Pest risk assessment of Amyelois transitella for the European Union

Bragard, Claude; Baptista, Paula; Chatzivassiliou, Elisavet; Serio, Francesco Di; Gonthier, Paolo; Miret, Josep Anton Jaques; Justesen, Annemarie Fejer; MacLeod, Alan; Magnusson, Christer Sven; Milonas, Panagiotis; Navas‐Cortés, Juan A; Parnell, Stephen; Potting, Roel; Reignault, Philippe Lucien; Stefani, Emilio; Thulke, Hans‐Hermann; Civera, Antonio Vicent; Yuen, Jonathan; Zappalà, Lucia; Gilioli, Gianni; Makowski, David; Mastin, Alexander; Czwienczek, Ewelina; Maiorano, Andrea; Mosbach‐Schulz, Olaf; Pautasso, Marco; Stancanelli, Giuseppe; Tramontini, Sara; Werf, Wopke Van der

doi:10.2903/j.efsa.2022.7523

Cited by 3 publications

(3 citation statements)

References 113 publications

(223 reference statements)

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“…A second example is the EFSA quantitative pest risk assessment for Elasmopalpus lignosellus (lesser cornstalk borer) (EFSA PLH Panel, 2023c). The analysis was based on the output of four regional climate models under the representative emission scenario RCP8.5 (Kriticos et al., 2012).…”

Section: How Is Climate Change Currently Incorporated Into Risk Asses...mentioning

confidence: 99%

Including climate change in pest risk assessment: Current practices and perspectives for future implementation

Rosace,

Björklund,

Boberg

et al. 2024

EPPO Bulletin

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The evaluation of the potential for newly arrived species to survive and the determination whether a founder population can become established and subsequently spread and cause negative impacts are crucial considerations when performing a pest risk assessment in plant health. Climate change has clear consequences concerning the potential range of pests, and their potential for spread and impacts. Despite its importance, no guidance exists to support the evaluation of whether and how climate change should be incorporated into pest risk assessment. This paper reviews how climate change has been considered so far, not only in the area of pest risk assessment but also in other domains and provides guidance on how its incorporation could affect the overall assessment. Furthermore, from this analysis, some possible solutions for incorporating climate change into pest risk assessment are provided, taking into account that its outcomes have profound political, economic, social and environmental implications.

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Section: How Is Climate Change Currently Incorporated Into Risk Asses...mentioning

confidence: 99%

Including climate change in pest risk assessment: Current practices and perspectives for future implementation

Rosace,

Björklund,

Boberg

et al. 2024

EPPO Bulletin

View full text Add to dashboard Cite

show abstract

“…In this phase, defined as ‘lag period’, the spread is limited and not homogeneous (it can change in the different directions; EFSA PLH Panel, 2022 ). At the end of this phase, Xcv is expected to reach a level of adaptation to local conditions to allow it to survive, reproduce and infect enough plants to effectively spread between vineyards by natural means (e.g.…”

Section: Spreadmentioning

confidence: 99%

Risk assessment of Xanthomonas citri pv. viticola for the EU

Bragard¹,

Baptista²,

Chatzivassiliou³

et al. 2022

EFS2

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Following a request from the European Commission, the EFSA Panel on Plant Health performed a risk assessment of Xanthomonas citri pv. viticola (Xcv). This pest causes bacterial canker of grapevine and is reported from Brazil and India. Two scenarios were considered: scenario A0 (current practice) and A2 (additional control measures). For the fresh grape import pathway, scenario A0 results in an order of magnitude of about one entry per 10 years (median; 90% uncertainty interval between ca. one entry per 18,000 years and ca. five entries per year). For the Vitis spp. plants for planting for research/breeding purposes import pathway, the risk of entry is several orders of magnitude smaller than the risk due to fresh grape import. This outcome is also obtained under scenario A2. The key entry uncertainties include import volume and transfer (for plants for planting), transfer and the disaggregation factor (for fresh grapes) and the limited availability of epidemiological data. The extent of the area favourable for Xcv establishment in the EU is uncertain, illustrating the limitations of climate suitability assessments when based on few data points and little epidemiological information. Nevertheless, the risk of Xcv establishment is only slightly lower than the risk of Xcv entry, i.e. no major establishment constraints are expected for most entries. Similarly, the risk of Xcv establishment is assessed as only slightly lower under current climate compared to the climate of 2041–2060. For grapevine growing areas in the EU with average yearly temperature above 17°C, the lag phase between establishment and spread is expected to be about 3 years (median; 90% range between ca. 6 months and ca. 6 years). Under the same scenario, the rate of spread by natural means is assessed to be ca. 300 m/year (median; 90% range between ca. 35 and ca. 800 m/year). The spread rate would be considerably higher considering movements of plants and cutting tools or machinery. The percentage of grapevine plants infected by Xcv in production sites as yearly average over a 30‐year production cycle is estimated to be ca. 17% (median; 90% range between ca. 1.5% and ca. 46%) in table grapes and ca. 12% (median; 90% range between ca. 0.7% and ca. 37%) in wine grapes. Impacts have been reported to be severe in Brazil and India, but the estimates provided here show that there is considerable uncertainty about expected impacts in the EU.

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“…It is therefore noteworthy that recently, requests from European Commission (EC) plant health risk managers to the EFSA Panel on Plant Health, which provides advice to the EC in the form of scientific opinions, have asked for the effect of climate change to be taken into account when requesting pest risk assessments of Leucinodes orbonalis , L. pseudorbonalis and Xanthomonas citri pv. viticola , which are pests currently found in tropical and sub‐tropical regions (EFSA Panel on Plant Health, 2023).…”

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confidence: 99%

Climate change: A guide for pest risk assessors and decision makers

Kriticos,

MacLeod,

Suffert

2024

EPPO Bulletin

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Pest risk assessment of Amyelois transitella for the European Union

Cited by 3 publications

References 113 publications

Including climate change in pest risk assessment: Current practices and perspectives for future implementation

Including climate change in pest risk assessment: Current practices and perspectives for future implementation

Risk assessment of Xanthomonas citri pv. viticola for the EU

Climate change: A guide for pest risk assessors and decision makers

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