Home | Contact | Sitemap | 中文 | CAS
Search: 
About Us Research People International Cooperation News Education & Training Join Us Societies & Publications Papers Resources Links
 
Research
Research Progress
Research Divisions
Supporting System
Achievements
Research Programs
How to Join Us
  Location: Home > Research > Research Progress
Specialized beetles shed light on predator–prey associations in the Cretaceous
       Updatetime: 2017-03-07 Printer      Text Size:A A A 

Recently, a research team led by researchers from the Nanjing Institute of Geology and Palaeontology, Chinese Academy of Sciences (NIGPAS) has found a new morphologically specialized beetle from the mid-Cretaceous Burmese amber, shedding new light on the predator–prey associations in the late Mesozoic terrestrial ecosystem.   

Insects exhibit various morphological specializations specific to particular behaviors, and these permit the reconstruction of palaeobiological traits. Dr. CAI Chenyang at NIGPAS and Dr. YIN Ziwei at the Shanghai Normal University discovered three exceptionally well-preserved fossils of highly specialized ant-like stone beetles (Staphylinidae, Scydmaeninae) from mid-Cretaceous Burmese amber, some 99 million years ago.

These fossils, named as Cascomastigus monstrabilis Yin & Cai, 2017, are represented by both male and female, and belong to a small tribe called Mastigini. These early beetles display morphological modifications on the antennae unknown among living ant-like stone beetles and associated with predation on springtails (Collembola), a widespread and abundant group of significantly greater geological age.

Cascomastigus has an extremely large body size, elongate clubbed maxillary palpi, toothed mandibles, and more importantly, slender and highly modified antennae that functioned as an antennal setal trap. Such an antennal modification is analogous to that of the modern ground beetle genus Loricera (Carabidae, Loricerinae), a group possessing a specialized antennal setal trap exclusively for the capture of springtails.

Springtails, usually only a few millimeters long, are one of the most widespread and abundant of terrestrial arthropods, and is the most diverse group of Entognatha, the sister group to insects. The earliest known springtails, Rhyniella praecursor, are from the Early Devonian Rhynie chert (Scotland, approximately 400 million years ago), and Mesozoic and Cenozoic ambers have witnessed the explosive radiation of this usually overlooked group. Burmese amber also harbors abundant and diverse springtails, which sometimes occur in groups. Therefore, the springtails are potential ideal food resource for these litter-dwelling beetles.   

The tribe Mastigini display a disjunctive distribution, occurring in South Africa and southern Europe. The new discovery of Cascomastigus from northern Myanmar further highlights the once broader distribution of Mastigini. All previously known specialist predators of springtails are confined to the middle Eocene. Cascomastigus from about 99 million years ago represents the earliest known predators specialized for capturing springtails, pushing back the age of such predation by at least 54 million years.   

This study is jointly supported by the Chinese Academy of Sciences, the National Natural Science Foundation, the Natural Sciences Foundation of Jiangsu Province, and the Ministry of Science and Technology of China.    

Reference: Zi-Wei Yin, Chen-Yang Cai*, Di-Ying Huang & Li-Zhen Li, 2017. Specialized adaptations for springtail predation in Mesozoic beetles. Scientific Reports, DOI: 10.1038/s41598-017-00187-8 (*corresponding author) 

 

CAI Chenyang

cycai@ nigpas.ac.cn 

Nanjing Institute of Geology and Palaeontology, Chinese Academy of Sciences 

 Cascomastigus monstrabilis, Image by YIN Ziwei 

 
Nanjing Institute of Geology and Palaeontology Chinese Academy of Sciences
No.39 East Beijing Road ,Nanjing 210008, CHINA Phone: 0086-25-83282105 Fax: 0086-25-83357026 Email: ngb@nigpas.ac.cn