Debris flows on alluvial fans are a geologic hazard that can be of considerable consequence. This debris flow spilled large logs above the incised stream channel several years ago. I used my cell phone to record a few observations.
Observations of Washington State Landscapes, Geology, Geography, Ecology, History and Land Use
Monday, January 27, 2020
Sunday, January 19, 2020
Adiabatic Heating and The Bear Who Stole the Chinook
A few messages suggested a bit more background on Snow Eater Wind would be useful. If there is a barometric pressure gradient across the mountains air will flow over the mountains and then descend down the other side. The air is a gas and will follow what is termed the Ideal gas law. The simple equation is PV = NRT, where P = pressure, V = volume, N = amount of gas (moles), R = gas constant (a number value with an interesting history) and T = Temperature. Hence, if the pressure of the air is increased air will become warmer and if pressure decreases the air will become cooler; other aspects of the equation remaining equal and the gas behaves ideally. Of course there is more to this and that is why we have meteorologists.
Meteorologists use a term called dry adiabatic lapse rate and moist adiabatic lapse rate and for how temperature will change within an air mass. When an air mass descends it will warm because the pressure is increasing. As an air mass descends it will warm at the dry adiabatic lapse rate which is approximately 5.5 degrees F for every 1,000 feet the air descends.
The strong east winds that reached Bellingham and Skagit County as well as the lower west slopes of the Cascade Range to the south were the result of a high pressure mound of air east of the Cascades with a low pressure off the coast of Washington. The high pressure air flowed towards the low pressure and as it descended it warmed at the dry adiabatic lapse rate. Even if the original air mass pulled over the mountains may have been cold, the increase pressure would cause it to warm substantially. The roughly 7,000-foot drop over the North Cascades Range would produce a warming of the descending air mass of 38.5 degrees F. So an air mass of say 10 degrees F would warm to 48 degrees F, about the temperature spike Bellingham had for a few hours last Wednesday evening.
Technically this is not a Chinook wind per meteorology, but the results are very similar and I would note the term Chinook wind is used more broadly by some and I do not know if the type of wind that descends east from the Cascades has been given a name.
Billy and I experienced our share of Chinook winds and he alerted me to this song by Jack Gladstone, a Blackfoot and former U of W Husky.
Meteorologists use a term called dry adiabatic lapse rate and moist adiabatic lapse rate and for how temperature will change within an air mass. When an air mass descends it will warm because the pressure is increasing. As an air mass descends it will warm at the dry adiabatic lapse rate which is approximately 5.5 degrees F for every 1,000 feet the air descends.
The strong east winds that reached Bellingham and Skagit County as well as the lower west slopes of the Cascade Range to the south were the result of a high pressure mound of air east of the Cascades with a low pressure off the coast of Washington. The high pressure air flowed towards the low pressure and as it descended it warmed at the dry adiabatic lapse rate. Even if the original air mass pulled over the mountains may have been cold, the increase pressure would cause it to warm substantially. The roughly 7,000-foot drop over the North Cascades Range would produce a warming of the descending air mass of 38.5 degrees F. So an air mass of say 10 degrees F would warm to 48 degrees F, about the temperature spike Bellingham had for a few hours last Wednesday evening.
Technically this is not a Chinook wind per meteorology, but the results are very similar and I would note the term Chinook wind is used more broadly by some and I do not know if the type of wind that descends east from the Cascades has been given a name.
Billy and I experienced our share of Chinook winds and he alerted me to this song by Jack Gladstone, a Blackfoot and former U of W Husky.
Thursday, January 16, 2020
Snow Eater Wind Comes to Northwest Washington
Down slope winds off of mountain ranges can have a pronounced impact on temperature. Long cold spells in central and eastern Washington will come to abrupt ends when storm systems from the west are strong enough to push across the Cascade Range. The descending air will scour out the pool of cold air but also the descending air warms rapidly causing a sharp jump in temperature. The wind is locally called a Chinook and the term is used widely in the interior northwest U.S. out to Montana and the plains of Alberta.
A similar phenomena took place last night in the lowlands of western Washington - only the wind direction was reversed. A low pressure off the coast to the west created a sharp pressure gradient from east to west across the Cascade Range. The result was a sharp temperature increase from the descending air.
Bellingham temperature plot
In Bellingham the temperature jumped about 20 degrees in minutes. The temperature spike lasted for a few hours and when the descending winds eased, the temperature returned the low 20s.
A similar effect took place in the Skagit lowlands that I experienced first hand. I had to venture out to pick up Lisa at the train station in Mount Vernon. The wind was very hard from the east; high enough to cause some slipping on the icy roads as the car was pushed about, and formed numerous speed bumps of snow drifts. But on the return the temperature jumped from the low 30s to the mid 50s in less than 5 minutes.
The Blackfeet Indians called these events snow eaters. Indeed much of the snow was eaten away down from its deep layer by the warmish and dry wind before the temperature lowered to the 30s and the slow wet melt that has persisted all day.
Wednesday, January 15, 2020
Snow Day on Samish
A snow shower band stayed in place over a swath of northwest Washington last evening leading to a snow day. Mid day I took a walk-about on the east end of Samish Island.
Lummi Peak is the high point of Lummi Island to the northwest
Chuckanut Mountain to the northeast with Samish Bay in the foreground
Blanchard Mountain with Samish Bay in the foreground
On USGS topographic maps Blanchard Mountain is lumped together with Chuckanut Mountian. Locally the term Blanchard Mountain is used for the southern summit area. The name is derived from the small village of Blanchard at the base of the mountain. Geologically the two mountains are markedly different with the northern Chuckanut Mountain underlain by Chuckanut Formation sedimentary rocks of Eocene age. Blanchard is underlain by metamorphic rocks of Jurassic age.
Lyman Hill to the southeast
Lyman Hill is 2,000 feet higher than the highest point on Chuckanut Mountain. Perhaps it seems hill like as to the main portions of the North Cascade Range is further to the east behind the "hill".
Alice Bay viewed from Scott Point at the east end of Samish Isalnd
The road towards home.
The road to Samish Island looking south from the island across the flats
Samish Island is an island that can be driven to. The island was separated from the mainland by tide flats prior to dikes being built to create farm land.
The road heading up onto the island
It was sort of a black and white day - mot much color with the snow and overcast. One bright spot was this Ixoreus naevius (varied thrush) on a small native cherry in the forest.
Monday, January 13, 2020
Betula papyrifera, Argilus anius and Temperature
A field venture a few days before the current cold spell took me through a wetlands restoration project, past thickets of Nootka rose, and an effort to push back on invasive canary reed grass.
One challenge of environment restoration plantings is keeping the rodent and deep nibblers at bay; hence, the blue plastic tubes and fencing around plantings.
The forest stand I passed through was a very mixed stand. This tree is a tree that has a limited range in Washington State, but is a common tree in the northwest Puget lowlands.
The bark pattern of this species in northwest Washington is often dark and can be mixed up with wild cherry, another local native tree. However, some do develop the more classic white bark. There is some variability in the species that early fur trappers noted - west of the Rocky Mountains the birch do not have the same quality of bark for the building of canoes, a bit of a disappointment for the river and lake traveling that fur traders relied on.
Distribution of Paper Birch from USGS ( “Atlas of United States Trees” by Elbert L. Little, Jr. )
The distribution of the species limiting factor is likely strongly associated with Argilus anius (bronze birch borer). Muilenburg and Herms (2012) provide an overview of the relationship of the borer and birch trees. Temperature plays a partial role. Deep freezes may slow the maturation of the borer.
In northwest Washington, the paper birch is limited mostly to norther Puget lowlands. In the Birch Bay and Drayton Harbor area, the tree is one of the predominant species in the forest. These areas are cooler in the summer and perhaps the occasional bast of arctic air out the Fraser River canyon like today puts a bit of a check on the borer. Today, was a good example. While snow arrived in the Seattle area, the temperature in Seattle as I write this is 30 F, while the temperature at Birch Bay is 15 F. In addition, the northwest portion of the state is substantially cooler in the summer and thus a bit less stress for these cool weather wet ground trees.