However, the uncertainty in the reconstructed sea level is tens of metres and the uncertainty in the Mg / Ca temperature is sufficient to encompass the result from our δ18O prescription, which has comparable contributions of
ice volume change and deep ocean temperature change at the Late Eocene glaciation of Antarctica.
«This allows us to get a better picture of projected regional
ice volume change and potential impacts on local water supplies, and changes in glacier size distribution,» Radic said.
You can see the entire animation here, watching Arctic sea
ice volume change from 1979 to 2014.
If one takes the simple view that deglaciation is forced by only global
ice volume change and greenhouse feedbacks, then one would be forced to conclude that Antarctic temperature change led all of its forcings!
These changes are dominated by the amount of
ice volume change.
Response to Comment on «Deep - Sea Temperature and
Ice Volume Changes Across the Pliocene - Pleistocene Climate Transitions»
Although the primary driver of glacial — interglacial cycles lies in the seasonal and latitudinal distribution of incoming solar energy driven by changes in the geometry of the Earth's orbit around the Sun («orbital forcing»), reconstructions and simulations together show that the full magnitude of glacial — interglacial temperature and
ice volume changes can not be explained without accounting for changes in atmospheric CO2 content and the associated climate feedbacks.
Huss et al. (2009) re-analyzed and homogenized the seasonal stake data and
ice volume changes for the period 1959 to present.
Not exact matches
Among them were the Purdue and Rochester studies of athletes in high school and college football [1,8,9,12,13, 31 - 38] and
ice hockey, [8] which, as noted above, found subtle
changes in cerebral function in the absence of concussion symptoms or clinically measurable cognitive impairment which researchers linked to the
volume of head impacts, and a much publicized case - study autopsy of a collegiate football player, Owen Thomas, with no reported history of concussions, which revealed early signs of CTE.
So, what tourism is impacting and actually what climate
change is impacting is a relatively very small piece of that peninsula; but you know the impact on the peninsula if all that
ice melts could be huge; when they talk about sea levels rising, you know, by inches and feet, you know if that
ice along the peninsula melts they will add to the
volume of the sea very quickly.
An international team of scientists has discovered new relationships between deep - sea temperature and
ice -
volume changes to provide crucial new information about how the
ice ages came about.
In that sense, the observed decoupling of temperature and
ice -
volume changes provides crucial new information for our understanding of how the
ice ages developed.
The past climates that forced these
changes in
ice volume and sea level were reconstructed mainly from temperature - sensitive measurements in ocean cores from around the globe, and from
ice cores.
The radar can measure the surface height variation of
ice in fine detail, allowing scientists to record
changes in its
volume with unprecedented accuracy.
This means that decreasing
ice volumes due to climate
change will not cause volcanoes to erupt that were not close to eruption anyway.
To understand sea - level
change means understanding not only the transfer of land
ice into the ocean, but also, for example, how the gravitational field of the Earth
changes as inconceivably large water
volumes shift around the planet.
Volume - area scaling laws mean that you can calculate
changing ice volume26.
Measurements of
ice sheet elevation
changes indicate the
volume of
ice lost, and hence the contribution to sea levels, he tells Carbon Brief.
Positive energy content
change means an increase in stored energy (i.e., heat content in oceans, latent heat from reduced
ice or sea
ice volumes, heat content in the continents excluding latent heat from permafrost
changes, and latent and sensible heat and potential and kinetic energy in the atmosphere).
Writing in Nature Climate
Change, two scientists from the Potsdam Institute for Climate Impact Research (PIK) say the melting of quite a small
volume of
ice on the East Antarctic shore could ultimately trigger a discharge of
ice into the ocean which would result in unstoppable sea - level rise for thousands of years ahead.
The latter is almost linearly related to
changes in
ice sheet
volume; the former, however, is influenced by a range of factors, including atmosphere / ocean dynamics and
changes in Earth's gravitational field, rotation, and crustal and the mantle deformation associated with the redistribution of mass between land
ice and the ocean.
The typical estimate of the sea - level
change is five metres, a value arrived at by taking the total
volume of the West Antarctic
Ice Sheet, converting it to water and spreading it evenly across the oceans.
- a lot of focus was put on sound effects in order to immerse players in the world of Hyrule - the development team worked with Sound Racer, a studio specialized in sound effects - this studio also worked on Xenoblade Chronicles X - they recorded more than 10 000 different sounds for the game - the team used a school bag to simulate the sound of rubbing leather - for the sound of «normal» footsteps, they mixed various kinds of sands - for the sounds of equipment, they had to search for various materials and find ways to use them - they used an actual block of
ice to recreate the sound of footsteps on
ice - with the
ice block, it always ended up melting, or getting cracks when the staff had to walk on it - Link's footsteps were made by a woman - depending on Link's actions and the equipment he's using / wearing, the recorded sounds were separated out individually - the
volume is
changed as needed to make a particular sound stand out - check out sound effect samples here
The
change in
ice volume and climate
changes the planets albedo (how much sunlight is reflected) and affect carbon storage.
To learn about the Naval sea
ice volume model and research see Advancements and Limitations in Understanding and Predicting Arctic Climate
Change — Wieslaw Maslowski, Naval Postgraduate School
The overall decline in
volume and thickness are explained almost entirely by
changes in the MY
ice cover.
The
changes in
volume over a season also tell us how much
ice is produced, how much heat is extracted from the ocean, how much brine is injected into the ocean as a result of
ice growth and how much melt water is injected back into the ocean.
Volume change includes both the area reduction (
change in
ice coverage, albedo, and heat absorption / reflection) and the thickness (vulnerability).
A
change in
ice volume one day leads to a
change in the same direction in the next day.
So how much do
changes in the Arctic atmosphere play a role in the loss of sea -
ice volume and the apparent failure of the GCMs to reflect the current
volume loss?
So, I was curious about your recent paper and whether there was any discussion of
changes in the THC poleward of the GIS shelf vs the data from the RAPID program line located at 26.5 N. With the decline in minimum extent and
volume of sea -
ice, one might expect to see more THC sinking into the Arctic Ocean, with consequences for both climate and weather.
The fact that our model does a surprisingly good job with simulating the last 400,000 years of global
ice volume, with no
change in model physics and only one linear
change in boundary conditions, argues for the fact that, despite plausible deficiencies, we have done a surprisingly good job of simulating the pattern of fluctuations in
ice volume.
In any case, any
changes in average
volume over the course of the year have been minimal compared to the Antarctic
ice loss.
On decadal and longer time scales, global mean sea level
change results from two major processes, mostly related to recent climate
change, that alter the
volume of water in the global ocean: i) thermal expansion (Section 5.5.3), and ii) the exchange of water between oceans and other reservoirs (glaciers and
ice caps,
ice sheets, other land water reservoirs - including through anthropogenic
change in land hydrology, and the atmosphere; Section 5.5.5).
While it's important to know the
volume of an
ice sheet - or how much space it takes up - it can
change without affecting the amount of
ice that is present.
Glacial periods during the 100,000 - year cycles have been characterised by a very slow build - up of
ice which took thousands of years, the result of
ice volume responding to orbital
change far more slowly than the ocean temperatures reacted.
The resulting picture shows that
ice volume has
changed much more dramatically than ocean temperatures in response to
changes in orbital geometry.
Then in 2003 the launch of two new satellites, ICESat and GRACE, led to vast improvements in one of the methods for mass balance determination,
volume change, and introduced the ability to conduct gravimetric measurements of
ice sheet mass over time.
The National Snow and
Ice Data Center have calculated global
change in glacier
volume - their results show glaciers are shrinking at an alarming rate.
Whether it exists as
ice or water, it still has the same mass, it still displaces the same
volume and there's no
change in the
volume of the ocean if it melts.
The entire structure loses mechanical strength despite the fact that only a tiny
volume of
ice on the surface
changes temperature and thus its mechanical properties.
Dr. Curry implies (as far as I understood it) The «stadium wave» hypothesis is based by interplay between North Atlantic Ocean temperatures oscillation (AMO) and the
changes in the sea
ice volumes in the Siberian Arctic Ocean region.
«Nonetheless, Jacob and colleagues have dramatically altered our understanding of recent global (glacier and
ice cap)
volume changes, and their contribution to sea - level rise,» Bamber wrote, referring to study researcher Thomas Jacob of Colorado - Boulder.
There has been no
change in the
volume of Arctic Sea
Ice since 1980
For example, let's say that evidence convinced me (in a way that I wasn't convinced previously) that all recent
changes in land surface temperatures and sea surface temperatures and atmospheric temperatures and deep sea temperatures and sea
ice extent and sea
ice volume and sea
ice density and moisture content in the air and cloud coverage and rainfall and measures of extreme weather were all directly tied to internal natural variability, and that I can now see that as the result of a statistical modeling of the trends as associated with natural phenomena.
As you mentioned gravity
changes due to many causes, also orbital drift and large guesses with potential biases make the estimates of total
ice volume have very large error bars.
A simple
ice budget calculation from ESL records demonstrates that the
change in
ice volume over Antarctica during the Late Glacial was at least comparable with the Scandinavian
ice sheet, and quite possibly larger.
Climate
change has already removed at least 75 percent of Arctic summer sea
ice volume at rates never before experienced in human history.
At the very margins, this doesn't matter, what does matter is where
ice is retained all summer but a lot of the top
ice melts off, so the area doesn't
change but the
volume does.
The answer to you question on changein
volume vs no
change in area (or little
change) presumably is that the area won't
change if the
ice is 10 cm vs 10 metres.