.
  • Mleczek M, Rutkowski P, Rissmanna I, Kaczmarek Z, Golinski P, Szentner K, Strażyńska K, Stachowiak A. 2010. Biomass productivity and phytoremediation potential of Salix alba and Salix viminalis. Biomass Bioenerg. 34:1410–1418.
  • Mohanpuria P, Rana NK, Yadav SK. 2007. Cadmium induced oxidative stress influence on glutathione metabolic genes of Camellia sinensis (L.) O. Kuntze. Environ Toxicol. 22:368–374.
  • Monni S, Salemaa M, Millar N. 2000. The tolerance of Empetrum nigrum to copper and nickel. Environ Pollut. 109:221–229.
  • Muneer S, Qadri TN, Mahmooduzaffar, Siddiqi TO. 2011. Cytogenetic and biochemical investigations to study the response of Vigna radiata to cadmium stress. Afri J Plant Sci. 5:183–192.
  • Nakano Y, Asada K. 1981. Hydrogen peroxide is scavenged by ascorbate-specific peroxidase in spinach chloroplasts. Plant Cell Physiol. 22:867–880.
  • Nouairi I, Ammar W, Ben Youssef N, Ben Miled DD, Ghorbal MH, Zarrouk M. 2009. Antioxidant defense system in leaves of Indian mustard (Brassica juncea) and Rape (Brassica napus) under cadmium stress. Acta Physiol Plant. 31:237–247.
  • Olivares AR, Carrillo-González R, González-Chávez MCAD, Soto Hernández RM. 2013. Potential of castor bean (Ricinus communis L.) for phytoremediation of mine tailings and oil production. J Environ Manag. 114:316–323.
  • Pandey N, Sharma CP. 2002. Effect of heavy metals CO2+, Ni2+, and Cd2+ on growth and metabolism of cabbage. Plant Sci. 163:753–758.
  • Pandey VC. 2013. Suitability of Ricinus communis L. cultivation for phytoremediation of fly ash disposal sites. Ecol Eng. 57:336–341.
  • Pandey VC, Singh K, Singh JS, Kumar A, Singh B, Singh RP. 2012. Jatropha curcas: a potential biofuel plant for sustainable environmental development. Renew Sust Energ Rev. 16:2870–2883.
  • Paulose B, Jaiwal PK, Dhankher OP. 2008. Heavy metal transporters in plants. In: Jaiwal PK, Singh RP, Dhankher OP, editors. Plant membrane and vacuolar transporters. Wallingford: CAB International; p. 213–238.
  • Qadir S, Qureshi MI, Javed S, Abdin MZ. 2004. Genotypic variation in phytoremediation potential of Brassica juncea cultivars exposed to Cd stress. Plant Sci. 167:1171–1181.
  • Romero-Puertas MC, Corpas FJ, Rodriguez-Serrano M, Gomez M, del Río LA, Sandalio LM. 2007. Differential expression and regulation of antioxidative enzymes by cadmium in pea plants. J Plant Physiol. 164:1346–1357.
  • Ruttens A, Boulet J, Weyens N, Smeets K, Adriaensen K, Meers E, Van SS, Tack F, Meiresonne L, Thewys T, et al. 2011. Short rotation coppice culture of willows and poplars as energy crops on metal contaminated agricultural soils. Int J Phytoremed. 13:194–207.
  • Saygideger SD, Keser G, Dogan M. 2013. Effects of lead on chlorophyll content, total nitrogen, and antioxidant enzyme activities in duckweed (Lemna minor). Int J Agric Biol. 15:145–148.
  • Sgherri CLM, Loggini B, Puliga S, Navari-Izzo F. 1994. Antioxidant system in Sporobolus stapfianus: changes in response to desiccation and rehydration. Phytochemistry. 35:561–565.
  • Shah FR, Ahmadl N, Masood KR, Zahid DM. 2008. The influence of cadmium and chromium on the biomass production of shisham (Dalbergia sissoo Roxb.) seedlings. Pak J Bot. 40:1341–1348.
  • Shanmugaraj BM, Chandra HM, Srinivasan B, Ramalingam S. 2013. Cadmium induced physio-biochemical and molecular response in Brassica juncea. Int J Phytoremed. 15:206–218.
  • Skorzynska-Polit E, Pawlikowska-Pawlega B, Szczuka E, Drazkiewicz M, Krupa Z. 2006. The activity and localization of lipoxygenases in Arabidopsis thaliana under cadmium and copper stresses. Plant Growth Regul. 48:29–39.
  • Srivastava S, Souza SFD. 2010. Effect of variable sulfur supply on arsenic tolerance and antioxidant responses in Hydrilla verticillata (L.f.) Royle. Ecotoxicol Environ Safe. 73:1314–1322.
  • Stingu A, Volf I, Popa VI, Gostin I. 2012. New approaches concerning the utilization of natural amendments in cadmium phytoremediation. Ind Crop Prod. 35:53–60.
  • Suchkova N, Darakas E, Ganoulis J. 2010. Phytoremediation as a prospective method for rehabilitation of are as contaminated by long-term sewage sludge storage: a Ukrainian–Greekcase study. Ecol Eng. 36:373–378.
  • Sudhakar C, Lakshmi A, Giridarakumar S. 2001. Changes in the antioxidant enzyme efficacy in two high yielding genotypes of mulberry (Morus alba L.) under NaCl salinity. Plant Sci. 161:613–619.
  • Syc M, Pohorely M, Kamenıkova P, Habart J, Svoboda K, Puncocha M. 2012. Willow trees from heavy metals phytoextraction as energy crops. Biomass Bioenerg. 37:106–113.
  • Sylwia W, Anna R, Ewa B, Stephanc C, Maria AD. 2010. The role of subcellular distribution of cadmium and phytochelatins in the generation of distinct phenotypes of AtPCS1- and CePCS3 expressing tobacco. J Plant Physiol. 167:981–988.
  • Szollosi R, Varga IS, Erdei L, Mihalik E. 2009. Cadmium-induced oxidative stress and antioxidative mechanisms in germinating Indian mustard (Brassica juncea L.) seeds. Ecotoxicol Environ Safe. 72:1337–1342.
  • Talukdar D. 2012. Exogenous calcium alleviates the impact of cadmium-induced oxidative stress in Lens culinaris Medic. seedlings through modulation of antioxidant enzyme activities. J Crop Sci Biotech. 15:325–334.
  • Tripathi P, Mishra A, Dwivedi S, Chakrabarty D, Singh RP, Tripathi RD, Trivedi PK. 2012. Differential response of oxidative stress and thiol metabolism in contrasting rice genotypes for arsenic tolerance. Ecotoxicol Environ Safe. 79:189–198.
  • Tripathi P, Tripathi RD, Singh RP, Dwivedi S, Chakrabarty D, Trivedi PK, Adhikari B. 2013. Arsenite tolerance in rice (Oryza sativa L.) involves coordinated role of metabolic pathways of thiols and amino acids. Environ Sci Pollut Res. 20:884–896.
  • Witters N, Mendelsohn RO, Slycken SV, Weyens N, Schreurs E, Meers E, Tack F, Carleer R, Vangronsveld J. 2012. Phytoremediation, a sustainable remediation technology? Conclusions from a case study. I: energy production and carbon dioxide abatement. Biomass Bioenerg. 39:454–469.
  • Wolkers WF, Hoekstra AF. 1995. Aging of dry desiccation- toleran pollen does not affect protein secondary structure. Plant Physiol. 109:907–915.
  • Wolkers WF, Oldenhof H, Alberda M, Hoekstra FA. 1998. A fourier transform infrared microspectroscopy study of sugar glasses: application to anhydrobiotic higher plant cells. Biochim Biophys Acta. 1379:83–96.
  • Xu W, Li W, He J, Singh B, Xiong Z. 2009. Effects of insoluble Zn, Cd, and EDTA on the growth, activities of antioxidant enzymes and uptake of Zn and Cd in Vetiveria zizanioides. J Environ Sci. 21:186–192.
  • Yang S, Xie J, Li Q. 2012. Oxidative response and antioxidative mechanism in germinating soybean seeds exposed to cadmium. Int J Environ Res Public Health. 9:2827–2838.
  • Yu F, Liu K, Li M, Zhou Z, Deng H, Chen B. 2013. Effects of cadmium on enzymatic and non-enzymatic antioxidative defences of rice (Oryza Sativa L.). Int J Phytoremed. 15:513–521.
  • Yu FM, Liu KH, Li MS, Zhou ZM, Deng H, Chen B. 2011. Effects of cadmium on nitrogen metabolism in tillering stage of Oryza sativa L. Fresen Environ Bull. 20:446–451.
  • Zhang F-Q, Wang Y-S, Lou Z-P, Dong J-D. 2007. Effect of heavy metal stress on antioxidative enzymes and lipid peroxidation in leaves and roots of two mangrove plant seedlings (Kandelia candel and Bruguiera gymnorrhiza). Chemosphere. 67:44–50.
  • Zhang SR, Chen MY, Li T, Xu XX, Den LJ. 2010. A newly found cadmium accumulator-Malvasinensis Cavan. J Hazard Mat. 173:705–709.
  • Zornoza P, Sánchez-Pardo B, Carpena RO. 2010. Interaction and accumulation of manganese and cadmium in the manganese accumulator Lupinus albus. J Plant Physiol. 167:1027–1032.
  • Zou J, Xu P, Lu X, Jiang WS, Liu DH. 2008. Accumulation of cadmium in three sunflowers (Helianthhus Annuus L.) cultivars. Pak J Bot. 40:759–765.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.