Biologia Futura, cilt.74, sa.4, ss.529-543, 2023 (SCI-Expanded)
In this study, 25 plant species growing in different habitats in Erzincan province were studied with gypsum (Ebenus macrophylla, Gypsophila lepidioides, Linum flavum, Onobrychis nitida, Paracaryum stenolophum, Psephellus recepii, Tanacetum heterotomum, Verbascum alyssifolium), limestone (Alkanna megacarpa, Alyssum sibiricum, Anthemis sp., Astragalus sp., Chrysophthalmum montanum, Ebenus laguroides, Genista aucheri, Pelargonium endlicherianum, Stachys sparsipilosa), or serpentine (Artedia squamata, Consolida olopetala, Convolvulus pseudoscammania, Erysimum pulchellum, Fumana aciphylla, Gladiolus halophilus, Hypericum thymbrifolium, Salvia indica). Within the scope of the study, element concentrations were determined in plants with different flower colors (yellow, purple–blue–pink, white) and in the soils where they grow. Our goal was to assess whether there were differences in mineral element concentrations within plants from these different areas and whether those differences (if they existed) led to changes in plant morphology, specifically flower coloration. The flowers, leaves and root parts of the collected plants and the soils of the habitats where they grow were pre-treated in the laboratory. Mineral element concentrations in the prepared samples were determined by ICP-MS. Plant and soil data obtained were statistically evaluated, and the differences between the habitats were determined. It was observed that there were differences in terms of mineral elements in the generative and vegetative parts of the plant and these differences impacted flower color; these coloration differences in plants from other areas might be used to indicate the presence of potentially important minerals.