Use of life table statistics and degree day values to predict the colonisation success of Hydrellia lagarosiphon Deeming (Diptera: Ephydridae), a leaf mining fly of Lagarosiphon major (Ridley) Moss (Hydrocharitaceae), in Ireland and the rest of Europe

[Display omitted] ► The first biological control agent candidate for Lagarosiphon major is assessed. ► L. major is the first submerged macrophyte targeted using CBC in Europe. ► Demographic, reproductive and survival parameters of Hydrellia lagarosiphon reared on L. major are shown. ► The number of...

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Bibliographic Details
Published in:Biological control 2013-02, Vol.64 (2), p.143-151
Main Authors: Mangan, Rosie, Baars, Jan-Robert
Format: Article
Language:English
Subjects:
Alien invasive species
Animal, plant and microbial ecology
Applied ecology
Biological and medical sciences
Biological control
Degree-days
Demographic growth parameters
Fundamental and applied biological sciences. Psychology
Hydrellia lagarosiphon
Lagarosiphon major
Life table statistics
Phytopathology. Animal pests. Plant and forest protection
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Summary:[Display omitted] ► The first biological control agent candidate for Lagarosiphon major is assessed. ► L. major is the first submerged macrophyte targeted using CBC in Europe. ► Demographic, reproductive and survival parameters of Hydrellia lagarosiphon reared on L. major are shown. ► The number of Td and the Ro were then calculated to predict establishment potential. ► Data suggest H. lagarosiphon is suitable for use as a CBC agent against L. major in Europe. Hydrellia lagarosiphon is a leaf mining fly of the submerged aquatic plant Lagarosiphon major and native to South Africa. With many favorable attributes this fly has the potential to be a valuable biological control agent of L. major, which has become a problematic weed in many parts of the world. Reproductive and developmental biology of H. lagarosiphon was determined at four constant temperatures (10, 13.5, 16.5, 20°C) to evaluate the rate of increase and predicted colonisation success in areas where L. major occurs and areas where its continued spread is probable. Development rates increased with decreasing temperatures and were greatest at 10°C taking 157.9days. Linear regression of developmental rate data for temperatures 10–20°C indicated that 517 degree days were required above a minimum of 7.5°C to complete development. Between two and eight generations per year were estimated across the climatic regions of Europe using the degree day model. The fitted quadratic model for the net reproductive rate (Ro) indicated that Ro falls below 1.0 at 9.9°C, suggesting a decline in population growth when fly populations are subjected to prolonged periods of temperatures below 10°C. The values of Ro for selected sites range from 0 to 13, with all but a few sites in northern Europe being suitable for the establishment of H. lagarosiphon. A minimum of two generations were required each year to sustain population growth and most biogeographical regions in Europe appeared suitable for the establishment of permanent populations of H. lagarosiphon. The implications for the release strategy of the fly are discussed.
ISSN:1049-9644
1090-2112
DOI:10.1016/j.biocontrol.2012.10.013