[ARMON D.J., ALLEN M.B., WHATLEY F. 1956. Photosynteis by isolated chloroplast. Biochimica et Biophysica Acta, 20: 449-461.]Search in Google Scholar
[ASHRAF M., HARRIS P.J.C. 2005. Abiotic stresses plant resistance through breeding and molecular approaches, New York. Food Products Press, pp.1-725.]Search in Google Scholar
[AWAAD H.A., YOUSSEF M.A.H., MOUSTAFA E.S.A. 2010. Identification of Genetic Variation among Bread Wheat Genotypes for Lead Tolerance Using Morpho - Physiological and Molecular Markers. Journal of American Science, 6, 10: 1142-1153.]Search in Google Scholar
[BARBERO P., BELTRAMI M., BAUDO R., ROSSI D. 2001. Assessment of Lake Orta sediments phytotoxicity after limiting treatment. Journal of Limnology, 60, 2: 269-276.]Search in Google Scholar
[BATES L.S. 1973. Rapid determination of free proline for waterstress studies. Plant and Soil, 39: 205-207. EUN S.O., YOUN H.S., LEE Y. 2000. Lead disturbs microtubule organization in the root meristem of Zea mays. Physiologia Plantarum, 110: 357-365.10.1034/j.1399-3054.2000.1100310.x]Search in Google Scholar
[GRZESIUK A., CZUŁOWSKA I., KOWALCZYK W., HORBOWICZ M. 2011. Wpływ jonów ołowiu na zawartość niektórych metabolitów i wzrost siewek gryki zwyczajnej (Fagopyrum esculentum moench). Ochrona Środowiska i Zasobów Naturalnych, 48: 86-95.]Search in Google Scholar
[HAGER A., MAYER-BERTHENRATH T. 1966. Die Isolierung und quanttative Bestimung der Carotenoide und Chlorophyll von Blatern, Algen und isolierten Chloroplasten mit Hilfe Dunnschichtchromatographischer Methoden. Planta, 69: 198-217.]Search in Google Scholar
[ISRAR M., SAHI S.V. 2008. Promising role of plant hormones in translocation of lead in Sesbania drummondii shoots. Environmental Pollution, 153: 29-36.]Search in Google Scholar
[JAMAL S.N., IQBAL M.Z., ATHAR M. 2006. Evaluation of two wheat varieties for phytotoxic effect of mercury on seed germination and seedling growth. Agriculturae Conspectus Scientificus, 71: 41-44.]Search in Google Scholar
[JIANG W., LIU D. 2010. Pb-induced cellular defense system in the root meristematic cells of Allium sativum L. BioMed Central Plant Biology, vol.10, article 40.]Search in Google Scholar
[JOHN M.K., van-LAERHOVEN C.J. 1976. Differential effects of cadmium on Lettuce varieties. Environmental Pollution, 10, 3: 163-173.]Search in Google Scholar
[KABIR M., IQBAL M.Z., SHAFIQ M., FAROOQI Z.R. 2010. Effects of lead on seedling growth of Thespesia populnea L. Plant Soil and Environment, 56, 4: 194-199.]Search in Google Scholar
[KUMAR M., JAYARAMAN P. 2014. Toxic effect of lead nitrate [Pb(NO3)2] on the black gram seedlings (Vigna mungo (L.) Hepper). International Journal of Advanced Research in Biological Sciences, 1, 9: 209-213.]Search in Google Scholar
[LAMHAMDI M., EL GALIOU O., BAKRIM A., NÓVOA-MUÑOZ J.C, ARIAS-ESTÉVEZ M., AARAB A., LAFONT R. 2013. Effect of lead stress on mineral content and growth of wheat (Triticum aestivum) and spinach (Spinacia oleracea) seedlings. Saudi Journal of Biological Sciences, 20, 1: 29-36.]Search in Google Scholar
[LICHTENTHALER H.K., WELLBURN A.R. 1983. Determinations of total carotenoids and chlorophylls a and b of leaf extracts in different solvents. Biochemical Society Transactions, 11: 591-592.]Search in Google Scholar
[LIU Z.L., HE X.Y., CHEN W., YUAN F.H., YAN K., TAO D. 2009.\ Accumulation and tolerance characteristics of cadmium in a potential hyperaccumulator-Lonicera japonica Thunb. Journal of Hazardous Materials, 169: 170-175.]Search in Google Scholar
[MAHMOOD S., HUSSAIN A., SAEED Z., ATHAR M. 2005. Germination and seedling growth of corn (Zea mays L.) under varying levels of copper and zinc. International Journal of Environmental Science and Technology, 2: 269-274.]Search in Google Scholar
[MALAR S., VIKRAM S.S., FAVAS P.J.C., PERUMAL V. 2014. Lead heavy metal toxicity induced changes on growth and antioxidative enzymes level in water hyacinths [Eichhornia crassipes (Mart.)]. Botanical Studies, 55: 54-65.]Search in Google Scholar
[MYŚLIWA-KURDZIEL B., STRZAŁKA K. 2002. Influence of metals on the biosynthesis of photosynthetic pigments’, In: Prasad MNV, Strzałka K. (eds), Physiology and biochemistry of metal toxicity and tolerance in plants, pp. 201-228, NARESHKUMAR A., KRISHNAPPA B.V., KIRANKUMAR T.V., KIRANMAI K., LOKESH U., SUDHAKARBABU O., SUDHAKAR C. 2014. Effect of Pb-stress on growth and mineral status of two groundnut (Arachis hypogaea L.) cultivars. Journal of Plant Sciences, 2, 6: 304-310.]Search in Google Scholar
[ÖZTURK L., DEMIR Y. 2002. In vivo and vitro protective role of proline. Plant Growth Regulation, 38, 3: 259-264.]Search in Google Scholar
[SHAFIQ M., IQBAL M.Z., ATHAR M. 2008. Effect of lead and cadmium on germination and seedling growth of Leucaena leucocephala. Journal of Applied Sciences and Environmental Management, 12, 2: 61-66.]Search in Google Scholar
[SHAIKH I.R., SHAIKH P.R., SHAIKH R.A., SHAIKH A.A. 2013. Phytotoxic effects of heavy metals (Cr, Cd, Mn and Zn) on Wheat (Triticum aestivum L.) seed germination and seedlings growth in black cotton soil of Nanded. India Research Journal of Chemical and Environmental Sciences, 3, 6: 14-23.]Search in Google Scholar
[SHARMA P., DUBEY R.S. 2005. Lead toxicity in plants. Brazilian Journal of Plant Physiology, 17: 35-52.]Search in Google Scholar
[TIAN T., ALI B., QIN Y., MALIK Z., GILL R.A., ALI S., ZHOU W. 2014. Alleviation of Lead Toxicity by 5-Aminolevulinic Acid Is Related to Elevated Growth, Photosynthesis, and Suppressed Ultrastructural Damages in Oilseed Rape. BioMed Research International, vol.2014, Article ID 530642.]Search in Google Scholar
[WANG W. 1987. Root elongation method for toxicity testing of organic and inorganic pollutants. Environmental Toxicology and Chemistry, 6: 409-414.]Search in Google Scholar
[WANG W., WILLIAMS J.M. 1988. Screening and monitoring of industrial effluents using phytotoxicity tests. Environmental Toxicology and Chemistry, 7: 645-652.]Search in Google Scholar
[WANG Y., TAO J., DAI J. 2011. Lead tolerance and detoxification mechanism of Chlorophytum comosum. African Journal of Biotechnology, 10, 65: 14516-1452110.5897/AJB11.1496]Search in Google Scholar
[YAN C.L., HONG Y.T., FU S.Z., FANG C.H., LEI J.X., SHEN Q. 1997. Effect of Cd, Pb stress on scarenging system of activated oxygen in leaves of tobacco. Acta Ecologica Sinica, 17: 488-492.]Search in Google Scholar
[ZENGIN F.K., MUNZUROGLU O. 2005. Effects of some heavy metals on content of chlorophyll, proline and some antioxidant chemicals in bean (Phaseolus vulgaris L.) seedlings. Acta Biologica Cracoviensia Series Botanica, 47, 2: 157-164. ]Search in Google Scholar