Tissue accumulation, ultrastructural alterations, oxidative stress, and effects on photosynthesis were assessed inthe liverwort Conocephalum conicom exposed in vitro to heavy metals (HM) concentrations in three sites of theSavone River, representative of different anthropic impacts. The uptake and accumulation of HM in the thallus ofthe liverwort was first studied, and the biological effects in relation to the different accumulation sites of HMalong thallus, ribs and wings, were then investigated, considering: bioaccumulation (by atomic absorptionspectrometry), localization (by X-ray scanning electron microscopy microanalysis), ultrastructural damage ofphotosynthetic parenchyma (by transmission electron microscopy), oxidative stress (by ROS contents andantioxidant enzymes activities determination), photosynthesis (by chlorophyll fluorescence). The results showedthe HM bioaccumulation in C. conicom was dependent by their concentrations in the contaminated water. As forspatial localization, HM preferentially accumulated in the nerve of gametophytes respect to the wings. Withrespect to tissue localization, HM were mainly found in the hyaline and in the photosynthetic parenchyma.Essential metals (Cu and Zn) were accumulated at higher concentrations with respect to non-essential metals (Pband Cd). At the ultrastructural level, HM caused alterations of the fine structure of the cells, most evident alongthe nerve, inducing marked alterations of the chloroplast structure and therefore of the photosynthetic capacity.Based on the results of the presented study, C.conicum can be used as a marker to indicate heavy metal pollutionin water natural resources.

Tissue localization and the physiological effects induced by an environmentally relevant mix of heavy metals in the liverwort Conocephalum conicum L. Dum

Maresca V.;
2023-01-01

Abstract

Tissue accumulation, ultrastructural alterations, oxidative stress, and effects on photosynthesis were assessed inthe liverwort Conocephalum conicom exposed in vitro to heavy metals (HM) concentrations in three sites of theSavone River, representative of different anthropic impacts. The uptake and accumulation of HM in the thallus ofthe liverwort was first studied, and the biological effects in relation to the different accumulation sites of HMalong thallus, ribs and wings, were then investigated, considering: bioaccumulation (by atomic absorptionspectrometry), localization (by X-ray scanning electron microscopy microanalysis), ultrastructural damage ofphotosynthetic parenchyma (by transmission electron microscopy), oxidative stress (by ROS contents andantioxidant enzymes activities determination), photosynthesis (by chlorophyll fluorescence). The results showedthe HM bioaccumulation in C. conicom was dependent by their concentrations in the contaminated water. As forspatial localization, HM preferentially accumulated in the nerve of gametophytes respect to the wings. Withrespect to tissue localization, HM were mainly found in the hyaline and in the photosynthetic parenchyma.Essential metals (Cu and Zn) were accumulated at higher concentrations with respect to non-essential metals (Pband Cd). At the ultrastructural level, HM caused alterations of the fine structure of the cells, most evident alongthe nerve, inducing marked alterations of the chloroplast structure and therefore of the photosynthetic capacity.Based on the results of the presented study, C.conicum can be used as a marker to indicate heavy metal pollutionin water natural resources.
2023
Conocephalum conicum
Environmental pollution
Heavy metals
Photosynthesis
Tissue localization
Ultrastructure
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14085/21883
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