Chemotaxonomy of Vitex negundo L. essential oil from six states of the northcentral geopolitical zone of Nigeria Bamidele Okoli1,*, Ladan Zakari2, Edith Ihegwuagu Nnemeka3, Mtunzi Fanyana4 1Department of Chemical Sciences, Faculty of Science and Technology, Bingham University, PMB 005, Karu, Nasarawa State, Nigeria 2Department of Pure and Applied Chemistry, Faculty of Science, Kaduna State University, Kaduna State, Nigeria 3Plant Resources Department, Agricultural Research Council of Nigeria (ARCN), Abuja, Nigeria 4Institute of Chemical and Biotechnology, Vaal University of Technology, Southern Gauteng Science and Technology Park, Private Bag X021, Vanderbijlpark-1911, South Africa *Corresponding author e-mail: okolibj@binghamuni.edu.ng
Online Published on 30 November, 2022. Abstract Vitex negundo L., has been associated with a number of pharmacological activities, including enzyme inhibition, antifeeding action, larvicidal activity, and mosquito repellent effect. Between June and September, 50 kg of plant material each were collected from six states in the North-Central geopolitical zone to explore the chemotaxonomical variation of the V. negundo essential oil yield and composition. For extraction, a custom-designed essential oil plant based on the steam distillation principle was employed, and for characterization, a Varian CP-3800 gas chromatograph with an HP-5 capillary column was used. Essential oil yields varied from 0.03 to 0.48% depending on weather factors and soil substructure type. Niger and Kogi samples had the largest and lowest essential oil production, respectively. Furthermore, the yields from Nassarawa, Plateau, and Kwara did not differ substantially (p > 0.05). The volatile oils had a wide range of compositions, according to GC-MS studies. Monoterpenes account for the bulk of the active components, accounting for 74.65–96.23 percent, with sesquiterpenes contributing about 0.75–16.32%. The most common monoterpenes (10%) found in V. negundo essential oil throughout the six states were α-phellandrene (20.27–34.65%), sabinene (11.31%–12.21%), β-pinene (42.04%), p-cymene, and myrcene (16.78%). Regardless of origin, all essential oil samples included α-pinene, linalool, cis-sabinene hydrate, citronellal, verbenone, and bornyl acetate. Finally, climate and soil type impact the quantity and content of essential oils. These chemical markers may be used to identify V. negundo essential oil. Top Keywords Vitex negundo, Essential oils, Monoterpenes, Chemotaxonomical variation, North-central geopolitical zone, Sesquiterpenes. Top |