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The broad objectives of the International Heteropterists’ Society (IHS) are to promote systematic, biogeographic, and biological studies of Heteroptera and to cultivate cooperative research among heteropterists throughout the world. The Society is organized and operated exclusively for scientific and educational purposes.

The Society holds a meeting every four years at locations around the world, where members give presentations on their work and discuss the directions of the Society. The Society’s website provides an online portal for distribution of information about bugs, including a world bibliography, taxon pages, and membership details.

Interested in joining the IHS? Read more about the Society and information on membership. You can also donate to the Student Travel Fund your contribution is very valuable!

We had an excellent presentation about the next Meeting in Thailand during the last Truebug Tuesday.

Follow the link to our Youtube channel to see it, and do not forget to explore the section about the Meeting. If you have any questions, contact the organizer Bob Sites (bugsinbangkok@gmail.com).

The Journal of the International Heteropterists’ Society (JIHS)

CALL FOR PAPERS FOR THE NEXT ISSUE!!!

The Journal of the International Heteropterists’ Society (JIHS) publishes manuscripts of high scientific quality on heteropteran systematics, taxonomy, morphology, biodiversity, biogeography, natural history, and conservation biology

News

JIHS NEWS

The second issue of volume 3 of the JIHS has [...]

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We are sad to report that two heteropterists have passed [...]

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International Heteropterists' Society
International Heteropterists' Society12 hours ago
New paper!

Polhemus D.A.: "A new species of Rhagovelia (Heteroptera: Veliidae) from Sumba Island, Lesser Sunda Islands with notes on zoogeography".

The new species Rhagovelia sumbana is described from the island of Sumba in the Lesser Sunda Islands. The species possesses character states that place it in the R. sarawakensis group, whose members are otherwise known only from the Sundaland continental platform. The presence of this species on Sumba provides additional supporting evidence for the prevailing tectonic hypothesis that Sumba is a displaced continental fragment rifted from an original position on the southeast margin of Sundaland near Borneo, and the geological evidence for this is briefly reviewed. Photomicrographs of key morphological characters for R. sumbana, a map of its known distribution on Sumba, and a photograph of the type-locality habitat are provided.

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International Heteropterists' Society
International Heteropterists' Society4 days ago
The 10th European Hemiptera Congress in Martonvásár, Hungary is coming to an end. Many interesting talks about true bugs were presented, among other topics.
International Heteropterists' Society
International Heteropterists' Society2 weeks ago
New paper!

Dong X. et al.: "Comparative phylogeography of three Cletus species pairs reveals shared responses to quaternary environmental change".

Understanding how co-distributed species respond to shared environmental histories is a central question in evolutionary biology. Although comparative phylogeography has advanced rapidly in vertebrates, insects—despite comprising most terrestrial biodiversity—remain underrepresented. Here, we conducted a comparative phylogeographic study of three closely related phytophagous insect species pairs in the genus Cletus (Heteroptera: Coreidae) distributed across eastern Asia. Using genome-wide SNPs generated by ddRAD-seq, we integrated coalescent-based demographic modeling, ecological niche modeling, and full-likelihood Bayesian tests to explore patterns of divergence and demographic history. Our results revealed strong phylogeographic structure in all three species pairs, with genetic clusters largely partitioned along a north–south axis. Demographic modeling supported initial divergence during the Early Pleistocene followed by recent secondary contact during Late Pleistocene climatic oscillations. Bayesian model choice identified a single synchronous divergence event among all three lineages, indicating a shared response to Quaternary climatic changes. Species distribution modeling and Stairway Plot analyses further revealed asymmetrical demographic histories between northern and southern species, with northern taxa showing glacial contractions followed by recent expansion. Additionally, isolation-by-distance (IBD) was consistently detected across all lineages, whereas isolation-by-environment (IBE) was significant only in lineage I. Together, these findings suggest that historical climatic change was associated with parallel diversification and lineage-specific traits also contributed to differences in demographic responses. This study advances our understanding of insect diversification in eastern Asia and highlights the value of comparative genomic approaches for resolving complex evolutionary histories.

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