A newly integrated ground temperature dataset of permafrost along the China–Russia crude oil pipeline route in Northeast China

The thermal state of permafrost in the present and future is fundamental to ecosystem evolution, hydrological processes, carbon release and infrastructure integrity in cold regions. In 2011, we initiated a permafrost monitoring network along the China–Russia crude oil pipeline (CRCOP) route at the e...

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Bibliographic Details
Published in:Earth system science data 2022-11, Vol.14 (11), p.5093-5110
Main Authors: Li, Guoyu, Ma, Wei, Wang, Fei, Jin, Huijun, Fedorov, Alexander, Chen, Dun, Wu, Gang, Cao, Yapeng, Zhou, Yu, Mu, Yanhu, Mao, Yuncheng, Zhang, Jun, Gao, Kai, Jin, Xiaoying, He, Ruixia, Li, Xinyu, Li, Yan
Format: Article
Language:English
Subjects:
Boreholes
Buried pipes
Climate change
Cold regions
Crude oil
Data centers
Datasets
Disturbances
Electrical resistivity
Environmental effects
Global warming
Humidity
Hydrologic processes
Hydrology
Ice
Insulating materials
Insulation
Local climates
Mechanical stimuli
Meteorological data
Mountains
Oil
Permafrost
Petroleum
Petroleum industry
Petroleum pipelines
Pipe lines
Pipeline route selection
Pipelines
Precipitation
Sensors
Soil mechanics
Soil water
Structural integrity
Temperature
Thawing
Tomography
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Summary:The thermal state of permafrost in the present and future is fundamental to ecosystem evolution, hydrological processes, carbon release and infrastructure integrity in cold regions. In 2011, we initiated a permafrost monitoring network along the China–Russia crude oil pipeline (CRCOP) route at the eastern flank of the northern Da Xing'anling Mountains in Northeast China. We compiled an integrated dataset of the ground thermal state along the CRCOP route consisting of meteorological data near the southern limit of latitudinal permafrost, ground temperature (GT) data in 20 boreholes with depths of 10.0–60.6 m, soil volumetric liquid water contents (VWCs) and 2D electrical resistivity tomography (ERT) data at different sites. Results demonstrate a permafrost warming during 2011–2020 in the vicinity of the southern limit of latitudinal permafrost, as manifested by rising GTs at almost all depths in response to climate warming. Local thermal disturbances triggered by the construction and operation of CRCOPs have resulted in significant permafrost warming and subsequent thawing on the right-of-way (ROW) of the pipelines. This permafrost thaw will persist, but it can be alleviated by adopting mitigative measures, such as an insulation layer and thermosyphons. The in situ observational dataset is of great value for assessing the variability of permafrost under the linear disturbances of the CRCOPs and related environmental effects, for understanding hydro–thermal–mechanical interactions between the buried pipelines and permafrost foundation soils, and for evaluating the operational and structural integrity of the pipeline systems in the future. The dataset is available at the National Tibetan Plateau/Third Pole Environment Data Center (https://doi.org/10.11888/Cryos.tpdc.272357; Li, 2022).
ISSN:1866-3516
1866-3508
1866-3516
DOI:10.5194/essd-14-5093-2022