During the wet season abundant rainfall occurs with
the average annual precipitation in Libreville, 2,500 mm (98 inches) while between June to September there is virtually no rain.
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: 910 km
Not exact matches
With an
average annual precipitation of more than 10 meters
in some locales, slopes sport temperate rainforests and shrubby ecosystems that trap soil before it can wash away to the seas, where its ability to scrub CO2 from the air would cease.
This
annual report places the temperature and
precipitation averages into historical perspective, while summarizing the notable events that occurred
in 2015.
ACPI assumes a 1 percent
annual increase
in the rate of greenhouse gas concentrations through the year 2100, for little change
in precipitation and an
average temperature increase of 1.5 to 2 degrees centigrade at least through the middle of 21st century.
Despite no historical changes
in average annual precipitation between 1950 and 2015, there have been changes
in average seasonal
precipitation over the same period.
The majority of models suggest a slight increase
in total
average annual precipitation across the state, largely occurring
in spring, particularly
in the northwest.
Although WUE was positively correlated with CUE, NPP, and LAI,
average baseline WUE was highest
in grassland systems, which also had lower rates of mean
annual NPP,
precipitation, and LAI.
A 1 degree
average annual increase
in summer temperatures, or a 25 % decrease
in precipitation?
Although WUE was positively correlated with CUE, NPP, and LAI,
average baseline WUE was highest
in grassland systems, which also had lower rates of mean
annual NPP,
precipitation, and LAI.
Future crop yields will be more strongly influenced by anomalous weather events than by changes
in average temperature or
annual precipitation (Ch.
southern oscillation a large - scale atmospheric and hydrospheric fluctuation centered
in the equatorial Pacific Ocean; exhibits a nearly
annual pressure anomaly, alternatively high over the Indian Ocean and high over the South Pacific; its period is slightly variable,
averaging 2.33 years; the variation
in pressure is accompanied by variations
in wind strengths, ocean currents, sea - surface temperatures, and
precipitation in the surrounding areas
Previous climate models have shown that there didn't appear to be much change
in annual average precipitation in California or changes were unknown, even under aggressive warming scenarios.
Anomalies
in annual average precipitation in mm per day
in three experiments: (a) wNA, (b) Amazon, (c) wNA + Amazon.
Global solar irradiance reconstruction [48 — 50] and ice - core based sulfate (SO4) influx
in the Northern Hemisphere [51] from volcanic activity (a); mean
annual temperature (MAT) reconstructions for the Northern Hemisphere [52], North America [29], and the American Southwest * expressed as anomalies based on 1961 — 1990 temperature
averages (b); changes
in ENSO - related variability based on El Junco diatom record [41], oxygen isotopes records from Palmyra [42], and the unified ENSO proxy [UEP; 23](c); changes
in PDSI variability for the American Southwest (d), and changes
in winter
precipitation variability as simulated by CESM model ensembles 2 to 5 [43].
Average annual precipitation varies by about 20 inches throughout the Northeast with the highest amounts observed
in coastal and select mountainous regions.
That is particularly the case
in California, where decadal
precipitation variance is typically equivalent to 20 — 50 % of mean
annual averages, mostly because of changes
in precipitation received between November and March [16 — 17].
All of these characteristics (except for the ocean temperature) have been used
in SAR and TAR IPCC (Houghton et al. 1996; 2001) reports for model - data inter-comparison: we considered as tolerable the following intervals for the
annual means of the following climate characteristics which encompass corresponding empirical estimates: global SAT 13.1 — 14.1 °C (Jones et al. 1999); area of sea ice
in the Northern Hemisphere 6 — 14 mil km2 and
in the Southern Hemisphere 6 — 18 mil km2 (Cavalieri et al. 2003); total
precipitation rate 2.45 — 3.05 mm / day (Legates 1995); maximum Atlantic northward heat transport 0.5 — 1.5 PW (Ganachaud and Wunsch 2003); maximum of North Atlantic meridional overturning stream function 15 — 25 Sv (Talley et al. 2003), volume
averaged ocean temperature 3 — 5 °C (Levitus 1982).
The study predicts
average annual temperatures
in New York state will rise by 4 to 9 degrees by 2080 and
precipitation will rise by 5 to 15 percent, with most of it
in the winter....
Mendelsohn's optimistic outlook for Canada is based on
average annual rises
in temperature and
precipitation, but this overlooks how things might be
in exceptionally dry and hot years, Sauchyn says.