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Journal of Plant Nutrition Volume 16, 1993 - Issue 10
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Original Articles

Response of leguminosae to cadmium exposure

L. Leita Dipartimento di Produzione Vegetale e Tecnologie Agrarie, Universita’ di Udine, Via delle Scienze 1, Udine, 33100, Italy
,
M. De Nobili Dipartimento di Produzione Vegetale e Tecnologie Agrarie, Universita’ di Udine, Via delle Scienze 1, Udine, 33100, Italy
,
C. Mondini Istituto Sperimentale per la Nutrizione delle Piante, M.A.F., Via Trieste 23, Gorizia, 34170, Italy
&
M. T. Baca Garcia Estacion Experimental del Zaidin, C.S.I.C., C. Prof. Albareda 1, Granada, 18008, Spain
Pages 2001-2012 | Published online: 21 Nov 2008

Citations (54)

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Sivakoti Ramana, Awadhesh Kumar Tripathi, Ajay Kumar, Pradip Dey, Jayanta Kumar Saha & Ashok K Patra. (2022) Phytoremediation of Soils Contaminated with Cadmium by Agave americana. Journal of Natural Fibers 19:13, pages 4984-4992.
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Lada G. Sokolova, Svetlana Yu. Zorina & Ekaterina N. Belousova. (2019) Zonal cultivars of field crops as a reserve for the phytoremediation of fluorides polluted soils. International Journal of Phytoremediation 21:6, pages 577-582.
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Sivakoti Ramana, Ashis K. Biswas, Amar B. Singh, Narendra K. Ahirwar, Ravulapalli D. Prasad & Sanjay Srivastava. (2015) Potential of Mauritius Hemp (Furcraea gigantea Vent.) for the Remediation of Chromium Contaminated Soils. International Journal of Phytoremediation 17:7, pages 709-715.
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Ali Mahdavi, Khadijeh Khermandar, Salman Ahmady Asbchin & Reza Tabaraki. (2014) Lead Accumulation Potential in Acacia victoria . International Journal of Phytoremediation 16:6, pages 582-592.
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Maja Manojlović & Bal Ram Singh. (2012) Trace elements in soils and food chains of the Balkan region. Acta Agriculturae Scandinavica, Section B — Soil & Plant Science 62:8, pages 673-695.
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Sam Cherian, Nele Weyens, Sylvia Lindberg & Jaco Vangronsveld. (2012) Phytoremediation of Trace Element–Contaminated Environments and the Potential of Endophytic Bacteria for Improving this Process. Critical Reviews in Environmental Science and Technology 42:21, pages 2215-2260.
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Sara Adrián López de Andrade, Adriana Parada Dias da Silveira, Renato Atílio Jorge & Mônica Ferreira de Abreu. (2008) Cadmium Accumulation in Sunflower Plants Influenced by Arbuscular Mycorrhiza. International Journal of Phytoremediation 10:1, pages 1-13.
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Rana Athar & Masood Ahmad. (2002) HEAVY METAL TOXICITY IN LEGUME-MICROSYMBIONT SYSTEM. Journal of Plant Nutrition 25:2, pages 369-386.
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Slavko Kevresan, Novica Petrovic, Milan Popovic & Julijan Kandrac. (2001) NITROGEN AND PROTEIN METABOLISM IN YOUNG PEA PLANTS AS AFFECTED BY DIFFERENT CONCENTRATIONS OF NICKEL, CADMIUM, LEAD, AND MOLYBDENUM. Journal of Plant Nutrition 24:10, pages 1633-1644.
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A. Mori & L. Leita. (1998) Application of capillary electrophoresis on the characterization of cadmium‐induced polypeptides in roots of pea plants. Journal of Plant Nutrition 21:11, pages 2335-2341.
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N. C. Aery & B. L. Jagetiya. (1997) Relative toxicity of cadmium, lead, and zinc on barley. Communications in Soil Science and Plant Analysis 28:11-12, pages 949-960.
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L. E. Hernandez, R. Carpena‐Ruiz & A. Gárate. (1996) Alterations in the mineral nutrition of pea seedlings exposed to cadmium . Journal of Plant Nutrition 19:12, pages 1581-1598.
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L. Leita, M. De Nobili, S. Cesco & C. Mondini. (1996) Analysis of intercellular cadmium forms in roots and leaves of bush bean. Journal of Plant Nutrition 19:3-4, pages 527-533.
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Articles from other publishers (41)

Sivakoti Ramana, Awadhesh Kumar Tripathi, Kollah Bharati, Amar Bahadur Singh, Ajay Kumar, Asha Sahu, Poonam Singh Rajput, Pradip Dey, Jayanta Kumar Saha & Ashok K. Patra. (2021) Tolerance of cotton to elevated levels of Pb and its potential for phytoremediation. Environmental Science and Pollution Research 28:25, pages 32299-32309.
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Sivakoti Ramana, Awadhesh Kumar Tripathi, Ajay Kumar, Amar Bahadur Singh, Kollah Bharati, Asha Sahu, Poonam Singh Rajput, Jayanta Kumar Saha, Sanjay Srivastava, Pradip Dey & Ashok K. Patra. (2021) Potential of cotton for remediation of Cd-contaminated soils. Environmental Monitoring and Assessment 193:4.
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Sivakoti Ramana, Awadhesh Kumar Tripathi, Ajay Kumar, Pradip Dey, Jayanta Kumar Saha & Ashok Kumar Patra. (2021) Evaluation of Furcraea foetida (L.)Haw. for phytoremediation of cadmium contaminated soils. Environmental Science and Pollution Research 28:11, pages 14177-14181.
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Han Guo, Jiwei Jiang, Jingqing Gao, Jingshen Zhang, Leiyuan Zeng, Ming Cai & Jingliang Zhang. (2020) Evaluation of cadmium hyperaccumulation and tolerance potential of Myriophyllum aquaticum. Ecotoxicology and Environmental Safety 195, pages 110502.
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Charles Wang Wai NgNilufar ChowdhuryJames Tsz Fung Wong. (2020) Effects of ground granulated blast-furnace slag (GGBS) on hydrological responses of Cd-contaminated soil planted with a herbal medicinal plant ( Pinellia ternata ) . Canadian Geotechnical Journal 57:5, pages 673-682.
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Yilu Xu, Balaji Seshadri, Nanthi Bolan, Binoy Sarkar, Yong Sik Ok, Wei Zhang, Cornelia Rumpel, Donald Sparks, Mark Farrell, Tony Hall & Zhaomin Dong. (2019) Microbial functional diversity and carbon use feedback in soils as affected by heavy metals. Environment International 125, pages 478-488.
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Yuanjie DONG, Weifeng CHEN, Xiaoying BAI, Fengzhen LIU & Yongshan WAN. (2019) Effects of Exogenous Nitric Oxide and 24-Epibrassinolide on the Physiological Characteristics of Peanut Seedlings Under Cadmium Stress. Pedosphere 29:1, pages 45-59.
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Haipeng Guo, Xue Feng, Chuntao Hong, Houming Chen, Fanrong Zeng, Bingsong Zheng & Dean Jiang. (2016) Malate secretion from the root system is an important reason for higher resistance of Miscanthus sacchariflorus to cadmium . Physiologia Plantarum 159:3, pages 340-353.
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Yuanjie Dong, Weifeng Chen, Linlin Xu, Jing Kong, Shuang Liu & Zhenli He. (2015) Nitric oxide can induce tolerance to oxidative stress of peanut seedlings under cadmium toxicity. Plant Growth Regulation 79:1, pages 19-28.
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Zhouping Liu, Yanfei Ding, Feijuan Wang, Yaoyao Ye & Cheng Zhu. (2016) Role of salicylic acid in resistance to cadmium stress in plants. Plant Cell Reports 35:4, pages 719-731.
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Suchismita DAS, Sunayana GOSWAMI & Anupam DAS TALUKDAR. (2016) Physiological responses of water hyacinth, Eichhornia crassipes (Mart.) Solms,to cadmium and its phytoremediation potential. TURKISH JOURNAL OF BIOLOGY 40, pages 84-94.
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Márcia S. S. Santos, Carmen A. Pedro, Sílvia C. Gonçalves & Susana M. F. Ferreira. (2015) Phytoremediation of cadmium by the facultative halophyte plant Bolboschoenus maritimus (L.) Palla, at different salinities. Environmental Science and Pollution Research 22:20, pages 15598-15609.
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Ali Mahdavi & Khadijeh Khermandar. (2015) Differential expression of zinc accumulation during two growing seasons of Acacia victoriae. Journal of Forestry Research 26:3, pages 663-671.
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O. V. Chubukova, B. N. Postrigan’, A. Kh. Baimiev & A. V. Chemeris. (2015) The effect of cadmium on the efficiency of development of legume-rhizobium symbiosis. Biology Bulletin 42:5, pages 458-462.
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Xiaoying Bai, Yuanjie Dong, Jing Kong, Linlin Xu & Shuang Liu. (2014) Effects of application of salicylic acid alleviates cadmium toxicity in perennial ryegrass. Plant Growth Regulation 75:3, pages 695-706.
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L. L. Xu, Z. Y. Fan, Y. J. Dong, J. Kong & X. Y. Bai. (2015) Effects of exogenous salicylic acid and nitric oxide on physiological characteristics of two peanut cultivars under cadmium stress. Biologia plantarum 59:1, pages 171-182.
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Rubina Perveen, Shahla Faizan & Abid Ali Ansari. 2015. Phytoremediation. Phytoremediation 131 142 .
Suchismita Das, Sunayana Goswami & Anupam Das Talukdar. (2013) A Study on Cadmium Phytoremediation Potential of Water Lettuce, Pistia stratiotes L.. Bulletin of Environmental Contamination and Toxicology 92:2, pages 169-174.
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Deepmala Satpathy, M. Vikram Reddy & Soumya Prakash Dhal. (2014) Risk Assessment of Heavy Metals Contamination in Paddy Soil, Plants, and Grains ( Oryza sativa L.) at the East Coast of India . BioMed Research International 2014, pages 1-11.
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Linlin Xu, Yuanjie Dong, Jing Kong & Shuang Liu. (2013) Effects of root and foliar applications of exogenous NO on alleviating cadmium toxicity in lettuce seedlings. Plant Growth Regulation 72:1, pages 39-50.
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Sule Guzel & Rabiye Terzi. (2013) Exogenous hydrogen peroxide increases dry matter production, mineral content and level of osmotic solutes in young maize leaves and alleviates deleterious effects of copper stress. Botanical Studies 54:1.
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Diriba Muleta & Delelegn Woyessa. 2012. Toxicity of Heavy Metals to Legumes and Bioremediation. Toxicity of Heavy Metals to Legumes and Bioremediation 219 241 .
Swati Pattnaik & M. Vikram Reddy. (2011) Accumulation and mobility of heavy metals in fenugreek (Trigonella foenum-graceum L.) and tomato (Lycopersicum esculentum Mill.) grown in the field amended with urban wastes, and their composts and vermicomposts. International Journal of Environmental Technology and Management 14:1/2/3/4, pages 147.
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FAZAL HADI & ASGHARI BANO. (2009) Utilization of Parthenium hysterophorus for the remediation of lead‐contaminated soil . Weed Biology and Management 9:4, pages 307-314.
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Muhammad Ashfaq, Muhammad Imran Khan & Muhammad Asif Hanif. (2009) Use of Morus alba– Bombyx mori as a Useful Template to Assess Pb Entrance in the Food Chain From Wastewater . Environmental Entomology 38:4, pages 1276-1282.
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Jana Kadukova & Nicolas Kalogerakis. (2007) Lead accumulation from non-saline and saline environment by Tamarix smyrnensis Bunge. European Journal of Soil Biology 43:4, pages 216-223.
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Saúl Vázquez, Peter Goldsbrough & Ramón O Carpena. (2006) Assessing the relative contributions of phytochelatins and the cell wall to cadmium resistance in white lupin. Physiologia Plantarum 128:3, pages 487-495.
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Bhagawati Lal Jagetiya & Pankaj Purohit. (2006) Effects of various concentrations of uranium tailings on certain growth and biochemical parameters in sunflower. Biologia 61:1, pages 103-107.
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Saúl Vázquez & Ramón Carpena-Ruiz. (2005) Use of perlite in cadmium plant studies: an approach to polluted soil conditions. Journal of Environmental Monitoring 7:12, pages 1355.
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Moyukh Ghosh & S.P. Singh. (2005) A comparative study of cadmium phytoextraction by accumulator and weed species. Environmental Pollution 133:2, pages 365-371.
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Toshihiro Yoshihara, Kyoko Tsunokawa, Yoshiyuki Miyano, Yuki Arashima, Hirotaka Hodoshima, Kazuhiro Shoji, Hiroaki Shimada & Fumiyuki Goto. (2004) Induction of callus from a metal hypertolerant fern, Athyrium yokoscense, and evaluation of its cadmium tolerance and accumulation capacity. Plant Cell Reports 23:8, pages 579-585.
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Un-Haing Cho. (2004) Cadmium-Induced Phytotoxicity in Tomato Seedlings Due to the Accumulation of H 2 O 2 That Results from the Reduced Activities of H 2 O 2 Detoxifying Enzymes . The Korean Journal of Ecology 27:2, pages 107-114.
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Un-Haing Cho & In-Taek Kim. (2003) Effect of Cadmium on Oxidative Stress and Activities of Antioxidant Enzymes in Tomato Seedlings. The Korean Journal of Ecology 26:3, pages 115-121.
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Henk Schat, Mercè Llugany & Roland Bernhard. 1999. Phytoremediation of Contaminated Soil and Water. Phytoremediation of Contaminated Soil and Water.
L Sanità di Toppi & R Gabbrielli. (1999) Response to cadmium in higher plants. Environmental and Experimental Botany 41:2, pages 105-130.
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Un-Haing Cho & Jung-O Park. (1999) Distribution and phytotoxicity of cadmium in tomato seedlings. Journal of Plant Biology 42:1, pages 49-56.
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H. L. Malan & J. M. Farrant. (2008) Effects of the metal pollutants cadmium and nickel on soybean seed development. Seed Science Research 8:4, pages 445-453.
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Mi Chung Suh, Doil Choi & Jang Ryol Liu. (1998) Cadmium Resistance in Transgenic Tobacco Plants Expressing the Nicotiana glutinosa L. Metallothionein-like Gene. Molecules and Cells 8:6, pages 678-684.
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ANGUS MURPHY & LINCOLN TAIZ. (2008) Correlation between potassium efflux and copper sensitivity in 10 Arahidopsis ecotypes* . New Phytologist 136:2, pages 211-222.
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Yanliang Guo & Horst Marschner. (2011) Genotypic differences in uptake and translocation of cadmium in bean and maize inbred lines. Zeitschrift für Pflanzenernährung und Bodenkunde 159:1, pages 55-60.
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L. E. Hernández, I. Ramos, R. Carpena-Ruiz, J. J. Lucena & A. Gárate. 1996. Fertilizers and Environment. Fertilizers and Environment 503 508 .

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