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ITEM:
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PRESENTATIONS
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10.
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PRESENTATION BY
MARK SOLAK, VICE PRESIDENT OF NORTH AMERICAN WEATHER CONSULTANTS, ON CLOUD
SEEDING AND POTENTIAL BOARD DIRECTION
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Meeting
Date:
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December 10, 2007
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Budgeted:
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N/A
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From:
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David A.
Berger,
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Program/
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N/A
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General
Manager
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Line Item No.:
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Prepared
By:
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Darby
Fuerst
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Cost
Estimate:
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N/A
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General Counsel
Reviewed: N/A
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Committee
Recommendation: N/A
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CEQA Compliance: N/A
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SUMMARY: At
its November 19, 2007 meeting, the Board received an analysis of the feasibility
and potential cost of cloud seeding in the Carmel River Watershed in Water Year
(WY) 2008. The analysis was prepared by
District staff and relied on information provided by North American Weather
Consultants (NAWC). In brief, NAWC
determined that cloud seeding in the Carmel River Watershed in WY 2008 was
technically feasible and would cost approximately $150,000 for a “core” program
utilizing two ground-based seeding systems for a four-month period, assuming
average storm occurrence and seeding.
Based on their experience in Santa
Barbara County,
NAWC indicated that seeding could increase rainfall amounts by 20 to 30%, which
would equate to approximately three inches of additional rainfall during normal
periods. At the November meeting, the
Board did not take any action but requested that NAWC be invited to attend the
December 10, 2007 Board meeting and be available for questions. Staff contacted NAWC and Mark Solak, Vice
President of NAWC, agreed to attend the meeting and make a short presentation
on cloud seeding. Following the
presentation, Mr. Solak will be available to answer questions and the Board may
provide further direction to staff. For
reference, information from the November 19, 2007 meeting is provided
below.
At its September 17, 2007 meeting, the Board approved the Chair/Vice
Chair Committee’s recommendation that staff analyze the feasibility and
potential cost of cloud seeding in the Carmel River Watershed during the
2007-08 winter season. To determine the
feasibility and cost of cloud seeding this winter season, staff contacted North
American Weather Consultants, Inc. (NAWC), a private company that specializes
in providing weather modification services.
NAWC has extensive experience with cloud seeding in Santa Barbara County. In response, NAWC provided preliminary
information regarding the feasibility and associated costs of using cloud
seeding technology to increase rainfall in the Carmel River Watershed (Exhibit 10-A).
Specifically, NAWC indicated that the winter storms in the
Central California coast region are good candidates for rainfall augmentation
via cloud seeding and that, based on cloud seeding trials in the Santa Barbara area,
increases in rainfall could average between 20 and 30%. NAWC suggested a step-wise approach,
beginning with a “core” project involving ground-based seeding that would cost
approximately $150,000. This cost
estimate is based on two Automated High Output Ground Seeding Systems (AHOGS)
sites operated remotely by a NAWC meteorologist, assuming average storm
occurrence and seeding for a four-month period (December through March). The
estimate includes all costs for set-up, operations, expendables, end-of-season
demobilization, and a project report. If the ground-based seeding was
supplemented with airborne seeding, the estimated cost would range from
$275,000 to $300,000. Shorter duration
operational periods would result in lower costs. Note that this estimate does not include the
cost for environmental review, site access, and other permits that may be
necessary to implement a cloud seeding project in the Carmel River Watershed
this year. These costs and the time
required to obtain all necessary permits may limit the possibility of
conducting cloud-seeding operations this year.
RECOMMENDATION: The District Board should receive staff’s
analysis of the feasibility and potential cost of cloud seeding in the Carmel
River Watershed during the 2007-08 winter season, open the item to public
comment, discuss the item, and determine whether or not to pursue
implementation of an operational cloud-seeding program in the Carmel River
Watershed in the 2007-08 winter season.
If the Board decides to pursue implementation of an operational
cloud-seeding program this year, the Board should direct staff whether to
implement the “core” seeding program (ground-based only) or the expanded
program (ground-based and airborne). In
addition, if the Board decides to implement an operational cloud-seeding
program this year, the Board should direct staff to (1) develop a scope of work
with NAWC to prepare a project description, including potential site locations
and an operations plan; (2) prepare an Initial Study to determine what level of
environmental review is necessary if a CEQA exemption does not apply; and (3)
determine what permits are necessary, if any, for set-up and operation of the
cloud-seeding project.
BACKGROUND: Cloud seeding, which is also known as weather
modification, is the deliberate treatment of certain clouds or cloud systems
with the intent of affecting the precipitation processes within those clouds.
Information regarding cloud seeding in general is provided at www.nawcinc.com/wmfaq.html and
includes its effectiveness, risks, regulation, and costs. Basically, in cold cloud seeding, an
ice-forming nucleating agent such as silver iodide is introduced into
appropriate cloud regions to cause supercooled liquid water droplets to freeze. Once these droplets freeze, the initial ice
embryos grow at the expense of the water droplets around them (sublimation) and
through contact with these neighboring droplets (riming). These droplets, if they remain in favorable
cloud conditions, will grow into snowflakes, falling to the surface as snow if
surface temperatures are below or near freezing, or as raindrops at warmer
surface temperatures. Information in
this report regarding cloud seeding specific to the Central California coast
region, and the Carmel River Watershed, is based on cloud seeding programs in Monterey County
and Santa Barbara
Counties.
Monterey County: The Monterey County Water Resources Agency (MCWRA) initiated a
cloud-seeding program in 1990 to reduce the effects of the extended drought
that began in 1987. The program was
designed to increase rainfall and subsequent runoff in the Nacimiento, San Antonio, and Arroyo
Seco River Watersheds, with the increased runoff from the Nacimiento and San
Antonio Rivers captured and stored in Nacimiento and San Antonio Reservoirs,
respectively. The program included
ground-based and airborne cloud seeding.
For the 1991-92 winter season, MCWRA estimated a rainfall increase of
between 12 and 16% due to cloud seeding. This percent increase equates to
between 2.0 and 2.7 inches of additional rainfall and between 17,000 and 22,600
acre-feet of additional runoff into Nacimiento and San Antonio Reservoirs. The total cost for the 1991-92 program,
including agency staff time and consultant support, was $165,070. MCWRA currently budgets and accrues $75,000
each year for cloud seeding. Based on
current costs, MCWRA estimates that approximately $250,000 per year is needed
to fund a five-month, airborne-based, cloud seeding program in the Nacimiento, San Antonio, and Arroyo
Seco River Watersheds.
Santa Barbara County: Winter-season, operational cloud-seeding
projects in Santa Barbara
County began in 1950 to
augment supplies for municipal and agricultural uses. During the 1950-1955
period, a ground-based program utilizing silver-iodide generators was
implemented, which resulted in an average 16% increase in rainfall. A research
program, Santa Barbara I, was conducted during the 1957-1960 period that
also indicated an increase in precipitation.
A follow-up study during the 1960-1963 period by NAWC found that most of
the precipitation, updrafts, and supercooled liquid water suitable for cloud
seeding occurred in relatively narrow traveling “convection bands” embedded
within the winter storm systems that affected Santa Barbara County. A second research program, Santa Barbara
II, was conducted during the 1967-1973 period and focused on these
convection bands as the primary target for winter cloud seeding programs in the
San Ynez River Watershed. This program utilized ground-based (phase I) and
airborne-based (phase II) cloud seeding using silver iodide.
Santa Barbara County, through its Flood Control and Water
Agencies, resumed operational seeding projects during the 1977-78 winter season
using high-output, ground-based, seeding of convection bands. After three seasons without any seeding, Santa Barbara County resumed cloud-seeding operations
in the 1981-82 winter season and has continued operations to the present, with
the exception of the 1985-86 winter season due to concerns about fire-damaged
areas in the County. This operational
project has utilized a combination of ground-based and airborne seeding to
optimize seeding effects. The design of
the operational cloud-seeding projects in Santa Barbara County have been based
primarily upon the design of the Santa Barbara II research program and
has focused on seeding convection bands. Operation of the projects has evolved
to incorporate changing technologies such as the use of NEXRAD radar data, high
output pyrotechnics at the ground sites, and real-time telecommunication.
In 1988, NAWC assessed the potential of augmenting
rainfall in Santa Barbara
County through seeding of
convection bands. Based on an analysis
of the 1920-1980 rainfall record at Juncal and Gibraltar Reservoirs in the San
Ynez River Watershed, NAWC concluded that the October-April precipitation could
optimally be increased by 21 to 22%.
This percent increase equates to an average of between 4.5 and 5.0
inches of additional rainfall and approximately 113,500 acre-feet of additional
runoff into the County reservoirs during the October-April season. The annual program cost is approximately
$300,000, which is shared on a 50:50 basis between Santa Barbara County
and the local water purveyors.
DISCUSSION: If the assumption that cloud seeding causes a
20% increase in rainfall is correct, then cloud seeding in the Carmel River
Watershed during the four-month winter season from December through March,
would produce an additional 3.2 inches under average rainfall conditions (16.0
inches) and approximately 2.5 inches under critically-dry conditions (12.4
inches). Further analysis is needed to verify the amount of increased rainfall
that could result from cloud seeding under various rainfall conditions, and to
estimate the amount of additional runoff in the Carmel River
that would be available under these varying conditions due to cloud
seeding.
It should also be noted that, unlike the situations in the Nacimiento and
San Antonio River Watersheds in Monterey County and the San Ynez River
Watershed in Santa Barbara County where there are relatively large reservoirs
that are downstream of the cloud-seeding target areas to capture and store the
increased runoff, there are no large reservoirs on the Carmel River that could
capture increased runoff from cloud seeding.
Specifically, for the upcoming winter season, there will be a maximum of
70 acre-feet of available storage capacity in San Clemente Reservoir and 1,300
acre-feet of available storage capacity in Los Padres Reservoir. Given this extremely limited surface water
storage capacity, it is almost certain that San Clemente and Los Padres Reservoirs will
fill without cloud seeding. It is not
certain, however, if the storage capacity in the Carmel Valley Alluvial Aquifer
that underlies the Carmel
River will be filled this
year, if critically-dry inflow conditions persist. Under current inflow and demand conditions,
it is projected that there will be approximately 7,500 acre-feet of available
storage capacity in the Carmel Valley Alluvial Aquifer in December 2007 at the
beginning of the winter season. Cloud
seeding, if effective, would increase runoff needed to recharge the Carmel
Valley Alluvial Aquifer this year. In
addition, increased rainfall due to cloud seeding could increase daily
streamflow in the Carmel River below Los Padres Dam and allow California
American Water (CAW) and the District to divert water for injection and storage
in the Seaside Groundwater Basin
under the cooperative Phase 1 Aquifer Storage and Recovery (ASR) Project.
Further analysis is needed to assess the potential benefits to groundwater
storage in the Carmel Valley Alluvial Aquifer and Seaside Groundwater
Basin from cloud seeding
in the 2007-08 winter season.
IMPACT TO STAFF/RESOURCES: Presently, there are no funds in the
District’s Fiscal Year (FY) 2007-08 budget for cloud seeding operations. Given the critically-dry inflow conditions
that occurred in Water Year (WY) 2006-07 and the possibility that these
conditions could persist in WY 2007-08, there are available funds in the District’s
Flood/Drought Reserve that could be used for cloud seeding in the
2007-08 winter season. In addition, no
staff time was allocated in the FY 2007-08 budget to analyze or implement a
cloud seeding program in the 2007-08 winter season. If the Board decides to pursue cloud seeding
this year, Water Resources Division staff time will need to be allocated to the
project, which would impact other planned activities.
EXHIBITS
10-A Initial Thoughts Regarding the Feasibility and
Associated Costs of Using Cloud Seeding Technology to Increase Rainfall in the
Carmel River Watershed, California (Nov 2007), North American Weather
Consultants, Inc.
10-B Article from Fall 2007 “Aqueduct” on Cloud Seeding
(Chair Pendergrass request to include for Board information)
U:\staff\word\boardpacket\2007\2007boardpackets\20071210\Presentations\10\item10.doc