Section

[Code of Federal Regulations]
[Title 43, Volume 1]
[Revised as of October 1, 2002]
From the U.S. Government Printing Office via GPO Access
[CITE: 43CFR418.12]

[Page 563-565]

TITLE 43--PUBLIC LANDS: INTERIOR

CHAPTER I--BUREAU OF RECLAMATION, DEPARTMENT OF THE INTERIOR

PART 418--OPERATING CRITERIA AND PROCEDURES FOR THE NEWLANDS RECLAMATION PROJECT, NEVADA--Table of Contents

Sec. 418.12 Project efficiency.

(a) The principal feature of this part is to obtain a reasonable
level of efficiency in supplying water to the headgate by the District.
The efficiency targets established by this part are the cornerstone of
the enforcement and the incentive provisions and when implemented will
aid other competing uses.
(b) The efficiency is readily calculable at the year's end, readily
applicable to water appropriate to that year, able to be compared to
other irrigation systems even though there may be many dissimilarities,
appropriate for long term averaging, adjustable to any headgate delivery
level including droughts or allocations, automatically adjusts to
changes during the year and accurately accounts for misappropriated
water. Efficiency also can be achieved through any number of measures
from operations to changes in the facilities and can be measured as an
end product without regard to the approach. Thus it is flexible enough
to allow local decision making and yet is fact based to minimize
disputes.
(c) Assuming the headgate deliveries are valid and enforceable,
conveyance efficiency is the only remaining variable in determining the
quantity of water needed to be supplied to the District. Conveyance
efficiency is a measure of how much water is released into the
irrigation system relative to actual headgate deliveries. Differences in
efficiency, therefore, are directly convertible to acre-feet. The
differences in efficiency, expressed as a quantity in acre-feet, may be
added to or subtracted from the actual Lahontan Reservoir storage level
before it is compared to the monthly storage objective. Thus, the
diversions from the Truckee River, operation of other facilities (e.g.,
Stampede Reservoir) and decisions related to Lahontan Reservoir are made
after the efficiency storage adjustments have been made. Operating
decisions are made as if the adjusted storage reflected actual
conditions.
(1) Efficiency incentive credits. In any year that the District's
actual efficiency exceeds the target efficiency for the actual headgate
delivery, two-thirds of the resultant savings, in water, will be
credited to the District as storage in Lahontan. This storage amount
will remain in Lahontan Reservoir as water available to the District to
use at its discretion consistent with Nevada and Federal law. Such uses
may include wetlands (directly or incidentally), power production,
recreation, a hedge against future shortages or whatever else the
District determines. The storage is credited at the end of the
irrigation season from which it was earned. This storage ``floats'' on
top of the reservoir so that if it is unused it will be spilled first if
the reservoir spills. The District may use all capacity of Lahontan
Reservoir not needed for project purposes to store credits.

[[Page 564]]

(2) Efficiency disincentive debits. In any year that the District's
actual efficiency falls short of the target appropriate to the actual
headgate deliveries, then the resultant excess water that was used is
considered borrowed from the future. Thus it becomes a storage debit
adjustment to the actual Lahontan Reservoir storage level for
determining all operational decisions. The debit may accumulate but may
not exceed a maximum as defined in Sec. 418.13(b). The debit must be
offset by an existing incentive credit or, if none is available, by a
subsequent incentive at a full credit (not a 2/3 credit), or finally by
a restriction of actual headgate deliveries by the District. This would
only be done prospectively (a subsequent year) so the District and the
water users can prepare accordingly. Since the debit does not
immediately affect other competing uses or the District (except in a
real drought), it allows for future planning and averaging over time.
(3) Efficiency targets. To determine the efficiency target, the
system delivery losses were divided into categories such as seepage,
evaporation and operational losses. The ``reasonable'' level of savings
for each category was then determined by starting with current operating
experience and applying the added knowledge from several measures. Means
of achieving the efficiency targets, including the specific conservation
measures and amounts, are identified in the table Possible Water
Conservation Measures for the Newlands Project. Applicable target
efficiencies will be determined each year as described in Sec. 418.13
(a)(4).
(4) Available conservation measures. The water conservation measures
referred to in paragraph (c)(3) of this section and others currently
available to the District are listed in the following table. The table
has been revised based upon the Bureau of Reclamation's Final Report to
Congress of the Newlands Project Efficiency Study, 1994.

Possible Water Conservation Measures for the Newlands Project
------------------------------------------------------------------------
Expected savings
Conservation measures\1\ in acre-feet (AF) Notes
per year\2\
------------------------------------------------------------------------
1. Water ordering 1,000 Require 48-hour advance
notice.
2. Adjust Lahontan Dam ++\3\ Match releases to
releases frequently demand with daily
adjustments.
3. Increase accuracy of 12,000 Account for deliveries
delivery records and to nearest cfs and to
measurement devices nearest minute.
4. Change operation of ??\4\ Eliminate use of all or
regulating reservoirs parts of regulating
reservoirs; drain at
end of season.
5. Shorten irrigation 4,000 Reduce by 2 weeks.
season
6. Control delivery system ++ Eliminate spills,
better scheduling,
grouping deliveries.
7. System improvements ?? O&M activity: repair
leaky gates, reshape
canals, improve
measuring devices.
8. Dike off 2/3 S-Line 2,720 500 ft. dike; (5'
Reservoir evaporation, 0.75'
seepage).
9. Dike off south half of 2,130 5,000 ft. dike; large
Harmon Reservoir savings considering
canal losses (5'
evap., 1.8' seepage).
10. Dike off west half of 2,400 6,000 ft. dike.
Sheckler Reservoir
11. Eliminate use of 4,000 Use for Lahontan spill
Sheckler Reservoir capture only; restore
200 ft. of E-Canal; A-
Canal is OK.
12. Line 20 miles of 20,000 Reduces O&M.
Truckee Canal\5\
13. Line large canals 26,100-31,000 Line large net losers
first.
14. Line regulatory 2.3 AF/acre
reservoirs
15. Reuse drain water for 7,100 Assuming blended water
irrigation quality would be
adequate
16. Ditch rider training ??
each year
17. Canal automation ?? Reduced canal
fluctuations.
18. Community rotation ?? Grouping deliveries by
system area.
19. Reclamation Reform Act ?? District implementation
water conservation plan: of water conservation
plan.
a. Weed and
phreatophyte control
b. Fix gate leaks
c. Water measurement
d. Automation
e. Communication
20. Pumps and wells for 400
small diverters
21. Water pricing by amount ++ Incurs administrative
used costs to implement.
22. Incentive programs ?? For District personnel
and/or water users.
23. Drain canals 1,065 At the end of each
irrigation season.

[[Page 565]]

24. Acquire parcels with 22,280 Acquire and retire
inefficient delivery\6\ water rights from
irrigated acreage with
particularly
inefficient delivery.
Lesser savings from
transferring water
rights to lands with
more efficient
delivery.
------------------------------------------------------------------------
\1\The first seven measures were considered in developing the water
budget in Table 1 for the 1988 OCAP. Additional measures could be
implemented by the District to help achieve efficiency requirements.
\2\Water savings have been updated in accordance with Bureau of
Reclamation's Report to Congress on Newlands Project Efficiency, April
1994.
\3\++ indicates a positive number for savings but not quantifiable at
this time.
\4\?? indicates uncertainty as to savings.
\5\This measure was included in the 1988 OCAP and effects overall
Project efficiency; it is recognized that savings from this measure
are not accounted for in the OCAP.
\6\Identified in the 1994 BOR Efficiency Study: 31 Corporation, below
Sagouspe Dam, and N Canal.

(5) The measures in paragraph (c)(4) of this section are
discretionary choices for the District. The range of measures available
to the District provides a level of assurance that the target efficiency
is reasonably achievable. The resultant efficiency targets were also
compared to the range of efficiencies actually experienced by other
irrigation systems that were considered comparable in order to provide a
further check on ``reasonable.'' Most of the delivery losses are
relatively constant regardless of the amount of deliveries. The
efficiency will necessarily vary with the amount of headgate deliveries.
(6) The target efficiency for any annual valid headgate delivery can
be derived from the table in Appendix A to this part.