Agriculture Reference
In-Depth Information
Stroinski A, Kozlowska M (1997) Cadmium induced oxidative-stress in potato tuber. Acta Soc
Bot Pol 66:189-195
Stroinski A, Zielezinska M (1997) Cadmium effect on hydrogen peroxide, glutathione and phyto-
chelatin levels in potato tuber. Acta Physiol Plant 19:127-135
Sun Q, Yec ZH, Wang XR, Wong MH (2007) Cadmium hyperaccumulation leads to an increase
of glutathione rather than phytochelatins in the cadmium hyperaccumulator Sedum alfredii. J
Plant Physiol 164:1489-1498
Valentoviova K, Haluskova L, Huttova J, Mistrik I, Tamas L (2010) Effect of cadmium on diapho-
rase activity and nitric oxide productionin barley root tips. J Plant Physiol 167:10-14
Vanaja M, Charyulu NVN, Rao KVN (2000) Effect of some organic acids and calcium on growth
toxic effect and accumulation of cadmium in Stigeoclonium tenue Kutz. Ind J Plant Physiol
7:163-167
Vassilev A, Yordanov I, Tsonev T (1998) Physiological responses of two barley cultivars to soil
pollution with cadmium. Environ Pollut 100:1-7
Vassilev A, Malgozata B, Nevena S, Zlatko Z (2005) Chronic Cd toxicity of bean plants can be
partially reduced by supply of ammonium sulphate. J Central Euro Agric 6:389-396
Vázquez S, Goldsbrough P, Carpena RO (2006) Assessing the relative contributions of phytochela-
tins and the cell wall to cadmium resistance in white lupin. Physiol Plant 128:487-495
Vecchia FC, Rocca NL, Moro I, Faveri S, Andreoli C, Rascio N (2005) Morphogenetic, ultrastruc-
tural and physiological damages suffered by submerged leaves of Elodea canadensis exposed
to cadmium. Plant Sci 168:329-338
Verbruggen N, Hermans C, Schat H (2009) Mechanisms to cope with arsenic or cadmium excess
in plants. Curr Opin Plant Biol 12:364-72
Verma P, George KV, Singh HV, Singh RN (2007) Modeling cadmium accumulation in radish,
carrot, spinach and cabbage. Appl Math Model 31:1652-1661
Verma S, Dubey RS (2003) Lead toxicity induces lipid peroxidation and alters the activities of
antioxidant enzymes in growing rice plants. Plant Sci 164:645-655
Vert GA, Grotz N, Dedaldechamps F, Gaymard F, Guerinot ML, Briat JF, Curie C (2002) IRT1,
an Arabidopsis transporter essential for iron uptake from the soil and for plant growth. Plant
Cell 14:1223-1233
Vitoria AP, Lea PJ, Azevedo RA (2001) Antioxidant enzyme responses to cadmium in radish tis-
sue. Phytochem 57:701-710
Wahid A, Ghani A, Ali I, Ashraf MY (2007) Effects of cadmium on carbon and nitrogen assimilation
in shoots of mungbean [Vigna radiata (L.) Wilczek] seedlings. J Agron Crop Sci 193:357-365
Wei S, Zhou Q (2008) Trace elements in agro-ecosystems. In: Prasad MNV (ed) Trace elements
as contaminants and nutrients - consequences in ecosystems and human health. Wiley, New
Jersey, USA, pp 55-80
White PJ, Brown PH (2010) Plant nutrition for sustainable development and global health. Ann
Bot. 105:1073-80
Willekens H, Langebartels C, Tire C, Van Montagu M, Inze D, Van Camp W (1994) Differen-
tial expression of catalase genes in Nicotiana plumbaginifolia (L.) Proc Natl Acad Sci USA
91:10450-10454
Wojcik M, Tukiendorf A (2005) Cadmium uptake, localization and detoxification in Zea mays.
Biol Plant 49:237-245
Wu FB, Zhang GP, Dominy P (2003) Four barley genotypes respond differently to cadmium: Lipid
peroxidation and activities of antioxidant capacity. Environ Exp Bot 50:67-77
Xiang C, Werner BL, Christensen EM, Oliver DJ (2001) The biological functions of glutathi-
one revisited in Arabidopsis transgenic plants with altered glutathione levels. Plant Physiol
126:564-574
Xie RK, Seip HM, Wibetoe G, Nori S, McLeod CM (2006) Heavy coal combustion as the domi-
nant source of particulate pollution inTaiyuan, China, corroborated by high concentrations of
arsenic and selenium in PM10. Sci Total Environ 370:409-415
