Spatio-Temporal Characteristics and Differences in Snow Density between the Tibet Plateau and the Arctic

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Spatio-Temporal Characteristics and Differences in Snow Density between the Tibet Plateau and the Arctic. / Zhao, Wenyu; Mu, Cuicui; Wu, Xiaodong; Zhong, Xinyue; Peng, Xiaoqing; Liu, Yijing; Sun, Yanhua; Liang, Benben; Zhang, Tingjun.

In: Remote Sensing, Vol. 15, No. 16, 3976, 2023.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Zhao, W, Mu, C, Wu, X, Zhong, X, Peng, X, Liu, Y, Sun, Y, Liang, B & Zhang, T 2023, 'Spatio-Temporal Characteristics and Differences in Snow Density between the Tibet Plateau and the Arctic', Remote Sensing, vol. 15, no. 16, 3976. https://doi.org/10.3390/rs15163976

APA

Zhao, W., Mu, C., Wu, X., Zhong, X., Peng, X., Liu, Y., Sun, Y., Liang, B., & Zhang, T. (2023). Spatio-Temporal Characteristics and Differences in Snow Density between the Tibet Plateau and the Arctic. Remote Sensing, 15(16), [3976]. https://doi.org/10.3390/rs15163976

Vancouver

Zhao W, Mu C, Wu X, Zhong X, Peng X, Liu Y et al. Spatio-Temporal Characteristics and Differences in Snow Density between the Tibet Plateau and the Arctic. Remote Sensing. 2023;15(16). 3976. https://doi.org/10.3390/rs15163976

Author

Zhao, Wenyu ; Mu, Cuicui ; Wu, Xiaodong ; Zhong, Xinyue ; Peng, Xiaoqing ; Liu, Yijing ; Sun, Yanhua ; Liang, Benben ; Zhang, Tingjun. / Spatio-Temporal Characteristics and Differences in Snow Density between the Tibet Plateau and the Arctic. In: Remote Sensing. 2023 ; Vol. 15, No. 16.

Bibtex

@article{cca800887ca244f8a3d3ad13cec0bcea,
title = "Spatio-Temporal Characteristics and Differences in Snow Density between the Tibet Plateau and the Arctic",
abstract = "The Tibet Plateau (TP) and the Arctic are typically cold regions with abundant snow cover, which plays a key role in land surface processes. Knowledge of variations in snow density is essential for understanding hydrology, ecology, and snow cover feedback. Here, we utilized extensive measurements recorded by 697 ground-based snow sites during 1950–2019 to identify the spatio-temporal characteristics of snow density in these two regions. We examined the spatial heterogeneity of snow density for different snow classes, which are from a global seasonal snow cover classification system, with each class determined from air temperature, precipitation, and wind speed climatologies. We also investigated possible mechanisms driving observed snow density differences. The long-term mean snow density in the Arctic was 1.6 times that of the TP. Slight differences were noted in the monthly TP snow densities, with values ranging from 122 ± 29 to 158 ± 52 kg/m3. In the Arctic, however, a clear increasing trend was shown from October to June, particularly with a rate of 30.3 kg/m3 per month from March to June. For the same snow class, the average snow density in the Arctic was higher than that in the TP. The Arctic was characterized mainly by a longer snowfall duration and deeper snow cover, with some areas showing perennial snow cover. In contrast, the TP was dominated by seasonal snow cover that was shallower and warmer, with less (more) snowfall in winter (spring). The results will be helpful for future simulations of snow cover changes and land interactions at high latitudes and altitudes.",
keywords = "Arctic, snow class, snow density, spatial heterogeneity, Tibet Plateau",
author = "Wenyu Zhao and Cuicui Mu and Xiaodong Wu and Xinyue Zhong and Xiaoqing Peng and Yijing Liu and Yanhua Sun and Benben Liang and Tingjun Zhang",
note = "Publisher Copyright: {\textcopyright} 2023 by the authors.",
year = "2023",
doi = "10.3390/rs15163976",
language = "English",
volume = "15",
journal = "Remote Sensing",
issn = "2072-4292",
publisher = "M D P I AG",
number = "16",

}

RIS

TY - JOUR

T1 - Spatio-Temporal Characteristics and Differences in Snow Density between the Tibet Plateau and the Arctic

AU - Zhao, Wenyu

AU - Mu, Cuicui

AU - Wu, Xiaodong

AU - Zhong, Xinyue

AU - Peng, Xiaoqing

AU - Liu, Yijing

AU - Sun, Yanhua

AU - Liang, Benben

AU - Zhang, Tingjun

N1 - Publisher Copyright: © 2023 by the authors.

PY - 2023

Y1 - 2023

N2 - The Tibet Plateau (TP) and the Arctic are typically cold regions with abundant snow cover, which plays a key role in land surface processes. Knowledge of variations in snow density is essential for understanding hydrology, ecology, and snow cover feedback. Here, we utilized extensive measurements recorded by 697 ground-based snow sites during 1950–2019 to identify the spatio-temporal characteristics of snow density in these two regions. We examined the spatial heterogeneity of snow density for different snow classes, which are from a global seasonal snow cover classification system, with each class determined from air temperature, precipitation, and wind speed climatologies. We also investigated possible mechanisms driving observed snow density differences. The long-term mean snow density in the Arctic was 1.6 times that of the TP. Slight differences were noted in the monthly TP snow densities, with values ranging from 122 ± 29 to 158 ± 52 kg/m3. In the Arctic, however, a clear increasing trend was shown from October to June, particularly with a rate of 30.3 kg/m3 per month from March to June. For the same snow class, the average snow density in the Arctic was higher than that in the TP. The Arctic was characterized mainly by a longer snowfall duration and deeper snow cover, with some areas showing perennial snow cover. In contrast, the TP was dominated by seasonal snow cover that was shallower and warmer, with less (more) snowfall in winter (spring). The results will be helpful for future simulations of snow cover changes and land interactions at high latitudes and altitudes.

AB - The Tibet Plateau (TP) and the Arctic are typically cold regions with abundant snow cover, which plays a key role in land surface processes. Knowledge of variations in snow density is essential for understanding hydrology, ecology, and snow cover feedback. Here, we utilized extensive measurements recorded by 697 ground-based snow sites during 1950–2019 to identify the spatio-temporal characteristics of snow density in these two regions. We examined the spatial heterogeneity of snow density for different snow classes, which are from a global seasonal snow cover classification system, with each class determined from air temperature, precipitation, and wind speed climatologies. We also investigated possible mechanisms driving observed snow density differences. The long-term mean snow density in the Arctic was 1.6 times that of the TP. Slight differences were noted in the monthly TP snow densities, with values ranging from 122 ± 29 to 158 ± 52 kg/m3. In the Arctic, however, a clear increasing trend was shown from October to June, particularly with a rate of 30.3 kg/m3 per month from March to June. For the same snow class, the average snow density in the Arctic was higher than that in the TP. The Arctic was characterized mainly by a longer snowfall duration and deeper snow cover, with some areas showing perennial snow cover. In contrast, the TP was dominated by seasonal snow cover that was shallower and warmer, with less (more) snowfall in winter (spring). The results will be helpful for future simulations of snow cover changes and land interactions at high latitudes and altitudes.

KW - Arctic

KW - snow class

KW - snow density

KW - spatial heterogeneity

KW - Tibet Plateau

U2 - 10.3390/rs15163976

DO - 10.3390/rs15163976

M3 - Journal article

AN - SCOPUS:85168783079

VL - 15

JO - Remote Sensing

JF - Remote Sensing

SN - 2072-4292

IS - 16

M1 - 3976

ER -

ID: 369249876