Publication Date:
2018
Description:
〈p〉Publication date: 15 January 2019〈/p〉
〈p〉〈b〉Source:〈/b〉 Agricultural and Forest Meteorology, Volume 264〈/p〉
〈p〉Author(s): Ren Li, Lin Zhao, Tonghua Wu, Qinxue Wang, Yongjian Ding, Jimin Yao, Xiaodong Wu, Guojie Hu, Yao Xiao, Yizhen Du, Xiaofan Zhu, Yanhui Qin, Shuhua Yang, Rui Bai, Erji Du, Guangyue Liu, Defu Zou, Yongping Qiao, Jianzong Shi〈/p〉
〈h5〉Abstract〈/h5〉
〈div〉〈p〉Soil thermal conductivity (〈em〉λ〈/em〉) is one of the essential parameters relating to heat exchange, and it also plays a key role in verifying soil thermal hydrodynamics in permafrost regions. In this paper, the characteristic of in situ 〈em〉λ〈/em〉 was analyzed based on data measured from June 2004 to December 2008 at Tanggula district on the Qinghai–Tibet Plateau. The result showed that diurnal 〈em〉λ〈/em〉 strongly influenced by variation of soil moisture content. The daily 〈em〉λ〈/em〉 exhibited distinct seasonal variation; on average, the largest value of 〈em〉λ〈/em〉 occurred in summer, followed by the autumn and spring season, while the smallest value occurred in winter. As a whole, 〈em〉λ〈/em〉 values in the unfrozen state were larger than those in the frozen state. Unsaturated soil and the huge difference in soil moisture content between the unfrozen state and initial freeze resulted in the lower 〈em〉λ〈/em〉 in the frozen state. For the study area, the critical value of local soil saturation degree was about 0.37, the corresponding critical soil moisture content was about 0.195 m〈sup〉3〈/sup〉 m〈sup〉−3〈/sup〉. And soil moisture content was the main factor controlling in situ 〈em〉λ〈/em〉. Finally, an empirically-derived model was proposed for predicting daily 〈em〉λ〈/em〉, and which showed good performance in the study area.〈/p〉〈/div〉
Print ISSN:
0168-1923
Electronic ISSN:
1873-2240
Topics:
Geography
,
Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition
,
Physics
