Disaster Plant Pathology: Smart Solutions for Threats to Global Plant Health from Natural and Human-Driven Disasters

Berea A. Etherton; Robin A. Choudhury; Ricardo I. Alcalá Briseño; Romaric A. Mouafo-Tchinda; Aaron I. Plex Sulá; Manoj Choudhury; Ashish Adhikari; Si Lin Lei; Nattapol Kraisitudomsook; Jacobo Robledo Buritica; Vinicius A. Cerbaro; Kwame Ogero; Cindy M. Cox; Stephen P. Walsh; Jorge L. Andrade-Piedra; Bonaventure Aman Omondi; Israel Navarrete; Margaret A. McEwan; Karen A. Garrett

doi:10.1094/PHYTO-03-24-0079-FI

Disaster Plant Pathology: Smart Solutions for Threats to Global Plant Health from Natural and Human-Driven Disasters

Berea A. Etherton
, Robin A. Choudhury
, Ricardo I. Alcalá Briseño
, Romaric A. Mouafo-Tchinda
, Aaron I. Plex Sulá
, Manoj Choudhury
, Ashish Adhikari
, Si Lin Lei
, Nattapol Kraisitudomsook
, Jacobo Robledo Buritica
, Vinicius A. Cerbaro
, Kwame Ogero
, Cindy M. Cox
, Stephen P. Walsh
, Jorge L. Andrade-Piedra
, Bonaventure Aman Omondi
, Israel Navarrete
, Margaret A. McEwan
, Karen A. Garrett

Research output: Contribution to journal › Review article › peer-review

17 Scopus citations

Abstract

Disaster plant pathology addresses how natural and human-driven disasters impact plant diseases and the requirements for smart management solutions. Local to global drivers of plant disease change in response to disasters, often creating environments more conducive to plant disease. Most disasters have indirect effects on plant health through factors such as disrupted supply chains and damaged infrastructure. There is also the potential for direct effects from disasters, such as pathogen or vector dispersal due to floods, hurricanes, and human migration driven by war. Pulse stressors such as hurricanes and war require rapid responses, whereas press stressors such as climate change leave more time for management adaptation but may ultimately cause broader challenges. Smart solutions for the effects of disasters can be deployed through digital agriculture and decision support systems supporting disaster preparedness and optimized humanitarian aid across scales. Here, we use the disaster plant pathology framework to synthesize the effects of disasters in plant pathology and outline solutions to maintain food security and plant health in catastrophic scenarios. We recommend actions for improving food security before and following disasters, including (i) strengthening regional and global cooperation, (ii) capacity building for rapid implementation of new technologies, (iii) effective clean seed systems that can act quickly to replace seed lost in disasters, (iv) resilient biosecurity infrastructure and risk assessment ready for rapid implementation, and (v) decision support systems that can adapt rapidly to unexpected scenarios.

Original language	English (US)
Pages (from-to)	855-868
Number of pages	14
Journal	PHYTOPATHOLOGY
Volume	114
Issue number	5
DOIs	https://doi.org/10.1094/PHYTO-03-24-0079-FI
State	Published - May 2024

All Science Journal Classification (ASJC) codes

Agronomy and Crop Science
Plant Science

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1094/PHYTO-03-24-0079-FI

Cite this

Etherton, B. A., Choudhury, R. A., Alcalá Briseño, R. I., Mouafo-Tchinda, R. A., Plex Sulá, A. I., Choudhury, M., Adhikari, A., Lei, S. L., Kraisitudomsook, N., Buritica, J. R., Cerbaro, V. A., Ogero, K., Cox, C. M., Walsh, S. P., Andrade-Piedra, J. L., Omondi, B. A., Navarrete, I., McEwan, M. A., & Garrett, K. A. (2024). Disaster Plant Pathology: Smart Solutions for Threats to Global Plant Health from Natural and Human-Driven Disasters. PHYTOPATHOLOGY, 114(5), 855-868. https://doi.org/10.1094/PHYTO-03-24-0079-FI

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title = "Disaster Plant Pathology: Smart Solutions for Threats to Global Plant Health from Natural and Human-Driven Disasters",

abstract = "Disaster plant pathology addresses how natural and human-driven disasters impact plant diseases and the requirements for smart management solutions. Local to global drivers of plant disease change in response to disasters, often creating environments more conducive to plant disease. Most disasters have indirect effects on plant health through factors such as disrupted supply chains and damaged infrastructure. There is also the potential for direct effects from disasters, such as pathogen or vector dispersal due to floods, hurricanes, and human migration driven by war. Pulse stressors such as hurricanes and war require rapid responses, whereas press stressors such as climate change leave more time for management adaptation but may ultimately cause broader challenges. Smart solutions for the effects of disasters can be deployed through digital agriculture and decision support systems supporting disaster preparedness and optimized humanitarian aid across scales. Here, we use the disaster plant pathology framework to synthesize the effects of disasters in plant pathology and outline solutions to maintain food security and plant health in catastrophic scenarios. We recommend actions for improving food security before and following disasters, including (i) strengthening regional and global cooperation, (ii) capacity building for rapid implementation of new technologies, (iii) effective clean seed systems that can act quickly to replace seed lost in disasters, (iv) resilient biosecurity infrastructure and risk assessment ready for rapid implementation, and (v) decision support systems that can adapt rapidly to unexpected scenarios.",

author = "Etherton, \{Berea A.\} and Choudhury, \{Robin A.\} and \{Alcal{\'a} Brise{\~n}o\}, \{Ricardo I.\} and Mouafo-Tchinda, \{Romaric A.\} and \{Plex Sul{\'a}\}, \{Aaron I.\} and Manoj Choudhury and Ashish Adhikari and Lei, \{Si Lin\} and Nattapol Kraisitudomsook and Buritica, \{Jacobo Robledo\} and Cerbaro, \{Vinicius A.\} and Kwame Ogero and Cox, \{Cindy M.\} and Walsh, \{Stephen P.\} and Andrade-Piedra, \{Jorge L.\} and Omondi, \{Bonaventure Aman\} and Israel Navarrete and McEwan, \{Margaret A.\} and Garrett, \{Karen A.\}",

note = "Publisher Copyright: Copyright {\textcopyright} 2024 The Author(s)",

year = "2024",

month = may,

doi = "10.1094/PHYTO-03-24-0079-FI",

language = "English (US)",

volume = "114",

pages = "855--868",

journal = "PHYTOPATHOLOGY",

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Etherton, BA, Choudhury, RA, Alcalá Briseño, RI, Mouafo-Tchinda, RA, Plex Sulá, AI, Choudhury, M, Adhikari, A, Lei, SL, Kraisitudomsook, N, Buritica, JR, Cerbaro, VA, Ogero, K, Cox, CM, Walsh, SP, Andrade-Piedra, JL, Omondi, BA, Navarrete, I, McEwan, MA & Garrett, KA 2024, 'Disaster Plant Pathology: Smart Solutions for Threats to Global Plant Health from Natural and Human-Driven Disasters', PHYTOPATHOLOGY, vol. 114, no. 5, pp. 855-868. https://doi.org/10.1094/PHYTO-03-24-0079-FI

TY - JOUR

T1 - Disaster Plant Pathology

T2 - Smart Solutions for Threats to Global Plant Health from Natural and Human-Driven Disasters

AU - Etherton, Berea A.

AU - Choudhury, Robin A.

AU - Alcalá Briseño, Ricardo I.

AU - Mouafo-Tchinda, Romaric A.

AU - Plex Sulá, Aaron I.

AU - Choudhury, Manoj

AU - Adhikari, Ashish

AU - Lei, Si Lin

AU - Kraisitudomsook, Nattapol

AU - Buritica, Jacobo Robledo

AU - Cerbaro, Vinicius A.

AU - Ogero, Kwame

AU - Cox, Cindy M.

AU - Walsh, Stephen P.

AU - Andrade-Piedra, Jorge L.

AU - Omondi, Bonaventure Aman

AU - Navarrete, Israel

AU - McEwan, Margaret A.

AU - Garrett, Karen A.

PY - 2024/5

Y1 - 2024/5

N2 - Disaster plant pathology addresses how natural and human-driven disasters impact plant diseases and the requirements for smart management solutions. Local to global drivers of plant disease change in response to disasters, often creating environments more conducive to plant disease. Most disasters have indirect effects on plant health through factors such as disrupted supply chains and damaged infrastructure. There is also the potential for direct effects from disasters, such as pathogen or vector dispersal due to floods, hurricanes, and human migration driven by war. Pulse stressors such as hurricanes and war require rapid responses, whereas press stressors such as climate change leave more time for management adaptation but may ultimately cause broader challenges. Smart solutions for the effects of disasters can be deployed through digital agriculture and decision support systems supporting disaster preparedness and optimized humanitarian aid across scales. Here, we use the disaster plant pathology framework to synthesize the effects of disasters in plant pathology and outline solutions to maintain food security and plant health in catastrophic scenarios. We recommend actions for improving food security before and following disasters, including (i) strengthening regional and global cooperation, (ii) capacity building for rapid implementation of new technologies, (iii) effective clean seed systems that can act quickly to replace seed lost in disasters, (iv) resilient biosecurity infrastructure and risk assessment ready for rapid implementation, and (v) decision support systems that can adapt rapidly to unexpected scenarios.

AB - Disaster plant pathology addresses how natural and human-driven disasters impact plant diseases and the requirements for smart management solutions. Local to global drivers of plant disease change in response to disasters, often creating environments more conducive to plant disease. Most disasters have indirect effects on plant health through factors such as disrupted supply chains and damaged infrastructure. There is also the potential for direct effects from disasters, such as pathogen or vector dispersal due to floods, hurricanes, and human migration driven by war. Pulse stressors such as hurricanes and war require rapid responses, whereas press stressors such as climate change leave more time for management adaptation but may ultimately cause broader challenges. Smart solutions for the effects of disasters can be deployed through digital agriculture and decision support systems supporting disaster preparedness and optimized humanitarian aid across scales. Here, we use the disaster plant pathology framework to synthesize the effects of disasters in plant pathology and outline solutions to maintain food security and plant health in catastrophic scenarios. We recommend actions for improving food security before and following disasters, including (i) strengthening regional and global cooperation, (ii) capacity building for rapid implementation of new technologies, (iii) effective clean seed systems that can act quickly to replace seed lost in disasters, (iv) resilient biosecurity infrastructure and risk assessment ready for rapid implementation, and (v) decision support systems that can adapt rapidly to unexpected scenarios.

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UR - https://www.scopus.com/pages/publications/85194727489#tab=citedBy

U2 - 10.1094/PHYTO-03-24-0079-FI

DO - 10.1094/PHYTO-03-24-0079-FI

M3 - Review article

C2 - 38593748

AN - SCOPUS:85194727489

SN - 0031-949X

VL - 114

SP - 855

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JO - PHYTOPATHOLOGY

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IS - 5

ER -

Disaster Plant Pathology: Smart Solutions for Threats to Global Plant Health from Natural and Human-Driven Disasters

Abstract

All Science Journal Classification (ASJC) codes

UN SDGs

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