Results 291 to 300 of about 1,538,149 (347)
Some of the next articles are maybe not open access.
Climate Change Drives Increases in Extreme Events for Lake Ice in the Northern Hemisphere
Geophysical Research Letters, 2020Extreme climate events can have significant consequences on ecosystems and by extension human populations. Over 50 million of the world's lakes typically freeze each winter, and the absence of winter ice cover, in lakes where ice has historically been ...
Alessandro Filazzola +3 more
semanticscholar +1 more source
2009
In Chapter 5 of this book, it is shown that the formation of ice on the surface of a lake (‘ice-on’) and its thawing and ultimate disappearance (‘ice-off’) are complex phenomena governed by mechanisms that involve many interacting meteorological (and some non-meteorological) forcing factors. Linking ice phenology – the timing of ice-on and ice-off – to
Livingstone, David M. +4 more
openaire +2 more sources
In Chapter 5 of this book, it is shown that the formation of ice on the surface of a lake (‘ice-on’) and its thawing and ultimate disappearance (‘ice-off’) are complex phenomena governed by mechanisms that involve many interacting meteorological (and some non-meteorological) forcing factors. Linking ice phenology – the timing of ice-on and ice-off – to
Livingstone, David M. +4 more
openaire +2 more sources
Forecasting the Permanent Loss of Lake Ice in the Northern Hemisphere Within the 21st Century
Geophysical Research Letters, 2020Lake ice cover is essential to conserving the global freshwater supply for the 50 million lakes that freeze each winter. Here, we ask when lakes across the Northern Hemisphere may permanently lose ice cover.
Sapna Sharma +4 more
semanticscholar +1 more source
Journal of Geophysical Research: Atmospheres, 2020
How climate change influences lake ice phenology is important in understanding the climate‐lake interactions. This study investigates the response of lake ice phenology to future climate scenarios.
Yongjian Ruan +4 more
semanticscholar +1 more source
How climate change influences lake ice phenology is important in understanding the climate‐lake interactions. This study investigates the response of lake ice phenology to future climate scenarios.
Yongjian Ruan +4 more
semanticscholar +1 more source
1985
The formation of lake and river ice is inevitable in northern environments. In many areas it brings shipping and transportation on inland waterways to a standstill for several months every year. More precise knowledge of ice thickness and extent can be used to extend the shipping season or to warn of danger due to the presence of unexpected ice.
Dorothy K. Hall, Jaroslav Martinec
openaire +1 more source
The formation of lake and river ice is inevitable in northern environments. In many areas it brings shipping and transportation on inland waterways to a standstill for several months every year. More precise knowledge of ice thickness and extent can be used to extend the shipping season or to warn of danger due to the presence of unexpected ice.
Dorothy K. Hall, Jaroslav Martinec
openaire +1 more source
Denitrification under lake ice
Biogeochemistry, 2018Many lakes, ponds and reservoirs are subject to long and changing periods of ice cover. However, limited winter research has created key knowledge gaps. How does nitrogen cycling change under ice? And what does changing ice cover duration mean for water quality?
E. Cavaliere, H. M. Baulch
openaire +1 more source
2014
The science of rheology examines the relationships between the internal stress, mechanical deformation, and material properties of media. Material properties are such as density, temperature and porosity, while deformation is specified by strain and its time history.
openaire +1 more source
The science of rheology examines the relationships between the internal stress, mechanical deformation, and material properties of media. Material properties are such as density, temperature and porosity, while deformation is specified by strain and its time history.
openaire +1 more source
2014
Ice-covered lakes form a specific environment. Seasonally ice-covered lakes are common in a wide inhabited latitudinal zone in the northern hemisphere, while perennial lake ice can be found only in some remote polar and mountain locations. The ice cover sets limitations to ecosystems in that light is absent or weak in mid-winter, oxygen is not renewed,
openaire +1 more source
Ice-covered lakes form a specific environment. Seasonally ice-covered lakes are common in a wide inhabited latitudinal zone in the northern hemisphere, while perennial lake ice can be found only in some remote polar and mountain locations. The ice cover sets limitations to ecosystems in that light is absent or weak in mid-winter, oxygen is not renewed,
openaire +1 more source
Lake and drained lake basin systems in lowland permafrost regions
Nature Reviews Earth & Environment, 2022Benjamin Jones +2 more
exaly