Comparison of fruit morphology and nutrition metabolism in different cultivars of kiwifruit across developmental stages

Comparison of fruit morphology and nutrition metabolism in different cultivars of kiwifruit across developmental stages

Kiwifruit (Actinidia) is becoming increasingly popular worldwide due to its favorable flavour and high vitamin C content. However, quality parameters vary among cultivars. To determine the differences in quality and metabolic parameters of kiwifruit, we monitored the growth processes of ‘Kuilv’ (Act...

Full description

Bibliographic Details
Main Authors: Yu-fei Li, Weijia Jiang, Chunhong Liu, Yuqi Fu, Ziyuan Wang, Mingyuan Wang, Cun Chen, Li Guo, Qi-guo Zhuang, Zhi-bin Liu
Format: Article
Language:English
Published: PeerJ Inc. 2021-06-01
Series:PeerJ
Subjects:
Kiwifruit
Development process
Fruit composition
Carbohydrate metabolism
Organic acid
Antioxidant enzyme system
Online Access:https://peerj.com/articles/11538.pdf
id doaj-01bf7ac77c9844a79bbece88404ed6b2
record_format Article
spelling doaj-01bf7ac77c9844a79bbece88404ed6b22021-06-25T15:05:08ZengPeerJ Inc.PeerJ2167-83592021-06-019e1153810.7717/peerj.11538Comparison of fruit morphology and nutrition metabolism in different cultivars of kiwifruit across developmental stagesYu-fei Li0Weijia Jiang1Chunhong Liu2Yuqi Fu3Ziyuan Wang4Mingyuan Wang5Cun Chen6Li Guo7Qi-guo Zhuang8Zhi-bin Liu9Sichuan University, Key Laboratory of Bio-Resources and Eco-Environment of Ministry of Education, College of Life Sciences, Chengdu, ChinaWest China Medical Publishers, West China Hospital of Sichuan University, Chengdu, ChinaSichuan University, Key Laboratory of Bio-Resources and Eco-Environment of Ministry of Education, College of Life Sciences, Chengdu, ChinaSichuan University, Key Laboratory of Bio-Resources and Eco-Environment of Ministry of Education, College of Life Sciences, Chengdu, ChinaSichuan University, Key Laboratory of Bio-Resources and Eco-Environment of Ministry of Education, College of Life Sciences, Chengdu, ChinaSichuan University, Key Laboratory of Bio-Resources and Eco-Environment of Ministry of Education, College of Life Sciences, Chengdu, ChinaCollege of Chemistry and Life Sciences, Sichuan Provincial Key Laboratory for Development and Utilization of Characteristic Horticultural Biological Resources, Chengdu Normal University, Chengdu, ChinaCollege of Chemistry and Life Sciences, Sichuan Provincial Key Laboratory for Development and Utilization of Characteristic Horticultural Biological Resources, Chengdu Normal University, Chengdu, ChinaKiwifruit Breeding and Utilization Key Laboratory, Sichuan Provincial Academy of Natural Resource Sciences, Chengdu, ChinaSichuan University, Key Laboratory of Bio-Resources and Eco-Environment of Ministry of Education, College of Life Sciences, Chengdu, ChinaKiwifruit (Actinidia) is becoming increasingly popular worldwide due to its favorable flavour and high vitamin C content. However, quality parameters vary among cultivars. To determine the differences in quality and metabolic parameters of kiwifruit, we monitored the growth processes of ‘Kuilv’ (Actinidia arguta), ‘Hongyang’ (Actinidia chinensis) and ‘Hayward’ (Actinidia deliciosa). We found that ‘Kuilv’ required the shortest time for fruit development, while ‘Hayward’ needed the longest time to mature. The fruit size of ‘Hayward’ was the largest and that of ‘Kuilv’ was the smallest. Furthermore, ‘Hongyang’ showed a double-S shape of dry matter accumulation, whereas ‘Kuilv’ and ‘Hayward’ showed a linear or single-S shape pattern of dry matter accumulation during development. The three cultivars demonstrated the same trend for total soluble solids accumulation, which did not rise rapidly until 90–120 days after anthesis. However, the accumulation of organic acids and soluble sugars varied among the cultivars. During later fruit development, the content of glucose, fructose and quinic acid in ‘Kuilv’ fruit was far lower than that in ‘Hongyang’ and ‘Hayward’. On the contrary, ‘Kuilv’ had the highest sucrose content among the three cultivars. At maturity, the antioxidative enzymatic systems were significantly different among the three kiwifruit cultivars. ‘Hongyang’ showed higher activities of superoxide dismutase than the other cultivars, while the catalase content of ‘Hayward’ was significantly higher than that of ‘Hongyang’ and ‘Kuilv’. These results provided knowledge that could be implemented for the marketing, handling and post-harvest technologies of the different kiwifruit cultivars.https://peerj.com/articles/11538.pdfKiwifruitDevelopment processFruit compositionCarbohydrate metabolismOrganic acidAntioxidant enzyme system
collection DOAJ
language English
format Article
sources DOAJ
author Yu-fei Li
Weijia Jiang
Chunhong Liu
Yuqi Fu
Ziyuan Wang
Mingyuan Wang
Cun Chen
Li Guo
Qi-guo Zhuang
Zhi-bin Liu
spellingShingle Yu-fei Li
Weijia Jiang
Chunhong Liu
Yuqi Fu
Ziyuan Wang
Mingyuan Wang
Cun Chen
Li Guo
Qi-guo Zhuang
Zhi-bin Liu
Comparison of fruit morphology and nutrition metabolism in different cultivars of kiwifruit across developmental stages
PeerJ
Kiwifruit
Development process
Fruit composition
Carbohydrate metabolism
Organic acid
Antioxidant enzyme system
author_facet Yu-fei Li
Weijia Jiang
Chunhong Liu
Yuqi Fu
Ziyuan Wang
Mingyuan Wang
Cun Chen
Li Guo
Qi-guo Zhuang
Zhi-bin Liu
author_sort Yu-fei Li
title Comparison of fruit morphology and nutrition metabolism in different cultivars of kiwifruit across developmental stages
title_short Comparison of fruit morphology and nutrition metabolism in different cultivars of kiwifruit across developmental stages
title_full Comparison of fruit morphology and nutrition metabolism in different cultivars of kiwifruit across developmental stages
title_fullStr Comparison of fruit morphology and nutrition metabolism in different cultivars of kiwifruit across developmental stages
title_full_unstemmed Comparison of fruit morphology and nutrition metabolism in different cultivars of kiwifruit across developmental stages
title_sort comparison of fruit morphology and nutrition metabolism in different cultivars of kiwifruit across developmental stages
publisher PeerJ Inc.
series PeerJ
issn 2167-8359
publishDate 2021-06-01
description Kiwifruit (Actinidia) is becoming increasingly popular worldwide due to its favorable flavour and high vitamin C content. However, quality parameters vary among cultivars. To determine the differences in quality and metabolic parameters of kiwifruit, we monitored the growth processes of ‘Kuilv’ (Actinidia arguta), ‘Hongyang’ (Actinidia chinensis) and ‘Hayward’ (Actinidia deliciosa). We found that ‘Kuilv’ required the shortest time for fruit development, while ‘Hayward’ needed the longest time to mature. The fruit size of ‘Hayward’ was the largest and that of ‘Kuilv’ was the smallest. Furthermore, ‘Hongyang’ showed a double-S shape of dry matter accumulation, whereas ‘Kuilv’ and ‘Hayward’ showed a linear or single-S shape pattern of dry matter accumulation during development. The three cultivars demonstrated the same trend for total soluble solids accumulation, which did not rise rapidly until 90–120 days after anthesis. However, the accumulation of organic acids and soluble sugars varied among the cultivars. During later fruit development, the content of glucose, fructose and quinic acid in ‘Kuilv’ fruit was far lower than that in ‘Hongyang’ and ‘Hayward’. On the contrary, ‘Kuilv’ had the highest sucrose content among the three cultivars. At maturity, the antioxidative enzymatic systems were significantly different among the three kiwifruit cultivars. ‘Hongyang’ showed higher activities of superoxide dismutase than the other cultivars, while the catalase content of ‘Hayward’ was significantly higher than that of ‘Hongyang’ and ‘Kuilv’. These results provided knowledge that could be implemented for the marketing, handling and post-harvest technologies of the different kiwifruit cultivars.
topic Kiwifruit
Development process
Fruit composition
Carbohydrate metabolism
Organic acid
Antioxidant enzyme system
url https://peerj.com/articles/11538.pdf
work_keys_str_mv AT yufeili comparisonoffruitmorphologyandnutritionmetabolismindifferentcultivarsofkiwifruitacrossdevelopmentalstages
AT weijiajiang comparisonoffruitmorphologyandnutritionmetabolismindifferentcultivarsofkiwifruitacrossdevelopmentalstages
AT chunhongliu comparisonoffruitmorphologyandnutritionmetabolismindifferentcultivarsofkiwifruitacrossdevelopmentalstages
AT yuqifu comparisonoffruitmorphologyandnutritionmetabolismindifferentcultivarsofkiwifruitacrossdevelopmentalstages
AT ziyuanwang comparisonoffruitmorphologyandnutritionmetabolismindifferentcultivarsofkiwifruitacrossdevelopmentalstages
AT mingyuanwang comparisonoffruitmorphologyandnutritionmetabolismindifferentcultivarsofkiwifruitacrossdevelopmentalstages
AT cunchen comparisonoffruitmorphologyandnutritionmetabolismindifferentcultivarsofkiwifruitacrossdevelopmentalstages
AT liguo comparisonoffruitmorphologyandnutritionmetabolismindifferentcultivarsofkiwifruitacrossdevelopmentalstages
AT qiguozhuang comparisonoffruitmorphologyandnutritionmetabolismindifferentcultivarsofkiwifruitacrossdevelopmentalstages
AT zhibinliu comparisonoffruitmorphologyandnutritionmetabolismindifferentcultivarsofkiwifruitacrossdevelopmentalstages
_version_ 1721359526634979328

Similar Items