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RESEARCH PRODUCT
Advanced methods of plant disease detection. A review
Riccardo ScalengheDaniela StroppianaPaolo RuisiFederico MartinelliStefano PannoLuiz Ricardo GoulartGiuseppe ScuderiMirco BoschettiCristina E. DavisAbhaya M. DandekarPaolo VillaSalvatore Davinosubject
0106 biological sciencesEnvironmental Engineering[SDV]Life Sciences [q-bio]DiseaseBiology01 natural sciences03 medical and health sciencesCommercial kitsVolatile organic compoundsSpectroscopyPlant disease030304 developmental biology2. Zero hunger0303 health sciencesbusiness.industryDNA-based methods Immunological assays Spectroscopy Biophotonics Plant disease Remote sensing Volatile organic compounds Commercial kitsEffective managementExtremely HelpfulRemote sensingPlant diseaseCrop protectionBiotechnologyRisk analysis (engineering)DNA-based methodsImmunological assaysBiophotonicsbusinessAgronomy and Crop Science010606 plant biology & botanydescription
International audience; Plant diseases are responsible for major economic losses in the agricultural industry worldwide. Monitoring plant health and detecting pathogen early are essential to reduce disease spread and facilitate effective management practices. DNA-based and serological methods now provide essential tools for accurate plant disease diagnosis, in addition to the traditional visual scouting for symptoms. Although DNA-based and serological methods have revolutionized plant disease detection, they are not very reliable at asymptomatic stage, especially in case of pathogen with systemic diffusion. They need at least 1–2 days for sample harvest, processing, and analysis. Here, we describe modern methods based on nucleic acid and protein analysis. Then, we review innovative approaches currently under development. Our main findings are the following: (1) novel sensors based on the analysis of host responses, e.g., differential mobility spectrometer and lateral flow devices, deliver instantaneous results and can effectively detect early infections directly in the field; (2) biosensors based on phage display and biophotonics can also detect instantaneously infections although they can be integrated with other systems; and (3) remote sensing techniques coupled with spectroscopy-based methods allow high spatialization of results, these techniques may be very useful as a rapid preliminary identification of primary infections. We explain how these tools will help plant disease management and complement serological and DNA-based methods. While serological and PCR-based methods are the most available and effective to confirm disease diagnosis, volatile and biophotonic sensors provide instantaneous results and may be used to identify infections at asymptomatic stages. Remote sensing technologies will be extremely helpful to greatly spatialize diagnostic results. These innovative techniques represent unprecedented tools to render agriculture more sustainable and safe, avoiding expensive use of pesticides in crop protection.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2014-09-11 |