Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Metagenomic and satellite analyses of red snow in the Russian Arctic
View through CrossRef
Cryophilic algae thrive in liquid water within snow and ice in alpine and polar regions worldwide. Blooms of these algae lowers albedo (reflection of sunlight), thereby altering melting patterns (Kohshima et al. 1993; Lutz et al. 2014; Thomas & Duval 1995) . Here metagenomic DNA analysis and satellite imaging were used to investigate red snow in Franz Josef Land in the Russian Arctic. Franz Josef Land red snow metagenomes confirmed that the communities are composed of the autotroph Chlamydomonas nivalis that is supporting a complex viral and heterotrophic bacterial community. Comparisons with white snow communities from other sites suggest that snow and ice are initially colonized by fungal-dominated communities and then succeeded by the more complex C. nivalis-heterotroph red snow. Satellite image analysis showed that red snow covers up to 80% of the surface of snow and ice fields in Franz Josef Land and globally. Together these results show that C. nivalis supports a local food web that is on the rise as temperatures warm, with potential widespread impacts on alpine and polar environments worldwide.
Title: Metagenomic and satellite analyses of red snow in the Russian Arctic
Description:
Cryophilic algae thrive in liquid water within snow and ice in alpine and polar regions worldwide.
Blooms of these algae lowers albedo (reflection of sunlight), thereby altering melting patterns (Kohshima et al.
1993; Lutz et al.
2014; Thomas & Duval 1995) .
Here metagenomic DNA analysis and satellite imaging were used to investigate red snow in Franz Josef Land in the Russian Arctic.
Franz Josef Land red snow metagenomes confirmed that the communities are composed of the autotroph Chlamydomonas nivalis that is supporting a complex viral and heterotrophic bacterial community.
Comparisons with white snow communities from other sites suggest that snow and ice are initially colonized by fungal-dominated communities and then succeeded by the more complex C.
nivalis-heterotroph red snow.
Satellite image analysis showed that red snow covers up to 80% of the surface of snow and ice fields in Franz Josef Land and globally.
Together these results show that C.
nivalis supports a local food web that is on the rise as temperatures warm, with potential widespread impacts on alpine and polar environments worldwide.
Related Results
Characteristics of Taiga and Tundra Snowpack in Development and Validation of Remote Sensing of Snow
Characteristics of Taiga and Tundra Snowpack in Development and Validation of Remote Sensing of Snow
Remote sensing of snow is a method to measure snow cover characteristics without direct physical contact with the target from airborne or space-borne platforms. Reliable estimates ...
Influence of cohesion on drifting snow investigated in cold wind-tunnel 
Influence of cohesion on drifting snow investigated in cold wind-tunnel 
<p>Aeolian transport of particles occurs in many geophysical contexts such as wind-blown sand or snow drift and is governed by a myriad of physical mechanisms. Most o...
Dynamic Snow Distribution Modeling using the Fokker-Planck Equation Approach
Dynamic Snow Distribution Modeling using the Fokker-Planck Equation Approach
<p>The Fokker-Planck equation (FPE) describes the time evolution of the distribution function of fluctuating macroscopic variables.&#160; Although the FPE was...
Snow depth on Arctic sea ice from historical in situ data
Snow depth on Arctic sea ice from historical in situ data
Abstract. In this paper we analyze snow data from Soviet airborne expeditions Sever that was collected in the Arctic around places of landings in March, April and May and cover muc...
A snow reanalysis for Italy: IT-SNOW
A snow reanalysis for Italy: IT-SNOW
Quantifying the amount of snow deposited across the landscape at any given time is the main goal of snow hydrology. Yet, answering this apparently simple question is still elusive ...
The additive value of multi-scale remote sensing snow products for alpine above-snow Cosmic Ray Neutron Sensing
The additive value of multi-scale remote sensing snow products for alpine above-snow Cosmic Ray Neutron Sensing
Alpine snow cover is shaped by complex topography, wind and insulation patterns, causing strong lateral heterogeneity in snow water equivalent (SWE) within only a few meters distan...
Metagenomic and satellite analyses of red snow in the Russian Arctic
Metagenomic and satellite analyses of red snow in the Russian Arctic
Cryophilic algae thrive in liquid water within snow and ice in alpine and polar regions worldwide. Blooms of these algae lower albedo (reflection of sunlight), thereby altering mel...
Spatiotemporal variations of isotopes in snow and snowmelt in the subarctic setting at Pallas catchment, Finland
Spatiotemporal variations of isotopes in snow and snowmelt in the subarctic setting at Pallas catchment, Finland
<p>Due to the rise in global temperature, changes in precipitation patterns are predicted particularly in Arctic regions. Such changes in patterns and modifications i...