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Deconstructing Ixodes ricinus: a partial matrix model allowing mapping of tick development, mortality and activity rates

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Zeitschriftentitel: Medical and Veterinary Entomology
Personen und Körperschaften: ESTRADA‐PEÑA, A., ESTRADA‐SÁNCHEZ, D.
In: Medical and Veterinary Entomology, 28, 2014, 1, S. 35-49
Format: E-Article
Sprache: Englisch
veröffentlicht:
Wiley
Schlagwörter:
Insect Science
General Veterinary
Ecology, Evolution, Behavior and Systematics
Parasitology
author_facet ESTRADA‐PEÑA, A.
ESTRADA‐SÁNCHEZ, D.
ESTRADA‐PEÑA, A.
ESTRADA‐SÁNCHEZ, D.
author ESTRADA‐PEÑA, A.
ESTRADA‐SÁNCHEZ, D.
spellingShingle ESTRADA‐PEÑA, A.
ESTRADA‐SÁNCHEZ, D.
Medical and Veterinary Entomology
Deconstructing Ixodes ricinus: a partial matrix model allowing mapping of tick development, mortality and activity rates
Insect Science
General Veterinary
Ecology, Evolution, Behavior and Systematics
Parasitology
author_sort estrada‐peña, a.
spelling ESTRADA‐PEÑA, A. ESTRADA‐SÁNCHEZ, D. 0269-283X 1365-2915 Wiley Insect Science General Veterinary Ecology, Evolution, Behavior and Systematics Parasitology http://dx.doi.org/10.1111/mve.12009 <jats:title>Abstract</jats:title><jats:p>A stage‐structured <jats:styled-content style="fixed-case">L</jats:styled-content>eslie matrix model of a partial, discrete population of <jats:italic>Ixodes ricinus</jats:italic> (<jats:styled-content style="fixed-case">L</jats:styled-content>innaeus) (Ixodida: <jats:styled-content style="fixed-case">I</jats:styled-content>xodidae) ticks was developed to elucidate the impact of climate trends on the distribution and phenology of this species in the western <jats:styled-content style="fixed-case">P</jats:styled-content>alaearctic. The model calculates development and mortality rates for each instar and evaluates recruitment rates based on the development of the tick population. The model captures the changes in development and mortality rates, providing a coherent index of performance correlated with the tick's geographic range. Maximum development rates are recorded for latitudes south of 36 °N and are spatially correlated with sites of maximum temperature, highest saturation deficit and highest mortality. The maximum available developmental time (the total annual time during which temperature allows development) for <jats:italic>I. ricinus</jats:italic> in the western <jats:styled-content style="fixed-case">P</jats:styled-content>alaearctic is &lt; 45% of the total year. North of 60 °N, available developmental time decreases sharply to only 15% of the year. The latitudinal boundary at which survival rates sharply drop is 43–46 °N, clearly delimiting the classically recognized extent of the main tick populations. The pattern of activity for larval–nymphal synchrony shows a clear west–east pattern. The model demonstrates the impact of climate according to tick stage and geographic location, and provides a practical framework for testing how the tick's lifecycle is affected by climate change.</jats:p> Deconstructing <i>Ixodes ricinus</i>: a partial matrix model allowing mapping of tick development, mortality and activity rates Medical and Veterinary Entomology
doi_str_mv 10.1111/mve.12009
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series Medical and Veterinary Entomology
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title Deconstructing Ixodes ricinus: a partial matrix model allowing mapping of tick development, mortality and activity rates
title_unstemmed Deconstructing Ixodes ricinus: a partial matrix model allowing mapping of tick development, mortality and activity rates
title_full Deconstructing Ixodes ricinus: a partial matrix model allowing mapping of tick development, mortality and activity rates
title_fullStr Deconstructing Ixodes ricinus: a partial matrix model allowing mapping of tick development, mortality and activity rates
title_full_unstemmed Deconstructing Ixodes ricinus: a partial matrix model allowing mapping of tick development, mortality and activity rates
title_short Deconstructing Ixodes ricinus: a partial matrix model allowing mapping of tick development, mortality and activity rates
title_sort deconstructing <i>ixodes ricinus</i>: a partial matrix model allowing mapping of tick development, mortality and activity rates
topic Insect Science
General Veterinary
Ecology, Evolution, Behavior and Systematics
Parasitology
url http://dx.doi.org/10.1111/mve.12009
publishDate 2014
physical 35-49
description <jats:title>Abstract</jats:title><jats:p>A stage‐structured <jats:styled-content style="fixed-case">L</jats:styled-content>eslie matrix model of a partial, discrete population of <jats:italic>Ixodes ricinus</jats:italic> (<jats:styled-content style="fixed-case">L</jats:styled-content>innaeus) (Ixodida: <jats:styled-content style="fixed-case">I</jats:styled-content>xodidae) ticks was developed to elucidate the impact of climate trends on the distribution and phenology of this species in the western <jats:styled-content style="fixed-case">P</jats:styled-content>alaearctic. The model calculates development and mortality rates for each instar and evaluates recruitment rates based on the development of the tick population. The model captures the changes in development and mortality rates, providing a coherent index of performance correlated with the tick's geographic range. Maximum development rates are recorded for latitudes south of 36 °N and are spatially correlated with sites of maximum temperature, highest saturation deficit and highest mortality. The maximum available developmental time (the total annual time during which temperature allows development) for <jats:italic>I. ricinus</jats:italic> in the western <jats:styled-content style="fixed-case">P</jats:styled-content>alaearctic is &lt; 45% of the total year. North of 60 °N, available developmental time decreases sharply to only 15% of the year. The latitudinal boundary at which survival rates sharply drop is 43–46 °N, clearly delimiting the classically recognized extent of the main tick populations. The pattern of activity for larval–nymphal synchrony shows a clear west–east pattern. The model demonstrates the impact of climate according to tick stage and geographic location, and provides a practical framework for testing how the tick's lifecycle is affected by climate change.</jats:p>
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author ESTRADA‐PEÑA, A., ESTRADA‐SÁNCHEZ, D.
author_facet ESTRADA‐PEÑA, A., ESTRADA‐SÁNCHEZ, D., ESTRADA‐PEÑA, A., ESTRADA‐SÁNCHEZ, D.
author_sort estrada‐peña, a.
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description <jats:title>Abstract</jats:title><jats:p>A stage‐structured <jats:styled-content style="fixed-case">L</jats:styled-content>eslie matrix model of a partial, discrete population of <jats:italic>Ixodes ricinus</jats:italic> (<jats:styled-content style="fixed-case">L</jats:styled-content>innaeus) (Ixodida: <jats:styled-content style="fixed-case">I</jats:styled-content>xodidae) ticks was developed to elucidate the impact of climate trends on the distribution and phenology of this species in the western <jats:styled-content style="fixed-case">P</jats:styled-content>alaearctic. The model calculates development and mortality rates for each instar and evaluates recruitment rates based on the development of the tick population. The model captures the changes in development and mortality rates, providing a coherent index of performance correlated with the tick's geographic range. Maximum development rates are recorded for latitudes south of 36 °N and are spatially correlated with sites of maximum temperature, highest saturation deficit and highest mortality. The maximum available developmental time (the total annual time during which temperature allows development) for <jats:italic>I. ricinus</jats:italic> in the western <jats:styled-content style="fixed-case">P</jats:styled-content>alaearctic is &lt; 45% of the total year. North of 60 °N, available developmental time decreases sharply to only 15% of the year. The latitudinal boundary at which survival rates sharply drop is 43–46 °N, clearly delimiting the classically recognized extent of the main tick populations. The pattern of activity for larval–nymphal synchrony shows a clear west–east pattern. The model demonstrates the impact of climate according to tick stage and geographic location, and provides a practical framework for testing how the tick's lifecycle is affected by climate change.</jats:p>
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spelling ESTRADA‐PEÑA, A. ESTRADA‐SÁNCHEZ, D. 0269-283X 1365-2915 Wiley Insect Science General Veterinary Ecology, Evolution, Behavior and Systematics Parasitology http://dx.doi.org/10.1111/mve.12009 <jats:title>Abstract</jats:title><jats:p>A stage‐structured <jats:styled-content style="fixed-case">L</jats:styled-content>eslie matrix model of a partial, discrete population of <jats:italic>Ixodes ricinus</jats:italic> (<jats:styled-content style="fixed-case">L</jats:styled-content>innaeus) (Ixodida: <jats:styled-content style="fixed-case">I</jats:styled-content>xodidae) ticks was developed to elucidate the impact of climate trends on the distribution and phenology of this species in the western <jats:styled-content style="fixed-case">P</jats:styled-content>alaearctic. The model calculates development and mortality rates for each instar and evaluates recruitment rates based on the development of the tick population. The model captures the changes in development and mortality rates, providing a coherent index of performance correlated with the tick's geographic range. Maximum development rates are recorded for latitudes south of 36 °N and are spatially correlated with sites of maximum temperature, highest saturation deficit and highest mortality. The maximum available developmental time (the total annual time during which temperature allows development) for <jats:italic>I. ricinus</jats:italic> in the western <jats:styled-content style="fixed-case">P</jats:styled-content>alaearctic is &lt; 45% of the total year. North of 60 °N, available developmental time decreases sharply to only 15% of the year. The latitudinal boundary at which survival rates sharply drop is 43–46 °N, clearly delimiting the classically recognized extent of the main tick populations. The pattern of activity for larval–nymphal synchrony shows a clear west–east pattern. The model demonstrates the impact of climate according to tick stage and geographic location, and provides a practical framework for testing how the tick's lifecycle is affected by climate change.</jats:p> Deconstructing <i>Ixodes ricinus</i>: a partial matrix model allowing mapping of tick development, mortality and activity rates Medical and Veterinary Entomology
spellingShingle ESTRADA‐PEÑA, A., ESTRADA‐SÁNCHEZ, D., Medical and Veterinary Entomology, Deconstructing Ixodes ricinus: a partial matrix model allowing mapping of tick development, mortality and activity rates, Insect Science, General Veterinary, Ecology, Evolution, Behavior and Systematics, Parasitology
title Deconstructing Ixodes ricinus: a partial matrix model allowing mapping of tick development, mortality and activity rates
title_full Deconstructing Ixodes ricinus: a partial matrix model allowing mapping of tick development, mortality and activity rates
title_fullStr Deconstructing Ixodes ricinus: a partial matrix model allowing mapping of tick development, mortality and activity rates
title_full_unstemmed Deconstructing Ixodes ricinus: a partial matrix model allowing mapping of tick development, mortality and activity rates
title_short Deconstructing Ixodes ricinus: a partial matrix model allowing mapping of tick development, mortality and activity rates
title_sort deconstructing <i>ixodes ricinus</i>: a partial matrix model allowing mapping of tick development, mortality and activity rates
title_unstemmed Deconstructing Ixodes ricinus: a partial matrix model allowing mapping of tick development, mortality and activity rates
topic Insect Science, General Veterinary, Ecology, Evolution, Behavior and Systematics, Parasitology
url http://dx.doi.org/10.1111/mve.12009