The number of stations reflecting a locally significant increase in the proportion of total annual precipitation occurring in the upper five percentiles of
daily precipitation totals outweighs the number of stations with significantly decreasing trends by more than 3 to 1 (Figure 2.36 c).
Not exact matches
Maps of median TAE averaged across 23 model simulations for (a) and (b) mean surface air temperature, (c) and (d) highest
daily maximum temperature, (e) and (f) lowest
daily minimum temperature, (g) and (h)
total precipitation, and (i), (j) maximum 1 - d
precipitation for (a), (c), (e), (g) and (i) June - August and (b), (d), (f), (h) and (j) December - February.
We extracted 3 - hourly 2 m air temperature, dewpoint temperature, surface
total precipitation, and 10 m U and V wind components using the ECMWF GRIdded Binary Application Programming Interface (GRIB - API) and used them to derive
daily maximum and minimum temperature, maximum and minimum relative humidity, maximum wind and
total daily precipitation amount and
daily precipitation duration (Supplementary Table 3).
The outlook for homogenizing
daily temperature and monthly
precipitation totals is also discussed.
Specifically, this analysis is of the average of minimum and maximum
daily temperature as well as
precipitation totals.
The indicators are based on
daily maximum and minimum temperature series, as well as
daily totals of
precipitation, and represent changes in all seasons of the year.
COOP data usually consist of
daily maximum and minimum temperatures, snowfall, and 24 - hour
precipitation totals.