Abstract
Small mountain glaciers represent the most abundant class in many glaciarized areas around the world; however, less is known about their recent area changes under climatic variability of the last decades. The recent fluctuations of glaciers located in the inner parts of continents are the least studied. In this study we present the results of repeated mapping of seven small (<1.5 km2) glaciers located in a continental setting on the northern slope of the Pik Topografov massif, East Sayan Range, southeast Siberia. The multitemporal glacier inventory was derived from the late summer Landsat TM/ETM+ scenes acquired between 1986 and 2010. Glacier outlines were mapped with thresholded ratio (TM3/TM5) method. Topographic inventory parameters were measured from SRTM DEM. Glacier outlines of the Little Ice Age maximum (LIA, ~1850) were reconstructed from terminal moraines widely distributed around the glacier snouts. The results indicate a total ice area decrease from 8.1 km2 in the LIA to 3.8 km2 in 2010 (53%, 0.33% year−1). We revealed accelerated area shrinkage between 1991 and 2001 (almost two times higher than during the period 1986–2010), while between 2001 and 2010, the ice area did not change significantly. Overall, the glacier changes are consistent with the regional climatic trends (winter precipitation and summer temperature). Local topographic settings significantly impacted the glacier dynamics.
Highlights
Evident shrinkage of glaciers revealed in many mountain areas of the Earth is thought to be linked to intense global warming of recent decades [1]
Small mountain glaciers are the most numerous in the world, and it is important to investigate the response of small glaciers to climate change in different regions and environments of the Earth
Multispectral medium-resolution Landsat TM/ETM+ imagery was used for glacier mapping
Summary
Evident shrinkage of glaciers revealed in many mountain areas of the Earth is thought to be linked to intense global warming of recent decades [1]. The response of very small glaciers to recent climate change is still debatable. Other studies suggest that these glaciers had little or no change over the past decades, mainly due to their location in sites favored for ice mass preservation [4,5]. Small mountain glaciers are the most numerous in the world, and it is important to investigate the response of small glaciers to climate change in different regions and environments of the Earth. The response of very small (
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