Member list
Current members
- Lan-Wei Yeh
- Ecology and evolution of Taiwanese Carabus ground beetles.
- Chung-Hsin Huang
- Master topic: Flucuating Asymmetry and Developmental Asymmetry of Cyclommatus mniszechi; PhD topic: Evolution of Mandible Morphology and Fighting Behavior in Stag Beetles
- Ying-Yuan Lo
- Systematics, Behavior and Evolution of Lynx Spiders.
- Leocris Batucan Jr.
- New Species and DNA Barcoding of the Mayfly (Ephemeroptera) in Mt. Malindang, Mindanao, Philippines.
- Chun-Yu Lin
- Parasitoid Wasps of Damselflies; Phylogenetics and Evolution Histories of Treehoppers
- Hsu-Yi Lin
- Fighting Behavior of Odontolabis siva parryi Stag Beetles
- Sheng Lin
- Transcriptome Profiling Psolodesmus mandarinus mandarinus Damselfly
- Pei-Hsuan Chang
- Thermal Adaptation and Habitat Preference of Psolodesmus mandarinus Damselfly
- Min-Chen Lin
- Disruptive Camauflage of Colors of Pachyrhynchus Weevils.
- Masahiko Tanahashi
- Ecology and Evolution of Pachyrhynchus Weevils.
- Su-Ping Lin
- Symbiotic Yeasts of Stag Beetles
- Jun-Ying Wang
- Conservation of Mortonagrion hirosei Damselflies
- Chin-Han Hsiao
- Wei-Zhe Tseng
- Systematics and Evolution of Weevils
- Cheng-Tse Yung
- Maternal Gift of Pachyrhynchus sarcitis Weevils
Past members
- Jo-Fan Wang
- Territorial behavior, trait evolution.
- Yu-Hsun Hsu
- Mating strategy, behavioural ecology, molecular ecology, population genetics, molecular phylogenetics, biostatistics.
- Yi-Shou Yang
- Reproductive Isolation of Psolodesmus mandarinus subspecies.
- Wataru Kojima
- Evolution of male sexual traits in Taiwanese scarab beetles.
- Zhen-Yi Chen
- Fighting behavior and reproductive strategy of stag beetles.
- Teng-Yu Liu
- Fighting behaviour and life history observation of a stag beetle Rhaetulus crenatus crenatus.
- Princess Angelie S. Casas
- Insect Diversity and Evolution
- Lu-Yi Wang
- Defense Mechanism of Pachyrhynchus weevils.
- Hui-Yun Tseng
- Aposematic coloration, island biogeography.
- Yu-Jen Yu
- Variation and Adaptation of wings.
- Yen-Ting Chen
- Systematics and evolution of insects.
- Yun-Chieh Cheng
- Damselfly larval diet, molecular evolution.
- Tai-Chia Chiang
- The effect of aposematic colors of Pachyrhynchus weevils on avian predators.
- Yong-Chao Su
- Behavioral ecology, sociobiology, population genetics, and molecular phylogenetics.
- I-Ting Hsiao
- Variation of genitalia in Euphaea amphicyana.
- Jyun-Huei Huang
- The fighting behavior of a stag beetle, Rhaetulus crenatus.
- Shi-Ting Wu
- Membracis Phyllotropis.
- Chiao-Wei Lin
- The fighting behavior of a stag beetle, Rhaetulus crenatus.
- Wei-Liang Xiao
- Variation of wing veins in Euphaea amphicyana.
- Hung-Nien Chen
- 1. The effect of typhoon on survivalship of Matrona cyanoptera. 2. Modes of phenotypic variation in Euphaea amphicyana.
- Chu-Yen Cheng
- Phylogeography of a Philippine's treehopper, Leptocentrus reponens.
- Che-Yu Kuan
- Variation of mandibles in stag beetles.
- Yat-Hung Lee
- Speciation of Euphaea damselflies.
- Ming-Yu Chen
- Phylogeography and population history of the treehoppers, Centrochares horifficus from the Philippines Archipelago.
- Shao-Chang Huang
- Visual Communication of Matrona cyanoptera
- Jen-Pan Huang
- Population Genetics and Phylogeographic Analyses of Formosan Damselfly, Euphaea Formosa (Insecta: Odonata: Euphaeidae) from Taiwan
- Wei-Yun Chen
- Molecular and Phylogenetic Characterization of Endosymbiotic Bacteria of the Froghopper, Okiscarta uchidae (Insecta: Hemiptera: Cercopidae)
Visiting scholars and students
- Jillian del Sol
- Behavioral Ecology; Mating System Ecology; Weapon Ecology and Evolution; Evolutionary Biology
- Ian Dela Cruz
- New Species and DNA Barcoding of the Stonefly (Plecoptera) in Mt. Malindang, Mindanao, Philippines.
- Shinya Komata
- Ecology & Evolution of Wing Polymorphism in a Mimetic Swallowtail Butterfly, Papilio memnon.
- Vanitha Williams
- Predatory potential of waterbug, Diplonychus rusticus and dragonfly, Diplacodes trivialis on mosquito larvae.
- Marina Vilenica
- Dragonfly composition (Insecta, Odonata) in wetland area of Turopolje region, Croatia
- Klaas-Douwe 'KD' B. Dijkstra
- History, diversity and identification of dragonflies and damselflies (Odonata).
- Erin McCullough
- " Diversification of weapon form: aerodynamic costs of beetle horns.
- Ashley E. King
- Intrasexual combat and intersexual antagonistic co-evolution in horned beetles.
Chin-Han Hsiao
Title
Master Student 2021-
Species: Rhaetulus crenatus
Project
Fighting Behavior of Rhaetulus crenatus Stag Beetles
Abstrct
E-mail:hanry880901@gmail.com
Rhaetulus crenatus morphs
Allometry and Fighting Behaviors of Rhaetulus crenatus Stag Beetles
Abstract
Many male animals use their weapons to compete for the resource and reproduction. Male stag beetles possess exaggerated mandibles as weapons in fightings. The mandibles of stag beetles are highly diverse in sizes and shapes. However, how most stag beetles use their weapons in contests is still largely unknown. The research of stag beetle, Cyclommatus mniszechi indicated that males can be classified into major and minor morphs based on the allometry of the mandibles. Major and minor males of C. mniszechi employed the same behavioral elements in contests, but major males competed more aggressively than minor males. We test the hypothesis that different types of mandibles of stag beetles have specific fighting patterns. The study investigated the allometry and fighting behavior of stag beetle, Rhaetulus crenatus crenatus. Major males of R. crenatus have exaggerated curved-down mandibles with large denticles. We expected that male R. crenatus can be classified into major and minor morphs based on their allometric relationships, and the slopes of their allometries of two morphs are positive and different, suggesting that there are differences in resource allocation for weapons between morphs. In addition, we expected that majors and minors of R. crenatus would perform different fighting patterns. According to the mandible shapes of male R. crenatus, we hypothesize that the denticles on their mandibles could be used to fix their opponents’ mandibles for pushing, and they would use the forked denticles on the top of the mandibles to clamp their opponents’ heads or thoraxes and then flip them. The study will use the sequential analysis to investigate the fighting behavior of different morphs of male R. crenatus and the relationships between mandible form and fighting behavior.