Effect of copper on the photosynthesis and growth of <i>Eichhornia crassipes</i>

Jin, Meifang; You, Meixia; Lan, Qiqi; Cai, Liyang; Lin, Maozi

doi:10.1111/plb.13281

Cited by 9 publications

(5 citation statements)

References 30 publications

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“…Compared with monocultured plants, the average accumulation of Pb, Cd, Cu, and Zn in the leaves, stems, and roots of P. sinese and the shoots and roots of L. perenne increased under intercropping in soil contaminated with heavy metals. Our results are similar to the studies (Lin et al 2018; Jin et al 2021 a , 2021 b ), but not similar to Pietrzykowski et al (2018). This may be due to the fact that P. sinese and L. perenne root exudates can change the forms of heavy metals and lead to the increasing heavy metal absorption by plants (Li et al 2002).…”

Section: Discussionsupporting

confidence: 88%

“…In the present study, the contents of Pb, Cd, Cu, and Zn in each part of P. sinese and L. perenne were positively correlated with the treatment levels of Pb, Cd, Cu, and Zn for each planting method, and the contents of Pb, Cd, Cu, and Zn in each part of the two intercropped plants were significantly higher than that of the monocultured plants. In general, the levels of heavy metals absorbed by plants are proportional to the levels of heavy metals in the environment (Lin & Jin 2018; Jin et al 2021 a , 2021 b ). However, it was also reported earlier that there is no significant correlation between the concentration of heavy metals in the soils and aboveground parts of purple moor‐grass in the most heavily contaminated zones (Pietrzykowski et al 2018).…”

Section: Discussionmentioning

confidence: 99%

“…Phytoremediation is a mild, efficient, and environmentally friendly method for removing heavy metal contaminants from soil or water (Lin et al 2018; Jin et al 2021 a , 2021 b ). However, the efficiency of removing heavy metals from the environment is a vital factor to consider when deciding which phytoremediation material to use.…”

Section: Introductionmentioning

confidence: 99%

“…Many plants can be used for heavy metal phytoextraction, e.g. grapevine (Chen et al 2019), Eichhornia crassipes (Jin et al 2021 a , 2021 b ), Wedelia trilobata (Lin et al 2018). In the past, most of the experiments, whether in field experiment or pot‐culture experiment, were performed using the monoculture method (Cui et al 2018; Hu et al 2018; Wen et al 2018).…”

Section: Introductionmentioning

confidence: 99%

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Intercropping of Pennisetum sinese with Lolium perenne improved phytoextraction of heavy metal from soil

Wen-tong

Cao

Wang

et al. 2022

Restoration Ecology

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In order to find the optimum planting pattern for phytoremediation of metal‐accumulating plants in heavy metal‐contaminated soils, Pennisetum sinese and Lolium perenne were intercropped or monocultured, and the plant leaf physiological indexes as well as the heavy metal contents and accumulation of the two plants were determined. The contents, accumulation, and bioconcentration of Pb, Cd, Cu, and Zn in different parts of the two plants under the intercropping method were significantly (p < 0.05) higher than those under the monoculture method. The average accumulation amounts of Pb, Cd, Cu, and Zn in P. sinese under the intercropping method are 29.51, 19.60, 182.8, and 178.2 μg/plant in leaves; 8.89, 17.99, 61.68, and 205.4 μg/plant in stems; and 8.45, 2.18, 36.35, and 47.94 μg/plant in roots, respectively. The average accumulation amounts of Pb, Cd, Cu, and Zn in L. perenne under the intercropping method are 2.30, 1.40, 23.29, and 33.34 μg/plant in shoots and 1.43, 0.42, 3.21, and 6.98 μg/plant in roots, respectively. Thus, P. sinese has higher heavy metal accumulation. Compared with the monocultured plants, the average accumulation amounts of Pb, Cd, Cu, and Zn increased in both two plants. Therefore, intercropping P. sinese and L. perenne was the optimum planting pattern for heavy metal‐contaminated soil phytoremediation, and P. sinese was more suitable for heavy metal phytoextraction from soil.

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Section: Discussionsupporting

confidence: 88%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Intercropping of Pennisetum sinese with Lolium perenne improved phytoextraction of heavy metal from soil

Wen-tong

Cao

Wang

et al. 2022

Restoration Ecology

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“…There are also some measurements where there were no significant differences between Cu and Se. These improvements in seedling growth may be attributed to both Cu and Se as plant essential micro-nutrients that have direct and indirect roles in several plant physiological processes [ 55 ], as well as preventing plant damage from environmental stresses and promoting photosynthesis [ 56 , 57 ]. The positive impact of nanofertilizers was confirmed by Shalaby et al [ 22 ], as well as in studies on strawberry [ 33 , 35 ] and rosemary [ 54 ].…”

Section: Discussionmentioning

confidence: 99%

Biological Nanofertilizers to Enhance Growth Potential of Strawberry Seedlings by Boosting Photosynthetic Pigments, Plant Enzymatic Antioxidants, and Nutritional Status

El-Bialy

El-Mahrouk

Elesawy

et al. 2023

Plants

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Strawberry production presents special challenges due the plants’ shallow roots. The rooting stage of strawberry is a crucial period in the production of this important crop. Several amendments have been applied to support the growth and production of strawberry, particularly fertilizers, to overcome rooting problems. Therefore, the current investigation was carried out to evaluate the application of biological nanofertilizers in promoting strawberry rooting. The treatments included applying two different nanofertilizers produced biologically, nano-selenium (i.e., 25, 50, 75, and 100 mg L−1) and nano-copper (i.e., 50 and 100 mg L−1), plus a control (untreated seedlings). The rooting of strawberry seedlings was investigated by measuring the vegetative growth parameters (root weight, seedling weight, seedling length, and number of leaves), plant enzymatic antioxidants (catalase, peroxidase, and polyphenol oxidase activity), and chlorophyll content and its fluorescence and by evaluating the nutritional status (content of nutrients in the fruit and their uptake). The results showed that the applied nanofertilizers improved the growth, photosynthetic pigments, antioxidant content, and nutritional status of the seedlings compared to the control. A high significant increase in nutrient contents reached to more than 14-fold, 6-fold, 5-folf, and 4-fold for Cu, Mn, N, and Se contents, respectively, due to the applied nanofertilizers compared with the control. The result was related to the biological roles of both Se and CuO in activating the many plant enzymes. Comparing the Se with the CuO nanofertilizer, Cu had the strongest effect, which was shown in the higher values in all studied properties. This study showed that nanofertilizers are useful to stimulate strawberry seedling growth and most likely would also be beneficial for other horticultural crops. In general, the applied 100 ppm of biological nano-Se or nano-CuO might achieve the best growth of strawberry seedlings under growth conditions in greenhouses compared to the control. Along with the economic dimension, the ecological dimension of biological nanofertilizers still needs more investigation.

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Rhodamine B induced alteration in antioxidant enzymes and photosynthetic performance of Eichhornia crassipes

Sharma

Singh

Sharma

et al. 2022

Plant Physiol. Rep.

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Effect of copper on the photosynthesis and growth of Eichhornia crassipes

Cited by 9 publications

References 30 publications

Intercropping of Pennisetum sinese with Lolium perenne improved phytoextraction of heavy metal from soil

Intercropping of Pennisetum sinese with Lolium perenne improved phytoextraction of heavy metal from soil

Biological Nanofertilizers to Enhance Growth Potential of Strawberry Seedlings by Boosting Photosynthetic Pigments, Plant Enzymatic Antioxidants, and Nutritional Status

Rhodamine B induced alteration in antioxidant enzymes and photosynthetic performance of Eichhornia crassipes

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