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Nanobiotechnology approaches for engineering smart plant sensors
Nature nanotechnology, 2019-06, Vol.14 (6), p.541-553
[Peer Reviewed Journal]
Springer Nature Limited 2019. ;ISSN: 1748-3387 ;EISSN: 1748-3395 ;DOI: 10.1038/s41565-019-0470-6 ;PMID: 31168083
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Title:
Nanobiotechnology approaches for engineering smart plant sensors
Author:
Giraldo, Juan Pablo
;
Wu, Honghong
;
Newkirk, Gregory Michael
;
Kruss, Sebastian
Subjects:
Agricultural technology
;
Agrochemicals
;
Biosensing Techniques - methods
;
Biotechnology - methods
;
Coding
;
Crop Production - methods
;
Crops, Agricultural - genetics
;
Crops, Agricultural - growth & development
;
Durability
;
Electronic devices
;
Electronic equipment
;
Genetic code
;
Humans
;
Nanomaterials
;
Nanotechnology
;
Nanotechnology - methods
;
New technology
;
Optical communication
;
Optimization
;
Organic chemistry
;
Parameter sensitivity
;
Phenotyping
;
Plants, Genetically Modified - genetics
;
Plants, Genetically Modified - growth & development
;
Productivity
;
R&D
;
Research & development
;
Sensors
;
Smart sensors
;
Temporal resolution
Is Part Of:
Nature nanotechnology, 2019-06, Vol.14 (6), p.541-553
Description:
Nanobiotechnology has the potential to enable smart plant sensors that communicate with and actuate electronic devices for improving plant productivity, optimize and automate water and agrochemical allocation, and enable high-throughput plant chemical phenotyping. Reducing crop loss due to environmental and pathogen-related stresses, improving resource use efficiency and selecting optimal plant traits are major challenges in plant agriculture industries worldwide. New technologies are required to accurately monitor, in real time and with high spatial and temporal resolution, plant physiological and developmental responses to their microenvironment. Nanomaterials are allowing the translation of plant chemical signals into digital information that can be monitored by standoff electronic devices. Herein, we discuss the design and interfacing of smart nanobiotechnology-based sensors that report plant signalling molecules associated with health status to agricultural and phenotyping devices via optical, wireless or electrical signals. We describe how nanomaterial-mediated delivery of genetically encoded sensors can act as tools for research and development of smart plant sensors. We assess performance parameters of smart nanobiotechnology-based sensors in plants (for example, resolution, sensitivity, accuracy and durability) including in vivo optical nanosensors and wearable nanoelectronic sensors. To conclude, we present an integrated and prospective vision on how nanotechnology could enable smart plant sensors that communicate with and actuate electronic devices for monitoring and optimizing individual plant productivity and resource use.
Publisher:
England: Nature Publishing Group
Language:
English
Identifier:
ISSN: 1748-3387
EISSN: 1748-3395
DOI: 10.1038/s41565-019-0470-6
PMID: 31168083
Source:
MEDLINE
ProQuest Central
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