Everyone deals with unimaginable pain in their own way, and everyone is entitled to that, without judgement... Remember
how vast the ocean's boundaries are.
Not exact matches
Viewers witness
how dust blown from the Sahara fertilizes the Amazon;
how a
vast submarine «waterfall» off Antarctica helps drive
ocean currents around the world; and
how the sun's heating up of the southern Atlantic gives birth to a colossally powerful hurricane.
And
how inessential in the eyes of God must be the small surplus of the individual's merit, swamped as it is in the
vast ocean of the common merit of mankind, dumbly and undauntedly doing the fundamental duty and living the heroic life!
Our work was the most comprehensive investigation to date of
how mercury is deposited to the Arctic tundra, a
vast northern ecosystem surrounding the Arctic
Ocean.
Together, these pieces provide an introduction to some of the important discoveries we have made recently about our
oceans, underscore
how human activities are changing them, and identify some of the challenges we must face if we are to continue to enjoy their
vast but finite resources.
Next, he wrote a simple aqueous geochemistry model to calculate
how much of these gases would have been dissolved in shallow lakes and reservoirs — environments that would have been more conducive to concentrating life - forming reactions, versus
vast oceans, where molecules could easily dissipate.
The question of
how species came to live where they live, which is studied by the field of biogeography, has long been debated among biologists, especially in cases where organisms that are related live on distant continents separated by
vast oceans.
Assistant Professor of Earth,
Ocean and Atmospheric Science Robert Spencer and a team of researchers traveled to Siberia from 2012 to 2015 to better understand
how thawing permafrost affected the carbon cycle and specifically to see if the
vast amounts of carbon stored in this permafrost were thawing and
how it w transferring to the atmosphere as carbon dioxide.
Participants will be actively involved in testing and experiencing digital and hands - on activities including the first Virtual Zoo program in development — Expedition
Ocean — to get a sense of
how deep, wide, and
vast the world's
oceans really are, and gain an understanding of cutting - edge active digital and hands - on activities being developed from the partnership.
Nick Moran of The Millions had interesting prospective, mentioning «The emissions and e-waste for e-Readers could be stretched even further if I went down the resource rabbit hole to factor in: electricity needed at the Amazon and Apple data centers; communication infrastructure needed to transmit digital files across
vast distances; the incessant need to recharge or replace the batteries of eReaders; the resources needed to recycle a digital device (compared to
how easy it is to pulp or recycle a book); the packaging and physical mailing of digital devices; the need to replace a device when it breaks (instead of replacing a book when it's lost); the fact that every reader of eBooks requires his or her own eReading device (whereas print books can be loaned out as needed from a library); the fact that most digital devices are manufactured abroad and therefore transported across
oceans.
It's also a great opportunity to learn more about the
ocean and
how we can preserve it, from the biodiversity found beneath its surface to
how our everyday actions impact the
vast amounts of creatures and habitats.Whether you live in a coastal town or a landlocked city, you can celebrate today by learning a little more.
The point is to think
how current weather patterns are affected by anthropogenic climate change, so it's necessary to consider the
vast majority of that heat accumulating in the
oceans.
They also explain
how the «sea ice extent around Antarctica» is very different from the sea ice in the Arctic because the Arctic is not covered by land, but by
ocean, albeit mostly frozen most of the time, whereas Antarctica is a
vast continent covered by massive ice sheets with the South Pole at its center.
Roughly 70 percent of the world is covered by
oceans, so you can understand
how hotter air over them could make a
vast difference in the climate system.
Scientists measured
how, within hours of the lakes forming, the
vast ice sheets rose up, as if floating on water, and slid towards the
ocean.
AGW climate scientists seem to ignore that while the earth's surface may be warming, our atmosphere above 10,000 ft. above MSL is a refrigerator that can take water vapor scavenged from the
vast oceans on earth (which are also a formidable heat sink), lift it to cold zones in the atmosphere by convective physical processes, chill it (removing
vast amounts of heat from the atmosphere) or freeze it, (removing even more
vast amounts of heat from the atmosphere) drop it on land and
oceans as rain, sleet or snow, moisturizing and cooling the soil, cooling the
oceans and building polar ice caps and even more importantly, increasing the albedo of the earth, with a critical negative feedback determining
how much of the sun's energy is reflected back into space, changing the moment of inertia of the earth by removing water mass from equatorial latitudes and transporting this water vapor mass to the poles, reducing the earth's spin axis moment of inertia and speeding up its spin rate, etc..
as well as
how important you see yourself within the
vast ocean of climate bloggers.
I wonder
how many of those who think they know all there is to know about earth would have thought there were
vast amounts of freshwater under the
ocean floor 20 years ago.
If the
oceans are now and have long been a reliable and
vast heat sink, then concerns about
how CO2 forcing might screw with the humanosphere naturally recede.
Also don't understand
how surface temps can be used to calculate global warming or cooling when the
vast majority of climate heat is stored in the
oceans.
How a rising of the
ocean waters may flood most of our port cities within the foreseeable future — and why it will be followed by the growth of a
vast glacier which may eventually cover much of Europe and North America.
Or has this been simplified to mostly account for
how much the
oceans absorb energy, and since
ocean absorb the
vast majority of energy that reaches the earth surface, anything else can be mostly be ignored?