Crouching on the beach at the eastern end of the main island of Upolu in Samoa, I paused once more to marvel at the way the encircling reef protected the little island from
the great ocean beyond.
Not exact matches
Here, two
great oceans meet, warm weather lasts most of the year, and big game roams just
beyond the city lights.
-LSB-...] visit and they think they're burdening me when I suggest we head off on a road trip to the
Great Ocean Road, Marysville, Phillip Island or
beyond.
The view out of the massive
Great Room windows of the pool and the Pacific
Ocean beyond is spectacular at this luxury villa in Manuel Antonio.
Starting an hour outside of Melbourne, the
Great Ocean Road spans Victoria's epic, wave - crashing coastline all the way to the spectacular rocky outcrops of the 12 Apostles, and
beyond to the South Australian border.
First impressions on arrival at the sun - washed coral pink stone frontage are of the striking views through the
Great House out to the blue waters of the
ocean beyond - a stunning Bajan welcome.
The
Great Ocean Road hugs an incredibly spectacular coastline for more than 100 kilometres from Torquay to Lorne to Apollo Bay and
beyond until it reaches its spectacular destination at the 12 Apostles.
Within 1 hour of Melbourne, via Geelong you're on your way to paradise starting with Torquay, then meander along the
Great Ocean Road stopping at towns such as Anglesea, Lorne, Apollo Bay and
beyond.
In my lifetime, tours from Melbourne along the beautiful
Great Ocean Road have always turned around at Port Campbell to head home when just 10 minutes
beyond, heading to Peterborough and on to Warrnambool from there (so, travelling in the opposite direction to you!)
I've had plenty of friends visit and they think they're burdening me when I suggest we head off on a road trip to the
Great Ocean Road, Marysville, Phillip Island or
beyond.
It's one thing for anti-whaling campaigners, at
great risk and cost, to dog Japanese vessels to chronicle the slaughter of whales on the shared global
ocean — far
beyond the ability of governments or media to track.
«A peer - reviewed paper [Krivova et al.] published in the Journal of Geophysical Research finds that reconstructions of total solar irradiance (TSI) show a significant increase since the Maunder minimum in the 1600's during the Little Ice Age and shows further increases over the 19th and 20th centuries... Use of the Stefan - Boltzmann equation indicates that a 1.25 W / m2 increase in solar activity could account for an approximate.44 C global temperature increase... A significant new finding is that portions of the more energetic ultraviolet region of the solar spectrum increased by almost 50 % over the 400 years since the Maunder minimum... This is highly significant because the UV portion of the solar spectrum is the most important for heating of the
oceans due to the
greatest penetration
beyond the surface and highest energy levels.
published in the Journal of Geophysical Research finds that reconstructions of total solar irradiance (TSI) show a significant increase since the Maunder minimum in the 1600's during the Little Ice Age and shows further increases over the 19th and 20th centuries... Use of the Stefan - Boltzmann equation indicates that a 1.25 W / m2 increase in solar activity could account for an approximate.44 C global temperature increase... A significant new finding is that portions of the more energetic ultraviolet region of the solar spectrum increased by almost 50 % over the 400 years since the Maunder minimum... This is highly significant because the UV portion of the solar spectrum is the most important for heating of the
oceans due to the
greatest penetration
beyond the surface and highest energy levels.
As we all know, climate science is evolving with
greater instrumentation and a better understanding of the air and
ocean currents, including satellite sensors, sounding of molecular activity in the troposphere and analysis of the atomic mater / plasma above and
beyond.
Cross-posted from Daniel Cressey on The
Great Beyond Cyclones appear to be responsible for a large amount of organic carbon tied up in
ocean sediments.