Thermal Niches of Two Invasive Genotypes of the Wheat Curl Mite Aceria tosichella: Congruence between Physiological and Geographical Distribution Data

The wheat curl mite (WCM), Aceria tosichella Keifer, is a major pest of cereals worldwide. It is also a complex of well-defined genetic lineages with divergent physiological traits, which has not been accounted for in applied contexts. The aims of the study were to model the thermal niches of the tw...

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Veröffentlicht in:	PloS one 2016-04, Vol.11 (4), p.e0154600
Hauptverfasser:	Kuczyński, Lechosław, Rector, Brian G, Kiedrowicz, Agnieszka, Lewandowski, Mariusz, Szydło, Wiktoria, Skoracka, Anna
Format:	Artikel
Sprache:	eng
Schlagworte:	Abundance Acari Analysis Animals Biology Biology and Life Sciences Biomonitoring Cereals Ecology Ecology and Environmental Sciences Economic impact Eriophyidae Female Genotypes Geographical distribution Geography Insect Vectors - growth & development Insect Vectors - virology Mickiewicz, Adam Bernard (1798-1855) Mites Mites - growth & development Mites - physiology Mites - virology Niches (Ecology) Nonnative species People and Places Physiology Plant parasites Plant viruses Plant Viruses - growth & development Population growth Taxonomy Temperature Triticum Triticum - parasitology Triticum - virology Vectors Viruses Wheat Whole Grains - parasitology Whole Grains - virology
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description	The wheat curl mite (WCM), Aceria tosichella Keifer, is a major pest of cereals worldwide. It is also a complex of well-defined genetic lineages with divergent physiological traits, which has not been accounted for in applied contexts. The aims of the study were to model the thermal niches of the two most pestiferous WCM lineages, designated MT-1 and MT-8, and to assess the extent to which temperature determines the distribution of these lineages. WCM population dynamics were modeled based on thermal niche data from March to November on the area of Poland (>311,000 km2). The most suitable regions for population development were predicted and compared to empirical field abundance data. Congruence between modeled parameters and field data for mite presence were observed for both WCM lineages although congruence between modeled thermal suitability and mite field abundance was observed only for MT-8. Thermal niche data for MT-1 and MT-8 provide biological insights and aid monitoring and management of WCM and the plant viruses it vectors. The presented models accurately estimate distributions of WCM and can be incorporated into management strategies for both current and predicted climate scenarios.
doi_str_mv	10.1371/journal.pone.0154600
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It is also a complex of well-defined genetic lineages with divergent physiological traits, which has not been accounted for in applied contexts. The aims of the study were to model the thermal niches of the two most pestiferous WCM lineages, designated MT-1 and MT-8, and to assess the extent to which temperature determines the distribution of these lineages. WCM population dynamics were modeled based on thermal niche data from March to November on the area of Poland (>311,000 km2). The most suitable regions for population development were predicted and compared to empirical field abundance data. Congruence between modeled parameters and field data for mite presence were observed for both WCM lineages although congruence between modeled thermal suitability and mite field abundance was observed only for MT-8. Thermal niche data for MT-1 and MT-8 provide biological insights and aid monitoring and management of WCM and the plant viruses it vectors. 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It is also a complex of well-defined genetic lineages with divergent physiological traits, which has not been accounted for in applied contexts. The aims of the study were to model the thermal niches of the two most pestiferous WCM lineages, designated MT-1 and MT-8, and to assess the extent to which temperature determines the distribution of these lineages. WCM population dynamics were modeled based on thermal niche data from March to November on the area of Poland (>311,000 km2). The most suitable regions for population development were predicted and compared to empirical field abundance data. Congruence between modeled parameters and field data for mite presence were observed for both WCM lineages although congruence between modeled thermal suitability and mite field abundance was observed only for MT-8. Thermal niche data for MT-1 and MT-8 provide biological insights and aid monitoring and management of WCM and the plant viruses it vectors. 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subjects	Abundance Acari Analysis Animals Biology Biology and Life Sciences Biomonitoring Cereals Ecology Ecology and Environmental Sciences Economic impact Eriophyidae Female Genotypes Geographical distribution Geography Insect Vectors - growth & development Insect Vectors - virology Mickiewicz, Adam Bernard (1798-1855) Mites Mites - growth & development Mites - physiology Mites - virology Niches (Ecology) Nonnative species People and Places Physiology Plant parasites Plant viruses Plant Viruses - growth & development Population growth Taxonomy Temperature Triticum Triticum - parasitology Triticum - virology Vectors Viruses Wheat Whole Grains - parasitology Whole Grains - virology
title	Thermal Niches of Two Invasive Genotypes of the Wheat Curl Mite Aceria tosichella: Congruence between Physiological and Geographical Distribution Data
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