Sensory quality of Citrus scion hybrids with Poncirus trifoliata in their pedigrees

Hybrids of Poncirus trifoliata L. Raf. with Citrus have shown degrees of tolerance to the deadly citrus greening disease, hence prompting interest as potential commercial varieties. Although P. trifoliata is known to produce fruit that is inedible, fruit from many advanced hybrid trees have not been...

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Veröffentlicht in:	Journal of food science 2023-04, Vol.88 (4), p.1684-1699
Hauptverfasser:	Deterre, Sophie C., Jeffries, Kristen A., McCollum, Greg, Stover, Ed, Leclair, Clotilde, Manthey, John A., Bai, Jinhe, Baldwin, Elizabeth A., Raithore, Smita, Plotto, Anne
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Schlagworte:	acids Aldehydes Bacterial diseases chemical composition Citrus - chemistry Citrus - genetics Citrus fruits Citrus greening Citrus sinensis - chemistry Citrus × P. trifoliata hybrids Commercialization Eating quality Esters Flavors Fruits Hybrids juice flavor Linalool Mandarins Metabolites Monoterpenes Odor Odors Off flavor partial least square regression Pedigree Plant bacterial diseases Plant Breeding Plant diseases Poncirus Poncirus - genetics Poncirus trifoliata Secondary metabolites sensory analysis Sensory evaluation Sensory properties Sour taste Sourness sugars Sweetness Taste
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creator	Deterre, Sophie C. Jeffries, Kristen A. McCollum, Greg Stover, Ed Leclair, Clotilde Manthey, John A. Bai, Jinhe Baldwin, Elizabeth A. Raithore, Smita Plotto, Anne
description	Hybrids of Poncirus trifoliata L. Raf. with Citrus have shown degrees of tolerance to the deadly citrus greening disease, hence prompting interest as potential commercial varieties. Although P. trifoliata is known to produce fruit that is inedible, fruit from many advanced hybrid trees have not been evaluated for their quality potential. The sensory quality of selected Citrus hybrids with varying degrees of P. trifoliata in their pedigrees is reported herein. Four Citrus × P. trifoliata hybrids developed through the USDA Citrus scion breeding program—1‐76‐100, 1‐77‐105, 5‐18‐24, and 5‐18‐31—had acceptable eating quality and sweet and sour taste, with mandarin, orange, fruity–noncitrus, and floral flavors. On the other hand, hybrids with higher proportion of P. trifoliata in their pedigrees, US 119 and 6‐23‐20, produced a juice characterized by green, cooked, bitter, and Poncirus‐like flavor and aftertaste. Partial least square regressions revealed that the Poncirus‐like off‐flavor is likely due to a combination of higher than typical amounts of sesquiterpene hydrocarbons (woody/green odor), monoterpenes (citrus/pine), and terpene esters (floral) and a lack of aldehydes with typical citrus odor (octanal, nonanal, and decanal). Sweetness and sourness were mostly explained by high sugars and acids, respectively. Further, carvones and linalool contributed to sweetness in the samples from early and late seasons, respectively. In addition to highlighting chemical contributors to sensory descriptors in Citrus × P. trifoliata hybrids, this study provides useful information on sensory quality for future citrus breeding efforts. Practical Application The relationships between the sensory quality and secondary metabolites of Citrus × P. trifoliata hybrids described in this study help identify disease‐resistant Citrus scion hybrids with acceptable flavor and help mobilize this resistance in future breeding efforts. It also shows potential of such hybrids to be commercialized.
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Raf. with Citrus have shown degrees of tolerance to the deadly citrus greening disease, hence prompting interest as potential commercial varieties. Although P. trifoliata is known to produce fruit that is inedible, fruit from many advanced hybrid trees have not been evaluated for their quality potential. The sensory quality of selected Citrus hybrids with varying degrees of P. trifoliata in their pedigrees is reported herein. Four Citrus × P. trifoliata hybrids developed through the USDA Citrus scion breeding program—1‐76‐100, 1‐77‐105, 5‐18‐24, and 5‐18‐31—had acceptable eating quality and sweet and sour taste, with mandarin, orange, fruity–noncitrus, and floral flavors. On the other hand, hybrids with higher proportion of P. trifoliata in their pedigrees, US 119 and 6‐23‐20, produced a juice characterized by green, cooked, bitter, and Poncirus‐like flavor and aftertaste. Partial least square regressions revealed that the Poncirus‐like off‐flavor is likely due to a combination of higher than typical amounts of sesquiterpene hydrocarbons (woody/green odor), monoterpenes (citrus/pine), and terpene esters (floral) and a lack of aldehydes with typical citrus odor (octanal, nonanal, and decanal). Sweetness and sourness were mostly explained by high sugars and acids, respectively. Further, carvones and linalool contributed to sweetness in the samples from early and late seasons, respectively. In addition to highlighting chemical contributors to sensory descriptors in Citrus × P. trifoliata hybrids, this study provides useful information on sensory quality for future citrus breeding efforts. Practical Application The relationships between the sensory quality and secondary metabolites of Citrus × P. trifoliata hybrids described in this study help identify disease‐resistant Citrus scion hybrids with acceptable flavor and help mobilize this resistance in future breeding efforts. It also shows potential of such hybrids to be commercialized.</description><identifier>ISSN: 0022-1147</identifier><identifier>EISSN: 1750-3841</identifier><identifier>DOI: 10.1111/1750-3841.16499</identifier><identifier>PMID: 36905139</identifier><language>eng</language><publisher>United States: Wiley Subscription Services, Inc</publisher><subject>acids ; Aldehydes ; Bacterial diseases ; chemical composition ; Citrus - chemistry ; Citrus - genetics ; Citrus fruits ; Citrus greening ; Citrus sinensis - chemistry ; Citrus × P. trifoliata hybrids ; Commercialization ; Eating quality ; Esters ; Flavors ; Fruits ; Hybrids ; juice flavor ; Linalool ; Mandarins ; Metabolites ; Monoterpenes ; Odor ; Odors ; Off flavor ; partial least square regression ; Pedigree ; Plant bacterial diseases ; Plant Breeding ; Plant diseases ; Poncirus ; Poncirus - genetics ; Poncirus trifoliata ; Secondary metabolites ; sensory analysis ; Sensory evaluation ; Sensory properties ; Sour taste ; Sourness ; sugars ; Sweetness ; Taste</subject><ispartof>Journal of food science, 2023-04, Vol.88 (4), p.1684-1699</ispartof><rights>Published 2023. 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Raf. with Citrus have shown degrees of tolerance to the deadly citrus greening disease, hence prompting interest as potential commercial varieties. Although P. trifoliata is known to produce fruit that is inedible, fruit from many advanced hybrid trees have not been evaluated for their quality potential. The sensory quality of selected Citrus hybrids with varying degrees of P. trifoliata in their pedigrees is reported herein. Four Citrus × P. trifoliata hybrids developed through the USDA Citrus scion breeding program—1‐76‐100, 1‐77‐105, 5‐18‐24, and 5‐18‐31—had acceptable eating quality and sweet and sour taste, with mandarin, orange, fruity–noncitrus, and floral flavors. On the other hand, hybrids with higher proportion of P. trifoliata in their pedigrees, US 119 and 6‐23‐20, produced a juice characterized by green, cooked, bitter, and Poncirus‐like flavor and aftertaste. Partial least square regressions revealed that the Poncirus‐like off‐flavor is likely due to a combination of higher than typical amounts of sesquiterpene hydrocarbons (woody/green odor), monoterpenes (citrus/pine), and terpene esters (floral) and a lack of aldehydes with typical citrus odor (octanal, nonanal, and decanal). Sweetness and sourness were mostly explained by high sugars and acids, respectively. Further, carvones and linalool contributed to sweetness in the samples from early and late seasons, respectively. In addition to highlighting chemical contributors to sensory descriptors in Citrus × P. trifoliata hybrids, this study provides useful information on sensory quality for future citrus breeding efforts. Practical Application The relationships between the sensory quality and secondary metabolites of Citrus × P. trifoliata hybrids described in this study help identify disease‐resistant Citrus scion hybrids with acceptable flavor and help mobilize this resistance in future breeding efforts. 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Raf. with Citrus have shown degrees of tolerance to the deadly citrus greening disease, hence prompting interest as potential commercial varieties. Although P. trifoliata is known to produce fruit that is inedible, fruit from many advanced hybrid trees have not been evaluated for their quality potential. The sensory quality of selected Citrus hybrids with varying degrees of P. trifoliata in their pedigrees is reported herein. Four Citrus × P. trifoliata hybrids developed through the USDA Citrus scion breeding program—1‐76‐100, 1‐77‐105, 5‐18‐24, and 5‐18‐31—had acceptable eating quality and sweet and sour taste, with mandarin, orange, fruity–noncitrus, and floral flavors. On the other hand, hybrids with higher proportion of P. trifoliata in their pedigrees, US 119 and 6‐23‐20, produced a juice characterized by green, cooked, bitter, and Poncirus‐like flavor and aftertaste. Partial least square regressions revealed that the Poncirus‐like off‐flavor is likely due to a combination of higher than typical amounts of sesquiterpene hydrocarbons (woody/green odor), monoterpenes (citrus/pine), and terpene esters (floral) and a lack of aldehydes with typical citrus odor (octanal, nonanal, and decanal). Sweetness and sourness were mostly explained by high sugars and acids, respectively. Further, carvones and linalool contributed to sweetness in the samples from early and late seasons, respectively. In addition to highlighting chemical contributors to sensory descriptors in Citrus × P. trifoliata hybrids, this study provides useful information on sensory quality for future citrus breeding efforts. Practical Application The relationships between the sensory quality and secondary metabolites of Citrus × P. trifoliata hybrids described in this study help identify disease‐resistant Citrus scion hybrids with acceptable flavor and help mobilize this resistance in future breeding efforts. It also shows potential of such hybrids to be commercialized.</abstract><cop>United States</cop><pub>Wiley Subscription Services, Inc</pub><pmid>36905139</pmid><doi>10.1111/1750-3841.16499</doi><tpages>16</tpages><orcidid>https://orcid.org/0000-0002-4183-5077</orcidid></addata></record>
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subjects	acids Aldehydes Bacterial diseases chemical composition Citrus - chemistry Citrus - genetics Citrus fruits Citrus greening Citrus sinensis - chemistry Citrus × P. trifoliata hybrids Commercialization Eating quality Esters Flavors Fruits Hybrids juice flavor Linalool Mandarins Metabolites Monoterpenes Odor Odors Off flavor partial least square regression Pedigree Plant bacterial diseases Plant Breeding Plant diseases Poncirus Poncirus - genetics Poncirus trifoliata Secondary metabolites sensory analysis Sensory evaluation Sensory properties Sour taste Sourness sugars Sweetness Taste
title	Sensory quality of Citrus scion hybrids with Poncirus trifoliata in their pedigrees
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