Large drainages from short-lived glacial lakes in the Teskey Range, Tien Shan Mountains, Central Asia release_riynnql435euncnfndzonm7tnm

Abstract

<strong>Abstract.</strong> Four large drainages from glacial lakes occurred during 2006–2014 in the western Teskey Range, Kyrgyzstan. These floods caused extensive damage, killing people and livestock as well as destroying property and crops. Using satellite data analysis and field surveys of this area, we find that the water volume that drained at Kashkasuu glacial lake in 2006 was 194<span class="thinspace"></span>000<span class="thinspace"></span> m<sup>3</sup>, at western Zyndan lake in 2008 was 437<span class="thinspace"></span>000<span class="thinspace"></span>m<sup>3</sup>, at Jeruy lake in 2013 was 182<span class="thinspace"></span>000<span class="thinspace"></span>m<sup>3</sup>, and at Karateke lake in 2014 was 123<span class="thinspace"></span>000<span class="thinspace"></span>m<sup>3</sup>. Due to their subsurface outlet, we refer to these short-lived glacial lakes as the <q>tunnel-type</q>, a type that drastically grows and drains over a few months. From spring to early summer, these lakes either appear, or in some cases, significantly expand from an existing lake (but non-stationary), and then drain during summer. Our field surveys show that the short-lived lakes form when an ice tunnel through a debris landform gets blocked. The blocking is caused either by the freezing of stored water inside the tunnel during winter or by the collapse of ice and debris around the ice tunnel. The draining then occurs through an opened ice tunnel during summer. The growth–drain cycle can repeat when the ice-tunnel closure behaves like that of typical supraglacial lakes on debris-covered glaciers. We argue here that the geomorphological characteristics under which such short-lived glacial lakes appear are (i) a debris landform containing ice (ice-cored moraine complex), (ii) a depression with water supply on a debris landform as a potential lake basin, and (iii) no visible surface outflow channel from the depression, indicating the existence of an ice tunnel. Applying these characteristics, we examine 60 depressions (><span class="thinspace"></span>0.01<span class="thinspace"></span>km<sup>2</sup>) in the study region and identify here 53 of them that may become short-lived glacial lakes, with 34 of these having a potential drainage exceeding 10<span class="thinspace"></span>m<sup>3</sup><span class="thinspace"></span>s<sup>−1</sup> at peak discharge.
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