Potential for Sensor Systems to Monitor Fruit Physiology of Mango during Long-Distance Transport (Special Contents : Sensors and Monitoring for Production and Distribution of a Tropical Fruit)

Seibutsu kankyo chosetsu. [Environment control in biology Pub Date : 2018-04-01 DOI:10.2525/ECB.56.33

M. Nagle, E. Yasunaga, B. Mahayothee, Joachim Müller

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引用次数: 3

Abstract

Mango is a widely cultivated tropical fruit crop and exhibits climacteric behavior characterized by changes in respiration and ethylene production during development and ripening. Optimal postharvest ripening depends on many factors, but during shipping to distant high-value markets, ripening generally should be minimized. Monitoring the physiological activity presents possibilities for real-time response and the integration of smart technologies. However, systems are still needed which are portable, economical, and accurate. Optical sensors are low-cost but lack good accuracy, while electrochemical sensors are highly accurate but expensive. Economic nanoparticle sensors are being developed for potential applications in fruit quality monitoring, but they can be complex. This work explores possibilities for development of a monitoring system for climacteric fruits such as mango and presents results on testing of commercially available systems and development of sensors that will fit the criteria.

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传感器系统在芒果长途运输过程中监测果实生理的潜力（特别内容：热带水果生产和分销的传感器和监测）

芒果是一种广泛种植的热带水果作物，在发育和成熟过程中表现出呼吸和乙烯生产变化的更年期行为。最佳采后成熟取决于许多因素，但在运往遥远的高价值市场期间，通常应尽量减少成熟。监测生理活动提供了实时响应和智能技术集成的可能性。然而，仍然需要便携、经济和准确的系统。光学传感器成本低但精度差，而电化学传感器精度高但价格昂贵。经济型纳米颗粒传感器正被开发用于水果质量监测的潜在应用，但它们可能很复杂。这项工作探索了开发芒果等更年期水果监测系统的可能性，并介绍了商用系统的测试结果和符合标准的传感器的开发结果。

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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Seibutsu kankyo chosetsu. [Environment control in biology

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