Abstract

The Valsequillo reservoir is a Ramsar wetland due to its importance as a point of convergence of migratory waterfowl. It is located in Central Mexico and is currently endangered by the constant spill of municipal and industrial discharges from Puebla city. On this context, we evaluated thirteen potential toxic metals (PTMs) in water, Water hyacinth (E. crassipes) plants and sediments at this site. A combined number of 31 samples were collected from the study area. The degree/extent of metal contamination in sediments was assessed through different geochemical indexes, namely: Geoaccumulation index (Igeo), Enrichment Factor (EF) and Potential Ecological Risk Index (PERI). The ability of Water hyacinth plants residues as a phytodepurator in the Ramsar site was tested in terms of the bioaccumulation factor (BF) and the translocation factor (TF). The results concerning sediments showed that Pb, Cu and Hg pose a threat to the aquatic environment since Igeo and EF indicate sediments ranging from moderately contaminated to contaminated. Moreover, PERI pointed out Hg as the main contributor to the ecological risk in sediments, especially in the part of the reservoir covered by E. crassipes. Water hyacinth plants displayed good capacity to absorb PTMs from the water, since the content of Co, Zn, As, Ni, Cu, Pb, Ti, Cr, Ba, Mo and V in the total plant was (all values in mg/kg of dry weight) 21 ± 9, 408 ± 300, 12 ± 6, 93 ± 21, 93 ± 69, 53 ± 29, 1067 ± 643, 78 ± 55, 362 ± 39, 14 ± 0.6 and 96 ± 35, respectively. Metal content in sediments resembles to that of E. crassipes; especially in the roots, suggesting a constant deposition of plants at the bottom of the reservoir, which contributes to the eutrophication of the water. The present work encourages the need for a sustainable management of Water hyacinth plants in the Ramsar site, since they represent a plague and a natural phyto-depurator at the same time.

Highlights

  • Ramsar sites are sites that involve wetlands which are considered to be of great importance due to the ecosystem services that they provide [1]

  • The metals can be classified into four large groups according to their degree of toxicity reported in humans: (1) major toxic metals, (2) minor toxic metals, (3) essential metals and (4) metals related to medical therapy [5]

  • This process often occurs without harmful effects on the plant since much of the potential toxic metals (PTMs) is accumulated by adsorption to anionic sites in the cell walls [17]

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Summary

Introduction

Ramsar sites are sites that involve wetlands which are considered to be of great importance due to the ecosystem services that they provide [1]. Some authors have demonstrated that Water hyacinth plants can be efficient in the removal of PTM from contaminated natural water bodies [16,22,25] This process often occurs without harmful effects on the plant since much of the PTMs is accumulated by adsorption to anionic sites in the cell walls [17]. The present work aims to evaluate the Valsequillo Ramsar as a biofiltration system, which carries out a self-depuration process though the action of Water hyacinth plants covering the reservoir. The indices and factors mentioned above were calculated to determine both the quality of the sediments and the ability of the Water hyacinth plants to absorb and transfer PTMs to the different parts of the plant

Study Area
Geological Settings
Collection of Water Samples
Collection of Water Hyacinth Plants Samples
Determination of Bioaccumulation and Translocation Factor
Collection of Sediments Samples
Statistical Analyses for Metal Content in Three Matrices Studied
Results and Discussion
Guidelines for the protection and management of
Potential Toxic Metal in Water Hyacinth Plants
Potential Toxic Metal in Sediments
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