Wax apple fruit (Syzygium aqueum Alston cv. Taaptimjan) is a tropical
fruit with many nutritional
bioactive compounds and high economic value. However, when fully ripe,
the thin-skinned fruit is highly susceptible to physical damage and
microbial spoilage that significantly reduce its commercial value.
The present study was aimed to find a suitable ripening stage between
the ripe and overripe wax apple fruits for developing a value-added
beverage specifically cider. The chemical profiles of ripe and overripe
wax apple juice and cider were determined by measuring sugar, acid,
alcohol, mineral, proximate, ascorbic acid, amino acid, antioxidant,
and volatile levels. Overall, the results showed significant variations.
The physicochemical and proximate analysis showed highest values for
ripe fruit juice than overripe fruit juice and the cider samples.
The amino acids in the samples were found almost at similar levels.
Polyphenolic content and antioxidant activities were higher in ciders
than in unfermented juices. In addition, the overripe fruit cider
had more volatile compounds than ripe fruit cider and unfermented
juices. Overall, the overripe fruit is suitable for producing cider,
whereas the ripe fruit is more suitable for the unfermented beverages.
International audienceTree nutrient research concentrated on endogenous C and N remobilisation in spring has neglected to acknowledge the possibilities of significant effects of N uptake before bud break, especially on the quality of regrowth and N reserve remobilisation. To investigate this subject, experimental studies were performed on young poplars (Populus tremula x Populus alba, clone INRA 717-1B4) grown with a controlled nutrient supply: (i) without N, 'control'; (ii) N supplied throughout the course of the experiment, 'N-supply'; and (iii) N supplied only before bud break, 'N-pulse'. Results confirm the hypothesis that poplar scions can significantly take up nitrate before bud break, amounting to similar to 34% of the total N stored the previous year. After bud break, emerging leaves restart the sap flow, which increased nitrate uptake to support the regrowth. N-pulse and N-supply treatments were found to have significant effects shortly after a growth period, i. e. by increasing N content of all tissues (e.g. 37 and 81% in new shoots respectively), leaf area (18 and 29%) and specific leaf area (20 and 35%). Therefore, results confirm the hypothesis that early N supply plays a significant role in the N status and N remobilisation involved in the spring regrowth of young trees
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