Optimization of extraction using surface response methodology and quantification of cannabinoids in female inflorescences of marijuana (Cannabis sativa L.) at three altitudinal floors of Peru

IF 1.8 Q2 AGRICULTURE, MULTIDISCIPLINARY
Clara Espinoza-Silva, Erika Pascual, Yacnehs Delgadillo, Omar R. Flores, Luis M. Artica, Doris Marmolejo, Lilian Baños-Medina
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Abstract

Abstract The aim of this study was to extract and quantify cannabinoids from female inflorescences of Cannabis sativa L. from three altitudinal floors of Peru, by optimizing the amplitude, time, and methanol concentration in the ultrasound-assisted extraction required to maximize cannabidiol (CBD), delta-9-tetrahydrocannabinol (Δ9-THC) content, and yields. Optimal extraction conditions were determined by response surface and the central composite design was used. The quadratic model was adequate for yield, Δ9-THC, and CBD with R 2 values of 0.998, 0.985, and 0.991 respectively. Optimal conditions were 99% radiation amplitude, 20 min extraction time, and 96% ethanol concentration. The optimized extract of C. sativa L. inflorescences had a yield of 24.12%, 0.62% CBD, and 5.973% THC. The content of cannabinoids studied in the Junín Region at altitudes between 2,070 and 3,274 m above sea level (m asl) had a CBD content between 0.1 and 0.4%, THC between 2.2 and 6%, and yield of 10–24%; in the Ayacucho region at an altitude of 2,627 m asl the CBD content was between 0.62 and 0.65%, THC was 6.21–6.72%, and yield of 23.8–24%; and in the Huánuco region at altitude of 660–711 m asl it had a CBD content between 0.55 and 0.65%, THC from 8.11 to 8.92%, and yield from 24.3 to 29.7%. It was concluded from the present work that the parameters such as amplitude, time, and solvent directly influence the extraction yield, in the same way the altitude influences the content of cannabinoids, being lower yields at higher planting altitude.
表面响应法优化秘鲁3个海拔层大麻(Cannabis sativa L.)雌花花序中大麻素的提取及含量测定
摘要本研究的目的是通过优化超声辅助提取大麻二酚(CBD)、δ -9-四氢大麻酚(Δ9-THC)含量和得率所需的振幅、时间和甲醇浓度,从秘鲁三个垂直楼层的大麻(Cannabis sativa L.)雌花花序中提取并定量大麻素。通过响应面法确定最佳提取条件,并采用中心组合设计。二次模型对产量、Δ9-THC和CBD均适用,r2值分别为0.998、0.985和0.991。最佳提取条件为:辐射振幅99%,提取时间20 min,乙醇浓度96%。优化后的红花提取物的CBD提取率为24.12%,THC提取率为0.62%,THC提取率为5.973%。在海拔2070 ~ 3274 m (m asl)的Junín地区所研究的大麻素含量,CBD含量为0.1 ~ 0.4%,THC含量为2.2 ~ 6%,产量为10 ~ 24%;在海拔2627 m的阿亚库乔地区,CBD含量为0.62 ~ 0.65%,四氢大麻酚含量为6.21 ~ 6.72%,产量为23.8 ~ 24%;在海拔660 ~ 711 m的Huánuco地区,CBD含量为0.55 ~ 0.65%,THC含量为8.11% ~ 8.92%,产量为24.3% ~ 29.7%。结果表明,振幅、时间、溶剂等参数直接影响大麻素提取得率,海拔对大麻素含量也有影响,海拔越高大麻素产量越低。
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来源期刊
Open Agriculture
Open Agriculture AGRICULTURE, MULTIDISCIPLINARY-
CiteScore
3.80
自引率
4.30%
发文量
61
审稿时长
9 weeks
期刊介绍: Open Agriculture is an open access journal that publishes original articles reflecting the latest achievements on agro-ecology, soil science, plant science, horticulture, forestry, wood technology, zootechnics and veterinary medicine, entomology, aquaculture, hydrology, food science, agricultural economics, agricultural engineering, climate-based agriculture, amelioration, social sciences in agriculuture, smart farming technologies, farm management.
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