“Hurdley technologies” utilized to improve postharvest life of asparagus spears (Asparagus officinalis L.)

Q3 Agricultural and Biological Sciences

Advances in horticultural science Pub Date : 2024-04-04 DOI:10.36253/ahsc-14786

M. Tiznado-Hernández, A. A. Gardea-Bejar, A. Sánchez-Estrada, J. Orozco-Avitia, Á. Ojeda-Contreras, R. Troncoso-Rojas, Rodrigo Melendrez-Amavizca

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Abstract

Asparagus (Asparagus officinalis L.) has short shelf-life due to the high metabolic activity of the apical meristems. Storage at low temperature and high relative humidity is used commercially to keep fresh asparagus spears. Techniques denominated “Hurdley technologies” (UV-C or gamma irradiation) have been tested in fruits and vegetables to extend postharvest life. These technologies were used to extend postharvest shelf life of asparagus spears by inhibition of meristematic activity. Spears were irradiated with UV-C at dosages of 2.46, and 4.93 kJ m-2 and gamma irradiation at 1 and 1.5 kGy, before storage at 2°C and 90% relative humidity (RH) for 20 days. Metabolic heat (Rq) was measured in apical meristems, as well as whole spear respiration, sugars content, water potential components and color descriptors. Metabolic heat and whole spears respiration rate did not show differences due to effect of UV-C treatments, while spears treated with gamma radiation showed a metabolic activity inhibition of 10 and 15% for 1 and 1.5 kGy, respectively, while whole spear respiration rate was not affected. Changes in color variables showed a slight reduction in gloss. Sugars content in UV-C remained unchanged, while gamma radiation induced a reduction in glucose. An increase in fresh weight loss was noticeable on those treated with gamma irradiation. No changes in water potential components were observed. It was concluded the treatments used did not reported positive benefits in extending asparagus spears shelf life.

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利用 "赫德利技术 "提高芦笋收获后的寿命（Asparagus officinalis L.）

芦笋（Asparagus officinalis L.）由于顶端分生组织的新陈代谢活动旺盛，货架期很短。在低温和高相对湿度条件下贮藏芦笋可以保持芦笋茎的新鲜度。在水果和蔬菜中测试了被称为 "赫德利技术"（紫外线-C 或伽马射线辐照）的技术，以延长采后寿命。通过抑制分生组织活动，这些技术被用于延长芦笋收获后的货架期。芦笋矛在 2°C 和 90% 相对湿度（RH）条件下贮藏 20 天之前，先用剂量为 2.46 和 4.93 kJ m-2 的紫外线-C 以及剂量为 1 和 1.5 kGy 的伽马射线辐照。对顶端分生组织的代谢热（Rq）以及整个花矛的呼吸作用、糖含量、水势成分和颜色描述指标进行了测量。代谢热和整个花矛的呼吸速率没有因紫外线-C 处理的影响而出现差异，而用伽马射线处理的花矛，在 1 kGy 和 1.5 kGy 的条件下，代谢活动分别受到 10%和 15%的抑制，而整个花矛的呼吸速率没有受到影响。颜色变量的变化表明光泽度略有下降。在紫外线-C 辐射下糖分含量保持不变，而伽马射线辐射则导致葡萄糖含量下降。经伽马射线照射处理的果实鲜重损失明显增加。水势成分没有发生变化。结论是所使用的处理方法对延长芦笋矛的保质期没有积极的作用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Advances in horticultural science Agricultural and Biological Sciences-Horticulture

CiteScore

1.20

自引率

0.00%

发文量

审稿时长

12 weeks

期刊介绍： Advances in Horticultural Science aims to provide a forum for original investigations in horticulture, viticulture and oliviculture. The journal publishes fully refereed papers which cover applied and theoretical approaches to the most recent studies of all areas of horticulture - fruit growing, vegetable growing, viticulture, floriculture, medicinal plants, ornamental gardening, garden and landscape architecture, in temperate, subtropical and tropical regions. Papers on horticultural aspects of agronomic, breeding, biotechnology, entomology, irrigation and plant stress physiology, plant nutrition, plant protection, plant pathology, and pre and post harvest physiology, are also welcomed. The journal scope is the promotion of a sustainable increase of the quantity and quality of horticultural products and the transfer of the new knowledge in the field. Papers should report original research, should be methodologically sound and of relevance to the international scientific community. AHS publishes three types of manuscripts: Full-length - short note - review papers. Papers are published in English.