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田雨菲,李格晴,孙佳欣,等. 内蒙古四种角椒制浆适宜性的化学计量学评价J. 食品工业科技,2026,47(17):1−14. doi: 10.13386/j.issn1002-0306.2025100244.
引用本文: 田雨菲,李格晴,孙佳欣,等. 内蒙古四种角椒制浆适宜性的化学计量学评价J. 食品工业科技,2026,47(17):1−14. doi: 10.13386/j.issn1002-0306.2025100244.
TIAN Yufei, LI Geqing, SUN Jiaxin, et al. Chemometric Evaluation of Pulping Suitability of Four Kinds of Horn Peppers from Inner MongoliaJ. Science and Technology of Food Industry, 2026, 47(17): 1−14. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2025100244.
Citation: TIAN Yufei, LI Geqing, SUN Jiaxin, et al. Chemometric Evaluation of Pulping Suitability of Four Kinds of Horn Peppers from Inner MongoliaJ. Science and Technology of Food Industry, 2026, 47(17): 1−14. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2025100244.

内蒙古四种角椒制浆适宜性的化学计量学评价

Chemometric Evaluation of Pulping Suitability of Four Kinds of Horn Peppers from Inner Mongolia

  • 摘要: 辣椒浆是一种新型辣椒制品,可作为辣椒酱、火锅底料及复合调味料等下游产品的核心基料,其品质直接影响终端产品的市场竞争力。本研究以内蒙古四个品种角椒(LZ-1-R01、H1、7#、红龙23)为研究对象,采用化学计量法结合多元统计对比分析了不同品种辣椒浆的色泽(色差L*a*b*、色价)、组织状态(流变特性、粒径)、营养成分(类胡萝卜素、辣椒碱类物质)以及挥发性风味物质等多维品质指标,并评估其加工适宜性。结果表明:H1辣椒浆的亮度最高(38.38±0.5),粒径最小(分布范围在3.12~1430 μm、体积平均粒径为407.47±1.50 μm、面积平均粒径为146.53±1.94 μm),流动性最佳(初始黏度241.07 Pa·s、δ<0.4),说明其外观组织状态最好;LZ-1-R01的类胡萝卜素含量(699.78±9.04 μg/g)最高;7#辣椒浆的辣椒碱和二氢辣椒碱含量最高(12.12±0.17 μg/g、24.14±0.86 μg/g);红龙23辣椒浆的各项品质指标相对均衡。利用气相色谱-离子迁移谱联用仪(Gas Chromatography-Ion Mobility Spectrometry,GC-IMS)从四种辣椒浆中共鉴定出48种挥发性风味化合物,其中7#辣椒浆的总挥发性风味化合物峰强度最高,水杨酸甲酯为H1辣椒浆的特色挥发性成分,3-甲基-2-丁烯醛(D)为7#及LZ-1-R01的关键差异物质,红龙23的关键差异物质则包括3-羟基-2-丁酮(M/D)、丁苯、2-庚酮、丁醛(M/D);进一步结合相对气味活度值(Relative odor activity value,ROAV)判定3-甲硫基丙醛为辣椒浆中的关键挥发性风味物质。基于不同品种辣椒浆品质指标分析认为四种辣椒均适宜制浆,可以根据不同场景需求选择不同特性辣椒浆,例如H1辣椒浆适宜开发佐餐酱料等高顺滑度产品,7#与LZ-1-R01辣椒浆可应用于产品的复配调色。研究为辣椒加工多场景应用提供了新视角。

     

    Abstract: Chili pulp represents a new category of chili-based products, functioning as the fundamental base material for downstream applications including chili sauces, hot pot soup bases, and compound seasonings. Consequently, the quality of the pulp directly influences the market competitiveness of the terminal products. This study investigated four cultivars of horn peppers (Capsicum annuum L.) from Inner Mongolia (LZ-1-R01, H1, 7#, and HL23). Chemometric methods combined with multivariate statistical analysis were employed to comparatively evaluate the multi-dimensional quality attributes and assess the processing suitability of the resultant chili pulp. These attributes included color properties (L*, a*, b* values, and color value), textural characteristics (rheological properties and particle size distribution), nutritional components (carotenoids and capsaicinoids), and volatile flavor compounds. Results showed that, H1 chili pulp exhibited the best overall appearance and consistency, showing the highest brightness (L* value: 38.38±0.5) and the smallest particle size (distribution range: 3.12 to 1430 μm; volume mean diameter: 407.47±1.50 μm; area mean diameter: 146.53±1.94 μm), and it also demonstrated optimal fluidity (initial viscosity: 241.07 Pa·s, δ<0.4). LZ-1-R01 chili pulp contained the highest carotenoid content (699.78±9.04 μg/g). 7# chili pulp showed the highest content of capsaicin and dihydrocapsaicin (12.12±0.17 μg/g and 24.14±0.86 μg/g, respectively). HL23 chili pulp presented a relatively balanced profile across all quality indicators. A total of 48 volatile flavor compounds were identified in the four chili pulps using GC-IMS. 7# chili pulp exhibited the highest total peak intensity of volatile flavor compounds. Methyl salicylate was identified as the characteristic volatile component of H1, while 3-Methyl-2-butenal (D) was the key differential compound for 7# and LZ-1-R01. The key differential markers for HL23 included 3-Hydroxybutan-2-one (M/D), Butylbenzene, 2-Heptanone, and Butanal (M/D). Furthermore, combined with the ROAV, 3-methylthiopropanal was identified as a key volatile flavor substance in the chili pulp. Based on the quality attribute analysis, all four chili varieties are deemed suitable for pulping. Chili pulps with distinct characteristics could be selected according to specific application requirements; for instance, H1 was suitable for developing high-smoothness products such as table sauces, while 7# and LZ-1-R01 could be utilized for color blending in product formulations. This research provides a novel perspective for the multi-scenario application of chili processing.

     

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