2008 - 2014年青冰滩72号冰川物质平衡特征分析

The glacier is sensitive to climate change, thus is widely used to understand the relationship between glacier and climate. In this paper, the mass balance of Qingbingtan Glacier No. 72 was calculated based on the in situ data of stakes and pits from 2008 to 2014, combining with Landsat TM/ETM+/OLI images. Meanwhile, the method of Zero Equilibrium Line was used to calculate mass balance for entire glacier. The results indicated that mean gradient of mass balance with elevation was(0. 86 ± 0. 19)m w. e.·(100m)^-1 during the study period. The mean equilibrium line altitude(ELA)was at(4 167. 5 ± 33. 2)m a. s. l., which ranged from(4 317 ± 92)m a. s. l. to(4 109 ± 23)m a. s. l. during the period of 2008 - 2014. The mean annual mass balance was -0. 38 m w. e, ranging from -1. 23 m w. e. to +0. 31 m w. e. During the study period, accumulative mass balance was -2. 27 m w. e. from 2008 to 2014. In addition, based on the comparison glacier mass balances among Qingbingtan Glacier No. 72, Tuyuksuyskiy Glacier and Urumqi Glacier No. 1, we found that the changes in ELA and mass balance of Qingbingtan Glacier No. 72 were similar to that of Tuyuksuyskiy Glacier, respectively. However, there was significant discrepancy in terms of the changes in ELA and mass balance between Qingbingtan Glacier No. 72 and Urumqi Glacier No. 1. © 2020 Science Press (China).

Understanding the mass balance characteristics of Qingbingtan Glacier No. 72 during the period of 2008 - 2014

The glacier is sensitive to climate change， thus is widely used to understand the relationship between glacier and climate. In this paper， the mass balance of Qingbingtan Glacier No.72 was calculated based on the in situ data of stakes and pits from 2008 to 2014， combining with Landsat TM/ETM+/OLI images. Meanwhile， the method of Zero Equilibrium Line was used to calculate mass balance for entire glacier. The results indicated that mean gradient of mass balance with elevation was （0.86 ± 0.19） m w.e.·（100m）^-1 during the study period. The mean equilibrium line altitude （ELA） was at （4 167.5 ± 33.2） m a.s.l.， which ranged from （4 317 ± 92） m a.s.l. to （4 109 ± 23） m a.s.l. during the period of 2008 - 2014. The mean annual mass balance was -0.38 m w.e， ranging from -1.23 m w.e. to +0.31 m w.e. During the study period， accumulative mass balance was -2.27 m w.e. from 2008 to 2014. In addition， based on the comparison glacier mass balances among Qingbingtan Glacier No.72， Tuyuksuyskiy Glacier and Urumqi Glacier No.1， we found that the changes in ELA and mass balance of Qingbingtan Glacier No.72 were similar to that of Tuyuksuyskiy Glacier， respectively. However， there was significant discrepancy in terms of the changes in ELA and mass balance between Qingbingtan Glacier No.72 and Urumqi Glacier No.1.