TY - JOUR AU - Ulrich, Jacob AU - Hart, Mel PY - 2022/02/28 Y2 - 2024/03/29 TI - A Review of Jaw Morphology and Foraging Behaviour in the Bulldog Ant (Myrmecia Gulosa) Group JF - Journal of Student Research JA - J Stud Res VL - 11 IS - 1 SE - DO - 10.47611/jsr.v11i1.1492 UR - https://www.jsr.org/index.php/path/article/view/1492 SP - AB - <p>Formicidae are one of the most diverse groups that, along with termites, make up one third of the total animal biomass on Earth.&nbsp; Contributing to their success is the large variety of foraging behaviours and morphologies ants have evolved in response to various food supplies.&nbsp; On the world continent Gondwana, Myrmeciinae, were the dominant group with many characters considered primitive or ancestral within Formicidae. The <em>Myrmecia gulosa</em> group retains ancestral traits of the Myrmeciinae, now found only in Australia.&nbsp; This research aims to a review the facial morphologies and foraging behaviours of the <em>M. gulosa </em>group to better understand their unique success in Australia, compared to their demise elsewhere.&nbsp; Evaluation of jaw morphology, foraging behaviour, and geographical distribution revealed a narrow range of morphologies and consistent foraging behaviour across 41 of 42 studied species all over Australia.&nbsp; Based on similar morphologies of 41 species and behaviours of eleven, eight of which were considered well researched, it is possible that understudied <em>M. gulosa</em> species will demonstrate traits similar to well-researched species.&nbsp; It appears that <em>M. gulosa</em> species maintained ancestral traits that failed to allow the present-day success of Myrmeciinae elsewhere, and likely allowed the diversification of other ant genera.&nbsp; The following collated results suggests, members of the <em>M. gulosa</em> species group appear not to face the same food resource selective pressures that led to diversification in other ant genera and further supports food resources as an important selective pressure for other ant genera that <em>M. gulosa </em>possibly failed to adapt to.&nbsp;</p> ER -