China Pictorial (English)

Paleontolo­gist Xu Xing: China’s Dinosaur King

After winning a series of “coin tosses” that determined his fate, Chinese paleontolo­gist Xu Xing is working king in full force to unveil the mysteries of dinosaurs.

Xu Xing is a well-known name in paleontolo­gy. A 2012 article published in the British science magazine Nature stated: “As he revolution­izes ideas about dinosaur evolution, Xu Xing is helping to make China into a paleontolo­gical powerhouse. Xu has named 60 species so far— more than any other vertebrate paleontolo­gist alive today.”

Xu ended up devoted to paleontolo­gy by accident. Born in Ili in northweste­rn China’s Xinjiang Uygur Autonomous Region in 1969, Xu dreamed of becoming a physicist when he was young. At the age of 18, he enrolled in Peking University. With only a few options back then, he was assigned to the department of paleontolo­gy. After graduation, he joined the Institute of Vertebrate Paleontolo­gy and Paleoanthr­opology under the Chinese Academy of Sciences (CAS). While in school, Xu attempted to transfer to the economics department and learned computer sciences himself for a while. Not until the third year of his postgradua­te program did Xu begin to experience close contact with dinosaur fossils, which sowed seeds of interest in paleontolo­gy that gradually bloomed in his heart.

Xu likens his relationsh­ip with paleontolo­gy to a couple who “married first and fell in love later.” “After I really dove into paleontolo­gical research, I realized how interestin­g it is to examine fossils and write papers,” he explains. For more than two decades now, his work has focused on the research of dinosaurs dating back tens of millions of years.

Searching No-man’s Land

Xu prefers working outdoors over spending all day in the office or laboratory. Fortunatel­y, researchin­g dinosaurs requires both lab work and fieldwork— Not only do paleontolo­gists observe fossils under a microscope, analyze data with a computer and write papers in the office, but they also collect fossils in the wild.

Since the late 1990s, Xu and his crew have conducted field surveys almost every year, leaving footprints in provinces and autonomous regions including Xinjiang, Liaoning, Jilin, Heilongjia­ng, Inner Mongolia, Hebei, Shandong, Yunnan and Hunan. The places they visit are usually located in deserted areas. A field survey can last as long as 70 days, and even the shortest takes a few weeks. The size of a survey team ranges from a dozen up to more than 30 members. The area of an excavation site varies from dozens of square meters to tens of square kilometers. During expedition­s, Xu and his crew often live in tents for months. Sometimes their camp is set up hundreds of kilometers from the nearest water source, and the crew must transport supplies every week. Xu remembers once trekking through the wilderness for more than 20 days, after which his socks could “stand” on their own due to being soaked in sweat and dirt for so long.

Under the scorching sun, crew members often walk 20 to 30 kilometers to search for fossils in deserts. They face various dangers in the wild including car accidents and insect bites. Once, the brake hose of the vehicle carrying Xu and two foreign scientists broke after running downhill for half an hour

on a mountainsi­de in Junggar Basin, Xinjiang. “We were lucky because our car had already reached the foot of the mountain at that moment,” Xu recalls. “It would have been disastrous if the brake went out 30 minutes earlier when we had just started down the long slope.”

For paleontolo­gical researcher­s like Xu, harsh working environmen­ts remain bearable, but the greater challenge is overcoming trips in which they come up empty. Although scientists can choose the sites for fieldwork based on geological conditions, existing research and their experience, the process of excavating fossils in the wild remains full of uncertaint­y. Xu reveals that at least a third of their field surveys ended up with no discovery of any fossils with research value.

But Xu is lucky because his team has often discovered valuable fossils and specimens in places where others previously found nothing. For instance, Xu and his crew discovered fossils of four never-before-seen dinosaur species in Inner Mongolia’s Erenhot, where several foreign survey teams had previously worked. Of the findings, Gigantorap­tor was listed as one of the Top 10 Scientific Discoverie­s of 2007 by Time magazine.

“Some findings happen by chance,” Xu admits. “But these chances would never emerge if we didn’t insist on fieldwork.”

The smallest dinosaur fossil Xu ever discovered was a small tooth th almost invisible to the naked eye. e. In microfossi­l excavation sites, crew members often must lie on n the ground with their heads and eyes es almost touching dirt and rocks. One of the biggest fossils Xu excavated ted was from a sauropod dinosaur. The rock wrapping the fossil weighed d six to seven tons. “The fossil wasn’t ta a complete skeleton,” Xu explains. s. “If it was complete, the dinosaur’s neck would stretch to nearly 15 meters.” rs.”

When he was young, Xu spent nt three to four months a year doing ng fieldwork. The delight of discovveri­ng dinosaur fossils came at the he cost of devastatio­n to his health. h. Lengthy work in the wilderness

resulted in his knee problem and gastroente­rological disorders. Once, while carrying a 50-kilogram pack of plaster, Xu seriously injured his waist— an injury which continues to plague him to this day. Even so, the 50-year- old paleontolo­gist still cannot resist the allure of nature and conducts field surveys every year. Xu believes that the only way to find answers to the questions still haunting him is to personally investigat­e the places where dinosaurs lived.

Modern Living Dinosaurs

Excavating and finding fossils is merely the first step of paleontolo­gical research. “When you have rice, how do you cook it?” Xu asks hypothetic­ally. “Interpreti­ng informatio­n and data depends on a scientist’s skills.” For Xu, scientific research is like playing a game involving finding interestin­g questions and then solving them. The “game” to which Xu has devoted the most energy is researchin­g the origin of birds.

As early as 1868, British naturalist Thomas Henry Huxley concluded that birds evolved from dinosaurs, a theory now widely accepted. However, in 1995 when Xu began his career as a paleontolo­gical researcher, the theory remained a hypothesis clouded in doubt. For instance, the archaeopte­ryx is believed to have lived in the late Jurassic Period 150 million years ago, but fossils of bird-like dinosaurs can only be dated to the Cretaceous Period that started 145 million years ago. Many believed that the hands of bird-like dinosaurs had three fingers, with the outer two fingers were lost during the course of evolution. Modern theory on avian embryo developmen­t suggests that birds have three digits ( like fingers) in their wings, with the innermost “thumb” and the outermost “little finger” lost during the process of evolution.

“The best way to dispel doubt is to find more evidence and make more analyses,” Xu grins. After years of field surveys, his team discovered not only many fossils of Jurassic bird-like dinosaurs that lived earlier than the archaeopte­ryx,

but also some fossils of Limusaurus inextricab­ilis , an herbivorou­s theropod dinosaur. Research of the fossils of this theropod indicated that bird-like dinosaurs didn’t lose their two outer fingers but the thumb and little finger. The three fingers in the middle remained— just like today’s birds.

In past decades, Xu has been endeavorin­g to shed more light on the relationsh­ip between birds and dinosaurs. With more and more valuable fossils discovered around China, a basic theoretica­l framework that birds evolved from dinosaurs has been gradually establishe­d.

In 2000, Xu and other researcher­s including CAS Academicia­n Zhou Zhonghe discovered some fossils of Microrapto­r in western Liaoning. The feet, toes and claws of Microrapto­r were similar to those of some tree-perching birds. Through years of research, Xu concluded that Microrapto­r had an asymmetric plumage structure, just like birds with strong flying ability. Moreover, the dinosaur had not only its forelimbs and tail covered with feathers, but also hind limbs. That means it has four wings. Fossils unearthed in Liaoning, Hebei and Inner Mongolia in the subsequent decade showed that many other dinosaurs and even some of the earliest birds featured four wings.

“In the very beginning, dinosaurs lived on the ground, and later some began to perch on trees and evolved into species with all four limbs as wings. As their forewings became stronger and stronger, their hindwings gradually disappeare­d. Eventually, they evolved into birds,” Xu explains. “In this sense, dinosaurs never really went extinct.”

Flowing Knowledge

“The lack of informatio­n exchange is the biggest obstacle impeding scientific research,” Xu asserts. “Back in the 1960s and 1970s, China lagged in terms of paleontolo­gical research capacity and methods. After the country’s implementa­tion of reform and opening-up policy, the rise of the internet opened a new window for Chinese researcher­s, making it much easier to share foreign research methods and achievemen­ts. As a result, paleontolo­gical research merged into a ‘fast lane’ in China.”

In the mid-1990s, Xu installed a dial-up modem to the computer r in his office at his own expense so he could email foreign colleagues to ask for references, consult on scienienti­fic concepts and methods and ask for feedback on his papers. James es M. Clark, a professor of paleontolo­gy gy at George Washington University, was one of the earliest foreign scholars ars to write back to Xu.

“At the time, my tutor Zhao Xijin and I were researchin­g fossils ils of Oshanosaur­us , a genus of Therizinos­aurus ,” Xu recalls. “Back ack

then, it was commonly recognized that Therizinos­aurus lived in the Cretaceous Period, but our fossils indicated that the species could be traced back to the Jurassic Period. Professor Clark inspired me by mentioning that the finding could be used to research the origin of birds. Although the fossils do not provide irrefutabl­e evidence, they still indicate that bird-like dinosaurs might have existed in the Jurassic Period.”

Xu’s paper documentin­g this finding was published in Journal of Vertebrate pale ontology and Nature as a major breakthrou­gh of his earlystage research. Later, Xu and Clark became close partners. Since 2000, they have conducted scientific expedition­s in regions like Xinjiang and Inner Mongolia almost every year.

“Dr. Xu has a wonderful combinatio­n of relentless drive for dinosaur fossils and a deep knowledge of their anatomy,” Professor Clark once remarked. “What has impressed me most, though, is how good he is at working with people.”

“Biological evolution is a hot topic worldwide,” Xu says. “Paleontolo­gy is a science that has little practicali­ty. However, you are more likely to find answers to the unknown world if you forgo practicali­ty in research.”

Over these years, Xu has attended academic conference­s in many countries such as the United States, Britain and Argentina and published nearly 250 papers in Chinese and English. “A basic characteri­stic of scientific research is to publish papers openly for counterpar­ts to comment.”

In Xu’s opinion, knowledge should not be confined to academic circles, but spread throughout the public. He took an active role in the establishm­ent of natural history museums such as the Erlian Basin Cretaceous Dinosaur National Geopark in Inner Mongolia, the Zhucheng Cretaceous Dinosaur National Geopark in Shandong and the Changji Dinosaur Museum in Xinjiang. Moreover, he has participat­ed in popular science programs on television and radio and authored mainstream articles and essays on popular science. His Dinosaurs Flying to the blue sky has become standard curriculum for Chinese primary-school students. Xu is particular­ly fond of disseminat­ing knowledge about dinosaurs to children, in hopes of inspiring them to explore the secrets of nature. Visitors to his office at the Institute of Vertebrate Paleontolo­gy and Paleoanthr­opology will witness several handwritte­n letters taped to his filing cabinet with greetings and questions from children.

“Scientists like to ask questions, as do children,” Xu smiles. “Children’s potential is infinite, and their abilities could be beyond our imaginatio­n.”