Comparisons of cadmium tolerance and accumulation at seedling stage in wheat varieties grown in different decades in China

• Autorzy: Ci D. , Jiang D. , Liu F. , Dai T. , Cao W.
• Języki publikacji: EN

Abstrakty

EN

Cadmium (Cd) tolerance and accumulation in wheat varieties were investigated at seedling stage under a controlled environmental condition. The 46 leading wheat varieties cultivated from the 1950s to 2000s in China were treated at the three-leaf stage with a 50 µM CdCl₂ solution for 24 days. Growth and photosynthesis parameters were measured and the Cd-tolerance index (ratio of a given parameter under Cd treatment to that of the control) was determined. Cd accumulation in shoots and roots and Cd translocation were also determined. It was found that Cd tolerance and accumulation of these wheat varieties varied over the different decades. Principal components analysis (PCA) showed that wheat varieties in 1950s and 1980s were tolerant while varieties from the last decade were sensitive to Cd stress. Wheat varieties in 1960s and 1970s were particularly tolerant to Cd stress for the parameters of shoot height, secondary root numbers, net photosynthesis and transpiration rate while the varieties in the 1990s were sensitive to Cd stress for shoot dry weight and root dry weight. Comparing each decade to the average Cd translocation ratio from the roots to the shoots for the whole period, the varieties from the 1950s and 1960s had a higher translocation ratio, while varieties in the 1970s were below that average. Varieties from the 1980s to 2000s showed an average translocation ratio. Using cluster analysis (CA), Shannongfu 63, Yangmai 1 and Yangmai 158 were the most Cd-tolerant varieties in which Cd translocation ratio were low, and Yumai 18 and Huaimai 20 were the most Cd-sensitive varieties in which Cd translocation ratio were high. The results indicating that wheat varieties from different decades were different in Cd tolerance and accumulation, and could be useful for breeding wheat for Cd stress tolerance.

• Wydawca: -
• Czasopismo: Acta Physiologiae Plantarum
• Rocznik: 2011
• Tom: 33
• Numer: 5
• Opis fizyczny: p.1811-1819,fig.,ref.

Twórcy

autor

Ci D.

• Crops Institute of Shandong Academy of Agricultural Science, Jinan, China

autor

Jiang D.

• College of Agriculture, Nanjing Agricultural University, No. 1 Weigang Road, Nanjing, 210095, Jiangsu Province, People s Republic of China

autor

Liu F.

• Department of Agriculture and Ecology, Faculty of Life Sciences, University of Copenhagen, Højbakkegaard Allé 13, 2630, Taastrup, Denmark

autor

Dai T.

• Key Laboratory of Crop Physiology and Ecology in Southern China, Ministry of Agriculture/Hi-Tech Key Laboratory of Information Agriculture of Jiangsu Province, Nanjing Agricultural University, Nanjing, China

autor

Cao W.

• Key Laboratory of Crop Physiology and Ecology in Southern China, Ministry of Agriculture/Hi-Tech Key Laboratory of Information Agriculture of Jiangsu Province, Nanjing Agricultural University, Nanjing, China

Bibliografia

• Alloway BJ, Jackson AP, Morgan H (1990) The accumulation of cadmium by vegetables grown on soils contaminated from a variety of sources. Sci Total Environ 91:223–236
• Bell MJ, McLaughlin MJ, Wright GC, Cruickshank G (1997) Interand intra-specific variation in accumulation of cadmium by peanut, soybean and navybean. Aust J Agric Res Econ 48:1151–1160
• Bhargava A, Shukla S, Srivastava J, Singh N, Ohri D (2008) Genetic diversity for mineral accumulation in the foliage of Chenopodium spp. Sci Hortic 118:338–346
• Cam M, Hisil Y, Durmaz G (2009) Classification of eight pomegranate juices based on antioxidant capacity measured by four methods. Food Chem 112:721–726
• Chan DY, Hale BA (2004) Differential accumulation of Cd in durum wheat cultivars: uptake and retranslocation as sources of variation. J Exp Bot 55:2571–2579
• Ci D, Jiang D, Dai T, Jing Q, Cao W (2009) Effects of cadmium on plant growth and physiological traits in contrast wheat recombinant inbred lines differing in cadmium tolerance. Chemosphere 77:1620–1625
• Ci D, Jiang D, Wollenweber B, Dai T, Jing Q, Cao W (2010a) Cadmium stress in wheat seedlings: growth, cadmium accumulation and photosynthesis. Acta Physiol Plant 32:365–373
• Ci D, Jiang D, Wollenweber B, Dai T, Jing Q, Cao W (2010b) Genetic variance in cadmium tolerance and accumulation in wheat materials differing in ploidy and genome at seedling stage. J Agron Crop Sci 196:302–310
• DalCorso G, Farinati S, Maistri S, Furini A (2008) How plants cope with cadmium: Staking all on metabolism and gene expression. J Integr Plant Biol 50:1268–1280
• Dell’Amico E, Cavalca L, Andreoni V (2008) Improvement of Brassica napus growth under cadmium stress by cadmiumresistant rhizobacteria. Soil Biol Biochem 40:74–84
• Dong J, Wu F, Zhang G (2006) Influence of cadmium on antioxidant capacity and four microelement concentrations in tomato seedlings (Lycopersicon esculentum). Chemosphere 64:1659–1666
• Ekmekci Y, Tanyolac D, Ayhan B (2008) Effects of cadmium on antioxidant enzyme and photosynthetic activities in leaves of two maize cultivars. J Plant Physiol 165:600–611
• Fang R (1991) Application of atomic absorption spectroscopy in sanitary test. Beijing University Press, Beijing, pp 148–158
• Guo ZM, Miao QL, Li X (2005) Variation characteristics of temperature over Northern China in recent 50 years. Scientia Geographica Sinica 25:448–454 (in Chinese) Jiang T, Su BD, Wang YJ, Zhang Q, Qian NX, Shi YF (2005) Trends of temperature, precipitation and runoff in the Yangtze river basin from 1961 to 2000. Adv Clim Change Res 2:65–68 (in Chinese)
• Jin SB, Liu AD (1983) Records of Chinese wheat cultivars: 1962–1982 (in Chinese). Agricultural Press, Beijing
• Jin SB (1997) Records of chinese wheat cultivars: 1983–1993 (in Chinese). Agricultural Press, Beijing
• Kazi TG, Arain MB, Jamali MK, Jalbani N, Afridi HI, Sarfraz RA, Baig JA, Shah AQ (2009) Assessment of water quality of polluted lake using multivariate statistical techniques: a case study. Ecotox Environ Safe 72:301–309
• Liao QL, Huang SS, Lin RZ, Fan DF, Jin Y, Zhu BW (2008) Element distribution characteristics of Cd-rich soils and their pollution remediation test in the lower reaches of the Yangtze River. Geol China 3:514–523 (in Chinese)
• Liu ZH, Wang HY, Wang XE, Zhang GP, Chen PD, Liu DJ (2006) Genotypic and spike positional difference in grain phytase activity, phytate, inorganic phosphorus, iron, and zinc contents in wheat (Triticum aestivum L.). J Cereal Sci 44:212–219
• Prasad MNV (1995) Cadmium toxicity and tolerance in vascular plants. Environ Exp Bot 35:525–545
• Rai V, Khatoon S, Bisht SS, Mehrotra S (2005) Effect of cadmium on growth, ultramorphology of leaf and secondary metabolites of Phyllanthus amarus Schum. and Thonn. Chemosphere 61:1644–1650
• Sanita di Toppi L, Gabbrielli R (1999) Response to cadmium in higher plants. Environ Exp Bot 41:105–130
• Song LC (1994) Characteristics of temperature in spatial and temporal variation in China during recent 40 years. J Appl Meterolog Sci 5:119–124 (in Chinese)
• Verbruggen N, Hermans C, Schat H (2009) Mechanisms to cope with arsenic or cadmium excess in plants. Curr Opin Plant Biol 12:364–372
• Verma P, George KV, Singh HV, Singh RN (2007) Modeling cadmium accumulation in radish, carrot, spinach and cabbage. Appl Math Model 31:1652–1661
• Wagner GJ, Donald LS (1993) Accumulation of cadmium in crop plants and its consequences to human health. Adv Agron 51:173–212
• Wangstrand H, Eriksson J, Oborn I (2007) Cadmium concentration in winter wheat as affected by nitrogen fertilization. Eur J Agron 26:209–214
• Wei FS, Chen JS, Jiang YY, Zheng CS (1991) Study on the background contents on 61 elements of soils in China. Environ Sci 4:12–19 (in Chinese)
• Wenzel WW, Jockwer F (1999) Accumulation of heavy metals in plants grown on mineralised soils of the Austrian Alps. Environ Pollut 104:145–155
• Wu D, Yu Q, Lu C, Hengsdijk H (2006) Quantifying production potentials of winter wheat in the North China Plain. Eur J Agron 24:226–235
• Wu F, Zhang G, Dominy P, Wu H, Bachir DML (2007) Differences in yield components and kernel Cd accumulation in response to Cd toxicity in four barley genotypes. Chemosphere 70:83–92
• Yao Y, Xuan Z, He Y, Lutts S, Korpelainen H, Li C (2007) Principal component analysis of intraspecific responses of tartary buckwheat to UV-B radiation under field conditions. Environ Exp Bot 61:237–245
• Zhai PM, Zou XK (2005) Changes in temperature and precipitation and their impacts on drought in China during 1951–2003. Adv Clim Change Res 1:16–18 (in Chinese)
• Zhou N, Wang R (2002) Phytoremediation—new approach of heavy metal clean up from heavy metal-polluted soils. Chinese J Biotech 22:53–57 (in Chinese)
• Zhou WD, Zhu JH, Shi J (2009) Characteristics of maximum and minimum temperature in East China. Meteorolog Environ Sci 1:17–21 (in Chinese)

Uwagi

PL

Rekord w opracowaniu