Abstract
This study examined the phytochemical profiles and bioactive potential of Iris alberti, I. pallasii, and I. sogdiana collected from southeastern Kazakhstan. GC-MS analysis identified fatty acids, sterols, long-chain alcohols, and hydrocarbons in each species. The key phytosterols β-sitosterol, stigmasterol, and campesterol were present in all three. I. alberti showed the highest sterol content of γ-sitosterol (28.49%) and campesterol (6.51%). I. pallasii contained significant amounts of hexacosanol (19.74%) and γ-sitosterol (13.24%), while I. sogdiana was notable for octacosanol (22.87%) and γ-sitosterol (12.18%). Fatty acid composition varied: I. sogdiana was rich in α-linolenic acid (4.77%) and palmitic acid (2.77%), I. pallasii had 3.96% and (3.48%). I. alberti contained dodecanoic acid (3.83%) and branched-chain fatty acids. Tannin content was highest in I. alberti (1.88%), while alkaloid levels were moderate across species (0.63-0.77%). Mineral analysis showed I. pallasii had the highest Ca (586.62 mg/100 g), Mg and K, whereas I. sogdiana had the highest potassium (538.36 mg/100 g). HPLC-DAD analysis revealed distinct phenolic profiles. Water-alcohol extracts from rhizomes of I. alberti had an IC(50) of 16.90 ± 6.04 µg/mL in DPPH and were inactive in ABTS. I. pallasii exhibited IC(50) values of 28.77 ± 2.93 µg/mL (DPPH) and 10.93 ± 7.29 µg/mL (ABTS), while I. sogdiana showed negligible activity in both assays. Ethyl acetate extracts displayed higher IC(50) values, consistent with lower phenolic content.