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.
Not exact matches
And in 2016 the number of
daily record high
minimum temperatures outnumbered record
low minimum temperatures 7 - to - 1.
Daily maximum
temperatures are rising, as are
minimum temperatures, except for cooler nights in autumn in the southwest of SEA closely related to
lower rainfall.
On a seasonal basis the ranges between the
daily maximum,
minimum and average are all listed and the
lowest ratio is that the
daily minimum temperature range over the year is 77,000 times greater than the
temperature difference that would result from the proposed 30 % reduction in emissions.
To do so, you'd need a study such as mine which shows water vapour cools and more moist regions have
lower mean
daily maximum and
minimum temperatures than drier regions at similar latitudes and altitudes.
Yes stefanthedenier, it is indeed correct that increasing the percentage of water vapor in Earth's atmosphere leads to
lower mean
daily maximum and
minimum temperatures.
«Working with data pertaining to 7450 cardiovascular - related deaths that occurred within Budapest, Hungary, between 1995 and 2004 — where the deceased were «medico - legally autopsied» — Toro et al. looked for potential relationships between
daily maximum,
minimum and mean
temperature, air humidity, air pressure, wind speed, global radiation and
daily numbers of the heart - related deaths... scientists report and restate their primary finding numerous times throughout their paper, writing that (1) «both the maximum and the
minimum daily temperatures tend to be
lower when more death cases occur in a day,» (2) «on the days with four or more death cases, the
daily maximum and
minimum temperatures tend to be
lower than on days without any cardiovascular death events,» (3) «the largest frequency of cardiovascular death cases was detected in cold and cooling weather conditions,» (4) «we found a significant negative relationship between
temperature and cardiovascular mortality,» (5) «the analysis of 6 - hour change of air pressure suggests that more acute or chronic vascular death cases occur during increasing air pressure conditions (implying cold weather fronts),» (6) «we found a high frequency of cardiovascular death in cold weather,» (7) «a significant negative relationship was detected between
daily maximum [and]
minimum temperature [s] and the number of sudden cardiovascular death cases,» and (8) «a significant negative correlation was detected between
daily mean
temperature and cardiovascular mortality.»
Temperatures are consistently lower in the TOBS biased data after the shift in observation time for daily minimum, maximum, and mean t
Temperatures are consistently
lower in the TOBS biased data after the shift in observation time for
daily minimum, maximum, and mean
temperaturestemperatures.
Although in the study over 90 % was attributed to cold the paper noted that «This difference was mainly caused by the high
minimum - mortality percentile, with most of the mean
daily temperatures being
lower than the optimum value».
Cold waves were similarly defined as periods of at least 3 days in January and February when
daily minimum temperatures were
lower than the 95th percentile of
daily minimum temperatures for those two months.