Impact of harvesting seasons on physicochemical properties and volatile compound profiles of Malaysian stingless bee honey analysed using chemometrics and support vector machine

•Physicochemical and VOC profiles of stingless bee honey enhance honey traceability.•Specific markers can distinguish honey derived from three different stingless bee species.•These markers can also discriminate stingless bee honey based on harvesting seasons. Stingless bee honey's nutritional...

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Vydáno v:	Food chemistry Ročník 444; s. 138429
Hlavní autoři:	Sharin, Siti Nurhidayah, Abdullah Sani, Muhamad Shirwan, Kassim, Nur Kartinee, Yuswan, Mohd Hafis, Abd Aziz, Azharuddin, Jaafar, Mohd Azwan, Hashim, Amalia Mohd
Médium:	Journal Article
Jazyk:	angličtina
Vydáno:	England Elsevier Ltd 30.06.2024
Témata:	Animals Bees Chemical profiling Chemometrics food chemistry Harvesting seasons honey Honey - analysis Malaysia nutritive value Physicochemical properties Seasons species Stingless bee honey stingless bees Support Vector Machine support vector machines volatile compounds Malaysia Chemical profiling Support vector machine Harvesting seasons Stingless bee honey Physicochemical properties Chemometrics
ISSN:	0308-8146, 1873-7072, 1873-7072
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Abstract	•Physicochemical and VOC profiles of stingless bee honey enhance honey traceability.•Specific markers can distinguish honey derived from three different stingless bee species.•These markers can also discriminate stingless bee honey based on harvesting seasons. Stingless bee honey's nutritional value is gaining attention, but the impact of harvesting seasons, specifically the rainy (September 2018) and dry (February 2019) seasons in Malaysia on the honey’s physicochemical properties and volatile compounds remains insufficiently explored. This research revealed marginal differences in the physicochemical properties between seasons. However, through individual bee species and cumulative data analysis, honey samples were effectively differentiated based on harvesting seasons. A set of seventeen volatile compounds were identified as potential chemical markers for distinguishing H. bakeri, G. thoracica, and T. binghami honey between rainy and dry seasons. For cumulative data, four significant markers were proposed. These discrimination methods and chemical markers can serve as valuable references in distinguishing stingless bee honey, whether its entomological origin is specified or not between rainy and dry seasons.
AbstractList	•Physicochemical and VOC profiles of stingless bee honey enhance honey traceability.•Specific markers can distinguish honey derived from three different stingless bee species.•These markers can also discriminate stingless bee honey based on harvesting seasons. Stingless bee honey's nutritional value is gaining attention, but the impact of harvesting seasons, specifically the rainy (September 2018) and dry (February 2019) seasons in Malaysia on the honey’s physicochemical properties and volatile compounds remains insufficiently explored. This research revealed marginal differences in the physicochemical properties between seasons. However, through individual bee species and cumulative data analysis, honey samples were effectively differentiated based on harvesting seasons. A set of seventeen volatile compounds were identified as potential chemical markers for distinguishing H. bakeri, G. thoracica, and T. binghami honey between rainy and dry seasons. For cumulative data, four significant markers were proposed. These discrimination methods and chemical markers can serve as valuable references in distinguishing stingless bee honey, whether its entomological origin is specified or not between rainy and dry seasons. Stingless bee honey's nutritional value is gaining attention, but the impact of harvesting seasons, specifically the rainy (September 2018) and dry (February 2019) seasons in Malaysia on the honey's physicochemical properties and volatile compounds remains insufficiently explored. This research revealed marginal differences in the physicochemical properties between seasons. However, through individual bee species and cumulative data analysis, honey samples were effectively differentiated based on harvesting seasons. A set of seventeen volatile compounds were identified as potential chemical markers for distinguishing H. bakeri, G. thoracica, and T. binghami honey between rainy and dry seasons. For cumulative data, four significant markers were proposed. These discrimination methods and chemical markers can serve as valuable references in distinguishing stingless bee honey, whether its entomological origin is specified or not between rainy and dry seasons. Stingless bee honey's nutritional value is gaining attention, but the impact of harvesting seasons, specifically the rainy (September 2018) and dry (February 2019) seasons in Malaysia on the honey's physicochemical properties and volatile compounds remains insufficiently explored. This research revealed marginal differences in the physicochemical properties between seasons. However, through individual bee species and cumulative data analysis, honey samples were effectively differentiated based on harvesting seasons. A set of seventeen volatile compounds were identified as potential chemical markers for distinguishing H. bakeri, G. thoracica, and T. binghami honey between rainy and dry seasons. For cumulative data, four significant markers were proposed. These discrimination methods and chemical markers can serve as valuable references in distinguishing stingless bee honey, whether its entomological origin is specified or not between rainy and dry seasons.Stingless bee honey's nutritional value is gaining attention, but the impact of harvesting seasons, specifically the rainy (September 2018) and dry (February 2019) seasons in Malaysia on the honey's physicochemical properties and volatile compounds remains insufficiently explored. This research revealed marginal differences in the physicochemical properties between seasons. However, through individual bee species and cumulative data analysis, honey samples were effectively differentiated based on harvesting seasons. A set of seventeen volatile compounds were identified as potential chemical markers for distinguishing H. bakeri, G. thoracica, and T. binghami honey between rainy and dry seasons. For cumulative data, four significant markers were proposed. These discrimination methods and chemical markers can serve as valuable references in distinguishing stingless bee honey, whether its entomological origin is specified or not between rainy and dry seasons.
ArticleNumber	138429
Author	Hashim, Amalia Mohd Sharin, Siti Nurhidayah Jaafar, Mohd Azwan Kassim, Nur Kartinee Yuswan, Mohd Hafis Abd Aziz, Azharuddin Abdullah Sani, Muhamad Shirwan
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Keywords	Chemical profiling Support vector machine Harvesting seasons Stingless bee honey Physicochemical properties Chemometrics
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Snippet	•Physicochemical and VOC profiles of stingless bee honey enhance honey traceability.•Specific markers can distinguish honey derived from three different... Stingless bee honey's nutritional value is gaining attention, but the impact of harvesting seasons, specifically the rainy (September 2018) and dry (February...
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SubjectTerms	Animals Bees Chemical profiling Chemometrics food chemistry Harvesting seasons honey Honey - analysis Malaysia nutritive value Physicochemical properties Seasons species Stingless bee honey stingless bees Support Vector Machine support vector machines volatile compounds
Title	Impact of harvesting seasons on physicochemical properties and volatile compound profiles of Malaysian stingless bee honey analysed using chemometrics and support vector machine
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