气候变化领域集成服务门户(CCPortal): In situ observed relationships between snow and ice surface skin temperatures and 2 m air temperatures in the Arctic

CCPortal

DOI	10.5194/tc-13-1005-2019
	In situ observed relationships between snow and ice surface skin temperatures and 2 m air temperatures in the Arctic
	Nielsen-Englyst P.; Høyer J.L.; Madsen K.S.; Tonboe R.; Dybkjær G.; Alerskans E.
发表日期	2019
ISSN	19940416
EISSN	13
起始页码	1005
结束页码	1024
卷号	13 期号:3
英文摘要	To facilitate the construction of a satellite-derived 2m air temperature (T2m) product for the snow- and icecovered regions in the Arctic, observations from weather stations are used to quantify the relationship between the T2m and skin temperature (Tskin). Multiyear data records of simultaneous Tskin and T2m from 29 different in situ sites have been analysed for five regions, covering the lower and upper ablation zone and the accumulation zone of the Greenland Ice Sheet (GrIS), sea ice in the Arctic Ocean, and seasonal snow-covered land in northern Alaska. The diurnal and seasonal temperature variabilities and the impacts from clouds and wind on the T2m-Tskin differences are quantified. Tskin is often (85%of the time, all sites weighted equally) lower than T2m, with the largest differences occurring when the temperatures are well below 0 C or when the surface is melting. Considering all regions, T2m is on average 0.65-2.65 C higher than Tskin, with the largest differences for the lower ablation area and smallest differences for the seasonal snowcovered sites. A negative net surface radiation balance generally cools the surface with respect to the atmosphere, resulting in a surface-driven surface air temperature inversion. However, Tskin and T2m are often highly correlated, and the two temperatures can be almost identical (< 0:5 C difference), with the smallest T2-Tskin differences around noon and early afternoon during spring, autumn and summer during non-melting conditions. In general, the inversion strength increases with decreasing wind speeds, but for the sites on the GrIS the maximum inversion occurs at wind speeds of about 5ms1 due to the katabatic winds. Clouds tend to reduce the vertical temperature gradient, by warming the surface, resulting in a mean overcast T2m-Tskin difference ranging from 0:08 to 1.63 C, with the largest differences for the sites in the low-ablation zone and the smallest differences for the seasonal snow-covered sites. To assess the effect of using cloud-limited infrared satellite observations, the influence of clouds on temporally averaged Tskin has been studied by comparing averaged clear-sky Tskin with averaged all-sky Tskin. To this end, we test three different temporal averaging windows: 24 h, 72 h and 1 month. The largest clear-sky biases are generally found when 1-month averages are used and the smallest clear-sky biases are found for 24 h. In most cases, all-sky averages are warmer than clear-sky averages, with the smallest bias during summer when the Tskin range is smallest. © Author(s) 2019. This work is distributed under the Creative Commons Attribution 4.0 License.
学科领域	air temperature; ice cover; ice-ocean interaction; in situ measurement; radiation balance; satellite data; sea ice; seasonal variation; snow cover; Alaska; Arctic; Arctic Ocean; Greenland; Greenland Ice Sheet; United States
语种	英语
scopus关键词	air temperature; ice cover; ice-ocean interaction; in situ measurement; radiation balance; satellite data; sea ice; seasonal variation; snow cover; Alaska; Arctic; Arctic Ocean; Greenland; Greenland Ice Sheet; United States
来源期刊	The Cryosphere
文献类型	期刊论文
条目标识符	http://gcip.llas.ac.cn/handle/2XKMVOVA/118903
作者单位	Research and Development, Danish Meteorological Institute (DMI), Copenhagen, 2100, Denmark; DTU Space Institute, Technical University of Denmark (DTU), Kongens Lyngby, 2800, Denmark
推荐引用方式 GB/T 7714	Nielsen-Englyst P.,Høyer J.L.,Madsen K.S.,et al. In situ observed relationships between snow and ice surface skin temperatures and 2 m air temperatures in the Arctic[J],2019,13(3).
APA	Nielsen-Englyst P.,Høyer J.L.,Madsen K.S.,Tonboe R.,Dybkjær G.,&Alerskans E..(2019).In situ observed relationships between snow and ice surface skin temperatures and 2 m air temperatures in the Arctic.The Cryosphere,13(3).
MLA	Nielsen-Englyst P.,et al."In situ observed relationships between snow and ice surface skin temperatures and 2 m air temperatures in the Arctic".The Cryosphere 13.3(2019).