Related references
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Review
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Summary: This article presents a scoping review on the key concepts in controlled environment agriculture (CEA) research and addresses some important questions. The findings suggest that CEA research is categorized into four domains: technical, biological, environmental, and socioeconomic research. However, there is a lack of research in the socio-economic aspects of CEA.
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Plant Sciences
Ivan G. Tarakanov et al.
Summary: The optimization of LED lighting protocols for indoor plant growing systems requires both basic and applied research. This study investigated the plant responses to different wavelengths of light, showing that red light promoted photorespiration while blue light accelerated carboxylation. Observations of light environments missing specific spectral regions supported these findings.
Review
Plant Sciences
Mervin Chun-Yi Ang et al.
Summary: As global population grows and climate change worsens, global food supply is under pressure. Sustainable agricultural practices, guided by precision agriculture using novel sensors and analytical tools, are needed to minimize environmental destruction and optimize crop growth and productivity.
FRONTIERS IN PLANT SCIENCE
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Summary: Contiki-NG is an open source, cross-platform operating system that focuses on low-power communications and standardized protocols. It aims to accelerate IoT research, time-to-market for IoT applications, and embedded systems education.
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Green & Sustainable Science & Technology
Yumi Kobayashi et al.
Summary: Indoor vertical farming can be an important solution for future food insecurity by reducing land use and being unaffected by environmental conditions. However, its energy-intensive operation raises environmental concerns. This study examines the feasibility of operating indoor vertical farming with renewable energy by assessing land use requirements and renewable energy generation potential. The results show that with current technologies, the saved land area is only sufficient for energy production in lettuce farming using solar energy. However, with improved technologies, the saved land area can generate electricity with solar energy for all crops except tomatoes in Sweden. Wind energy only satisfies lettuce production even with future technologies. This study provides valuable insights for determining the feasibility of operating indoor vertical farming with renewable energy in different regions of Europe.
JOURNAL OF CLEANER PRODUCTION
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Summary: The digitalization of data has led to a data tsunami across various industries, with man-to-machine data handling further intensifying the information wave. The development of digital agriculture management applications has had a significant impact on traditional agriculture, benefiting both farmers and consumers and bringing technological solutions to rural areas. This paper examines the potential of ICT technologies in traditional agriculture and discusses the challenges that may arise when implementing them in farming techniques.
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Biochemistry & Molecular Biology
Haiyu Tao et al.
Summary: This article analyzes the progress of proximal and remote sensing (PRS) techniques in plant phenotyping, including patterns of global spatial distribution and temporal dynamics, specific PRS technologies, research fields, working environments, species, and traits. It demonstrates how to link PRS to multi-omics studies and how to integrate phenotypic information with biological significance. Three future perspectives for PRS-based plant phenomics are identified.
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(2022)
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Biophysics
Abdullah Bukhamsin et al.
Summary: In this study, a plant-wearable electrochemical sensor was developed for in situ detection of salicylic acid. The sensor showed excellent selectivity and a wide detection range, making it a promising platform for continuous and non-destructive monitoring in the field.
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Asian Journal of Agriculture and Rural Development
(2022)
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Summary: This article presents a bibliometric study on the current state of IoT and agriculture in academic literature, highlighting the impact of IoT on agricultural resources and proposing future research themes.
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Summary: This study compares open-field farming and two indoor farming methods for vegetable production in nine city-regions around the world. It finds that modern greenhouses and vertical farming promise increased food output per unit area, but their high energy consumption calls for a low-carbon power supply. Greenhouses have a lower energy demand per unit food output and are the least land-intensive option in most analyzed regions. However, the results challenge the land-savings claims of vertical farming compared to open-field production.
Review
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Arti Singh et al.
Summary: Plant stress phenotyping is crucial for selecting stress-resistant varieties and improving stress-management strategies. Standardization of visual assessments and deployment of imaging techniques have enhanced accuracy and reliability of stress assessment, while machine learning methods are increasingly utilized to extract insights from high-dimensional datasets. A comprehensive strategy is proposed for utilizing machine learning techniques in applying plant stress phenotyping across various crops, stresses, and environments.
TRENDS IN PLANT SCIENCE
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Agriculture, Multidisciplinary
Wen Tao et al.
Summary: The study critically reviewed 94 research articles on IoT communication technologies in smart agriculture, analyzing the comprehensive application of sensors and communication technologies, as well as specific issues, challenges, and recommendations in IoT applications in agriculture. The study provides a reference for researchers and suggests the application of more emerging communication technologies in agriculture to achieve significant development in smart agriculture.
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Summary: The trend towards localizing food production is driving the development of controlled-environment agriculture, particularly indoor vertical farming, to ensure year-round supply of healthy food. However, high energy consumption remains a major concern that needs to be addressed to ensure environmental sustainability.
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