Journal
SCIENTIA HORTICULTURAE
Volume 294, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.scienta.2021.110780
Keywords
Acidity; Apricot germplasm; Apricot fruit breeding; Fruit quality; Prunus armeniaca; Organic acids
Categories
Funding
- MAS.PES project (Italian project)
- PRIMA-FREECLIMB international project
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A study evaluated 164 apricot accessions for various fruit attributes and emphasized on the composition of ten organic acids in flesh and skin tissues. The results revealed a significant diversity among apricot germplasm, serving as a valuable genetic resource for long-term preservation and exploitation in breeding programs focused on fruit quality enhancements.
Consumers continuously report a lack of taste in many apricot cultivars currently available on the market, highlighting the necessity of renewing the apricot varietal landscape grown worldwide. Sugars and acids content largely affect sweetness and aroma perception, being an important driving factor of consumers' preferences and purchase. In this work, a large apricot germplasm collection of 164 accessions was evaluated for several fruit organoleptic attributes: maturity date, fresh fruit weight, flesh firmness, soluble solids content, titratable acidity and organic acid content separated for fruit flesh and skin and dry matter. A major focus was reserved to ten organic acids (cis-aconitate, citrate, fumarate, galacturonate, malate, oxalate, quinate, shikimate, succinate and tartrate) composition in both flesh and skin tissues, quantified by HPLC technique coupled to UHPLC-HRMS. Malate, citrate and succinate were the most abundant, accounting for 98.5% and 97.2% of the total organic acids in fruit flesh and skin, respectively. The tested accessions showed consistent fruit acidity contents and almost similar organic acids profiles between flesh and skin, albeit some exceptions of acidity higher in flesh than in skin -and viceversa- occurred. This work highlights an extremely large diversity in apricot germplasm, representing a valuable genetic resource to be long term preserved and exploited in new fruit-quality oriented breeding programs. Also, a better understanding of phenotypic diversity will help the characterization of apricot accessions and a more effective management of germplasm for selecting phenotypes with improved taste.
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