A. N. Poltavsky scite author profile

Abstract. Biological control using natural antagonists has been a most successful management tool against alien invasive plants that threaten biodiversity. The selection of candidate agents remains a critical step in a biocontrol program before more elaborate and time-consuming experiments are conducted. Here, we propose a biogeographic approach to identify candidates and combinations of candidates to potentially cover a large range of the invader. We studied Ambrosia artemisiifolia (common ragweed), native to North America (NA) and invasive worldwide, and six NA biocontrol candidates for the introduced Europe (EU) range of ragweed, both under current and future bioclimatic conditions. For the first time, we constructed species distribution models based on worldwide occurrences and important bioclimatic variables simultaneously for a plant invader and its biocontrol candidates in view of selecting candidates that potentially cover a large range of the target invader. Ordination techniques were used to explore climatic constraints of each species and to perform niche overlap tests with ragweed. We show a large overlap in climatic space between candidates and ragweed, but a considerable discrepancy in geographic range overlap between EU (31.4%) and NA (83.3%). This might be due to niche unfilling and expansion of ragweed in EU and the fact that habitats with high ragweed occurrences in EU are rare in NA and predicted to be unsuitable for the candidates. Total geographic range of all candidates combined is expected to decrease under climate change in both ranges, but they will respond differently. The relative geographic coverage of a plant invader by biocontrol candidates at home is largely transferable to the introduced range, even when the invader shifts its niche. Our analyses also identified which combination of candidates is expected to cover the most area and for which abiotic conditions to select in order to develop climatically adapted strains for particular regions, where ragweed is currently unlikely to be controlled.

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Heteroceran moths (Lepidoptera, Heterocera) of the Don River delta

Poltavsky¹,

Matov

Ivliev³

2009

Entmol. Rev.

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The Pyraloidea (Lepidoptera) fauna of the woody savannah belt in Mali, West Africa

Poltavsky

Kravchenko

Traore

et al. 2018

Zootaxa

719

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Seventy-nine taxa of Pyraloidea were collected in 2014 with light traps in the woody savannah zone south of Bamako, Mali. Three taxa out of 79 were identified to genus level only. 78 of the 79 species are new records for Mali, 17 are new for West Africa. Most species (54) belong to the subfamily Spilomelinae (family Crambidae). The majority of observed species have wide distribution areas. The only regional endemic is Hypsopygia bamakoensis (Leraut, 2006). Concerning the biogeographical categories most of the species (34) are Afrotropical, seven species cosmopolitan, and the remaining species occur in the Palaearctics with a preference to the Palaeotropics. The most common species, Patania balteata (Fabricius, 1798) comprised 40.0% of all specimens collected. It is known to be a pest of the mango tree, which is common in the light-trapping area.

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<strong>Cossidae (Lepidoptera) of the Russian Caucasus with the description of a new species</strong>

Yakovlev¹,

Poltavsky²,

Ilyina³

et al. 2015

Zootaxa

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The Pyraloidea (Lepidoptera) fauna in the Liberian Nimba Mountains, West Africa, at the end of the dry season

Poltavsky¹,

Sáfián²,

Simonics³

et al. 2019

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A. N. Poltavsky

Climatic suitability ranking of biological control candidates: a biogeographic approach for ragweed management in Europe

Heteroceran moths (Lepidoptera, Heterocera) of the Don River delta

The Pyraloidea (Lepidoptera) fauna of the woody savannah belt in Mali, West Africa

<strong>Cossidae (Lepidoptera) of the Russian Caucasus with the description of a new species</strong>

The Pyraloidea (Lepidoptera) fauna in the Liberian Nimba Mountains, West Africa, at the end of the dry season

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