BEIJING, Nov. 18,
2024 /PRNewswire/ -- In a fully equipped laboratory
in Beijing, a dragon-head
architectural component from the Tang Dynasty (618-907) discovered
at the Guzhou ruins in Xiong'an New Area, North China's Hebei
Province is prepped for a CT scan.
Thanks to the use of CT scans, 3D modeling, and other high-tech
facilities in this laboratory, the restoration and research of the
dragon head is progressing smoothly. The Key Laboratory of
Archaeological Sciences and Cultural Heritage at the Chinese
Academy of Social Sciences (CASS) is promoting the revitalization
of more cultural relics with the help of technology, and has become
a new example of cutting-edge technology used in archaeological
work.
In recent years, China has
intensified efforts to integrate technology into archaeology.
Remote sensing satellites have been used to accurately document the
shapes of excavation sites, 3D imaging can reconstruct collapsed
underground spaces, and 3D digital modeling is now used to
reverse-engineer and replicate decayed wooden boxes. Advances in
deep-sea technology have expanded China's underwater archaeology from depths of
50 meters to 2,000 meters.
These interdisciplinary collaborations are uncovering the
limitless potential of archaeological science and continually
enhancing China's ability to
protect cultural heritage.
"Technology and archaeology have always been areas of
interdisciplinary integration and collaboration. Over the last
century, the development of archaeology, from its traditional roots
to the present, has been closely intertwined with technological
advancements," Chen Jiachang from the China Academy of Cultural
Heritage told the Global Times.
"From the early integration of geology and archaeology to the
modern-day application of advanced technologies, these innovations
have increasingly aided archaeologists in analyzing remnants of
ancient societies, reconstructing their structures, and
understanding their social forms," Chen said.
Technological power
The new laboratory consists of 13 sub-laboratories for
archaeological sciences, five for cultural heritage conservation,
and five joint archaeological laboratories. It integrates advanced
technologies from disciplines including molecular biology,
chemistry, geosciences and physics to facilitate interdisciplinary
and inter-institutional research in archaeological science and
heritage conservation.
Following laboratory analysis and preliminary cleaning of the
dragon head's eyes and nose, large areas of paint were found on the
gray ceramic surface. The dragon's pupils are black, while the
eyeliner around them is green.
Liu Yong, head of the Key
Laboratory of Archaeological Sciences and Cultural Heritage,
recalled to the Global Times that "the top part of the dragon head
is missing, and cracks can be seen in its nose and eyebrows,
preventing any movement of the artifact."
So further discovery of the dragon's pupil and eyeliner colors
can't bear any more movement on the artifact.
One key reason has influenced the team's decision to use
curved-surface fluorescence technology to create a 3D model of the
painted artifact. Fluorescence, with its penetrating properties,
interacts with different elements to reveal colors hidden beneath
layers of soil. "Normally, the green color shines from malachite,
while the white ears are calcium carbonate, but we can only figure
it out after the fluorescence test."
"Because it couldn't be moved, we used soil packing to stabilize
it and employed CT scanning to examine whether the dragon head was
solid or hollow," Liu explained. "CT technology is primarily used
on artifacts for pre-detection. It helps assess the preservation
status and internal structure and provides information for
protective cleaning."
The development of portable CT technology has also transitioned
such equipment from fixed to mobile, allowing for better balancing
of artifact protection and research. "The goal is to maximize
archaeological information while protecting the artifact," Liu
said.
Increasingly, not just field archaeologists but also physicists,
geologists, and experts from various other fields are becoming
involved in this emerging field of archaeological science.
Wider applications
From aerial and drone remote sensing to satellite remote
sensing, these increasingly advanced technologies provide a broader
distribution of data about archaeological sites, enabling more
comprehensive hypotheses about historical scenarios.
"In the past, we used radar. Satellite remote sensing offers
higher density points, forming more detailed surface information,"
Chen said. "Now the application of technology helps archaeologists
clarify ancient societal remains."
Chen explained that technologies such as residue DNA analysis
and isotope analysis, combined with archaeological interpretations
of historical records and research, create a chain of factual
evidence for the reconstruction of ancient societies. "It's a
collaboration across disciplines - unifying science and
archaeology."
However, even with advancements in technology and conservation,
challenges remain. Natural weathering continues to pose problems
for artifacts like the Yungang Grottoes and the Leshan Giant
Buddha.
The conservation of stone grotto artifacts faces three main
challenges: structural reinforcement, water infiltration
prevention, and weathering resistance. While grouting and other
techniques can address the first two problems through innovative
approaches tailored to the artifact, combating weathering -
considered a global challenge - requires breakthroughs in material
research.
"Just as chip manufacturing needs new material development,
creating advanced infiltration reinforcement materials is key to
preserving grottoes," Chen said.
There are more advanced technologies playing necessary roles in
China's significant archeological
projects beyond the conservation of stone grottoes. For instance,
in the conservation of Sanxingdui artifacts, the application of
ivory analysis revealed similarities in structure and materials to
those of stone grottoes. This fusion of technology and archaeology
has allowed Sanxingdui artifacts to gain renewed life.
Ultimately, the goal of technology in archaeology is to
reconstruct the framework of ancient societies, revealing the
structures and dynamics of human life within their historical
contexts. "Archaeology and technology complement each other,
creating a synergistic effect," Chen concluded.
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SOURCE Global Times