100 Years of Archaeological Research in China (1921-2021): A Space-Based Perspective

A special issue of Land (ISSN 2073-445X). This special issue belongs to the section "Landscape Archaeology".

Deadline for manuscript submissions: closed (31 October 2022) | Viewed by 28834

Special Issue Editors

1. Aerospace Information Research Institute, Chinese Academy of Sciences, Beijing 100864, China
2. International Centre on Space Technologies for Natural and Cultural Heritage under the Auspices of UNESCO, Beijing 100094, China
Interests: remote sensing; GIS; space archaeology; machine learning in archaeology; heritage conservation and sustainability; historical geography; big Earth data
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Aerospace Information Research Institute, Chinese Academy of Sciences, Beijing, China
Interests: remote sensing for archaeology; archaeological feature detection; GIS-based archaeological predictive modelling
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Guest Editor
Institute of Archaeology, Chinese Academy of Social Sciences, Beijing 100710, China
Interests: digital archaeology
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Guest Editor
Institute of Archaeological Science, Department of Cultural Heritage and Museology, Fudan University, Shanghai 200433, China
Interests: neolithic–bronze age archaeology; silk road archaeology
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Guest Editor
Institute of Cultural Heritage, School of History and Culture, Shandong University, Jinan 250100, China
Interests: archaeology of the Xia, Shang and Zhou Dynasties; archaeological theory and history of archaeology; cultural heritage protection
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National Museum of China, Beijing 100006, China
Interests: aerial archaeology; remote sensing survey of large archaeological sites and mining and smelting sites
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Department of Archaeology and Museology, Peking University, Beijing 100871, China
Interests: Chinese neolithic archaeology; landscape archaeology; GIS in archaeology
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School of Architecture, Tianjin University, Tianjin 300072, China
Interests: spatial humanities and digital humanities; landscape archaeology and cultural landscape heritage; big data in environmental behavior; geodesign, green infrastructure and leisure activities
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School of Remote Sensing and Information Engineering, Wuhan University, Wuhan, China
Interests: digital cultural heritage; remote sensing archaeology; smart museum; cultural big data
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Guest Editor
Aerospace Information Research Institute, Chinese Academy of Sciences, Beijing 100094, China
Interests: digital environmental archaeology; remote sensing for archaeology and heritage conservation
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Institute of Geography, Henan Academy of Sciences, Zhengzhou 450052, China
Interests: digital archaeology; environmental archaeology; settlement archaeology
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School of Mongolian Studies, Inner Mongolia University, Hohhot 010021, China
Interests: archaeological remote sensing; cultural heritages digital protection; landscape archaeology; archaeological GIS; historical GIS; synthetic aperture radar signal processing
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Special Issue Information

Dear Colleagues,

In 1921, China’s first official archaeological excavation campaign was carried out at Yangshao village of today’s Sanmenxia city, in the Henan Province, marking the birth of modern Chinese Archaeology. The discovery of Yangshao has confirmed that there was a very developed painted-pottery culture in Neolithic China. Forty years later, the first remote sensing-based archaeological survey in China was conducted in Sanmenxia too. In this pioneering survey, Chinese archaeologists and remote sensing experts used aerial photographs to detect and map the distribution of ancient sites and tombs around the areas planned for the construction of the Sanmenxia Reservior. After that, spatial information technologies, such as  remote sensing and GIS, have played an important role in discovering, monitoring, mapping and protecting many important archaeological sites and cultural heritages in China.

Over the past 100 years, we have witnessed the rapid development of science and technology and the continuous expansion of the applications of spatial information techniques to address a wide range of archaeological issues. We would like to celebrate the 100th anniversary of Chinese Archaeology by publishing this Special Issue to provide overviews and achievements of archaeological research in China from a space-based perspective. This Special Issue will consist of a large set of domestic contributions for the major fields in Chinese Archaeology as pertinent to space-based solutions to archaeological purposes. We welcome contributions that can synthesize the current state of knowledge, summarize existing issues and challenges, and provide new insights for future research and development in a certain field of archaeology in China using space information technologies. Submissions covering a wide range of space and time are mostly encouraged.

You may choose our Joint Special Issue in Remote Sensing.

Dr. Lei Luo
Dr. Lijun Yu
Prof. Jianguo Liu
Prof. Dr. Hui Wang
Prof. Hui Fang
Prof. Dr. Gang Li
Dr. Hai Zhang
Dr. Jie He
Dr. Shaohua Wang
Dr. Ruixia Yang
Dr. Peng Lu
Dr. Zhe Li
Guest Editors

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Keywords

  • spatial information technology
  • remote sensing
  • GIS
  • geophysical prospecting and acoustic sensing
  • landscape archaeology
  • geoarchaeology
  • environmental archaeology
  • settlement archaeology
  • Silk Road
  • Great Wall and Grand Canal of China
  • Chinese Neolithic and Bronze Age
  • Chinese historical periods
  • burial geomancy and Fengshui
  • cultural heritage protection and sustainability
  • big data
  • machine learning

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Published Papers (6 papers)

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Research

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17 pages, 11080 KiB  
Article
Water Conservancy System and Urban Layout of Yinxu, the Capital City of Shang: A GIS Approach
by Yin Wang, Zhen Qin, Weidong Hou and Michael Storozum
Land 2022, 11(7), 986; https://doi.org/10.3390/land11070986 - 29 Jun 2022
Cited by 1 | Viewed by 3945
Abstract
Archaeological work began in 1928 at Yinxu (also known as Yin Ruins), the site of the capital of the late Shang Dynasty, and the continuous excavations have yielded the discovery of numerous remains and relics. The late Shang Dynasty was the zenith of [...] Read more.
Archaeological work began in 1928 at Yinxu (also known as Yin Ruins), the site of the capital of the late Shang Dynasty, and the continuous excavations have yielded the discovery of numerous remains and relics. The late Shang Dynasty was the zenith of China’s Bronze Age, and research on various aspects of Yinxu has gained attention among Chinese and international archaeologists. The layout of Yinxu, especially the water conservancy systems, has become a popular subject of research in recent years. Nevertheless, quantitative research is lacking in the existing literature. Using geographic information systems (GIS) allows such research to be carried out. This study used the hydrology and density analysis modules of ArcGIS software to study the water system and urban layout of Yinxu quantitatively. The results show that the water conservancy system altered the surface runoff pattern of the city and effectively harnessed limited local water resources. The system, centered on artificial channels, was built during the Second Phase of Yinxu, largely because of climate change and the city’s expansion. Its construction, in turn, profoundly affected the layout of the city. Dwellings and handicraft workshops clustered around areas with abundant water resources; together with the Huan River, the large-scale water conservancy facilities acted as partitions that practically isolated the “central zone”, creating a wall-less defense system that differs from other capital cities in the Bronze Age of China. Full article
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13 pages, 2455 KiB  
Article
Mapping Panlongcheng: New Work on the Type-Site of the Early Shang Period (1500–1300 BC) in Hubei Province, China
by Xin Su, Qiushi Zou, Shuchun Yao, Chunhai Li, Sanyuan Zhu and Changping Zhang
Land 2021, 10(10), 1033; https://doi.org/10.3390/land10101033 - 1 Oct 2021
Cited by 1 | Viewed by 2617
Abstract
Recent work at the early Shang period type site in Panlongcheng, Hubei Province, China, provides a new understanding of changes in the landscape and water environment over time. In the past few decades, the research at this site has obtained important results and [...] Read more.
Recent work at the early Shang period type site in Panlongcheng, Hubei Province, China, provides a new understanding of changes in the landscape and water environment over time. In the past few decades, the research at this site has obtained important results and shown progress in many aspects, but few scholars have discussed the geomorphological environment of Panlongcheng, especially the water environment. Researchers have long believed that the present-day environment and landscape of Panlongcheng are no different than during the early Shang period. However, recent archaeological discoveries indicate that there may still be some cultural remains underwater. Therefore, we used a combination of underwater surveys, drilling and digital mapping to expand our knowledge of the landscape of Panlongcheng during the early Shang period. This included mapping the lake basin using single-beam echo sounders and drilling to preliminarily observe the stratum and collect samples from underwater. We also conducted radiocarbon dating on the samples collected from the bottom of the lake. The results suggest that there might not have been a lake during the early Shang period. Therefore, the landscape and environment of Panlongcheng and other related issues should be reexamined. In addition, we hope the methods used in this study can provide a reference for related archaeological work in shallow water areas in inland China. Full article
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20 pages, 20271 KiB  
Article
Mapping the Medieval Wall System of China and Mongolia: A Multi-Method Approach
by Michael Storozum, Dan Golan, Ido Wachtel, Zhidong Zhang, Johannes S. Lotze and Gideon Shelach-Lavi
Land 2021, 10(10), 997; https://doi.org/10.3390/land10100997 - 23 Sep 2021
Cited by 4 | Viewed by 4863
Abstract
The Medieval Wall System of China and Mongolia is one of the longest wall systems in the world, but its specific chronology, function, and purpose remain ambiguous. Constructed at various points throughout the 10th to 13th centuries CE, this network of walls, forts, [...] Read more.
The Medieval Wall System of China and Mongolia is one of the longest wall systems in the world, but its specific chronology, function, and purpose remain ambiguous. Constructed at various points throughout the 10th to 13th centuries CE, this network of walls, forts, and enclosures covers an estimated 4000 km and spans a wide range of ecozones, from the deserts of western China to the steppes of northern Mongolia and the Khingan mountain range. In this article we used historical atlases, topographic maps, and an array of different kinds of data derived from satellite remote sensing, to produce one of the first accurate maps of the Medieval Wall System. Through this large-scale mapping program, we are now able to evaluate previous work that estimates the length of the wall system and different areas of construction. By measuring the structures associated with the wall and the length of the wall itself, we identified at least three different areas of construction along the Medieval Wall System. Future studies may be able to use similar tools to develop more accurate maps of other wall systems throughout Eurasia to further advance the comparative study of ancient wall systems. Full article
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16 pages, 4822 KiB  
Article
Spatial Expansion of Human Settlement during the Longshan Period (~4.5–~3.9 ka BP) and Its Hydroclimatic Contexts in the Lower Yellow River Floodplain, Eastern China
by Kaifeng Li, Wenhua Gao, Li Wu, Hainan Hu, Panpan Gong, Suyuan Li, Rui Jin and Yi Si
Land 2021, 10(7), 712; https://doi.org/10.3390/land10070712 - 6 Jul 2021
Cited by 7 | Viewed by 3388
Abstract
Obvious spatial expansion of human settlement occurred in the lower Yellow River floodplain during the Longshan period, but the external factors driving this expansion remain unclear. In this study, we first delineated the hydroclimatic changes at both regional and local scales within and [...] Read more.
Obvious spatial expansion of human settlement occurred in the lower Yellow River floodplain during the Longshan period, but the external factors driving this expansion remain unclear. In this study, we first delineated the hydroclimatic changes at both regional and local scales within and around the lower Yellow River floodplain and then examined the relationships of human settlements with hydroclimatic settings between the pre-Longshan and Longshan periods. The results indicate that the site distribution, site density and hydroclimatic conditions exhibited significant shifts during the pre-Longshan and Longshan periods. In the pre-Longshan period, the intense East Asian summer monsoon and abundant monsoon-related precipitation caused widespread development of lakes and marshes in the lower Yellow River floodplain. As a result, the circumjacent highlands of the lower Yellow River floodplain contained concentrated human settlements. However, the persistent weakening of the East Asian summer monsoon and consequent precipitation decline, in conjunction with accelerated soil erosion due to decreasing forest vegetation and strengthening of human activities on the upstream Loess Plateau in the Longshan period, are likely to have jointly caused both shrinking and faster filling of preexisting lakes and marshes. Subsequently, a large area of arable land had been created in the lower Yellow River floodplain and thus was occupied by locally rapid increasing population, resulting in the notable spatial expansion of human settlements during the Longshan period. Full article
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16 pages, 6800 KiB  
Article
Shifting Patterns of House Structures during the Neolithic-Bronze Age in the Yellow River Basin: An Environmental Perspective
by Peng Lu, Yan Tian, Michael Storozum, Panpan Chen, Hui Wang, Xia Wang, Junjie Xu, Lei Jing, Lijie Yan, Li Zhang and Duowen Mo
Land 2021, 10(6), 574; https://doi.org/10.3390/land10060574 - 28 May 2021
Cited by 4 | Viewed by 5015
Abstract
The emergence of houses is a social revolution around the world. Over the past several decades, Chinese archaeologists have excavated many Neolithic to Bronze Age houses, but there is still a great amount of uncertainty about the social and environmental factors driving the [...] Read more.
The emergence of houses is a social revolution around the world. Over the past several decades, Chinese archaeologists have excavated many Neolithic to Bronze Age houses, but there is still a great amount of uncertainty about the social and environmental factors driving the differences between these house structures in the Yellow River Basin. In this paper, we summarize data from excavation reports on the shape and size of Neolithic-Bronze Age houses in the upper, middle and lower reaches of the Yellow River, respectively, to identify some social and environmental factors that may have affected the development of house structures across northern China. Our results show that the shape and size of the houses developed at a different pace, but in general followed a similar developmental sequence: (1) 10–8 ka BP, the bud of settlements emerged in the middle and lower reaches of the Yellow River; (2) 8–7 ka BP, people started to construct small pithouses without walls; (3) 7–6 ka BP, people made medium-sized pithouses with low walls, and surface buildings were made with a wood skeleton and mud walls; (4) 6–5 ka BP, ultra-large houses emerged; (5) 5–4 ka BP, house form became more varied, including pithouses, cave dwellings and surface buildings with a wood skeleton mud wall, rammed earth wall, piled mud-grass mixed walls and adobe walls; and (6) 4–3 ka BP, original palaces emerged. Our analyses indicate that the environment played an essential role in determining the house changes over time and that the early to middle Holocene’s warm and humid climate provided excellent conditions for the emergence of settlements throughout the region. Due to the shortage of trees, people chose to change their house construction methods to accommodate the growing lumber shortage. In conclusion, the rapid shift in house construction methods reflects the changing ecological condition as well as a feedback cycle between the environment and social practices driven by resource limitations. Full article
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Review

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25 pages, 3128 KiB  
Review
Holocene Environmental Archaeology of the Yangtze River Valley in China: A Review
by Li Wu, Shuguang Lu, Cheng Zhu, Chunmei Ma, Xiaoling Sun, Xiaoxue Li, Chenchen Li and Qingchun Guo
Land 2021, 10(3), 302; https://doi.org/10.3390/land10030302 - 16 Mar 2021
Cited by 16 | Viewed by 6291
Abstract
The Yangtze River Valley is an important economic region and one of the cradles of human civilization. It is also the site of frequent floods, droughts, and other natural disasters. Conducting Holocene environmental archaeology research in this region is of great importance when [...] Read more.
The Yangtze River Valley is an important economic region and one of the cradles of human civilization. It is also the site of frequent floods, droughts, and other natural disasters. Conducting Holocene environmental archaeology research in this region is of great importance when studying the evolution of the relationship between humans and the environment and the interactive effects humans had on the environment from 10.0 to 3.0 ka BP, for which no written records exist. This review provides a comprehensive summary of materials that have been published over the past several decades concerning Holocene environmental archaeology in the Yangtze River Valley, to further understand large-scale regional Holocene environmental and cultural interaction within this area. The results show that: (1) in recent years, Holocene envi-ronmental archaeology research in the Yangtze River Valley has primarily taken paleoflood and sea-level change stratigraphical events to be the foundational threads for study. This began with research on the spatiotemporal distribution of archaeological sites, typical archaeological site stratigraphy, and research on background features concerning environmental evolution recorded by the regional natural sedimentary strata. (2) Significant progress has been made at the upper, middle, and lower reaches of the Yangtze River, indicating that Holocene environmental ar-chaeology research along the Yangtze River Valley is deepening and broadening. (3) Dramatic changes to Neolithic cultures that occurred approximately 4.0 ka BP were influenced by climate change and associated consequences, although the impacts differed on the various Neolithic cultures in the Yangtze River Valley. Local topography, regional climate, and varying survival strategies may have contributed to these differences. (4) Newly-published research pays particular attention to the sedimentary records of the past with resolutions as high as one year to several months, the degree to which humans altered the quality of their natural environment, and human adjustments to settlement and subsistence practices during periods of Holocene climate change. The application of technologies such as remote sensing, geographic information systems (GIS), and molecular biological analysis are also gradually being extended into the research field of Holocene environmental archaeology in the Yangtze River Valley. Full article
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