Abstract
The black walnut, Junglas nigra, is indigenous to eastern North America, and abscission of its fruit occurs around October. The fruit consists of a husk, a hard shell, and kernel. The husk is commonly discarded in processing, though it contains phenolic compounds that exhibit antioxidant and antimicrobial properties. For this study, black walnut husks were extracted using supercritical carbon dioxide with an ethanol modifier. The effects of temperature, ethanol concentration, and drying of walnut husks prior to extraction upon antioxidant potential were evaluated using a factorial design of experiments. The solvent density was held constant at 0.75 g/mL. The optimal extraction conditions were found to be 68°C and 20 wt‐% ethanol in supercritical carbon dioxide. At these conditions, the antioxidant potential as measured by the ferric reducing ability of plasma (FRAP) assay was 0.027 mmol trolox equivalent/g (mmol TE/g) for dried walnut husk and 0.054 mmol TE/g for walnut husks that were not dried. Antioxidant potential was also evaluated using the total phenolic content (TPC) and 1,1‐diphenyl‐2‐picryl‐hydrazyl (DPPH) assays and the FRAP assay was found to linearly correlate to the TPC assay.
Highlights
IntroductionIn the United States, walnut trees are grown for lumber, with the state of Missouri being the leading producer
Walnut trees grow throughout the temperate regions of the Northern Hemisphere as well as in South America
This study demonstrates, for the first time, the extraction of antioxidants from the husk of Junglas nigra, or black walnut
Summary
In the United States, walnut trees are grown for lumber, with the state of Missouri being the leading producer. The fruit of the walnut is commonly harvested and is comprised of the nutmeat, or kernel, the shell, and the husk. (Mirjalili and Karimi 2013) Walnut husks contain a variety of phenolic antioxidant compounds. (Stampar et al 2006) many components of the walnut tree exhibit antioxidant potential, including the stem, leaf, shell, husk, kernel, and bark. (Yaylaci et al 2007; Wang et al 2015) unlike the kernel and shell, walnut husks are rarely used commercially and are often discarded. Due to the walnut husks’ high phenolic content, the husks have promising antioxidant potential and possibility for valorization
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