AI Article Synopsis
- Burdekin plum (BP) is a native Australian fruit with notable traditional uses, but limited information on its nutritional value and storage changes exists.
- Proximate analysis showed that BP has high dietary fiber (7-10 g/100 g), but storage for a week at room temperature led to significant weight (15-30%) and firmness loss (60-90%), along with changes in color and increased soluble solids (from 11 to 21 °Brix).
- Key nutrients in BP included vitamin C (29-59 mg/100g) and folate (0.3-5.9 μg/100g), plus a wide array of phenolic compounds that showcase strong antioxidant properties and notable sensory diversity in taste,
Article Abstract
, commonly known as Burdekin plum (BP), is among many Australian native plants traditionally used by Indigenous people. However, only limited information is available on the nutritional and sensory quality of BP grown in Australia as well as its changes during storage. Therefore, this study evaluated the quality of BP during one week of ambient storage (temperature 21 °C, humidity 69%). Proximate analysis revealed a relatively high dietary fiber content in BP (7-10 g/100 g FW). A significant reduction in fruit weight and firmness (15-30% and 60-90%, respectively) with distinguishable changes in flesh color (ΔE > 3) and an increase in total soluble solids (from 11 to 21 °Brix) could be observed during storage. The vitamin C and folate contents in BP ranged from 29 to 59 mg/100g FW and 0.3 to 5.9 μg/100g FW, respectively, after harvesting. A total phenolic content of up to 20 mg GAE/g FW and ferric reducing antioxidant power of up to 400 μmol Fe/g FW in BP indicate a strong antioxidant capacity. In total, 34 individual phenolic compounds were tentatively identified in BP including cyanidin 3-galactoside, ellagic acid and gallotannins as the main phenolics. Principle component analysis (PCA) of the quantified phenolics indicated that tree to tree variation had a bigger impact on the phenolic composition of BP than ambient storage. Sensory evaluation also revealed the diversity in aroma, appearance, texture, flavor and aftertaste of BP. The results of this study provide crucial information for consumers, growers and food processors.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9958931 | PMC |
| http://dx.doi.org/10.3390/molecules28041608 | DOI Listing |
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