Abstract

This study aimed to establish NaDES-based ultrasound-assisted extraction as a novel, sustainable, and ecologically suitable method for valorisation of black raspberry pomace remaining after juice production. Accordingly, a range of NaDESs, composed of hydrogen bond donor choline chloride and different hydrogen bond acceptors were screened to select the most appropriate for cyanidin-3- O -rutinoside and total anthocyanins extraction from black raspberry pomace, and to compare with conventional solvents. In addition, the impact of hydroxypropyl- β -cyclodextrin (HP- β -CD) on anthocyanins extraction capacity of NaDES and water was evaluated, as well as the influence of NaDES on anthocyanins storage stability at 4, 25 and 40°C. On the basis of cyanidin-3- O -rutinoside and total anthocyanin content (TAC), along with antioxidant activity, citric acid/choline chloride NaDES was selected for extraction conditions optimization by Box-Behnken design coupled with response surface methodology. The optimal conditions were found to be an extraction time of 52.9 min, a temperature of 65°C, and 15.6 % ( w/w ) water in NaDES, resulting in maximized extraction yields of target compounds, cyanidin-3- O -rutinoside (7.60 mg/g DW) and TAC (6.88 mg CGE/g DW). By incorporating different concentrations of HP- β -CD (1.5, 3 and 6 % w/w ) in citric acid/choline chloride NaDES, downward trend was observed, while in the case of water anthocyanins extraction was improved. A 30-day stability study revealed that NaDES provided the best anthocyanins preservation at a defined temperature range compared to extracts prepared with water, 70 % ethanol and 70 % methanol. Black raspberry pomace is a promising raw material rich in anthocyanins that can be used in green technology-oriented industries. • Black raspberry pomace is a promising raw material rich in anthocyanins. • Natural deep eutectic solvents enable green and effective extraction of bioactives. • Choline chloride/citric acid proved to be the most appropriate extraction solvent. • Cyclodextrins incorporation decreased extraction yield of anthocyanins. • Selected eutectic solvent provided the best anthocyanins stability during storage.