Forecasting potential invaders to prevent future biological invasions worldwide

Global Change Biology, Journal Year: 2024, Volume and Issue: 30(7)

Published: July 1, 2024

Abstract The ever‐increasing and expanding globalisation of trade transport underpins the escalating global problem biological invasions. Developing biosecurity infrastructures is crucial to anticipate prevent introduction invasive alien species. Still, robust defensible forecasts potential invaders are rare, especially for species without known invasion history. Here, we aim support decision‐making by developing a quantitative risk assessment tool based on syndromes (i.e., generalising typical attributes species). We implemented workflow ‘Multiple Imputation with Chain Equation’ estimate from imputed datasets species' life‐history ecological traits macroecological patterns. Importantly, our models disentangle factors explaining (i) (ii) establishment. showcase modelling 466 amphibians reptile Then, project these reptiles worldwide (16,236 [c.76% coverage]) identify being unintentionally transported introduced, establishing populations. Our syndrome showed high predictive accuracy good balance between specificity generality. Unintentionally introduced tend be common thrive well in human‐disturbed habitats. In contrast, those established populations large‐sized, habitat generalists, habitats, have large native geographic ranges. forecast that 160 history could future. Among them, 57 reliable, reproducible, transferable, statistically scientifically significant new addition suite decision‐support tools needed future‐proof preventative globally.

Language: Английский

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Trade Network Dynamics and Alien Plant Pest Introductions: A Global Analysis

Diversity and Distributions, Journal Year: 2025, Volume and Issue: 31(1)

Published: Jan. 1, 2025

ABSTRACT Aim Investigating the role of trade in elucidating introductions insect plant pests via specific pathways over past two decades to inform future pest introduction risks. Location Global. Methods We analysed global data on first findings and network, assessing which network metrics explained cumulative per country. compared in‐degree (i.e., number countries a focal country imports from) out‐degree exports to) across different investigated intraregional saturation for each within continents. explored relationship between risk spreading based structure temporal sequence realised introductions. Results In‐degree was major driver alien all pathways. For several regions such as Europe Asia, with extensive regional connections serve hubs connecting numerous belonging same geographical region. The intra‐regional routes reflected less restrictive agreements played pivotal spread exotic found untapped potential opening new Africa Oceania. Conclusions study emphasises increase multiple driven by few key countries, warranting intensified surveillance efforts. Opening commercial poses higher risks than increasing total volume from partners it might open dense international pool pests. Incorporating high‐resolution tracking entry final destination) is crucial can enhance mapping precision reduce

Language: Английский

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Temporal dynamics and global flows of insect invasions in an era of globalization

Published: Feb. 3, 2025

Human-mediated transport has led to the establishment of more than 6,700 non-native insect species with wide-ranging effects on ecosystems, economies and human health. Understanding how different aspects globalization affect spread insects is crucial reducing their effects. In this Review, we explore current historical patterns, drivers dynamics global invasions facilitated by humans since prehistory. Multiple history have influenced invasion dynamics, including agricultural practices in Neolithic period, advent early empires trade routes, colonization, geopolitical events, wars economic crises. Technological innovations such as steam ships, containerization internet further accelerated invasions. Spatial patterns are characterized frequent secondary via bridgehead populations, asymmetric intercontinental flows originating disproportionally from Europe, biotic homogenization communities. Insect predicted increase dramatically will shift, especially opening routes introduction pathways. Inspection at ports entry detection systems inform mitigation efforts. Future interdisciplinary collaborations integrate knowledge diverse emerging data sources technologies, advancing our understanding biology. Global increasing, driven advances technology. This Review discusses increasing worldwide, strategies for future

Language: Английский

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Potential impact of climate change on Nearctic leafhopper distribution and richness in North America

npj Sustainable Agriculture, Journal Year: 2024, Volume and Issue: 2(1)

Published: July 1, 2024

Abstract Climate change significantly contributes to shifts in the geographical range of pests and diseases. Leafhoppers (Hemiptera: Cicadellidae), known vectors phytoplasmas pathogens, are linked transmission more than 600 diseases affecting a thousand plant species worldwide. Despite this, potential effects climate on leafhopper remain critical knowledge gap. To address this gap, our study investigated impact 14 Nearctic leafhoppers previously associated with phytoplasma-related Using MaxEnt distribution algorithm other ecological niche modeling techniques, we assessed (i) expected richness under current conditions four future scenarios (ii) environmental similarity among these across scenarios. Our projections suggest that eastern region North America holds for highest richness, trend persist all scenarios, gradually expanding eastward. Notably, findings indicate increasing suitability northern Canada species. Network analysis further revealed remarkable niches most Moreover, there is tendency an increase similarity. Altogether, underscores persistent presence their habitats while pointing shift toward These have significant implications sustainable pest management practices, prompting necessary discussion strategies mitigate migration’s agricultural systems.

Language: Английский

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A two-step species distribution modeling to disentangle the effect of habitat and bioclimatic covariates on Psacothea hilaris, a potentially invasive species

Biological Invasions, Journal Year: 2024, Volume and Issue: 26(6), P. 1861 - 1881

Published: March 25, 2024

Abstract Integrating host plants in distribution modeling of phytophagous species and disentangling the effect habitat bioclimatic variables are key aspects to produce reliable predictions when aim is identify suitable areas outside species’ native range. To this aim, we implemented a framework Species Distribution Model aimed at predicting potential establishment for beetle Psacothea hilaris across world. Since (including plants) affect according processes acting different geographical scales, modeled these separately. For range, fitted (HSM) (BSM) suitability model calibrated on local large scale, respectively; overall map was obtained as spatial product HSM BSM projection maps. ROC, TSS Cohen’s Kappa validation confirmed good predictive performance framework. Within HSM, played substantial presence probability, while among variables, precipitation warmer quarter isothermality were most important. Native models used realize an world scale. At global many resulted habitat, some bioclimate, few both conditions; indeed, if would not be able modify its niche, it might considered major invasive species. However, high rate range expansion documented P. Northern Italy, poorly area, suggests plasticity that requires increasing level attention potential.

Language: Английский

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Pest risk assessment of African Leucinodes species for the European Union

EFSA Journal, Journal Year: 2024, Volume and Issue: 22(4)

Published: April 1, 2024

Abstract Following a request from the European Commission, EFSA Panel on Plant Health performed quantitative risk assessment for EU of African Leucinodes species (Lepidoptera: Crambidae), which are fruit and shoot borers, especially eggplant type fruit. The focused (i) potential pathways entry, (ii) distribution infested imports within EU, (iii) climatic conditions favouring establishment, (iv) spread (v) impact. Options reduction discussed, but their effectiveness was not quantified. spp. widely distributed across sub-Saharan Africa little studied they could be much more widespread in than reported. Much literature erroneously reports them as orbonalis is restricted to Asia. import consists special types caters mostly niche markets EU. main pathway entry Solanum aethiopicum exotic varieties (S. melongena). CLIMEX modelling used with two possible thresholds ecoclimatic index (EI) assess establishment potential. Climates occur southern Europe, where, based human population, 14% imported produce NUTS2 regions where EI ≥ 30; or 23% 15. Over next 5 years, an annual median estimate ~ 8600 fruits, originating Africa, expected enter 15 (90% CR 570–52,700); this drops 5200 350–32,100) 30. Escape adult moths occurs consumer waste; considering uncertainties transfer, such emergence, mate finding survival progeny, probability mated female establishing founder population NUTS estimated 0.0078 0.00023–0.12125). This equates one every 128 years approximately 8–4280 years). Using 30, number populations annually 0.0048 0.0001–0.0739), equating 210 14–7020 Under climate change period 2040–2059, percent going suitable areas would increased 33% 21% Accordingly, waiting time until reduced estimates 89 6–2980 years) 139 30 9–4655 If were establish, it at rate 0.65–7.0 km per year after lag phase 5–92 years. reduce yield by value 4.5% 0.67%–13%) if growers take no specific action, 0.54% between 0.13% 1.9%) do targeted matching previous made during L.

Language: Английский

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Historical invasion rates vary among insect trophic groups

Current Biology, Journal Year: 2024, Volume and Issue: unknown

Published: Oct. 1, 2024

Language: Английский

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How climate change might impact insect movement via physiological mechanisms

One Earth, Journal Year: 2024, Volume and Issue: 7(4), P. 608 - 622

Published: April 1, 2024

Language: Английский

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Continuum of global to local dispersal frameworks highlights the increasing threat of pine wilt disease in China

Global Ecology and Conservation, Journal Year: 2024, Volume and Issue: 54, P. e03059 - e03059

Published: June 25, 2024

The global introduction of human-mediated trade and local dispersal through transport or natural pathways are major processes contributors to biological invasion. To effectively prevent manage invasion, invasions need be considered as a continuum (CGLD). However, there has been no unified CGLD framework developed that simultaneously considers pathway dynamics multiple with guide the development effective management priority strategies for pine wilt disease. In this study, we constructed evaluate risks This is an invasive forest pathogen caused by wood nematode (PWN) Bursaphelenchus xylophilus, which causes severe harm forestry ecosystems worldwide. network indicated pressure PWN continually increased during 2003–2016. highest-risk source country entry port were United States Jiangsu ports, respectively. modes mainly presented random structure lots "in-filling" events 2010–2021. populations in China have gradually dispersed non-analogous climatic regions compared those native other ranges. risk areas primarily cover southwestern, eastern, central, northeastern China. Such integration can facilitate more accurate prediction invasion provide vital guidance designing

Language: Английский

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Charting a future for entomological taxonomy in New Zealand

New Zealand Entomologist, Journal Year: 2024, Volume and Issue: unknown, P. 1 - 17

Published: Sept. 25, 2024

Language: Английский

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