Determining the Nutrient Content of Hydroponically-Cultivated Microgreens with Immersible Silicon Photonic Sensors: A Preliminary Feasibility Study

Christofi, Aristi; Margariti, Georgia; Salapatas, Alexandros; Papageorgiou, George; Zervas, Panagiotis; Karampiperis, Pythagoras; Koukourikos, Antonis; Tarantilis, Petros Α.; Kaparakou, Eleftheria H.; Μισιακός, Κωνσταντίνος; Makarona, Eleni

doi:10.3390/s23135937

Cited by 2 publications

(2 citation statements)

References 34 publications

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“…Regarding nutrient content, ref. [97] determined the nutrient content of hydroponically cultivated microgreens with a novel immersible silicon photonic sensor to determine the optimal harvest time. These technologies are particularly crucial in soilless systems, where the margin for error is often smaller than in traditional soil-based agriculture.…”

Section: Importance Of Sensing and Monitoring In Soilless Vegetable P...mentioning

confidence: 99%

New Generation Sustainable Technologies for Soilless Vegetable Production

Fuentes-Peñailillo,

Gutter,

Vega

et al. 2024

Horticulturae

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This review article conducts an in-depth analysis of the role of next-generation technologies in soilless vegetable production, highlighting their groundbreaking potential to revolutionize yield, efficiency, and sustainability. These technologies, such as AI-driven monitoring systems and precision farming methods, offer unparalleled accuracy in monitoring critical variables such as nutrient concentrations and pH levels. However, the paper also addresses the multifaceted challenges that hinder the widespread adoption of these technologies. The high initial investment costs pose a significant barrier, particularly for small- and medium-scale farmers, thereby risking the creation of a technological divide in the industry. Additionally, the technical complexity of these systems demands specialized expertise, potentially exacerbating knowledge gaps among farmers. Other considerations are scrutinized, including data privacy concerns and potential job displacement due to automation. Regulatory challenges, such as international trade regulations and policy frameworks, are discussed, as they may need revision to accommodate these new technologies. The paper concludes by emphasizing that while these sustainable technologies offer transformative benefits, their potential for broad adoption is constrained by a complex interplay of financial, technical, regulatory, and social factors.

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Section: Importance Of Sensing and Monitoring In Soilless Vegetable P...mentioning

confidence: 99%

New Generation Sustainable Technologies for Soilless Vegetable Production

Fuentes-Peñailillo,

Gutter,

Vega

et al. 2024

Horticulturae

View full text Add to dashboard Cite

show abstract

“…In this sense, [74] developed a costeffective control system for the optimization of soilless crop irrigation through a prototype of an intelligent gravimetric tray that records the irrigation and drainage volumes and drainage pH and electrical conductivity (EC), as well as the temperature, EC, and humidity of the substrate. Regarding nutrient content, [75] determined the nutrient content of hydroponically cultivated microgreens with a novel immersible silicon photonic sensor to determine the optimal harvest time. These technologies are particularly crucial in soilless systems, where the margin for error is often smaller than in traditional soil-based agriculture.…”

Section: Importance Of Sensing and Monitoring In Soilless Vegetable P...mentioning

confidence: 99%

New Generation Sustainable Technologies for Soilless Vegetable Production

Fuentes-Peñailillo,

Gutter,

Vega

et al. 2023

Preprint

View full text Add to dashboard Cite

This review article conducts an in-depth analysis of the role of next-generation technologies in soilless vegetable production, highlighting their groundbreaking potential to revolutionize yield, efficiency, and sustainability. These technologies, such as AI-driven monitoring systems and precision farming methods, offer unparalleled accuracy in monitoring critical variables like nutrient concentrations and pH levels. However, the paper also addresses the multifaceted challenges that hinder the widespread adoption of these technologies. The high initial investment costs pose a significant barrier, particularly for small and medium-scale farmers, thereby risking the creation of a technological divide in the industry. Additionally, the technical complexity of these systems demands specialized expertise, potentially exacerbating knowledge gaps among farmers. Ethical considerations are scrutinized, including data privacy concerns and potential job displacement due to automation. Regulatory challenges, such as international trade regulations and policy frameworks, are discussed as they may need revision to accommodate these new technologies. The paper concludes by emphasizing that while these sustainable technologies offer transformative benefits, their potential for broad adoption is constrained by a complex interplay of financial, technical, ethical, regulatory, and social factors. Comprehensive, multi-faceted solutions are therefore essential for their ethical and equitable implementation.

show abstract

Determining the Nutrient Content of Hydroponically-Cultivated Microgreens with Immersible Silicon Photonic Sensors: A Preliminary Feasibility Study

Cited by 2 publications

References 34 publications

New Generation Sustainable Technologies for Soilless Vegetable Production

New Generation Sustainable Technologies for Soilless Vegetable Production

New Generation Sustainable Technologies for Soilless Vegetable Production

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