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08/04/2026
NEW PUBLICATION | Department of Biology faculty Dr. Divina Amalin and Dr. Thaddeus Carvajal, together with PhD student Abigaile Mia Hila, published a study on high-throughput image-based pupal s*x classification in Aedes aegypti using convolutional neural network models for Sterile Insect Technique applications.
08/04/2026
11/11/2025
01/10/2025
01/10/2025
Fully Funded PhD Position in the Molecular Ecology of Rivers at the MECOH Lab, Ehime University, Japan (Applications Open from 26 Aug, 2025) The Molecular Ecology and Health (MECOH) Lab at Ehime University, Japan (PI: Prof. Kozo Watanabe), is accepting applications for a doctoral position in the field of Molecular Ecology in Rivers . The...
01/10/2025
📣 Research alert! DOI:- https://doi.org/10.1007/s11829-025-10164-y
Feeding by the mirid bug Helopeltis bakeri Poppius alters the emission of host plant volatiles
Nobody likes a pesky pest. Of which, the mirid bug, Helopeltis bakeri Poppius, is a polyphagous pest that feeds on a wide range of plants, including key crops such as cocoa (Theobroma cacao) and sweet potato (Ipomoea batatas). Despite its agricultural importance, we still don't know much about how this insect interacts with its hosts! In this study, the authors looked into the response of sweet potato under H. bakeri feeding events. Volatile collections revealed that infestation induced the production of a compound, the terpene squalene, along with increased emissions of other volatiles, including multiple terpenes, terpenoids, and the green leaf volatile (Z)-3-hexenyl acetate.
Electroantennographic and behavioral assays indicated that squalene did not elicit electrophysiological or behavioral responses in H. bakeri, perhaps its ecological role may lie outside direct insect–plant signaling. While these exciting findings provide useful baseline data on host–pest interactions, their broader ecological significance remains mysterious, particularly because the natural enemies of H. bakeri are not yet known. Identifying these natural enemies and investigating their responses to plant volatiles will be the next big step in understanding the multitrophic interactions that shape this pest–plant system.
01/10/2025
The key to creating better protective strategies against dengue is understanding how mosquitoes behave, a Department of Science and Technology (DOST) Balik Scientist said.
Read more:
https://www.gmanetwork.com/news/scitech/science/958025/understanding-mosquitoes-will-improve-dengue-prevention-dost-scientist/story/
29/05/2025
01/05/2025
NEW PUBLICATION
Congratulations to Leslie Ann Ormenita, Dr. Alberto T. Barrion, Dr. Jose Isagani Janairo, Dr. Thaddeus Carvajal and Dr. Divina M. Amalin, and their colleagues Dr. Dionisio Alvindia and Dr. Joeselle Serrana, on their new paper published in the Bulletin of Entomological Research.