Autor: |
Port RK; Universidade Feevale, Laboratório de Botânica, Rodovia RS 239, 2755, Bairro Vila Nova, CEP, Novo Hamburgo, RS, 93352-075, Brazil., Käffer MI; Universidade Feevale, Laboratório de Botânica, Rodovia RS 239, 2755, Bairro Vila Nova, CEP, Novo Hamburgo, RS, 93352-075, Brazil. mkaffer9617@gmail.com.; Universidade Feevale, Programa de Pós-Graduação em Qualidade Ambiental, Rodovia RS 239, 2755, Bairro Vila Nova, CEP, Novo Hamburgo, RS, 93352-075, Brazil. mkaffer9617@gmail.com., Schmitt JL; Universidade Feevale, Laboratório de Botânica, Rodovia RS 239, 2755, Bairro Vila Nova, CEP, Novo Hamburgo, RS, 93352-075, Brazil.; Universidade Feevale, Programa de Pós-Graduação em Qualidade Ambiental, Rodovia RS 239, 2755, Bairro Vila Nova, CEP, Novo Hamburgo, RS, 93352-075, Brazil. |
Abstrakt: |
Anthropic activities such as the emission of pollutants resulting from industrial and agropastoral activities promote several changes in urban and forest areas. Lichens are organisms that are used in air quality evaluations due to their sensitivity to these changes. The aim of this study is to analyze the presence of morphophysiological damages and the metal concentration in samples of the lichen Parmotrema tinctorum, in urban and forest areas, checking for possible parameter variations between these areas, in the different matrices and seasons in the Southern region of Brazil. Six areas were selected (urban and forest), assigned to the rural/urban and urban/industrial matrices belonging to the watershed of the Rio dos Sinos, Brazil. The following parameters were analyzed: Index of photobiont vitality (IPV), photosynthetic pigments (chlorophyll, carotene, and pheophytin) and metals (Cu, Cr, Zn, Pb, and Ni) in the thallus of the lichen. The data were analyzed by an ANOVA one way, Pearson correlation test, and principal component analysis (PCA). Variations in the morphophysiological parameters were recorded in all the areas revealing significant differences. The lowest IPV values and highest concentration of metals were recorded in the urban environment, while low chlorophyll levels were found in the forest areas. The PCA showed a distinction between the areas and the season. The level of urbanization, vehicle traffic, and the weather conditions might have influenced the results. The use of P. tinctorum, the index of photobiont vitality and chlorophyll and pheophytin content, has proved to be an efficient tool to diagnose the air quality in the areas analyzed, allowing its use as a model in air monitoring studies, both in urban and forest areas, as well as in distinct matrices in the subtropical region. |