AI Article Synopsis
- Chlorophyll content in lichens serves as an important indicator for assessing lichen health and how they respond to environmental conditions, but traditional extraction methods can be destructive and impractical for large-scale studies.
- The study compared two portable non-destructive chlorophyll meters (SPAD-502 and CCM-300) against traditional dimethyl sulphoxide extraction methods, focusing on seven foliose lichen species.
- While the non-destructive methods showed significant correlation with chlorophyll levels in chlorolichens, they faced limitations in measuring pigment content accurately in cyanolichens, particularly those with gelatinous characteristics.
Article Abstract
Chlorophyll content in lichens is routinely used as an accurate indicator of lichen vigor, interspecific differences, and the effect of site-related environmental parameters. Traditional methods of chlorophyll extraction are destructive, time-consuming, expensive, and inoperable, especially when measuring large quantities of chlorophyll. However, non-destructive methods of measurement using portable chlorophyll meters are rarely used for lichens. Considering the characteristics of lichens such as rough blade surface and absence of chlorophyll b in cyanolichens, we compared the non-destructive methods with traditional methods and evaluated their applicability in studying lichen pigment content. Two instruments, SPAD-502 and CCM-300, were used to measure the pigment content of seven foliose lichen species. These pigment readings were compared with those determined using the dimethyl sulphoxide (DMSO) extraction method. Significant correlations were observed between SPAD/CCM values and pigments (chlorophyll and total carotenoids) extracted from chlorolichens, especially species with a smooth surface. The CCM-300 was more accurate in detecting the pigment content of foliose chlorolichens. However, both instruments showed certain limitations in the determination of pigment content in cyanolichens, especially gelatinous species. For example, CCM-300 often failed to give specific values for some cyanolichen samples, and both instruments showed low measurement accuracy for cyanolichens. Based on the high correlation observed between chlorophyll meter readings and pigments extracted from chlorolichens, equations obtained in this study enabled accurate prediction of pigment content in these lichens.
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| http://dx.doi.org/10.1007/s11120-019-00624-x | DOI Listing |
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