Progress in Plasmonic Sensors as Monitoring Tools for Aquaculture Quality Control

被引:12
|
作者
Quintanilla-Villanueva, Gabriela Elizabeth [1 ,2 ]
Maldonado, Jesus [3 ]
Luna-Moreno, Donato [4 ]
Rodriguez-Delgado, Jose Manuel [5 ]
Villarreal-Chiu, Juan Francisco [1 ,2 ]
Rodriguez-Delgado, Melissa Marlene [1 ,2 ]
机构
[1] Univ Autonoma Nuevo Leon, Fac Ciencias Quim, Av Univ S-N,Ciudad Univ, San Nicolas De Los Garza 66455, Mexico
[2] Univ Autonoma Nuevo Leon, Fac Ciencias Quim, Ctr Invest Biotecnol & Nanotecnol CIByN, Parque Invest Innovac Tecnol,Km 10 autopista Aero, Apodaca 66629, Mexico
[3] Yale Univ, Sch Med, Dept Neurosurg, New Haven, CT 06510 USA
[4] Ctr Invest Opt AC, Div Foton, Loma Bosque 115, Leon 37150, Mexico
[5] Tecnol Monterrey, Sch Engn & Sci, Ave Eugenio Garza Sada Sur 2501, Monterrey 64849, Mexico
来源
BIOSENSORS-BASEL | 2023年 / 13卷 / 01期
关键词
plasmonic sensor; biosensor; aquaculture; SPR; multiplex detection; SINGLE LABORATORY VALIDATION; LABEL-FREE; OKADAIC ACID; DOMOIC ACID; BIOLAYER INTERFEROMETRY; TETRODOTOXIN DETECTION; RESONANCE NANOSENSOR; SENSITIVE DETECTION; GOLD NANOPARTICLES; SCREENING METHOD;
D O I
10.3390/bios13010090
中图分类号
O65 [分析化学];
学科分类号
070302 ; 081704 ;
摘要
Aquaculture is an expanding economic sector that nourishes the world's growing population due to its nutritional significance over the years as a source of high-quality proteins. However, it has faced severe challenges due to significant cases of environmental pollution, pathogen outbreaks, and the lack of traceability that guarantees the quality assurance of its products. Such context has prompted many researchers to work on the development of novel, affordable, and reliable technologies, many based on nanophotonic sensing methodologies. These emerging technologies, such as surface plasmon resonance (SPR), localised SPR (LSPR), and fibre-optic SPR (FO-SPR) systems, overcome many of the drawbacks of conventional analytical tools in terms of portability, reagent and solvent use, and the simplicity of sample pre-treatments, which would benefit a more sustainable and profitable aquaculture. To highlight the current progress made in these technologies that would allow them to be transferred for implementation in the field, along with the lag with respect to the most cutting-edge plasmonic sensing, this review provides a variety of information on recent advances in these emerging methodologies that can be used to comprehensively monitor the various operations involving the different commercial stages of farmed aquaculture. For example, to detect environmental hazards, track fish health through biochemical indicators, and monitor disease and biosecurity of fish meat products. Furthermore, it highlights the critical issues associated with these technologies, how to integrate them into farming facilities, and the challenges and prospects of developing plasmonic-based sensors for aquaculture.
引用
收藏
页数:26
相关论文
共 50 条
  • [21] Microbiological tools for monitoring and managing restoration progress
    Harris, J
    LAND RECLAMATION: EXTENDING THE BOUNDARIES, 2003, : 201 - 206
  • [22] Monitoring and control of tools in multifunctional machine tools
    Tugengol’d A.K.
    Dimitrov V.P.
    Izyumov A.I.
    Yusupov A.R.
    Tugengol’d, A.K. (akt0@yandex.ru), 2017, Allerton Press Incorporation (37) : 440 - 446
  • [23] Quality control on planar n-in-n pixel sensors - Recent progress of ATLAS planar pixel sensors
    Klingenberg, R.
    NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT, 2013, 699 : 56 - 60
  • [24] APPLICATION OF AN EXPERT SYSTEM TO MONITORING AND CONTROL IN AQUACULTURE
    HARRIS, DD
    ZHANG, F
    SYDENHAM, PH
    KNOWLEDGE-BASED SYSTEMS, 1991, 4 (03) : 165 - 171
  • [25] Monitoring shrimp growth with control charts in aquaculture
    Sanchez, Ismael
    Gonzalez, Isabel
    AQUACULTURAL ENGINEERING, 2021, 95
  • [26] SENSORS GOVERN PROGRESS IN ADAPTIVE CONTROL
    HOLLINGU.J
    METALWORKING PRODUCTION, 1970, 144 (25) : 36 - &
  • [27] Multi-agent framework based on smart sensors/actuators for machine tools control and monitoring
    Desforges, Xavier
    Archimede, Bernard
    ENGINEERING APPLICATIONS OF ARTIFICIAL INTELLIGENCE, 2006, 19 (06) : 641 - 655
  • [28] Plasmonic foam platforms for air quality monitoring
    Becerril-Castro, I. Brian
    Munoz-Munoz, Franklin
    Castro-Cesena, Ana B.
    Gonzalez, Ana L.
    Alvarez-Puebla, Ramon A.
    Romo-Herrera, Jose M.
    NANOSCALE, 2021, 13 (03) : 1738 - 1744
  • [29] Environmental monitoring tools and strategies in salmon net-pen aquaculture
    Bell, Jennifer L.
    Mandel, Randy
    Brainard, Andrew S.
    Altschuld, Jon
    Wenning, Richard J.
    INTEGRATED ENVIRONMENTAL ASSESSMENT AND MANAGEMENT, 2022, 18 (04) : 950 - 963
  • [30] Online monitoring and quality control of Selective Laser Melting using optical sensors
    Craeghs, Tom
    Kruth, Jean-Pierre
    OPTICAL MEASUREMENT TECHNIQUES FOR STRUCTURES AND SYSTEMS, 2009, : 131 - 140