Home | Contact | Sitemap | 中文 | CAS
Search: 
About Us Research People Cooperation News Education & Training Join Us Societies & Publications Newsletter Resources Links
 
PALAEONEWS
No.11 2021
No.10 2020
No.9 2019
No.8 2018
No.7 2018
No.6 2017
No.5 2017
No.4 2016
No.3 2016
No.2 2015
No.1 2015
  Location: Home > News > PALAEONEWS > No.7 2018
100-million-year-old spider with tail found in amber (Nature Ecology & Evolution, 2018)

  Spiders are one of nature’s success stories, with spider webs distributed in nearly every corner of the world. Recently, the discoveries from the ca. 100 million year old Burmese amber of Myanmar shed important light on where spiders may have evolved from. Two researches were published in Nature Ecology & Evolution titled by ‘Cretaceous arachnid Chimerarachne yingigen. et sp. nov. illuminates spider origins’ and ‘Origin of spiders and their spinning organs illuminated by mid-Cretaceous amber fossils’ on February 5, 2018.  

  Chimerarachne is an extraordinary fossil spider from Burmese amber, described by researchers from NIGPAS and colleagues from China, Germany, UK and USA, with the name comes from the way in which the new fossil seems to combine features of different arachnids, and is based on the chimera: a monster in Greek mythology composed of different animal parts.  

  These “Monster Spiders” are of tiny sizes, less than 2 mm long (excluding tail). The body can be divided into prosoma and abdomen. Six eyes are medially located near the anterior margin of the carapace. Their appendages are similar to those of modern spiders, including a pair of chelicerae, pedipalps, and 4 pairs of legs.  

  The fossils have four pairs of spinnerets, with anterior lateral and posterior lateral spinnerets bearing 14 and 12 articles respectively (each with silk gland). The most impressive feature is the long (at least twice the body length) and thin flagellum, which has more than 70 articles and bears numerous long setae. Such a long tail is similar to that of extant Uropygi (whip scorpions) and Palpigradi (micro whip scorpions).   

  The origin of Chimerarachne can be dated back to the Devonian of New York, USA (359~419 million years ago), where fragments of Attercopus were discovered. They all have characteristic spider-like chelicerae and a long whip-scorpion-like tail (flagellum).  

  The researchers suggested that Chimerarachne is either the most primitive spider known, or belongs to a group of extinct arachnids which were very close to spider origins. Either way, the implication is that there used to be a time when spiders still had tails.   

  In summary, Chimerarachne has a unique body plan among the arachnids and raises important questions about what an early spider looks like, and how the spinnerets and pedipalp organ may have evolved. 

  Reference:   

  1. Wang Bo*, Dunlop J.A., Selden P.A., Garwood R.J., Shear W.A , Müller P., Lei Xiaojie, 2018. Cretaceous arachnid Chimerarachne yingi gen. et sp. nov. illuminates spider origins.Nature Ecology & Evolution. doi: 10.1038/s41559-017-0449-3. 

  2. Huang Diying, Hormiga, G., Cai Chenyang, Su Yitong, Yin Zongjun, Xia Fangyuan, Giribet G., 2018. Origin of spiders and their spinning organs illuminated by mid-Cretaceous amber fossils.Nature Ecology & Evolution. doi: 10.1038/s41559-018-0475-9. 

 
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