The Royal Gorge Water Study:
A Hodge-Podge of Fragile Sources
An
analysis of Royal Gorge's recently published reports, including the eagerly
awaited "Water Supply
Alternatives" study, finds that their water claims are indeed fragile.
Their water sources look good on paper, but fall apart under the slightest
scrutiny, and completely disappear when examined closely. This analysis looks first at Royal
Gorge's water demand claims, and then moves on to critically examine Royal
Gorge's hodge-podge of water supply sources. The conclusion is that Royal Gorge
actually needs much more water than they claim, and that only a small fraction
of their projected water supply is even robust enough to be called an
alternative.
This
analysis is based primarily on three sources of information: The Royal Gorge
documents submitted to the County in November 2007; the Watershed Yield
Calculator published by the American River Watershed Institute, and SLCWD's
Surface Water Balance Model for Serene Lakes.
Water
Demand:
Royal
Gorge's water demand study, found in Appendix C of the Water Supply
Alternatives report, was conducted by King Engineering. King assumed a demand
of 500 gallons per day (GPD) for single family residences (SFR) and 300 GPD for
condominium or hotel units, plus varying amounts for the commercial and
recreational facilities in the plan. If these per unit usage numbers are used,
then the total water demand can be arrived at from their calculations, provided
a few modifications are made. First, King erroneously assumes that large
townhomes (2200 to 3400 sq. ft.) use the same amount of water as condominiums
(1000 to 2000 sq. ft.) rather than the amount used by SFRs. According to the EIRs referenced in
Appendix A, large townhomes should be classified as SFR units, not condominiums.
Second, no water was allocated for the cabins, lodge and other facilities in
Wilderness camp. Instead King states that the Wilderness Camp water will come
from "other sources". For demand projections to be complete and
accurate, Wilderness Camp water demand must be included in their analysis, with
the "other sources" identified and analyzed.
When
the King study is adjusted to classify townhomes as SFRs, and the water usage
for Wilderness camp is added in, then the total water demand is projected to be
574 AFY, not 526 AFY as reported by King.
Finally,
the water demand study omits landscaping water and water needed to replenish
West lake (the recreation Lake) in Lake Camp. The landscape watering needs is
given in Summary Table 2 of the King report as 51,000 GPD. This is given as
maximum daily demand, but is assumed to be managed by timers, so it would be
the same as the average demand for the months of June, July, August and
September. This works out to be an additional 4.8 AF per month over that period.
Evaporation will also significantly deplete the water level in West lake over
the course of the summer. The average evaporation for the Donner Summit area is
2.6 feet over the summer months. Some of this might be replenished by
groundwater seepage, but given the solid rock geology, and the amount of
proposed development around the lake, it is likely that there will be little
seepage, causing West Lake's water level to decrease between 2 and 3 feet
during summer. If Royal Gorge intends to preserve the recreational value of the
lake, then 10 to 20 AF of additional water would be required each summer to
replace this water loss.
Occupancy:
The
water studies look at 46%, 75% and 100% occupancy for the new development, but
only the 100% occupancy numbers are relevant. It is only common sense that if
there is only water for 46% or 75% occupancy, then only 46% or 75% of the units
should be approved to be built. The development is not like a campground that
can simply close when water runs out, as it will provide homes for people that
will need water year-round, no matter what the day to day occupancy is.
In
addition, the most critical months for water usage start in June, when the
weather heats up, the water demand grows, and the spring snow melt is long
gone. One can easily imagine full occupancy then, and through the summer. Full
occupancy for just these five months is close to the 46% threshold. If that 46%
threshold is reached, will Royal Gorge resort close in October, not to reopen
until the following spring? The County has stated that the water supplies need
to be studied for full occupancy, and for good reason. Full occupancy is used
for this analysis.
Water
Supplies:
Royal
Gorge has identified eight sources of water. Some of these are reliable
supplies, in that one can count upon a minimum amount of water to be available.
Some, like High Sierra wells, are marginal, in that their capacity, quality and
sustainablity are unknown, and can fail at any time. Finally, there are three
sources that are impractical and not worth including as a supply source. Each
of these sources are examined below.
Serene
Lakes Spill:
This
refers to the water that goes over the Serene Lakes dam during the spring thaw
and run-off season every year. The Serene Lakes watershed contains many
thousand acre-feet of run-off water that re-fills Serene Lakes and then spills
over the dam for a short period every spring. The spill starts in either
January or February and ends in May or June. Last year the spill stopped in mid
to late June, but the amount of spill water in June was minor, only 50 AF,
hardly enough to count on, especially during a drought. Drought years
simulations using SLCWD's water balance model show that the spill can stop in
early May. At this time (mid-January) the lake has not yet filled up and has
not started to spill. This means that the only reliable spill months are
February, March and April. This contrasts to the Royal Gorge Study that assumes
spill water can be used from New Years through the end of June.
Raising
the Serene Lakes Dam 6":
Raising
the water level in Serene Lakes by six inches will flood many lakeside lots,
reach the foundations of several houses, and inundate much of the greenbelt
area around the shore. This will cause major damage to the trees and vegetation
around the shore, which will be flooded for extended periods. The two islands
in Lake Serena and all their trees will be under water. Wind driven waves will
further damage the flooded vegetation and foundations. Eventually the flooded
vegetation and trees in the "six inch flood belt" will die, leaving a
muddy ring.
Royal
Gorge argues that the water level during the spring run-off season is already
more than 6" above the dam level, so "why not capture that extra 6
inches and use it during the summer?" What Royal Gorge neglects to
mention, is that the 6 inch surge is normally very brief and occurs while there
is still snow on the ground and when trees and vegetation are dormant. In fact,
SLCWD water records for 2007 show that last spring the lake level was above six
inches for only a few days in the middle of May.
Royal
Gorge's proposal is to raise the dam at the end of the run-off season in order
to capture the last 40 AF of run-off. Before that time, the dam would be
lowered in order to keep the surge flow from cresting even higher than normal.
The spillway records from last May and June (2007) show that the dam would need
to be raised before June 1st, as the runoff after June 1st was only around 50
AF. This flood level would remain until water usage drops the lake level by six
inches. Again, using 2007 data, the lake level didn't drop by six inches below
the dam height until late July. This means that, if the raised dam was in place
in 2007, then, instead of a few days of flooding, there would have been
flooding from mid-May until Late July, a period of more than 2 and half months.
More than enough time, especially since it is during the tree and vegetation
growth period, to weaken or kill all trees and vegetation in the flood zone.
During wet years, when run-off continues into July, the flood level would
remain much later, perhaps into fall.
For
these reasons, the 37 AF claimed to be available by raising the dam is not
feasible and can not be used as a source of water.
Serene
Lakes Water:
Royal
Gorge proposes to use a maximum of 35 AF of Serene Lakes water after the spring
run-off has stopped. Pumping an additional 35 AF from the lakes will lower
their level by six inches over the pumping period. Last year, a dry but not
drought year, the water level dropped almost two feet. The SLCWD water balance
model, using the drought conditions in 1976, 1977, 1986 and 1987 shows the
level would drop by 2.8 feet. If a maximum level drop is set at 3 feet, then
the additional six inches would exceed this limit. If a drop of 3 feet 4"
can be tolerated, then the 35 AF can be used reliably. Note, however, that
there are 200 undeveloped homesites within the existing Serene Lakes Community
that have prior claims on this water.
East
Lake Storage:
If
East Lake is built, which is not certain as many more permitting agencies will
be involved, including the California Department of Dam Safety, and as it will
require substantial clear-cutting and blasting of a forested area, then it
could become a reliable source of 40 AF of water. This would require
approximately 80 AF of water to be pumped up from Serene Lakes during the
spring run-off season.
SLCWD
Well Water:
The
water district has two wells that do not meet drinking water standards and have
never been used as a sustained water source. Instead they have been considered
a stand-by emergency supply, mainly for fire suppression. One is heavily
contaminated with manganese and the other contaminated with arsenic. Filtration
methods to remove these contaminants, while feasible, are very expensive.
These
are fractured granite wells, relying upon water stored in cracks in the
bedrock, rather than in traditional aquifers. Because of this it is uncertain
how much water is truly available. Documents show that their flow was at one
time 105 gpm, and tests are being conducted to see how they perform over 10
days. Wells, however, that produce steadily over several years can suddenly
lose production the next year. For example, wells in the Northstar project (see
water study appendix A) produced 500 GPM for several years, but then dropped to
200 GPM during a dry year.
Another
problem with wells is that they have unknown and unpredictable effects upon the
local water basin. Olympic Valley's current well water issues are a good
example. It appears that after
increasing the well water draw for the newly built condominiums, Squaw
creek is drying up. In addition, the 4,000 AF predicted to be available from
wells, is turning out to be less than 1,600 AF, half of which may be
contaminated.
Extended
flow tests during dry years are the only way to determine if a well is a
reliable supply of water. If these wells are relied upon to provide part of the
water supply, then there is a very real danger that these sources will dry up,
or lose a good portion of their production, and leave the development short of
water. For this reason the SLCWD wells are of marginal reliability and should
not be considered a primary water supply source. These wells should be reserved
for short term emergencies.
New
Wells on Royal Gorge Property:
Royal
Gorge claims to have found wells that may produce up to 10 AF per month of
water. These wells, until proven through extended dry year testing as described
above, cannot be relied upon as a primary water source, and should be saved for
emergencies.
Rainbow
Springs Water:
Royal
Gorge suggests that they can pump over 5 AF per month over nine miles in
distance and 1000 feet in elevation from Rainbow Lodge to the new development.
The pipeline would follow Hwy 40. The construction and maintenance cost of such
a pipeline, just to provide 32.5 AF each year, is prohibitively expensive. If a
two million dollar pipeline construction cost ($200,000 per mile) is amortized
over 20 years, then the cost of the water would be around $3,000 per AF, around
ten times the current market price. This option is not economically feasible
and should not be considered.
Serena
Creek Reservoir:
Royal
Gorge has proposed damming the Serena Creek canyon approximately one mile
downstream from Serene Lakes. According to Royal Gorge's consultants, the
massive dam would be a quarter mile wide and 65 to 70 feet tall. The dam would
impound up to 600 AF of water with a surface area of around 23 acres. Getting
regulatory approval to build such a massive dam, which would flood a currently
pristine wilderness, would be extremely difficult. Seismic concerns alone may
prevent construction of the dam. Seismic studies of the area (See Royal Gorge's
Geotechnical study) indicate that a magnitude 5 earthquake occurred less than
20 years ago just a few miles from the proposed dam. Also, according to the
Royal Gorge studies, the proposed inundated area is a trout stream, shows
beaver activity, is possible habitat for Pacific Fishers and has rare Ceanothus
plants growing in the area. A dam would also block a significant wildlife
migration corridor between the North Fork American River and South Yuba River
watersheds. Given these concerns, the water from a dam across Serena Creek
should not be considered as a viable source.
Conclusions:
A
summary of monthly water demand and supply is shown in the following table. The
water demand of 47.8 AF per month is shown across the top, with an added 80 AF
shown for March in order to fill the East Lake reservoir. These numbers do not
include the added 19 AF of water required for landscaping, nor the 10 to 20 AF
required to replenish West lake.
The
water supply is broken into two sections- reliable supplies and marginal
supplies. Raising the dam on Serene Lakes, pumping water up from Rainbow Lodge,
and building a dam on Serena Creek
are not feasible enough to be included.
The
reliable supplies provide enough water only during the spill months of
February, March and April. Outside these months there is a shortfall of 39 to
44 AF per month leaving a total of water deficit of 355 AF each year.
Even
when the marginal well water sources that may dry up at any time are included,
the yearly water deficit is still over 200 AF
The
conclusion is that there is very little water available to build much at all,
and what water there is may be needed for the existing, yet unbuilt, Serene
Lakes homesites.
|
Water Supply analysis for
100% Occupancy |
|||||||||||||
|
Water
Demand |
Acre-Feet |
||||||||||||
|
Jan |
Feb |
Mar |
Apr |
May |
Jun |
Jul |
Aug |
Sep |
Oct |
Nov |
Dec |
Total |
|
|
47.8 |
47.8 |
47.8 |
47.8 |
47.8 |
47.8 |
47.8 |
47.8 |
47.8 |
47.8 |
47.8 |
47.8 |
574 |
|
|
Fill East
Lake |
|
|
80 |
|
|
|
|
|
|
|
|
|
80 |
|
Reliable Water Supply Sources |
|||||||||||||
|
Serene
Lakes: |
|
||||||||||||
|
Spill Quantity |
|
47.8 |
127.8 |
47.8 |
|
|
|
|
|
|
|
|
224 |
|
Added Pumping |
3.9 |
|
|
|
3.9 |
3.9 |
3.9 |
3.9 |
3.9 |
3.9 |
3.9 |
3.9 |
35 |
|
East Lake |
|
|
|
|
5 |
5 |
5 |
5 |
5 |
5 |
5 |
5 |
40 |
|
Water
Deficit |
43.9 |
0 |
0 |
0 |
38.9 |
38.9 |
38.9 |
38.9 |
38.9 |
38.9 |
38.9 |
38.9 |
355 |
|
Marginal Water Supply Sources |
|||||||||||||
|
New Wells |
10.1 |
|
|
|
10.1 |
10.1 |
10.1 |
10.1 |
10.1 |
10.1 |
10.1 |
10.1 |
91 |
|
SLCWD Wells |
7.1 |
|
|
|
7.1 |
7.1 |
7.1 |
7.1 |
7.1 |
7.1 |
7.1 |
7.1 |
64 |
|
Water
Deficit |
26.7 |
0.0 |
0.0 |
0.0 |
21.7 |
21.7 |
21.7 |
21.7 |
21.7 |
21.7 |
21.7 |
21.7 |
201 |
|
NOTE: Does
not include water for landscaping (19 AF), or for replenishing West Lake (10
to 20 AF) |
|||||||||||||