Title

A new index of glacier area change: A tool for glacier monitoring

Document Type

Article

Publication Date

10-26-2009

Abstract

Since the mid-19th century, most glaciers have been losing area and volume. This loss of area has not been homogeneous in time and space, and direct observations are sparse, making regional and global estimates of glacier change difficult. This paper focuses on developing a single index for monitoring glacier change, one that would be particularly useful for remote-sensing applications. We combine the results of direct glacier mass-balance observations B, total glacier area 5 and accumulation area Sc derived from maps or remotely sensed images. Using the accumulation-area ratio (AAR = S c/S), we note the differences between observed AAR, time-averaged (AAR) and the equilibrium state AAR0, as determined by its value at B = 0 from a regression of B(AAR). We suggest that αd = ((AAR) - AAR0)/ AAR0 quantifies the difference between the currently observed state of glaciers and their equilibrium state and measures the delay in the dynamic response of 5 relative to the climatic response of 5c. Using all available observations for the period 1961-2004, αd≈-65% for tropical glaciers, which implies their rapid shrinkage as 5 continues to decrease and 'catch up' with 5c. During the same period, mid- latitude and polar glaciers show less negative values of αd Of 86 glaciers from all latitudes and regions, only 11 show positive αd at any time between 1961 and 2004. Averaged over 1961-2004, αd is -15.1 ±2.2%, and (B) is -360 ±42 mm a-1 w.e. Values for AAR0 range between about 40% and 80%, but the bulk of the equilibrium values are between 50% and 60%. The average AAR0 is 57.9 ± 0.9% and has rstable over time (the equilibrium AAR has not changed with climate). Overall, the observed negative αd suggests a committed retreat of glaciers and their continuing contribution to sea level even if global temperature is held constant.

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