With moderate
ocean temperatures ranging between 18 °C and 27 °C and plenty of sunshine throughout the year, the conditions here are ideal.
Ocean temperatures range from 75 to 83 degrees year round
Ocean temperatures range from 75 to 83 degrees.
Ocean temperatures range from the mid 50s to low 60s.
Not exact matches
Scientists have shown that
temperature differences deep within Earth's mantle control the elevation and volcanic activity along mid-
ocean ridges, the colossal mountain
ranges that line the
ocean floor.
«We found that in North Pakistan and the Eastern Ghats, a mountain
range close to the Indian
Ocean, changes of
temperatures and humidity mark a critical transition to monsoon,» explains Stolbova.
Scientists have been warning that decreasing amounts of available oxygen will increase stress on a
range of species, even as they also face the effects of rising
temperatures and
ocean acidification.
«Mars for example is in the sun's habitable zone, but it has no
oceans — causing air
temperatures to swing over a
range of 100OC.
Ranging from the magnesium levels in microscopic seashells pulled from
ocean sediment cores to pollen counts in layers of muck from lakebeds, the proxies delivered thousands of
temperature readings over the period.
With mountain
ranges and
ocean basins similar to Earth's, the
temperature was 12 degrees warmer than with Venus's topography.
The blue colours over the
ocean correspond to a
temperature range of 285 — 295 K.
«What we take for granted on this planet, such as
oceans and continents, would not exist if the internal
temperature of Earth had not been in a certain
range, and this means that the beginning of Earth's history can not be too hot or too cold.»
Can withstand pressures six times greater than those at the bottom of the
ocean and endure
temperatures ranging from more than 100 °C down to absolute zero.
«The
range of pH and
temperature that some organisms experience on a daily basis exceeds the changes we expect to see in the global
ocean by the end of the century,» notes Rivest, an assistant professor at VIMS.
«NASA has access to large - scale oceanographic data sets
ranging from primary productivity to
ocean temperature, currents and wind,» Moore said.
By analyzing the speed of seismic waves generated by earthquakes, scientists have shown that
temperature differences deep within Earth's mantle control the elevation and volcanic activity along mid-
ocean ridges, the colossal mountain
ranges that line the
ocean floor.
PROVIDENCE, R.I. [Brown University]-- Scientists have shown that
temperature differences deep within Earth's mantle control the elevation and volcanic activity along mid-
ocean ridges, the colossal mountain
ranges that line the
ocean floor.
During the year, the global monthly
ocean temperature anomaly
ranged from +0.58 °C (+1.04 °F; February) to +0.86 °C (+1.55 °F; October), a difference of 0.28 °C (0.51 °F).
This winter, that warmth reached astounding levels, with air
temperatures over the Arctic
Ocean ranging from 4 °F to 11 °F (2 °C to 6 °C) above average in nearly every region.
The average mean
temperature in January
ranges from 53 - 59 degrees F; summers are a little warmer with an average mean
temperature in July that
ranges from 62 - 70 degrees F. Both winter and summer
temperature extremes are moderated by the moist
ocean air with generally high nighttime humidities and frequent fog.
Ocean temperatures are also perfect
ranging from 71 to 81 degrees year round.
Sargassum can survive a wide
range of
temperature and salinity; therefore, you'll find it floating in every
ocean except the Antarctic... and (pardon a pun) currently on our shores, plenty of it!
When I reviewed the
ocean temperature data sets back in 2003 through 2005 that appeared to have been data taken in the N. Atlantic above the 30th parallel, with an indication of cooling in the 2300 to 1700 meter
range.
Very recent, wide
ranging review of
temperature measurements in the
oceans with a detailed discussion of the accuracy of the data, planetary energy balance and the effect of the warming on sea levels.
The model variables that are evaluated against all sorts of observations and measurements
range from solar radiation and precipitation rates, air and sea surface
temperatures, cloud properties and distributions, winds, river runoff,
ocean currents, ice cover, albedos, even the maximum soil depth reached by plant roots (seriously!).
Given all the independent lines of evidence pointing to average surface warming over the last few decades (satellite measurements,
ocean temperatures, sea - level rise, retreating glaciers, phenological changes, shifts in the
ranges of
temperature - sensitive species), it is highly implausible that it would lead to more than very minor refinements to the current overall picture.
In much of the Arctic,
temperature in the
ocean increases with depth to about 300 - 500 meters which is the
range of the likely sill depth.
But, we live in a
temperature range around the triple point, and the
ocean (being much cleverer than i) has discovered a way to put heat into the ice that i had not seriously considered: rain.
Which implies that since the late» 40's - early» 50's we have had a data collection system deployed capable of measuring and tracking the annual
TEMPERATURE of the top 2000 meters of the
oceans of the world (necessary to calculate its heat content)-- all of them — with a precision and accuracy in the millidegree
range.
Note the broad regions over Northern Canada, Siberia, and the Arctic
Ocean that are predicted to experience
temperatures in the
range of 20 degrees Celsius above the already hotter than normal 1979 to 2000 baseline readings.
It is currently on average around 0.2 C / decade [Note the IPCC claimed 0.34 C], actually smaller than the annual noise from natural annual variation of the
temperature due to
ocean currents and volcanoes and in the
range of solar activity fluctuations.»
That is, depending on the study, if memory serves me well, the lag times between solar variation and response in global
temperature is said to
range between 5 - 7 years on the low end to a couple of decades on the high end due to the thermal inertia of the
oceans.
Divers with the Division of Aquatic Resources have measured
ocean temperatures of around 85 degrees Fahrenheit (29.4 Celsius), which is higher than the normal
range of 72 degrees to 78 degrees (22.2 to 25.5 C), McGilvray said.
So after considering all of that, the estimated current «surface»
temperature produces an estimated effective radiant return energy from the atmosphere of about 345Wm - 3 + / - 9 called DWLR which, had the average effective radiant energy of the
oceans been used, ~ 334Wm - 2 would have created less confusion and still have been within a more realistic uncertainty
range of + / - 17 Wm - 2.
At the northwestern end of the vast, fire - marred
range that now covers a land area larger than most countries,
temperatures near the Arctic
Ocean shore at 70.9 ° N, 81.4 ° E are 86 degrees F (30 C)-- about 40 degrees F (22 C) above average.
You wouldn't generally think of
ocean temperatures in the
range of 40 to 50 degrees Fahrenheit (5 to 10 degrees Celsius) as hot.
(Extreme heat in the
range of 30 to 40 degrees F above average
temperatures [17 to 22 C] near Arctic
Ocean shores greatly increases Arctic wildfire risk.
According to data from the reanalysis produced by the European Centre for Medium -
Range Weather Forecasts, the January to October combined land and
ocean global average
temperature would place 2014 as third or fourth highest for this dataset, which runs from 1958.
The AFZ is best developed along the Eurasian and Alaskan coasts, especially in Eastern Siberia and north of Alaska's Brooks
Range, where it appears that
temperature gradients are sharpened by topographic trapping of cold Arctic
Ocean air.
UV light reduction likely will cause
ocean heat content and
ocean surface
temperatures to drop, due to the fact that UV light in the
range of 280 nm - 400nm penetrates the
ocean surface to depths of 50 - 100 meters.
«Even with just a further 3C of warming — well within the
range to which the UN climate science panel expects
temperatures to rise by the end of the century — nearly one - fifth of the planet's 720 world heritage sites will affected as ice sheets melt and warming
oceans expand.»
Do I really believe that a $ 15k float, running unattended and uncalibrated in the open
ocean will produce
temperature data over an expected
temperature range of 0 - 30 C with 5 millidegree error bounds over its operational life (4 + / - years)?
C: increase in atmospheric CO2 from pre-industrial to present is anthropogenic (D / A) S: best guess for likely climate sensitivity (NUM) s: 2 - sigma
range of S (NUM) a:
ocean acidification will be a problem (D / A) L: expected sea level rise by 2100 in cm (all contributions)(NUM) B: climate change will be beneficial (D / A) R: CO2 emissions need to be reduced drastically by 2050 (D / A) T: technical advances will take care of any problems (D / A) r: the 20th century global
temperature record is reliable (D / A) H: over the last 1000 years global
temperature was hockey stick shaped (D / A) D: data has been intentionally distorted by scientist to support the idea of anthropogenic climate change (D / A) g: the CRU - mails are important for the science (D / A) G: the CRU - mails are important otherwise (D / A)
Evidence can
range from poor (past measures of
ocean surface
temperature) to excellent (laboratory measurements of the absorption spectra of the greenhouse gases.)
temperature: 1,000 m depth
temperature = 5C thermal conductivity of seawater 0.58 W / mK
ocean - air interface = 17.000 C 1.441 mm depth
temperature = 17.400 C (the warmest spot in the
ocean depth though the «few metres» of depth below it is only a miniscule bit colder, all warmed by Sun SWR) this top 1.441 mm depth is the «skin» and «sub-skin» 100m depth
temperature certain in
range 16.090 C to 17.400 C but virtually certain > 17C because of mixing top ~ 90m
temperature gradient of top 1.441 mm of
ocean is 277.6 Celsius / metre By conductivity,
temperature gradient pushes 161.00 w / m ** 2 up from 1.441 mm depth to
ocean - air interface which precisely removes the Sun's 161 w / m ** 2 going into the top few metres depth and leads to no
ocean warming.
Previous research has shown that global warming will cause changes in
ocean temperatures, sea ice extent, salinity, and oxygen levels, among other impacts, that are likely to lead to significant shifts in the distribution
range and productivity of marine species, the study notes.
Previous research has shown that global warming will cause changes in
ocean temperatures, sea ice extent, salinity, and oxygen levels, among other impacts, that are likely to lead to shifts in the
range and productivity of marine species.
The tropical Pacific continued its retreat from El Niño thresholds for the second consecutive fortnight (i.e.,
ocean temperatures cooled), remaining within the neutral
range (neither El Niño nor La Niña).
The cyclic nature of the
oceans does not change, but the
temperature range within the cycles does.
That 150 C
range of
temperatures also covers a wide variety of terrains, and ground cover, even deep
oceans, and the thermal energy flows in each of those different environments relate to the local
temperature in totally different ways, so there is no relationship between the «average» global
temperature (even if it was possible to measure such a number) and the energy balance of the planet.