Effects of Cadmium and Arsenic on Physiological Responses and Copper and Zinc Homeostasis of Rice |
Jung, Ha-il
(Division of Soil and Fertilizer, National Academy of Agricultural Science, RDA)
Chae, Mi-Jin (Division of Soil and Fertilizer, National Academy of Agricultural Science, RDA) Kim, Sun-Joong (Division of Soil and Fertilizer, National Academy of Agricultural Science, RDA) Kong, Myung-Suk (Division of Soil and Fertilizer, National Academy of Agricultural Science, RDA) Kang, Seong-Soo (Division of Soil and Fertilizer, National Academy of Agricultural Science, RDA) Lee, Deog-Bae (Division of Soil and Fertilizer, National Academy of Agricultural Science, RDA) Ju, Ho-Jong (Department of Agricultural Biology, Chonbuk National University) Kim, Yoo-Hak (Division of Soil and Fertilizer, National Academy of Agricultural Science, RDA) |
1 | Barcelo, J., M.D. Vazquez, and C. Poschenrieder. 1988.Structural and ultrastructural disorders in cadmium-treated bush bean plants (Phaseolus vulgaris L.). New Phytol. 108:37-49. DOI |
2 | Buege, J.A. and S.D. Aust. 1978. Microsomal lipid peroxidation. Methods Enzymol. 52:302-310. DOI |
3 | DalCorso, G., A. Manara, S. Piasentin, and A. Furini. 2014. Nutrient metal elements in plants. Metallomics. 6(10):1770-1788. DOI |
4 | Fergusson, J.E. 1990. The heavy elements: Chemistry, environmental impact and health effects. Pergamon Press. |
5 | Galiulin, R.V., V.N. Bashkin, R.R. Galiulina, and P. Birch. 2001. A critical review: Protection from pollution by heavy metals phytoremediation of industrial wastewater. Land Contam. Reclam. 9:349-358. |
6 | Gayomba, S.R., H.I. Jung, J. Yan, J. Danku, M.A. Rutzke, M. Bernal, U. Kramer, L.V. Kochian, D.E. Salt, and O.K. Vatamaniuk. 2013. The CTR/COPT-dependent copper uptake and SPL7-dependent copper deficiency responses are required for basal cadmium tolerance in A. thaliana. Metallomics. 5(9):1262-1275. DOI |
7 | Hall, J.L. 2002. Cellular mechanisms for heavy metal detoxification and tolerance. J. Exp. Bot. 53:1-11. DOI |
8 | Hossain, Z. and S. Komatsu. 2013. Contribution of proteomic studies towards understanding plant heavy metal stress response. Front. Plant Sci. 3:310. |
9 | Hossain, Z., M.Z. Nouri, and S. Komatsu. 2012. Plant cell organelle proteomics in response to abiotic stress. J. Proteome. Res. 11:37-48. DOI |
10 | Kamachi, K., T. Yamaya, T. Mae, and K. Ojima. 1991. A role for glutamine synthetase in the remobilization of leaf nitrogen during natural senescence in rice leaves. Plant Physiol. 96(2):411-417. DOI |
11 | Lagriffoul, A., B. Mocquot, M. Mench, and J. Vangronsveld. 1998. Cadmium toxicity effects on growth, mineral and chlorophyll contents, and activities of stress related enzymes in young maize plants (Zea mays L.). Plant Soil. 200: 241-250. DOI |
12 | Nagajyoti, P.C., K.D. Lee, and T.V.M. Sreekanth. 2010. Heavy metals, occurrence and toxicity for plants: a review. Environ. Chem. Lett. 8:199-216. DOI |
13 | Lee, J.H., J.Y. Kim, W.R. Go, E.J. Jeong, A. Kunhikrishnan, G.B. Jung, D.H. Kim, and W.I. Kim. 2012. Current research trends for heavy metals of agricultural soils and crop uptake in Korea. Korean J. Environ. Agric. 31(1):75-95. DOI ScienceOn |
14 | Mengel, K. and E.A. Kirby. 1978. Principles of plant nutrition. 5th ed. Kluwer Academic Publishers, Dordrecht, The Netherlands. |
15 | NAAS. 2011. Soil and Plant Analyses. National Academy of Agricultural Science, RDA, Suwon, Korea. |
16 | Park, S.W., J.S. Yang, S.W. Ryu, D.Y. Kim, J.D. Shin, W.I. Kim, J.H. Choi, and S.L. Kim. 2009. Uptake and translocation of heavy metals to rice plant on paddy soils in "Top-rice" cultivation areas. Korean J. Environ. Agic. 28(2): 131-138. DOI |
17 | Pasternak, T., V. Rudas, G. Potters, and M.A.K. Jansen. 2005. Morphogenic effects of abiotic stress: reorientation of growth in Arabidopsis thaliana seedlings. Environ. Exp. Bot. 53:299-314. DOI |
18 | Paulose, B., S. Chhikara, J. Coomey, H.I. Jung, O.K. Vatamaniuk, and O.P. Dhankher. 2013. A -glutamyl cyclotransferase protects Arabidopsis plants from heavy metal toxicity by recycling glutamate to maintain glutathione homeostasis. Plant Cell. 25(11):4580-4595. DOI |
19 | Raven, K.P. and R.H. Loeppert. 1997. Heavy metals in the environment: Trace element composition of fertilizers and soil amendments. J. Environ. Qual. 26:551-557. |
20 | Rodriguez-Serrano, M., M.C. Romero-Puertas, D.M. Pazmino, P.S. Testillano, M.C. Risueno, L.A. Del Rio, and L.M. Sandalio. 2009. Cellular response of pea plants to cadmium toxicity: cross talk between reactive oxygen species, nitric oxide, and calcium. Plant Physiol. 150(1):229-243. DOI |
21 | Salt, D.E., M. Blaylock, N.P.B.A. Kumar, V. Dushenkov, B.D. Ensley, I. Chet, and I. Raskin. 1995. Phytoremediation: A novel strategy for the removal of toxic metals from the environment using plants. Biotechnology. 13:468-474. DOI |
22 | Shan, F.R., N. Ahmad, K.R. Masood, and D.M. Zahid. 2008. The influence of cadmium and chromium on the biomass production of shisham (Dalbergla sissoo Roxb.) seedlings. Pak. J. Bot. 40:1341-1348. |
23 | Sharma, R.K. and M. Agrawal. 2005. Biological effects of heavy metals: an overview. J. Environ. Biol. 26:301-313. |
24 | Singh, S., S. Eapen, and S.F. D'Souza. 2006. Cadmium accumulation and its influence on lipid peroxidation and antioxidative system in an aquatic plant, Bacopa monnieri L. Chemosphere 62:233-246. DOI |
25 | Vassilev, A. and I. Yordanov. 1997. Reductive analysis of factors limiting growth of cadmium-treated plants: A review. Bulg. J. Plant Physiol. 23:114-133. |
26 | Vassilev, A., I. Yordanov, and T. Tsonev. 1997. Effects of on the physiological state and photosynthetic activity of young barley plants. Photosynthetica. 34:293-302. DOI |