Abstract

Abstract. Relict and present-day periglacial features have been reported in the literature for the upper reaches of the High Atlas mountains, which is the highest range in North Africa (Djebel Toubkal – 4167 m a.s.l.). A lobate feature in the Irhzer Ikhibi south at 3800 m a.s.l. has been previously interpreted as an active rock glacier, but no measurements of ground or air temperatures are known to exist for the area. In order to assess the possible presence of permafrost, we analyse data from June 2015 to June 2016 from two air temperature measurement sites at 2370 and 3210 m a.s.l. and from four ground surface temperature (GST) sites at 3220, 3815, 3980 and 4160 m a.s.l. to characterize conditions along an altitudinal gradient along the Oued Ihghyghaye valley to the summit of the Djebel Toubkal. GSTs were collected at 1 h intervals, and the presence of snow cover at the monitoring sites was validated using Landsat 8 and Sentinel-2 imagery. Two field visits allowed for logger installation and collection and for assessing the geomorphological features in the area. The results show that snow plays a major role on the thermal regime of the shallow ground, inducing important spatial variability. The lowest site at 3220 m had a thermal regime characterized by frequent freeze–thaw cycles during the cold season but with few days of snow. When snow settled, the ground surface remained isothermal at 0 °C , indicating the absence of permafrost. The highest sites at 3980 and 4160 m a.s.l. showed very frequent freeze–thaw cycles and a small influence of the snow cover on GST, reflecting the lack of snow accumulation due to the wind-exposed settings on a ridge and on the summit plateau. The site located at 3815 m in the Irhzer Ikhibi south valley had a cold, stable thermal regime with GST varying from −4.5 to −6 °C from December to March, under a continuous snow cover. The site's location in a concave setting favours wind-driven snow accumulation and lower incoming solar radiation due to the shading effect of a ridge, inducing the conservation of a thick snow pack. The stable and low GSTs are interpreted as a strong indicator of the probable presence of permafrost at this site, which is an interpretation supported by the presence of lobate and arcuate features in the talus deposits. We present first results and further observations using geophysics, and borehole measurements are foreseen. This is the first time that probable permafrost has been reported from temperature observations in the mountains of North Africa.

Highlights

  • Permafrost occurrence in arid and semi-arid mountains plays a significant environmental role due to its influence on hydrology

  • The mean annual air temperature (MAAT) for July 2015 to June 2016 was 6.2 ◦C at Neltner and 11.1 ◦C at Sidi Chamharouch, which results in a lapse rate of −0.59 ◦C 100 m−1, a value close to the −0.56 ◦C 100 m−1 calculated by Boudhar et al (2009) from weather station data from Saada (411 m) and Oukaimeden (2760 m) for 1998–2005

  • – The hot season was characterized by positive air temperatures at all sites and by very high daily ground surface temperature (GST) amplitudes, with maxima reaching 40.1 ◦C

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Summary

Introduction

Permafrost occurrence in arid and semi-arid mountains plays a significant environmental role due to its influence on hydrology. Its influence can be significant for ecosystems and biodiversity, and, in some mountain areas, permafrost may have impacts on agriculture and grazing. In rapidly changing and sensitive mountain environments, permafrost niches can provide special conditions allowing for the occurrence of biological refugia, which may include endemics and extremophiles of scientific significance (Hu et al, 2015; Jansson and Tas, 2014). Ice-rich permafrost and ground ice may allow for palaeoenvironmental reconstruction (Lacelle and Vasil’chuk, 2013).

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