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Bioaccumulation and Tolerance of Metals in Floristic Species of the High Andean Wetlands of the Ichubamba Yasepan Protected Area: Identification of Groups and Discriminant Markers

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  • Diego Francisco Cushquicullma-Colcha

    (Statistics Department, Universidad de Granada, Avda. del Hospicio, 18010 Granada, Spain
    Andean Páramos, Research Center, Riobamba 060155, Ecuador)

  • María Verónica González-Cabrera

    (Faculty of Livestock Sciences, Escuela Superior Politécnica de Chimborazo, Panamericana Sur, km 1.5, Riobamba 060155, Ecuador)

  • Cristian Santiago Tapia-Ramírez

    (Faculty of Natural Resources, Escuela Superior Politécnica de Chimborazo, Panamericana Sur, km 1.5, Riobamba 060155, Ecuador)

  • Marcela Yolanda Brito-Mancero

    (Faculty of Natural Resources, Escuela Superior Politécnica de Chimborazo, Panamericana Sur, km 1.5, Riobamba 060155, Ecuador)

  • Edmundo Danilo Guilcapi-Pacheco

    (Andean Páramos, Research Center, Riobamba 060155, Ecuador)

  • Guicela Margoth Ati-Cutiupala

    (Doctoral School, Faculty of Sciences, Universidad de Salamanca, 37007 Salamanca, Spain)

  • Pedro Vicente Vaca-Cárdenas

    (Andean Páramos, Research Center, Riobamba 060155, Ecuador)

  • Eduardo Antonio Muñoz-Jácome

    (Andean Páramos, Research Center, Riobamba 060155, Ecuador)

  • Maritza Lucía Vaca-Cárdenas

    (Faculty of Livestock Sciences, Escuela Superior Politécnica de Chimborazo, Panamericana Sur, km 1.5, Riobamba 060155, Ecuador)

Abstract

The Ichubamba Yasepan wetlands, in the Andean páramos of Ecuador, suffer heavy metal contamination due to anthropogenic activities and volcanic ash from Sangay, impacting biodiversity and ecosystem services. This quasi-experimental study evaluated the bioaccumulation and tolerance of metals in high Andean species through stratified random sampling and linear transects in two altitudinal ranges. Concentrations of Cr, Pb, Hg, As, and Fe in water and the tissues of eight dominant plant species were analyzed using atomic absorption spectrophotometry, calculating bioaccumulation indices (BAIs) and applying principal component analysis (PCA), clustering, and linear discriminant analysis (LDA). Twenty-five species from 14 families were identified, predominantly Poaceae and Cyperaceae, with Calamagrostis intermedia as the most relevant (IVI = 12.74). The water exceeded regulatory limits for As, Cr, Fe, and Pb, indicating severe contamination. Carex bonplandii showed a high BAI for Cr (47.8), Taraxacum officinale and Plantago australis for Pb, and Lachemilla orbiculata for Hg, while Fe was widely accumulated. The LDA highlighted differences based on As and Pb, suggesting physiological adaptations. Pollution threatens biodiversity and human health, but C. bonplandii and L. orbiculata have phytoremediation potential.

Suggested Citation

  • Diego Francisco Cushquicullma-Colcha & María Verónica González-Cabrera & Cristian Santiago Tapia-Ramírez & Marcela Yolanda Brito-Mancero & Edmundo Danilo Guilcapi-Pacheco & Guicela Margoth Ati-Cutiupa, 2025. "Bioaccumulation and Tolerance of Metals in Floristic Species of the High Andean Wetlands of the Ichubamba Yasepan Protected Area: Identification of Groups and Discriminant Markers," Sustainability, MDPI, vol. 17(15), pages 1-20, July.
    • Handle: RePEc:gam:jsusta:v:17:y:2025:i:15:p:6805-:d:1710699
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