From the UNIVERSITY OF CALIFORNIA – LOS ANGELES and the “a 31 year dataset is spliced onto another enough for any conclusion” department comes this claim:
UCLA researchers’ new method could be useful for analyzing snowpack in other mountains
Even with this winter’s strong El Niño, the Sierra Nevada snowpack will likely take until 2019 to return to pre-drought levels, according to a new analysis led by UCLA hydrology researchers.
Additionally, they suggest their new method, which provided unprecedented detail and precision, could be useful in characterizing water in the snowpack in other mountains, including ranges in western North America, the Andes or the Himalayas. These areas currently have much less on-site monitoring than in the Sierra Nevada.
The study was published online today in The American Geophysical Union journal Geophysical Research Letters.
“With the consecutive years of ongoing drought, the Sierra Nevada snowpack’s total water volume is in deficit and our analysis shows it will to take a few years for a complete recovery, even if there are above-average precipitation years,” said the study’s principal investigator, Steve Margulis, professor of civil and environmental engineering at the UCLA Henry Samueli School of Engineering and Applied Science.
Much of California’s water comes from the when the Sierra Nevada snowpack melts. The winter of 2015 capped four consecutive years of drought that resulted in the largest cumulative drought deficit spanning the 65 years that have been examined. The water volume of the snowpack in 2015 was just 2.9 cubic kilometers, when a typical year is about 18.6 cubic kilometers.
“It is critical for regions like California, that rely on their regional snowpack for water supply, to understand the dynamics of the system,” Margulis said. “Our new tool could help not just California, but other regions, gain insight about their regional snowpack.”
The researchers created a dataset covering 31 years (from 1985 to 2015), using measurements from NASA Landsat satellites, which provide daily maps of the full Sierra Nevada snowpack that have about 10 times sharper resolution that previously available. While there are on-site sensors throughout the mountain range, they are typically in the middle elevations and do not provide a full, high-resolution picture of the entire range, particularly at higher elevations, Margulis said. The researchers combined their new dataset with other snow survey data, collected by the state’s Department of Water Resources, to extend the time series of range-wide snowpack volumes back 65 years to 1951.
Using the data, the researchers applied probabilistic modeling methods to make predictions of snowpack water availability. Accounting for the four-year snowpack deficit from the 2012-2015 drought, the researchers say it will likely take until 2019 to get back to pre-drought conditions.
“Our larger goal is to build a very detailed, continuous picture of the historical snowpack, diagnose the primary factors that cause it to vary, and then ultimately improve models for predicting how much water will be available from it,” Margulis said. “This unprecedented information can help policy makers make more informed decisions with regard to this critical resource, especially as climate change affects it.”
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I am amazed seeing this kind of “academic” research results when the cross checking with common sense. First of all, the rainfall last year, even with the El Nino effect, is not sure really above average. From the data of the California Data Exchange Center, the rainfall in the northern Sierra Nevada is indeed 120% of the average, but the central part is ~100%, and the southern is only 91%, let alone other central and southern areas of California which are also below average:
http://cdec.water.ca.gov/cgi-progs/products/PLOT_ESI.pdf
http://cdec.water.ca.gov/cgi-progs/products/PLOT_FSI.pdf
http://cdec.water.ca.gov/cgi-progs/products/PLOT_TSI.pdf
Secondly, after the full melting down of the snowpack on Sierra Nevada, the overall (statewide?) reservoir storage is 87% of the average as of today, and please be reminded that this figure is after a so called severe drought for three years and also 8 and half months of daily usage, there will be another 3 and half months to go before the next water year:
http://www.nohrsc.noaa.gov/nsa/index.html?region=Sierra_Nevada&year=2016&month=6&day=21&units=e
http://cdec.water.ca.gov/cgi-progs/reservoirs/RES
My question is: why then such a panic about drought? In Australia, 87% in this situation could be a very sweet figure.
I see a problem for California. A La Nina is likely this coming fall/winter. In the likely event the multidecadal oscillation(s) continue their making of the recent global warming pause for another 15 years, this likely coming La Nina is likely to be a double-dip one, which means it will probably repeat in the fall/winter of 2017/2018.
Another problem for California is that the multidecadal bump centered around 2004-2005 and the warming caused by increased greenhouse gases (even though I see that as 40-50% of IPCC expectations) are disproportionately warming the Arctic because of a regional positive feedback there (ice cover change carrying over from one year to the next more than in the Antarctic, and more land with variable snow coverage). This seems to be shifting northern hemisphere weather patterns slightly more northward, which means a little less winter precipitation on SoCal.
And SoCal is in poor shape to handle a population increase while its water supply will likely run quite low through 2018 and probably be a little less than it was through the remainder of this century.
Lessee now. La Nina is predicted tor the coming winter and that implies that the snow pack will be less than the past year.
The problem is not that enough water in generated. The problem is that there are too many intended uses of that water? It is really a matter of Man’s out of control population.
Choice of location has everything to do with too many people for the water available.
If snow decreases it’s global warming.
If snow increases its global warming.
How-ja-feel Karl baby!