Annals of Glaciology (Apr 2021)

Shallow hot-point drill system for active layer temperature measurement along Zhongshan–Dome A traverse, Antarctica

  • Yazhou Li,
  • Xiaopeng Fan,
  • Pavel G. Talalay,
  • Yinke Dou,
  • Siyu Lu,
  • Shichang Kang,
  • Xiao Li,
  • Jialin Hong

DOI
https://doi.org/10.1017/aog.2020.87
Journal volume & issue
Vol. 62
pp. 157 – 165

Abstract

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In glaciology, snow–firn temperature at 10 m is considered a representation of the mean annual air temperature at the surface (MAAT) of the studied site. Although MAAT is an important parameter in ice-sheet investigations, it has not been widely measured in Antarctica. To measure the 10 m snow–firn temperature in Antarctica, a shallow hot-point drill system is designed. In this simple and lightweight system, a hot-point drill can melt boreholes with a diameter of 34 mm in the snow–firn to a depth of 30 m and a temperature sensors string can measure the borehole temperature precisely. In the 2018/19 field season, 16 boreholes along the Zhongshan–Dome A traverse were drilled, and the borehole temperature was measured. Although certain problems existed pertaining to the hot-point drill, a total depth of ~244 m was successfully drilled at an average penetration rate of ~10 m h−1. After borehole drilling, ~12–15 h were generally required for the borehole to achieve thermal equilibrium with the surroundings. Preliminary results demonstrated that the 10 m snow–firn temperature along the traverse route was affected by the increasing altitude and latitude, and it decreased gradually with an increase in the distance from Zhongshan station.

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