A. P. Vitória, Frederico Lage-Pinto, Leonardo Bernardo Campaneli, M. G. Almeida, C. M. M. Souza, C. Rezende, R. Azevedo, J. G. Oliveira
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引用次数: 11
Abstract
The ecophysiological adaptations of water hyacinth (metal hyperaccumulator) under adverse environmental conditions are not yet clearly elucidated. This work evaluated photosynthetic pigments and chlorophyll a fluorescence in water hyacinth plants sampled in different regions (upper, middle and lower) of Paraiba do Sul river (PSR) and Imbe river, Brazil. Additionally Mn, Fe, Zn, Cu, Cr, Pb and Ni were quantified on the shoots and roots. Roots were the preferential site of metal accumulation. Cromium was not detected in the shoots. Iron and Mn were the elements detected in higher concentrations in all samples. Zinc and Cu were detected in higher concentrations in roots of plants from middle and upper PSR, sites of higher anthropogenic activity. The highest concentrations of almost all metals were verified in plants from middle PSR. Regarding photosynthetic adaptations, plants from middle and upper PSR showed the highest concentrations of photosynthetic pigments, as well as the highest values of Fv/Fm and Fv/F0. The photosynthetic performance of plants suggests that they are not under stress conditions, even in regions of higher anthropogenic activity. Positive correlation was observed among nonphotochemical quenching and carotenoids, suggesting dissipation of energy in the form of heat as an strategy to keep the stable photochemical photosynthesis functioning, confirmed by values of the Fv/Fm. It is possible that such adaptative strategy is efficient as a long term response to stress factors, once literature data suggest that this is not a preferential path for photosynthesis in stress circumstances under short time controlled conditions.
水葫芦(金属超蓄积体)在不利环境条件下的生态生理适应尚不清楚。本文对巴西南帕拉伊巴河(Paraiba do Sul river, PSR)和英贝河(Imbe river)不同地区(上、中、下游)水葫芦植物的光合色素和叶绿素a荧光进行了研究。此外,还定量测定了枝条和根系上Mn、Fe、Zn、Cu、Cr、Pb和Ni的含量。根系是金属积累的首选部位。芽中未检测到铬。铁和锰是所有样品中检测到的浓度较高的元素。在PSR中部和上部的植物根系中,锌和铜的含量较高,这是人类活动较高的部位。从PSR中期开始,植物中几乎所有金属的浓度都达到最高。在光合适应性方面,中上游植物的光合色素浓度最高,Fv/Fm和Fv/F0也最高。植物的光合作用表现表明,即使在较高的人类活动区域,它们也没有处于压力条件下。非光化学猝灭与类胡萝卜素之间存在正相关关系,表明以热量形式耗散能量是保持稳定的光化学光合作用功能的一种策略,Fv/Fm值证实了这一点。有可能这种适应性策略作为对胁迫因素的长期响应是有效的,一旦文献数据表明这不是在短时间控制条件下胁迫环境下光合作用的优先路径。