Cryosphere: ice on Niwot Ridge and in the Green Lakes Valley, Colorado Front Range

Matthias Leopold, G. Lewis, D. Dethier, N. Caine, M.W. Williams

    Research output: Contribution to journalArticleResearchpeer-review

    Abstract

    © 2015 Botanical Society of Scotland and Taylor & Francis. Background: Subsurface ice preserved as ice lenses and within rock glaciers as well as glacial and lake ice provides sensitive indicators of climate change and serve as a late-season source of meltwater. Aims: We synthesise the results of geomorphological, geophysical and geochemical studies during the period of 1995–2014, building on a long history of earlier work focused on ice and permafrost studies on Niwot Ridge and the adjacent Green Lakes Valley (GLV), which is part of the Niwot Ridge Long Term Ecological Research Site. Methods: These studies are discussed in the context of how bodies of ice and rock glaciers reflect changing local climate. We review recent results from geophysical investigations (resistivity, seismic refraction and ground-penetrating radar) of the shallow subsurface, ongoing monitoring of the Arikaree Glacier, three rock glaciers and lake ice in the GLV, and interpretations of how subsurface ice melt regulates the flow and chemistry of alpine surface water after seasonal snowfields melt. Results and conclusions: Permafrost conditions reported from Niwot Ridge in the 1970s are generally absent today, but ice lenses form and melt seasonally. Ice is present permanently within the Green Lakes 5 rock glacier and at nearby favourable sites. The Arikaree Glacier has shown a marked decline in cumulative mass balance during the past 12 years after a 30-year period when net mass balance was ca. 0. Duration of seasonal lake ice increases with elevation in GLV, but duration has decreased at all seven lakes that have been monitored during the last three decades. This decrease has been most marked at the lowest elevation where it amounted to a reduction of about 1 d year−1 and least at Green Lake 5 where the loss has been at a rate of 0.5 d year−1. Surface temperature measurements from rock glaciers have not shown strong trends during the past 15 years. It has been suggested that almost all of the 2.5-mm year−1 increase in stream discharge from the upper GLV in September and October has been derived from melting of subsurface ice.
    Original languageEnglish
    Pages (from-to)625-638
    JournalPlant Ecology and Diversity
    Volume8
    Issue number5-6
    DOIs
    Publication statusPublished - 2015

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