A Global Assessment of the State of Plant Health

Serge Savary*, Didier Andrivon, Paul Esker, Pascal Frey, Daniel Hüberli, J. Kumar, Bruce A. McDonald, Neil McRoberts, Andrew Nelson, Sarah Pethybridge, Vittorio Rossi, Pepijn Schreinemachers, Laetitia Willocquet, Federica Bove, Sonam Sah, Manjari Singh, Annika Djurle, Xiangming Xu, Peter Ojiambo, Pierce PaulEmerson Del Ponte, Paulo Kuhnem, Marcelo Carmona, Francisco Sautua, Xianming Chen, Xianchun Xia, Zhensheng Kang, Irda Safni, Nancy P. Castilla, Nga Thi Thu Nguyen, Zhanhong Ma, Boming Wu, Lava P. Kumar, Ranajit Bandyopadhyay, Alejandro Ortega-Beltran, Abebe Menkir, Xiaoping Hu, Karen A. Garrett, Jorge Andrade-Piedra, Jan Kreuze, Ivette Acuña, Peter Kromann, Triona Davey, Hans Hausladen, James Peter Legg, Komi Mokpokpo Fiaboe, Leena Tripathi, Altus Viljoen, George Mahuku, Jerome Kubiriba

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review

2 Citations (Scopus)

Abstract

The Global Plant Health Assessment (GPHA) is a collective, volunteer-based effort to assemble expert opinions on plant health and disease impacts on ecosystem services based on published scientific evidence. The GPHA considers a range of forest, agricultural, and urban systems worldwide. These are referred to as (Ecoregion × Plant System), i.e., selected case examples involving keystone plants in given parts of the world. The GPHA focuses on infectious plant diseases and plant pathogens, but encompasses the abiotic (e.g., temperature, drought, and floods) and other biotic (e.g., animal pests and humans) factors associated with plant health. Among the 33 (Ecoregion × Plant System) considered, 18 are assessed as in fair or poor health, and 20 as in declining health. Much of the observed state of plant health and its trends are driven by a combination of forces, including climate change, species invasions, and human management. Healthy plants ensure (i) provisioning (food, fiber, and material), (ii) regulation (climate, atmosphere, water, and soils), and (iii) cultural (recreation, inspiration, and spiritual) ecosystem services. All these roles that plants play are threatened by plant diseases. Nearly none of these three ecosystem services are assessed as improving. Results indicate that the poor state of plant health in sub-Saharan Africa gravely contributes to food insecurity and environmental degradation. Results further call for the need to improve crop health to ensure food security in the most populated parts of the world, such as in South Asia, where the poorest of the poor, the landless farmers, are at the greatest risk. The overview of results generated from this work identifies directions for future research to be championed by a new generation of scientists and revived public extension services. Breakthroughs from science are needed to (i) gather more data on plant health and its consequences, (ii) identify collective actions to manage plant systems, (iii) exploit the phytobiome diversity in breeding programs, (iv) breed for plant genotypes with resilience to biotic and abiotic stresses, and (v) design and implement plant systems involving the diversity required to ensure their adaptation to current and growing challenges, including climate change and pathogen invasions.

Original languageEnglish
Pages (from-to)3649-3665
Number of pages17
JournalPlant Disease
Volume107
Issue number12
DOIs
Publication statusPublished - Dec 2023

Keywords

  • biodiversity
  • climate change
  • food security
  • global population
  • plant diseases
  • sustainability

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