Kaur Nayyar : Heavy metal toxicity to food legumes: effects, antioxidative defense and tolerance mechanisms 5

3.2 Germination of legume seeds

Germination of the seed is one of the most highly sensitive processes and toxicity with the essential and non essential heavy metals invariably affects the germination rate and subsequent seedling growth. It represents a limiting stage of plant life cycle under heavy metal stress situation Rahoui et al. 2008, Smiri et al. 2009. High levels 500 ppm of hexavalent Cr in soil reduced germination up to 48 in the bush bean Phaseolus vulgaris Parr and Taylor 1982. The growth of embryonic axis of germinating pea seeds Pisum sativum cv. Bonneville was significantly inhibited by as low as 0.25 mM cadmium and the elongation of the radicle was affected more severely than that of the plumule Chugh and Sawhney 1996. In another experiment, Al-Yemini and Nasser 2001 reported a significant decrease in the percentage of seed germination, seedling growth and an increase in radicle length of Vigna ambacensis L.after treatment with cadmium, mercury and lead at concentrations 0.05-50mM. Seed germination of the alfalfa plant cultivar Malone was seriously affected by a concentration of 20 ppm of CdII, CrVI, and by 40 ppm of CuII and NiII Peralta et al. 2001. However, the root and shoot growth of the alfalfa plant was stimulated by a concentration of 5 ppm of CrVI, CuII, NiII, and ZnII. In a study, Al-Rumaih et al. 2001 revealed that cadmium chloride adversely influenced the germination process of Vigna unguiculata seeds. The germination percentage and the germination rate index GRl expressed as percentage germination per day showed a significant p~0.05 decrease at 40 ppm, and the decline in these measures became highly significant p~0.01 at 80 and 160 ppm cadmium chloride concentrations, as compared with the untreated control ones. Cr VI at 40 ppm reduced seed germination by 23 of seeds of lucerne Medicago sativa cv. Malone and growth in the contaminated medium Peralta et al.2001.The effect of several doses of As V, Cd II, Pb II, Hg II, Cu II, Zn II on the seed germination of four common pulses Vigna mungo L.Hepper, Vigna radiata L.Wilzek, Pisum sativum L. and Lens culinaris L. were observed by Mandal and Bhattacharyya 2007. Certain levels of some heavy metals were favourable for seed germination while others were the inhibitory ones. Exposure of 20 ppm Hg II showed higher toxicity than other heavymetals and reduced the germination potential to 50 as compared to control. It was also shown that the order of toxicity of the metal elements on the four pulses decreased as follows: Hg As Cd Pb Cu Zn. In alfalfa, it was reported that the seed germination is seriously affected by 20 ppm of Cd +2 , Cr +6 , and by 40 ppm of Cu +2 , Ni +2 while the root and shoot growth are stimulated by 5 ppm of Cr +6 , Cu +2 , Ni +2 , and Zn +2 Aydinalp and Marinova 2009. In another experiment Al-Qurainy 2009 studied the toxicity of Al and Ni individually on P. vulgaris which affected root and shoot length and their effects on length was appeared after 3 days of germination but germination was not inhibited in both metal treatments. A reduction in seed germination and seedling growth in chickpea treated with 50, 100, 200 and 400 ppm of nickel and cobalt was reported by Khan and Khan et al. 2010. The germination of Vigna unguiculata seeds after treatment in solution containing varying concentration of cadmium chloride CdCl 2 .H 2 O was observed Egharevba and Omoregie 2010.The concentrations of cadmium Cd in the solution used for the treatment were 0.00 ppm, 0.80 ppm, 8.00 ppm, 40.00 ppm, 100.00 ppm and 180 ppm. Results showed that the percentage germination and rate of increment in shoot height decreased as cadmium level in the treatment solution increased. However, no growth was observed at 100 and 120 ppm. There can be a number of reasons behind the decreased rate of seed germination in plants. The decrease in seed germination of heavy metal treated plants can be attributed to the accelerated breakdown of stored food materials in seed Shafiq et al. 2008. Several authors reported that the inhibition of root elongation caused by heavy metals may be due to metal interference with cell division, including inducement of chromosomal aberrations and abnormal mitosis Radha et al. 2010, Liu et al. 2003, which can affect the seedling growth. These observations indicated variable effects of metals, though inhibitory in each of the legume species tested.

3.3. Nitrogen fixation and symbiosis