食品科学 ›› 2026, Vol. 47 ›› Issue (12): 21-30.doi: 10.7506/spkx1002-6630-20251120-160

• 基础研究 • 上一篇    

4 种外源物质对香梨果实石细胞调控响应及品质的影响

马凌,安世杰,李天乐,兖攀,邓永辉,陈奇凌   

  1. (1.新疆农垦科学院铁门关试验站,新疆 铁门关 841000;2.新疆农垦科学院林园研究所,新疆 石河子 832000)
  • 发布日期:2026-07-08
  • 基金资助:
    兵团农业科技创新工程专项(NCG202312);兵团重点领域科技攻关项目(2025AB089); 新疆农垦科学院青年项目(2024YJQN19)

Effects of Four Exogenous Substances on the Content of Stone Cells in Fragrant Pear in Relation to Its Quality

MA Ling, AN Shijie, LI Tianle, YAN Pan, DENG Yonghui, CHEN Qiling   

  1. (1. Tiemenguan Test Station, Xinjiang Academy of Agricultural Reclamation Science, Tiemenguan 841000, China; 2. Institute of Horticulture, Xinjiang Academy of Agricultural and Reclamation Science, Shihezi 832000, China)
  • Published:2026-07-08

摘要: 目的:筛选出降低香梨果实石细胞含量的最优方案。方法:以7~8 年生香梨树为材料,采用随机区组设计方法,叶面喷施不同质量分数的氯化钙、氯化锌、硼酸、水杨酸等外源物质。测定香梨果实石细胞含量、苯丙氨酸解氨酶(phenylalanine aminase,PAL)和多酚氧化酶(polyphenol oxidase,PPO)活性、糖类、有机酸及色差等指标,通过间苯三酚染液对石细胞进行染色,并对不同处理进行主成分分析,以筛选出降低香梨果实石细胞含量、提升果实品质的最优方案。结果:与对照(CK)组相比,氯化钙、硼酸和水杨酸3 种处理均能显著降低香梨果实的石细胞含量。石细胞含量与PAL活性呈负相关,PAL活性降低会抑制木质素合成,导致石细胞含量下降;石细胞含量与PPO活性呈先降后升的非线性关系,PPO活性在2.5~3.0 U/g时石细胞含量低,低于此区间因木质素聚合不足而使石细胞含量减少,高于此区间因木质素过度聚合沉积使石细胞含量增加。喷施氯化锌、氯化钙、硼酸和水杨酸的处理组果实色泽指数均显著提升,使果实更为鲜嫩多汁,从而优化了食用口感。1%氯化钙和2%水杨酸处理组的果实果形指数均达1.17,形状更趋近纺锤形,更契合市场对果形的偏好。2%氯化钙处理组的可溶性固形物质量分数增长10.42%,果糖含量显著提升12.98%,最高达35.19 mg/g。而3%硼酸处理组的果糖含量较CK组降低12.92%,最低为27.72 mg/g。3%水杨酸处理组的葡萄糖含量显著增加16.37%;3%硼酸处理组的葡萄糖含量为21.29 mg/g,较CK处理下降15.87%。与CK组相比,2%氯化钙处理组可滴定酸质量分数最低,为0.21%,降低28.09%;1%氯化钙处理组的柠檬酸含量最低,为147.16 mg/kg,降幅达34.77%。所有处理(氯化锌、氯化钙、硼酸、水杨酸)均显著降低了莽草酸含量,其中2%硼酸处理的降幅最大,为18.19%,其含量为12.06 mg/kg。结论:叶面喷施2%氯化钙和3%硼酸能显著降低香梨果实石细胞含量,提升果实色泽、果形指数,增加可溶性固形物和果糖含量,降低可滴定酸及柠檬酸含量,综合优化果实品质。

关键词: 香梨;石细胞;外源物质;品质差异

Abstract: Objective: To find the best way to reduce the content of stone cells in fragrant pear fruit. Methods: Seven to eight-year-old fragrant pear trees were chosen for foliar application with exogeneous substances including calcium chloride, zinc chloride, boric acid, and salicylic acid. Experiments were conducted using a randomized block design. Key parameters measured included stone cell content, phenylalanine aminase (PAL) and polyphenol oxidase (PPO) activity, sugar content, organic acid content, and color difference. The stone cell clusters were stained using resorcinol. Principal component analysis (PCA) was performed on the different treatment groups. Our aim was to identify the optimal protocol for reducing stone cell content to enhance fruit quality in fragrant pear. Results: Compared with the control group, calcium chloride, boric acid, and salicylic acid significantly reduced the stone cell content in fragrant pear fruit. The stone cell content exhibited a negative correlation with PAL activity: when PAL activity decreased, lignin synthesis was inhibited, leading to reduced stone cell content. The stone cell content showed a nonlinear trend of first increasing and then decreasing with increasing PPO activity. When PPO activity was between 2.5 and 3.0 U/g, the stone cell content was low. Below this range, insufficient lignin polymerization resulted in reduced stone cells, while above this range, excessive lignin polymerization and deposition led to increased stone cells. All four exogeneous substances significantly improved fruit color index, resulting in finer, juicier flesh with better eating quality. Fruits from both 1% calcium chloride and 2% salicylic acid treatment groups exhibited a more spindle-like shape with a fruit shape index of 1.17, better aligning with market preferences. The 2% calcium chloride treatment increased the soluble solids content (SSC) by 10.42% and fructose content by 12.98%, reaching a fructose level of 35.19 mg/g. The 3% boric acid treatment reduced the fructose content by 12.92% compared with the control group, resulting in the lowest value (27.72 mg/g). The 3% salicylic acid treatment significantly increased the glucose content by 16.37%, whereas the 3% boric acid treatment decreased it by 15.87% to 21.29 mg/g relative to the control group. The 2% calcium chloride treatment resulted in the lowest titratable acid level (0.21%), which was 28.09% lower than that of the control group. The 1% calcium chloride treatment gave the lowest citric acid content (147.16 mg/kg), 34.77% lower than that of the control group. All treatments significantly reduced fumaric acid levels, among which the 2% boric acid treatment showed the largest decrease (18.19%) with a final value of 12.06 mg/kg. Conclusion: Foliar spraying of 2% calcium chloride or 3% boric acid could significantly reduce the content of stone cells in fragrant pear fruit, improve fruit color and fruit shape index, increase soluble solids and fructose contents, and reduce titratable acid and citric acid contents, thereby improving fruit quality.

Key words: fragrant pear; stone cells; exogenous substances; quality differences

中图分类号: