Abstract
This investigation focused on the qualitative and quantitative composition of polyphenolic compounds of Mediterranean northern shore Cistus creticus and six further, partly sympatric Cistus species (C. albidus, C. crispus, C. ladanifer, C. monspeliensis, C. parviflorus, C. salviifolius). Aqueous extracts of 1153 individual plants from 13 countries were analyzed via high performance liquid chromatography (HPLC). The extracts of C. creticus were primarily composed of two ellagitannins (punicalagin and punicalagin gallate) and nine flavonol glycosides (myricetin and quercetin glycosides, with m-3-O-rhamnoside as the dominant main compound). Differences in the proportions of punicalagin derivatives and flavonol glycosides allowed the classification into two chemovariants. Plants containing punicalagin derivatives and flavonol glycosides were especially abundant in the western and central Mediterranean areas and in Cyprus. From Albania eastwards, punicalagin and punicalagin gallate were of much lesser importance and the predominant chemovariant there was a nearly pure flavonol type. With its two chemovariants, C. creticus takes a central position between the flavonol-rich, purple-flowered clade (besides C. creticus, here represented by C. albidus and C. crispus) and the more ellagitannin-rich, white- or whitish-pink-flowered clade (here represented by C. ladanifer, C. monspeliensis, C. parviflorus and C. salviifolius). The median antioxidative capacity of C. creticus plant material was, with 166 mg Trolox equivalents/g dry wt, about half of the antioxidative capacity of C. ladanifer (301 mg te/g dry wt), the species with the highest antioxidative potential.
Highlights
Cistus L. (Cistaceae, Malvales) comprises about 20 frutescent and suffrutescent shrub species distributed in the Mediterranean, on the Canary Islands and on Madeira
C. creticus takes a central position between the flavonol-rich, purple-flowered clade and the more ellagitannin-rich, white- or whitish-pink-flowered clade
Based on compound tables of the relevant literature, we initially focused on such myricetin and quercetin glycosides and were surprised by the appearance of four additional prominent peaks that eluted much earlier and exhibited distinct UV spectra
Summary
Cistus L. (Cistaceae, Malvales) comprises about 20 frutescent and suffrutescent shrub species distributed in the Mediterranean, on the Canary Islands and on Madeira. The latest taxonomic treatments based on molecular phylogenetics and pollen analyses recognized a well-supported, purple-flowered clade (equivalent to subgenus Cistus and including all pink-flowered Cistus species except for C. parviflorus) and a second, sometimes weakly supported white- and whitish-pink-flowered clade (comprising the two subgenera Leucocistus and Halimioides and C. parviflorus) [1,2]. C. incanus auct., C. villosus L.) is a prominent member of the smaller, purple-flowered clade and one of the few Cistus species widely distributed in the eastern Mediterranean. The high morphological variability is reflected in the plethora of scientific names given to the presently recognized C. creticus to distinguish the various kinds of variation. Based on morphological and phytochemical characteristics, some authors recognized three subspecies, Cistus creticus subsp. Corsicus (Loisel.) Greuter and Burdet (both poor in essential oil) and C. creticus subsp. Based on morphological and phytochemical characteristics, some authors recognized three subspecies, Cistus creticus subsp. eriocephalus (Viv.) Greuter and Burdet, C. creticus subsp. corsicus (Loisel.) Greuter and Burdet (both poor in essential oil) and C. creticus subsp. creticus, rich in essential oil (e.g., [4,5,6])
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