| 中国辽宁中华侏罗兽的发现代表早期哺乳动物演化的一个新里程碑 |
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| 关键词:placental mammals Middle Jurassic Liaoning China |
| 基金项目:中国科学技术部973项目(编号: 2012CB822004);中国国家自然科学基金(编号: 40902012);中国地质调查局和美国自然科学基金 |
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| Discovery of Juramaia sinensis (Eutheria) from Western Liaoning of China Represents a New Milestone in Early Mammal Evolution |
| The origin of placental mammals is the most important event in the mammalian evolutionary history because placentals make up more than 90% of all living mammals. Placental mammals are the world’s most diverse mammal group characterized by a placenta that provides nourishment for unborn young. From bats to whales, from elephants to rodents, placental mammals are the most important mammal group of the world, playing crucial roles in modern ecosystems. Placental mammals are considered to be very important, because human and closely related primates are placentals. The problems as to when, where, and how eutherians (including placentals) originated in the Earth’s history are some of the most important aspects in understanding the evolution. Chinese and American paleontologists have now reported their discovery of a remarkably well-preserved fossil from Jianchang County, Liaoning Province of China in a paper published in the prestigious journal Nature. Named Juramaia sinensis or the “Jurassic mother from China,” this fossil from Middle Jurassic Tiaojishan Formation represents the earliest-known fossil of the eutherian-placental lineage. It shows that a new milestone in mammal evolution that was 35 million years earlier than the previous Cretaceous record. This new discovery fills an important gap in the fossil records and helps to calibrate modern DNA-based methods of dating the mammalian evolution. The age of Juramaia sinensis helps to establish the date when eutherian mammals diverged from other mammals: metatherians (whose descendants include marsupials such as kangaroos) and monotremes (such as the platypus). Understanding the beginning of placental mammals is a crucial issue in the evolutionary studies of all mammals. The date of an evolutionary divergence—when an ancestor species splits into two descendant lineages — is among the most important pieces of information that evolutionary biologists and paleontologists can have. Molecular studies can estimate the timing of evolution by a “molecular clock.” But the molecular clock needs to be verified and tested by the fossil record. Prior to the discovery of Juramaia, DNA evidence suggested that eutherians should have shown up earlier in the fossil record—around 160 million years ago. Yet, the oldest known eutherian was 125 million years ago, previously represented by Eomaia from the Early Cretaceous Yixian Formation. This gap between molecular evidence and fossils was an important issue to be resolved for evolutionary biology and paleontology. The discovery of Juramaia gives a much earlier fossil evidence to corroborate the DNA findings, filling an important gap in the fossil record of early mammal evolution and helping to establish a new milestone, known as fossil calibration point, for mammalian evolutionary history. This Jurassic fossil provides new information about the earliest ancestors of today’s placental mammals. By the scientists’ analyses, Juramaia is either a great-grand-aunt or a ‘great-grandmother’ of all placental mammals that are thriving today. The fossil has an incomplete skull of about 22 mm long, part of the skeleton, and, remarkably, impressions of residual soft tissues such as hairs. It was an insectivorous mammal as indicated by its teeth. It was estimated to have a body mass of 13 grams. Most importantly, Juramaia’s complete forelimb and hand bones enable paleontologists to interpret that it is a climbing mammal. This shows that the earliest eutherian evolution is correlated with the new adaptations. Eutherian mammals were a new lineage for the Jurassic Period. The adaptive features of the eutherians may have helped the new lineage to survive in a Jurassic ecosystem dominated by dinosaurs and other vertebrates. The ability to explore the trees and to escape to the canopy might have allowed eutherians to exploit a new niche, inaccessible and untapped by the majority of the Jurassic mammals that lived exclusively on the ground. |
| JI Qiang,YUAN Chong-xi,WANG Xu-ri.2012.Discovery of Juramaia sinensis (Eutheria) from Western Liaoning of China Represents a New Milestone in Early Mammal Evolution[J].Acta Geoscientica Sinica,33(5):715-720. |
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