Apple ( Malus × domestica ) is globally valued for its taste and nutrition, yet achieving optimal quality is challenging due to the impact of factors like crop load and rootstock on fruit development. Current research focuses on the individual effects of these factors and the use of chemical thinning to manage crop load, improving fruit quality and tree health. However, the complexities of chemical thinning's effects on apple physiology and its interaction with rootstock and crop load dynamics are not fully understood. Identifying the optimal use of thinning agents and their impacts on apple development is essential for refining orchard management practices and enhancing apple production outcomes.
In March 2024, Fruit Research published a research entitled by “ Evaluating the sustainable cultivation of 'Fuji' apples: suitable crop load and the impact of chemical thinning agents on fruit quality and transcription ”.
To determine the optimal crop load for sustainable apple production across different rootstock types (vigorous, dwarfing, and dwarfing interstock), researchers adjusted crop loads to various levels and assessed the effects on tree growth and fruit quality. A crop load of 320 fruits per tree for vigorous rootstocks resulted in optimal tree height growth and branch diameter. Dwarfing rootstocks showed the best results with a crop load of 110 fruits, although the length of new branch growth was not significantly affected. Dwarfing interstock trees had optimal growth with a crop load of 210 fruits. Increased crop load in vigorous rootstocks also enhanced leaf area, chlorophyll content, and photosynthetic rates, suggesting a positive correlation between crop load and leaf functionality, unlike in dwarfing rootstocks where an optimal balance was needed to maintain leaf health and photosynthetic efficiency.
Fruit quality, assessed through weight, yield, and size, generally decreased with increasing crop load, but yield per acre increased. The study recommended specific crop loads for each rootstock type to balance tree health and fruit quality: 320 fruits for vigorous stock, 90 for dwarfing rootstock, and 100 for dwarfing interstock for quality fruits exceeding 80 mm in diameter. Chemical thinning, using carbaryl and 6-BA, was identified as effective in achieving optimal crop loads, with best practices involving specific concentrations and application timings.
Additionally, transcriptomic analysis of NAA-treated fruits revealed its inhibitory effect on fruit enlargement and identified potential regulatory genes involved in hormonal pathways affecting fruit development and ripening. Overall, this approach combining practical orchard management practices with molecular insights offers a pathway to enhancing apple production efficiency and fruit quality, recommending specific crop loads and thinning practices tailored to different rootstock types while elucidating the role of NAA in fruit development processes.
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References
DOI
Original Source URL
https://www.maxapress.com/article/doi/10.48130/frures-0024-0002
Authors
Shicong Wang 1,# , Qianying Wang 1,# , Weiyu Jiang 1 , Yixiong Wang 1 , Jinjiao Yan 1 , Xuewei Li 1 , Jiangbo Wang 3,4 , Qingmei Guan 1 , Fengwang Ma 1 , Jing Zhang 1 , Qianming Zheng 2, * , Yangjun Zou 1, * , & Jidi Xu 1, *
# These authors contributed equally: Shicong Wang, Qianying Wang
Affiliations
1. State Key Laboratory of Crop Stress Biology for Arid Areas/Shaanxi Key Laboratory of Apple, College of Horticulture, Northwest A&F University, Yangling, Shaanxi 712100, China
2. Institute of Pomology Science, Guizhou Academy of Agricultural Science, Guiyang 550006, China
3.The National and Local Joint Engineering Laboratory of High Efficiency and Superior-Quality Cultivation and Fruit Deep Processing Technology of Characteristic Fruit Trees in Southern Xinjiang, College of Horticulture and Forestry, Tarim University, Alar 843300, China
4. Xinjiang Production and Construction Corps Key Laboratory of Biological Resources Protection and Utilization in Tarim Basin, Alar 843300, China
# These authors contributed equally.
About Jidi Xu
Associate Professor, College of Horticulture, Northwest A&F University. His group aims to investigate the underlying mechanism of epigenetic regulation in apples under various abiotic stresses, including DNA/RNA modification, histone modification, and chromatin remodeling. Based on the mechanism exploring, epigenome editing engineering is applied to process the important traits improvement in apples.
Fruit Research
Experimental study
Not applicable
Evaluating the sustainable cultivation of 'Fuji' apples: suitable crop load and the impact of chemical thinning agents on fruit quality and transcription
4-Mar-2024
The authors declare that they have no competing interests.