Average annual temperature ranges in Santiago are from 3 to 14 degrees Celsius (37 to 57 degrees Fahrenheit) in July to 12 to 29 degrees Celsius (54 to 84 degrees Fahrenheit) in January.
Not exact matches
Familiar to anyone who has paged through a nursery catalogue, the USDA hardiness map divides North America into 11 latitudinal zones, each representing a 10 - degree (Fahrenheit)
range of «
average annual minimum
temperature» — the coldest lows that can be expected in that area.
«When you think about the
range of countries that we had and you compare the
annual average temperatures in those countries, they can vary by about 50 - degrees Fahrenheit — and that's a pretty big
range,» Koppel said.
Average annual precipitation in Managua is 1,140 mm (35 inches) and average temperature ranges are from 20 degrees Celsius (68 degrees Fahrenheit) to 44 degrees Celsius (93 degrees Fahrenheit) all year Coastline:
Average annual precipitation in Managua is 1,140 mm (35 inches) and
average temperature ranges are from 20 degrees Celsius (68 degrees Fahrenheit) to 44 degrees Celsius (93 degrees Fahrenheit) all year Coastline:
average temperature ranges are from 20 degrees Celsius (68 degrees Fahrenheit) to 44 degrees Celsius (93 degrees Fahrenheit) all year Coastline: 910 km
Temperatures range between 22 °C to 34 °C, with an
average annual temperature of around 28 °C.
For the station nearest my home, the
range (max less min) in
annual average temperature for the past century is just 3.3 C. Can't say whether 1C warming matters in any tangible way, at this particular spot, but it's certainly large compared to the variation observed over the last century.
If you have a reconstruction of
annual average temperatures at a location over the past 1000 yrs with an error
range of, say, + / -0.3 deg C in the proxy data, and the net
temperature change over that time period is 1.0 deg C from the proxy data, your counts and timing of records are going to be heavily dependent on errors.
As an example, the city of Seattle is planning for
average annual temperatures to increase within a
range of 1.5 to 5.2 degrees Fahrenheit (0.8 to 3 degrees Celsius) by the 2040s, with summer
temperatures increasing by as much as 7.9 degrees Fahrenheit (4.4 degrees Celsius), according to the Seattle Climate Action Plan.
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.»
The
average location therefore has NOT actually experienced an increase in mean
annual temperature clearly outside the
range of normal variation for that location.
By comparison, from the same record, the
annual average temperatures for all the years between 2001 to 2013 fit within a
range of 0.10 C.
Biological specimens endure and thrive in a broad
range of conditions and fluctuations (including diurnal, seasonal, and short term climatological) all of which are much larger than the slow
average annual temperature rise.
The 31 years of satellite measurement of OLR show an
average OLR of around 232Watts / m ^ 2 with a
range from 227Watts / m ^ 2 to 237Watts / m ^ 2 in response to the
annual seasonal variation in absolute global
temperature between 12 °C and 16 °C due to the significantly larger temperate landmass in the Northern hemisphere.
An increase in global
average annual temperature causes an evaporation increase; this means more H2O in the atmosphere to moderate the
temperature range, as it always does.
Could we select a limited number (< 100) of sites not subject to the urban heat effect and invite interested parties to predict; a) the
annual average temperature at that site and b) the
annual temperature range at that site.