loading page

The bioaccumulative potential of heavy metals in five forest species living in mining environments in the Ecuadorian Amazon region
  • +3
  • Yudel Garcia-Quintana,
  • Luis Ramón Bravo-Sánchez,
  • Dixon Andi Grefa,
  • Jorge de Jesús Guerrón-Torres,
  • Jenny Elizabeth Rosero-Sanchez,
  • Yasiel Arteaga-Crespo
Yudel Garcia-Quintana
Universidad Estatal Amazonica

Corresponding Author:ygarcia@uea.edu.ec

Author Profile
Luis Ramón Bravo-Sánchez
Universidad Estatal Amazonica
Author Profile
Dixon Andi Grefa
Universidad Estatal Amazonica
Author Profile
Jorge de Jesús Guerrón-Torres
Universidad Estatal Amazonica
Author Profile
Jenny Elizabeth Rosero-Sanchez
Universidad Estatal Amazonica
Author Profile
Yasiel Arteaga-Crespo
Universidad Estatal Amazonica
Author Profile

Abstract

Pollution caused by heavy metals in soils and ecosystems is an environmental problematic that requires urgent attention due to the ecological problems that it generates. Forest species can be used to mitigate contamination because of their potential to bioaccumulate contaminating metals. Hence, the aim of this research was to identify tree species with good heavy metal bioaccumulating capacities that can contribute to mitigate pollution. The bioconcentration factor for five forest species, such as: Spanish cedar ( Cedrela odorata L.), cutanga ( Parkia multijuga Benth.), guaba or ice cream bean ( Inga edulis Mart.), guarumo ( Cecropia ficifolia Warb. ex Snethl.) and Amazon tree grape ( Pourouma cecropiifolia Mart.), commonly found in the Ecuadorian Amazon was analysed, based on the relationship between the leaves and soil concentration of the heavy metals. For heavy metal analysis in leaves and soil samples of each plant species, atomic absorption spectrometry was used. The results showed that P. cecropiifolia had the highest bioconcentration factor for lead, C. odorata for cadmium and nickel, and I. edulis had the highest potential for iron and aluminium absorption. Any kind of correlation between the concentration of each element in soil and leaves was found, which shows that the bioaccumulation capacity of the species studied does not determine the concentration of metals in the soil.