Changes in flavor profile of vegetable seasonings by innovative drying technologies: A review

Clinton E. Okonkwo; Helen Onyeaka; Abiola F. Olaniran; Folayemi Janet Isaac-Bamgboye; Ogueri Nwaiwu; Michael Ukwuru; Adeyemi A. Adeyanju; Charles Obiora Nwonuma; Omokolade Oluwaseyi Alejolowo; Adejumoke A. Inyinbor; Adenike Akinsemolu; Cunshan Zhou

doi:10.1111/1750-3841.17346

Changes in flavor profile of vegetable seasonings by innovative drying technologies: A review

Clinton E. Okonkwo, Helen Onyeaka, Abiola F. Olaniran, Folayemi Janet Isaac-Bamgboye, Ogueri Nwaiwu, Michael Ukwuru, Adeyemi A. Adeyanju, Charles Obiora Nwonuma, Omokolade Oluwaseyi Alejolowo, Adejumoke A. Inyinbor, Adenike Akinsemolu, Cunshan Zhou

Research output: Contribution to journal › Review article › peer-review

4 Citations (Scopus)

Abstract

Abstract: Seasonings like garlic, ginger, and scallion provide spicy and masking flavor or aroma in vegetables. However, the method or technique used for drying these spices can affect the flavor profile. Therefore, this review focuses on vegetable seasonings like ginger, garlic, and scallion, the characteristic flavor of fresh and dehydrated vegetable seasoning, and how drying methods (freeze-drying [FD], convective hot air drying [HAD], infrared drying, microwave drying [MW]), and other recent dryers (swirling fluidized bed [SFB], pulsed-vacuum dryer, relative humidity-convective dryer, etc.) affect the flavor profile of the common vegetable seasonings. HAD increases α-zingiberene, reduces gingerol, and forms β-citral and citral in fresh ginger. FD increased sesquiterpenes, retained terpenoids, sulfides, and other volatiles in fresh ginger, and did not produce new volatile compounds (VOCs) in garlic. SFB drying better preserves 6-gingerol than FD and HAD. MW increases trisulfides and cyclic sulfur compounds in garlic. In general, drying, especially thermal drying reduces the VOCs in fresh garlic, ginger, and scallion and causes the formation of new VOCs.

Original language	English
Pages (from-to)	6818-6838
Number of pages	21
Journal	Journal of Food Science
Volume	89
Issue number	11
DOIs	https://doi.org/10.1111/1750-3841.17346
Publication status	Published - Nov 2024
Externally published	Yes

Keywords

drying
flavor
garlic
ginger
scallion

ASJC Scopus subject areas

Food Science

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10.1111/1750-3841.17346

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Okonkwo, C. E., Onyeaka, H., Olaniran, A. F., Isaac-Bamgboye, F. J., Nwaiwu, O., Ukwuru, M., Adeyanju, A. A., Nwonuma, C. O., Alejolowo, O. O., Inyinbor, A. A., Akinsemolu, A., & Zhou, C. (2024). Changes in flavor profile of vegetable seasonings by innovative drying technologies: A review. Journal of Food Science, 89(11), 6818-6838. https://doi.org/10.1111/1750-3841.17346

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title = "Changes in flavor profile of vegetable seasonings by innovative drying technologies: A review",

abstract = "Abstract: Seasonings like garlic, ginger, and scallion provide spicy and masking flavor or aroma in vegetables. However, the method or technique used for drying these spices can affect the flavor profile. Therefore, this review focuses on vegetable seasonings like ginger, garlic, and scallion, the characteristic flavor of fresh and dehydrated vegetable seasoning, and how drying methods (freeze-drying [FD], convective hot air drying [HAD], infrared drying, microwave drying [MW]), and other recent dryers (swirling fluidized bed [SFB], pulsed-vacuum dryer, relative humidity-convective dryer, etc.) affect the flavor profile of the common vegetable seasonings. HAD increases α-zingiberene, reduces gingerol, and forms β-citral and citral in fresh ginger. FD increased sesquiterpenes, retained terpenoids, sulfides, and other volatiles in fresh ginger, and did not produce new volatile compounds (VOCs) in garlic. SFB drying better preserves 6-gingerol than FD and HAD. MW increases trisulfides and cyclic sulfur compounds in garlic. In general, drying, especially thermal drying reduces the VOCs in fresh garlic, ginger, and scallion and causes the formation of new VOCs.",

keywords = "drying, flavor, garlic, ginger, scallion",

author = "Okonkwo, {Clinton E.} and Helen Onyeaka and Olaniran, {Abiola F.} and Isaac-Bamgboye, {Folayemi Janet} and Ogueri Nwaiwu and Michael Ukwuru and Adeyanju, {Adeyemi A.} and Nwonuma, {Charles Obiora} and Alejolowo, {Omokolade Oluwaseyi} and Inyinbor, {Adejumoke A.} and Adenike Akinsemolu and Cunshan Zhou",

note = "Publisher Copyright: {\textcopyright} 2024 Institute of Food Technologists.",

year = "2024",

month = nov,

doi = "10.1111/1750-3841.17346",

language = "English",

volume = "89",

pages = "6818--6838",

journal = "Journal of Food Science",

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T1 - Changes in flavor profile of vegetable seasonings by innovative drying technologies

T2 - A review

AU - Okonkwo, Clinton E.

AU - Onyeaka, Helen

AU - Olaniran, Abiola F.

AU - Isaac-Bamgboye, Folayemi Janet

AU - Nwaiwu, Ogueri

AU - Ukwuru, Michael

AU - Adeyanju, Adeyemi A.

AU - Nwonuma, Charles Obiora

AU - Alejolowo, Omokolade Oluwaseyi

AU - Inyinbor, Adejumoke A.

AU - Akinsemolu, Adenike

AU - Zhou, Cunshan

PY - 2024/11

Y1 - 2024/11

N2 - Abstract: Seasonings like garlic, ginger, and scallion provide spicy and masking flavor or aroma in vegetables. However, the method or technique used for drying these spices can affect the flavor profile. Therefore, this review focuses on vegetable seasonings like ginger, garlic, and scallion, the characteristic flavor of fresh and dehydrated vegetable seasoning, and how drying methods (freeze-drying [FD], convective hot air drying [HAD], infrared drying, microwave drying [MW]), and other recent dryers (swirling fluidized bed [SFB], pulsed-vacuum dryer, relative humidity-convective dryer, etc.) affect the flavor profile of the common vegetable seasonings. HAD increases α-zingiberene, reduces gingerol, and forms β-citral and citral in fresh ginger. FD increased sesquiterpenes, retained terpenoids, sulfides, and other volatiles in fresh ginger, and did not produce new volatile compounds (VOCs) in garlic. SFB drying better preserves 6-gingerol than FD and HAD. MW increases trisulfides and cyclic sulfur compounds in garlic. In general, drying, especially thermal drying reduces the VOCs in fresh garlic, ginger, and scallion and causes the formation of new VOCs.

AB - Abstract: Seasonings like garlic, ginger, and scallion provide spicy and masking flavor or aroma in vegetables. However, the method or technique used for drying these spices can affect the flavor profile. Therefore, this review focuses on vegetable seasonings like ginger, garlic, and scallion, the characteristic flavor of fresh and dehydrated vegetable seasoning, and how drying methods (freeze-drying [FD], convective hot air drying [HAD], infrared drying, microwave drying [MW]), and other recent dryers (swirling fluidized bed [SFB], pulsed-vacuum dryer, relative humidity-convective dryer, etc.) affect the flavor profile of the common vegetable seasonings. HAD increases α-zingiberene, reduces gingerol, and forms β-citral and citral in fresh ginger. FD increased sesquiterpenes, retained terpenoids, sulfides, and other volatiles in fresh ginger, and did not produce new volatile compounds (VOCs) in garlic. SFB drying better preserves 6-gingerol than FD and HAD. MW increases trisulfides and cyclic sulfur compounds in garlic. In general, drying, especially thermal drying reduces the VOCs in fresh garlic, ginger, and scallion and causes the formation of new VOCs.

KW - drying

KW - flavor

KW - garlic

KW - ginger

KW - scallion

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EP - 6838

JO - Journal of Food Science

JF - Journal of Food Science

IS - 11

ER -

Changes in flavor profile of vegetable seasonings by innovative drying technologies: A review

Abstract

Keywords

ASJC Scopus subject areas

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