Uptake and transport mechanisms for cadmium by Myriophyllum aquaticum in a constructed wetland

Myriophyllum aquaticum (M. aquaticum), as a Cd-highly enriched and tolerant species, has greater application in phytoremediation of Cd-polluted waters. Mechanisms of Cd uptake and transport of M. aquaticum were comprehensively investigated in this work. Transport direction of Cd was observed both fr...

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Published inEcotoxicology and environmental safety Vol. 283; p. 116846
Main Authors Huang, Zhenzhen, Gao, Jingqing, Zhao, Geran, He, Jie, Mao, Yanli, Kang, Haiyan, Song, Zhongxian
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier Inc 15.09.2024
Elsevier
Subjects
Biodegradation, Environmental
Biological Transport
Cadmium
Cadmium - metabolism
Distribution
Magnoliopsida - metabolism
Myriophyllum aquaticum
Plant Roots - metabolism
Uptake and transport
Wastewater
Water Pollutants, Chemical - metabolism
Wetlands
Cadmium
Myriophyllum aquaticum
Uptake and transport
Distribution
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Abstract Myriophyllum aquaticum (M. aquaticum), as a Cd-highly enriched and tolerant species, has greater application in phytoremediation of Cd-polluted waters. Mechanisms of Cd uptake and transport of M. aquaticum were comprehensively investigated in this work. Transport direction of Cd was observed both from the roots to the aboveground and vice versa. The aboveground can be harvested during vigorous growth and flowering periods, further improving the efficient phytoremediation of Cd-polluted wastewater. Moreover, analysis of transpiration inhibition, low-temperature treatment and metabolic inhibition indicated that the uptake and transport of Cd by M. aquaticum can be achieved via the coexistence of the free diffusion-dominated apoplast pathway dominated by transpiration and the "cellular pathway" dominated by active absorption, with the active energy-demanding cellular pathway playing a dominant role. The obtained results have important implications in the in-depth exploration of uptake, transport and distribution mechanisms of heavy metals during phytoremediation of aquatic plants. [Display omitted] •Transport direction of Cd was observed both from the roots to the aboveground and vice versa.•M. aquaticum had higher capacity for aboveground uptake and transport of Cd in vigorous growth and flowering periods.•Harvest of the aboveground of M. aquaticum during critical periods can improve the phytoremediation efficiency of Cd.•Cd uptake and transport of M. aquaticum were dominated by the active energy-demanding cellular pathway.
AbstractList Myriophyllum aquaticum (M. aquaticum), as a Cd-highly enriched and tolerant species, has greater application in phytoremediation of Cd-polluted waters. Mechanisms of Cd uptake and transport of M. aquaticum were comprehensively investigated in this work. Transport direction of Cd was observed both from the roots to the aboveground and vice versa. The aboveground can be harvested during vigorous growth and flowering periods, further improving the efficient phytoremediation of Cd-polluted wastewater. Moreover, analysis of transpiration inhibition, low-temperature treatment and metabolic inhibition indicated that the uptake and transport of Cd by M. aquaticum can be achieved via the coexistence of the free diffusion-dominated apoplast pathway dominated by transpiration and the "cellular pathway" dominated by active absorption, with the active energy-demanding cellular pathway playing a dominant role. The obtained results have important implications in the in-depth exploration of uptake, transport and distribution mechanisms of heavy metals during phytoremediation of aquatic plants. [Display omitted] •Transport direction of Cd was observed both from the roots to the aboveground and vice versa.•M. aquaticum had higher capacity for aboveground uptake and transport of Cd in vigorous growth and flowering periods.•Harvest of the aboveground of M. aquaticum during critical periods can improve the phytoremediation efficiency of Cd.•Cd uptake and transport of M. aquaticum were dominated by the active energy-demanding cellular pathway.
Myriophyllum aquaticum (M. aquaticum), as a Cd-highly enriched and tolerant species, has greater application in phytoremediation of Cd-polluted waters. Mechanisms of Cd uptake and transport of M. aquaticum were comprehensively investigated in this work. Transport direction of Cd was observed both from the roots to the aboveground and vice versa. The aboveground can be harvested during vigorous growth and flowering periods, further improving the efficient phytoremediation of Cd-polluted wastewater. Moreover, analysis of transpiration inhibition, low-temperature treatment and metabolic inhibition indicated that the uptake and transport of Cd by M. aquaticum can be achieved via the coexistence of the free diffusion-dominated apoplast pathway dominated by transpiration and the ''cellular pathway'' dominated by active absorption, with the active energy-demanding cellular pathway playing a dominant role. The obtained results have important implications in the in-depth exploration of uptake, transport and distribution mechanisms of heavy metals during phytoremediation of aquatic plants.
Myriophyllum aquaticum (M. aquaticum), as a Cd-highly enriched and tolerant species, has greater application in phytoremediation of Cd-polluted waters. Mechanisms of Cd uptake and transport of M. aquaticum were comprehensively investigated in this work. Transport direction of Cd was observed both from the roots to the aboveground and vice versa. The aboveground can be harvested during vigorous growth and flowering periods, further improving the efficient phytoremediation of Cd-polluted wastewater. Moreover, analysis of transpiration inhibition, low-temperature treatment and metabolic inhibition indicated that the uptake and transport of Cd by M. aquaticum can be achieved via the coexistence of the free diffusion-dominated apoplast pathway dominated by transpiration and the "cellular pathway" dominated by active absorption, with the active energy-demanding cellular pathway playing a dominant role. The obtained results have important implications in the in-depth exploration of uptake, transport and distribution mechanisms of heavy metals during phytoremediation of aquatic plants.Myriophyllum aquaticum (M. aquaticum), as a Cd-highly enriched and tolerant species, has greater application in phytoremediation of Cd-polluted waters. Mechanisms of Cd uptake and transport of M. aquaticum were comprehensively investigated in this work. Transport direction of Cd was observed both from the roots to the aboveground and vice versa. The aboveground can be harvested during vigorous growth and flowering periods, further improving the efficient phytoremediation of Cd-polluted wastewater. Moreover, analysis of transpiration inhibition, low-temperature treatment and metabolic inhibition indicated that the uptake and transport of Cd by M. aquaticum can be achieved via the coexistence of the free diffusion-dominated apoplast pathway dominated by transpiration and the "cellular pathway" dominated by active absorption, with the active energy-demanding cellular pathway playing a dominant role. The obtained results have important implications in the in-depth exploration of uptake, transport and distribution mechanisms of heavy metals during phytoremediation of aquatic plants.
ArticleNumber 116846
Author He, Jie
Zhao, Geran
Kang, Haiyan
Song, Zhongxian
Gao, Jingqing
Mao, Yanli
Huang, Zhenzhen
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Keywords Cadmium
Myriophyllum aquaticum
Uptake and transport
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Language English
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Snippet Myriophyllum aquaticum (M. aquaticum), as a Cd-highly enriched and tolerant species, has greater application in phytoremediation of Cd-polluted waters....
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SubjectTerms Biodegradation, Environmental
Biological Transport
Cadmium
Cadmium - metabolism
Distribution
Magnoliopsida - metabolism
Myriophyllum aquaticum
Plant Roots - metabolism
Uptake and transport
Wastewater
Water Pollutants, Chemical - metabolism
Wetlands
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Title Uptake and transport mechanisms for cadmium by Myriophyllum aquaticum in a constructed wetland
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