EFFECTS OF COPPER TOXICITY ON DIFFERENT GROWTH ATTRIBUTES OF PHLOX DRUMMONDII

S. Fatima, N. Aslam, S. Khalid
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引用次数: 3

Abstract

Heavy metal contamination is one of the major problems prevailing in environment. Copper in high concentration is considered to have serious effects on plant growth parameters which results in chlorosis, disturbed mineral uptake and stunted growth. A pot experiment was conducted to evaluate the ability of Phlox drummondii to tolerate and accumulate high copper doses. Plants were exposed to copper toxicity at three different concentrations (10 ppm, 20 ppm and 30 ppm) by using copper sulfate (CuSO4.5H2O). Results showed that chlorophyll-a, chlorophyll-b, total chlorophyll and carotenoids of treated plants decreased significantly (p˂0.05) with the increase of copper concentration. Selected copper levels showed no effect on plant height, number of leaves, leaf area and ascorbic acid (p>0.05). Relative water content increased significantly (p˂0.05) as compared to control plants. Copper uptake by roots of treated plants was greater as compared to control plants indicating Phlox drummondii ability to grow well in the copper contaminated soils and could be classified as copper tolerant plant. Copper tolerance by phlox was associated with its capacity to absorb and accumulate in roots preventing translocation of metal to other photosynthetic tissues. Therefore, Phlox drummondii has the characteristic to be used as hyperaccumulator by vegetating in copper contaminated soils. Further studies at genetic level would play a key role in understanding the tolerance mechanism of Phlox drummondii towards copper contamination.
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铜毒性对扇叶夹竹桃不同生长性状的影响
重金属污染是环境中普遍存在的主要问题之一。高浓度的铜被认为对植物的生长参数有严重的影响,导致植物的黄化,干扰矿物质的吸收和生长发育迟缓。采用盆栽试验研究了孔雀桃对高剂量铜的耐受和积累能力。利用硫酸铜(CuSO4.5H2O)对三种不同浓度(10 ppm、20 ppm和30 ppm)的植物进行铜毒性暴露。结果表明,叶绿素a、叶绿素b、总叶绿素和类胡萝卜素随铜浓度的升高而显著降低(p小于0.05)。不同铜水平对株高、叶数、叶面积和抗坏血酸均无显著影响(p < 0.05)。与对照植株相比,相对含水量显著增加(p小于0.05)。与对照植株相比,处理植株根系对铜的吸收量更大,表明黄夹竹桃在铜污染土壤中生长良好,可归类为耐铜植物。夹竹桃对铜的耐受性与其在根中吸收和积累铜的能力有关,从而防止金属转运到其他光合组织。因此,鼓门夹竹桃具有在铜污染土壤中作为超蓄积体生长的特点。进一步的遗传水平研究将对深入了解黄夹竹桃对铜污染的耐受机制具有重要意义。
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