Sentences with phrase «precipitation falling»
We saw an increase in total precipitation falling as rain rather than snow.
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The combination of the warming with increased greenhouse gases and the increased precipitation falling as rain rather than snow is a double whammy for the region.
The retreat has been most noticeable at high elevations, driven in large part by warming temperatures contributing directly to melting and indirectly to more precipitation falling as rain rather than snow, in turn increasing the rate at which the glaciers move and increasing the size of glacial lakes, both decreasing ice cover.
As temperatures rise, the likelihood of precipitation falling as rain rather than snow increases, especially in autumn and spring at the beginning and end of the snow season, and in areas where temperatures are near freezing.
Over the past few decades, warming temperatures have been linked to changes in the percentage of precipitation falling as rain or snow, and snow melt anomalies showing a trend towards earlier and faster stream flow.
[6] Across California, 68 percent of weather station located between 2,000 and 5,000 feet registered a lower percentage of winter precipitation falling as snow, according to 65 years of winter precipitation data.
The more relevant situation is precipitation falling at terminal velocity, since that causes a downdraft countered by an updraft surrounding it.
The latter has precipitation falling from it and represents net dissipation of that part of the cloud with higher pressure at the ground than beneath the ascending section.
Percent changes in the amount of precipitation falling in very heavy events (the heaviest 1 %) from 1958 to 2012 for each region.
Snowfall is projected to continue to decline across the assessment area, with more winter precipitation falling as rain.
The 2012 - 2013 water year was especially remarkable because it began rather early with a series of very intense and moist storms associated with «atmospheric rivers» in Northern California during November but then quickly tapered off, with only light and sporadic precipitation falling for the remainder of the typical «rainy» season from mid-December through May.
The UMaine Climate Future report notes that the Northeast has seen «a 70 percent increase in the amount of precipitation falling in very heavy events, taxing an already stressed and aging infrastructure.»
Percent changes in the amount of precipitation falling in very heavy events (defined as the heaviest 1 percent of events) from 1958 to 2012 show a clear national trend toward a greater amount of precipitation being concentrated in very heavy events.
This month was also the October which had the highest number of rainy days, with precipitation falling on a total of 14 days.
On the other hand, November 2012 had the highest number of rainy days, with precipitation falling on a total of 16 days.
The wettest month in the dry season is January, when an average of 49 mm of rain falls over the course of five wet days, followed by December which sees 36 mm of precipitation falling over five wet days.
Over the course of July, Goa experiences a high amount of rainfall, with 995mm / 39 inches of precipitation falling on an average of 27 rainy days.
Despite the small amount of rain, with some type of precipitation falling on 11 days throughout the month, there is a good chance you'll experience a shower or two.
A Climate Central analysis found an increase in the percentage of winter precipitation falling as rain in many western states.
Less winter precipitation falling as snow is bad news for water supplies and wildfires out West and the financial fate of ski resorts across the country.
The frequency and amount of precipitation falling in intense events are underestimated.
In addition to New Hampshire, the Northeast's other two main skiing resort strongholds of Maine and Vermont have had 58 and 62 percent, respectively, of the weather stations in this analysis reporting a drop winter precipitation falling as snow.
In our new expanded report, «Meltdown,» we have analyzed the role of elevation in the percentage change of winter precipitation falling as rain.
In locations that are accustomed to getting snow during the winter, the total amount of snow each year is already decreasing as the planet warms from increasing greenhouse gases; the percentage of precipitation falling as snow is on the decline, with more of it falling as rain.
The result: more winter precipitation falling as rain instead of snow, two - tenths of an inch to more than half an inch a day, pushing the snowline in the mountains up from 3,000 feet to higher than 4,000 feet.
A Climate Central report found that at least 58 percent of more than 2,000 weather stations reported a trend toward a smaller percentage of all winter precipitation falling as rain instead of snow, with the Northwest and Upper Midwest registering the largest decreases.
A Climate Central analysis of 65 years of winter precipitation data from more than 2,000 weather stations in 42 states, found a decrease in the percent of precipitation falling as snow in winter months for every region of the country.
At higher elevations in Montana and Idaho, the shift was equally strong, with 75 and 78 percent of stations reporting a decrease in the percentage of precipitation falling as snow at 5,000 to 8,000 feet.
In western states where snowpack is critical, we found decreases in the percent of winter precipitation falling as snow at elevations between sea level and 5,000 feet.
Climate models predict increasingly severe storms and droughts and, in the Pacific Northwest, more precipitation falling as rain instead of snow.
Of the ten days a year precipitation falls from the sky, one of them has to be the day I bring something extremely valuable to work.
Most of the time, our precipitation falls as rain -LCB- liquid water landing on the ground -RCB-.
This suggests more precipitation fell away from the tropics in a colder climate, the opposite of what is expected as the world warms.
Over Christmas and New Year's Day, heavy precipitation fell over the U.S. Southeast, particularly in Georgia, Tennessee, Virginia, North Carolina and Alabama, which experienced flash flooding.
And even in wet years, warmer temperatures could mean that more precipitation falls as rain, not snow, setting up the possibility that many more years will see an April 1 with very little snow.
Below - average summer precipitation fell across the Northwest and Southeast.
Above - average precipitation fell across eastern parts of the state, but below - average precipitation across western and central parts of the state resulted in drought expanding during the season.
Below - average precipitation fell across the Northwest were three states were much drier than average.
Below - average precipitation fell across the Northeast.
Another aspect of this phenomenon is that in a warmer, wetter world a larger proportion of the precipitation falls in extreme events.
The bulk of the precipitation fell in the northern part of the state, unusual for a winter with an El Niño.
Keith Jennings, a graduate researcher and lead author of the study, said his team was surprised to find that freezing point at zero degrees Celsius or 32 Fahrenheit was not the key factor in whether precipitation fell as rain or snow, but more where the precipitation was falling.
Still, precipitation falls on only 5 days of the month so it is likely you will be able to avoid this rain.
During April, the chance of precipitation falls as the month progresses, beginning at 16 % on April 2nd and dropping down to 11 % by April 29th.
Most of the West's surface water comes from snowpack, which is declining as more precipitation falls as rain and snowpack melts earlier, leaving less water available for summer when it is needed most.
For instance, here in northern Nevada most of the precipitation falls as snow in the Sierra.
Needle - leaved evergreen trees Most precipitation falls in the summer.
Furthermore, the majority of the Earth's precipitation falls in the tropics and is a direct result of atmospheric convection; it is therefore a key area for improving ESMs representation of the earth system.
Improved observational data suggest during more frequent La Nina years a greater proportion of precipitation falls on the land globally and when routed through more slowly discharging aquifers, sea level rise decelerates.
Much of the precipitation fell as rain and heavy, wet snow, which allowed for higher totals.