Frey F.A., Weis D., Yang H.J., Nicolaysen K., Damasceno D., Leyrit H. & Giret A. (1998). Flood Basalts in the Kerguelen Archipelago: Petrogenetic Interpretations Based on Whole-Rock Geochemistry..
Abstract: Workshop 'Progress in Kerguelen islands Geology'
Programme: 251
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Michon G., Giret A. & Cottin J.Y. (1998). 1/100 000 geological Map of the Kerguelen Islands.
Abstract: Workshop 'Progress in Kerguelen Islands Geology'
Programme: 251
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Weis D., Damasceno D., Fey F.A., Nicolaysen K. & Giret A. (1998). Temporal Isotopic Variations in the Kerguelen Plume: Evidence from the Kerguelen Archipelago..
Abstract: Workshop 'Progress in Kerguelen Islands Geology'
Programme: 251
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O'Reilly S.Y., Griffin W.L., Gaul O. & Poudjom Djomani Y. (1998). Some Applications of 4-D Lithosphere Mapping..
Abstract: Workshop 'Progress in Kerguelen Islands Geology'
Programme: 251
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Tourpin S. & Giret A. (1998). Zeolitisation and Ree Basalt Contents in the Kerguelen Islands..
Abstract: Workshop 'Progress in Kerguelen Islands Geology'
Programme: 251
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Camps P., Henry B., Prevot M. & Perrin M. (1998). Paleomagnetic investigations in Kerguelen Islands..
Abstract: Workshop 'Progress in Kerguelen Islands Geology
Programme: 251
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ANGELIER J., SLUNGA R., BERGERAT F., STEFANSSON R. et HOMBERG C. (2005). Mantle plume and transform zones as perturbators of regional stress fields : North and South Iceland..
Abstract: Workshop “Plume-ridge interaction in Iceland”, Hamburg 7-8 march 2005, abstract, 1 p.
Programme: 316
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ANGELIER J., BERGERAT F., SAEMUNDSSON K., FOUREL L. et JONSSON S.S. (2005).
Abstract: Workshop “Plume-ridge interaction in Iceland”, Hamburg 7-8 march 2005, abstract, 1 p
Programme: 316
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Schmidt M., Ciais P., Levin I., Meijer H., Ramonet M. & al. (2003). The European Intercomparison Project for Greenhouse Gas Monitoring (TACOS-Infrastructure). (Vol. 148).
Abstract: WMO/GAW Report
Programme: 416
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. (2021). Contrasting Manual and Automated Assessment of Thermal Stress Responses and Larval Body Size in Black Soldier Flies and Houseflies (Vol. 12).
Abstract: Within ecophysiological and genetic studies on insects, morphological and physiological traits are commonly assessed and phenotypes are typically obtained from manual measurements on numerous individuals. Manual observations are, however, time consuming, can introduce observer bias and are prone to human error. Here, we contrast results obtained from manual assessment of larval size and thermal tolerance traits in black soldier flies (Hermetia illucens) and houseflies (Musca domestica) that have been acclimated under three different temperature regimes with those obtained automatically using an image analysis software (Noldus EthoVision XT). We found that (i) larval size estimates of both species, obtained by manual weighing or by using the software, were highly correlated, (ii) measures of heat and cold tolerance using manual and automated approaches provided qualitatively similar results, and (iii) by using the software we obtained quantifiable information on stress responses and acclimation effects of potentially higher ecological relevance than the endpoint traits that are typically assessed when manual assessments are used. Based on these findings, we argue that automated assessment of insect stress responses and largescale phenotyping of morphological traits such as size will provide new opportunities within many disciplines where accurate and largescale phenotyping of insects is required.
Keywords: Hermetia illucens Musca domestica acclimation automated phenotyping heat and cold tolerance
Programme: 136
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