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Abstract
A cryoconite granule is a near-spherical aggregation of biota and abiotic particles found upon glacier surfaces. Recently, microstructural studies have revealed that photosynthetic microorganisms and extracellular polymeric substances (EPS) are omnipresent within cryoconite granules and have suggested their importance as biological "forming factors". To assess these forming factors, and their biological control over aggregate size and stability, across a typical Arctic valley glacier surface, a suite of rapid, spectrophotometric, microplate methods were utilised. Subsequent spatial mapping of these data revealed distinct patterns. Labile carbohydrates were found to increase up-glacier, suggestive of EPS production for cryoprotection and nutrient assimilation. Conversely, pigment concentrations were found to increase down-glacier, with the exception of a zone of hydraulic erosion, suggestive of a general reduction in physical disturbance and of the build-up of photosynthetic pigments and less labile cyanobacterial sheath material. Aggregate size was found to increase towards the glacier edges, linked to the input of particulate matter from the valley sides, and to broadly increase down-glacier, in the same way as pigment concentrations. Statistical analyses of transect data revealed that the photoautotrophic count and carbohydrate–chlorophyll ratio of the cryoconite sampled could explain 83% of the measured variation in aggregate size and stability. Considering solely aggregate size, the number and length of photoautrophic filaments could explain 92% of the variation in this parameter. These findings demonstrate the two-dimensional distribution of key biological controls upon cryoconite aggregation for the first time, and highlight the importance of filamentous cyanobacteria and EPS production to the development of stable cryoconite granules.
Original language | English |
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Pages (from-to) | 3423-3463 |
Number of pages | 5 |
Journal | Biogeosciences Discussions |
Volume | 11 |
DOIs | |
Publication status | Published - 2014 |
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Dive into the research topics of 'A spatial investigation of the environmental controls over cryoconite aggregation on Longyearbreen glacier, Svalbard.'. Together they form a unique fingerprint.Projects
- 1 Finished
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Are glacier surfaces the last refuge of an evolutionary ancient lineage of unknown fungi?
Natural Environment Research Council
05 Sept 2012 → 04 Mar 2015
Project: Externally funded research