Learning from the Drought - South Florida Water District

Learning from the Drought

Annual Status Report on
Regional Water Supply Planning

Florida Department of Environmental Protection
August 2008

We gratefully acknowledge all of the water management district staff who
contributed information to the development of this report. The photo on the front
cover was provided by the South Florida Water Management District.

T his report, prepared by the Florida Department of Environmental Protection (DEP)
according to the statutory requirements of sections 373.0361(5) and 373.536(6)(a)4,
Florida Statutes (F.S.), summarizes the water management districts’ progress on their:
• Regional water supply plans,
• Five-year water resource development work programs, and
• Development of alternative water sources through funding provided by the
Water Protection and Sustainability Program.
In addressing those topics, this report also provides information on:
• Historic trends in fresh water use,
• Impacts of the drought, and
• Drought management strategies.
The 2006 – 2008 drought presented many challenges. Fortunately, Florida had response
mechanisms in place that reduced the most adverse effects of the drought. The water
management districts (Figure 1) continued to implement the long-term strategies
detailed in their regional water supply plans. Those plans identify sources to meet
foreseeable demands through the year 2025, and were instrumental in mitigating the
worst effects of the current drought.
Even though the regional water supply plans identified sufficient water to meet the
reasonable needs of a growing population, these projects are not yet built. There are
still many technical, institutional, and financial hurdles that need to be overcome before
we can achieve success.
Meeting our future needs
while protecting the water
resources essential to
Florida’s economy and our
quality of life will only be
accomplished through the
development of both Figure 1. Florida's Water
alternative water supplies Management Districts
and increased water use
efficiency.
This report provides
information on statewide
trends and offers
suggestions on priorities for
the next cycle of regional
water supply plans.

1 1

Background
Water Use Trends
Floridians used an estimated 6.7 billion gallons per day (bgd) of fresh water in 2000.
This is estimated to increase by about 30 percent to 8.7 bgd a day in 2025 (Figure 2).
During this same period, Florida’s population is expected to increase by 57 percent,
from 15.9 million to approximately 25 million.
Water use data and trends must be interpreted carefully. For example, total water use
in 2005 was slightly less than use in 2000, which might lead one to conclude that
Floridians were using water more efficiently in 2005 than in 2000. While improved
water use efficiency might be a factor, the more accurate explanation for the reduction
in demand over that five-year period is that Floridians used more water during the
drought in 2000 than they did during the more normal rainfall year of 2005.

Figure 2. Statewide Freshwater Withdrawals
and Population Growth
10 Water Use 25
W ater W ith d raw als (B G D )

Population
8

P o p u lation (m illion s)
20

6 15

4 10

2 5

0 0
2000 2005 2010 2015 2020 2025

Figures on total water withdrawals do not necessarily show important trends within
different sectors of water use, or within regions. By examining water use trends in
regions and user categories, we can gain greater insight about where and how we can
best meet the future needs. Figure 3 shows the distribution of fresh water withdrawn in
each water management district since 1975. In the northern part of the state, total fresh
water withdrawn since 1975 has remained relatively stable. Water withdrawals in the
South Florida Water Management District alone are about 50 percent of all withdrawals
in the entire state. In this district, water withdrawals increased substantially after 1985
until 2000. After 2000, a record dry year, withdrawals declined to about 1995 levels.

2 2

Figure 3. Total Fresh Water Use by Water Management District
(Source: U.S. Geological Survey)

4
Withdrawals (BGD)

SFWMD
3 SWFWMD
SJRWMD
2
NWFWMD
1 SRWMD

0
1975 1980 1985 1990 1995 2000 2005

Use also varies between water use categories. Agriculture currently is the largest user of
fresh water in the state; however, public water supply is projected to become the largest
user by 2010 (Figure 4). Based upon water management district projections, public
water supply will account for the majority of overall growth in statewide demand
between 2000 and 2025. The regional water supply plans estimate that, by 2025,
demands in public water supply will increase by about 49 percent and account for
about 43 percent of the total estimated use of 8.7 bgd. Agriculture will be the second
largest use, but will only increase by about 6 percent.

Figure 4. Statewide Freshwater Demand Projections and Water Use Categories
10

8 Power Generation

Commercial/Industrial/
Water Use (BGD)

Institutional
6 Recreational Irrigation

Agricultural Irrigation
4 Domestic and Small
Public Supply
Public Water Supply
2

0
2000 2005 2010 2015 2020 2025

3

Figure 5. Historic Uses of Freshwater
(Source: US Geological Survey)
Water Withdrawals (BGD) 4.5
4 Public Water Supply
3.5
3 Domestic and Small
2.5 Public Supply
Commercial/Industrial/
2 Institutional
1.5 Agricultural Irrigation
1
0.5 Recreational Irrigation
0 Power Generation
1975 1980 1985 1990 1995 2000 2005

Except for public water supply, the historical use of fresh water for most of the sectors
has remained relatively uniform or declined since 1975 (Figure 5). Agricultural use has
peaked during exceptional drought years, but has declined to same levels as in 1975.
On the other hand, public water supply has shown a steady increase.
Looking more closely at historical public water supply use, Figure 6 shows the amount
of water used and the population served by public water supply. It shows a large
overall increase in water withdrawn since 1950, and also that water use has been
increasing in direct proportion to population growth. This trend could be altered by
more emphasis on promoting water use efficiency and by greater use of reclaimed
water.

Figure 6. Historic Public Water Supply Withdrawals and Population Served
(Source: US Geological Survey)
3.0 18 Population Served by PWS
Water Withdrawals (BGD)

Water withdrawals 16
2.5
Population 14
(millions)

2.0 12
10
1.5
8
1.0 6
4
0.5
2
0.0 0
1950 1955 1960 1965 1970 1975 1980 1985 1990 1995 2000 2005

In planning to meet future demands, water managers must consider not only the
quantity of water needed (an additional 2 bgd by 2025), but also the location of the
demand, and whether the water sources in the location of need can meet projected
demand without harm to the natural system. In some parts of the state, these

4

source/demand considerations are leading toward water supply planning at regional
or county levels, rather than community levels. A regional water supply system can be
more responsive to localized shortages than individual utilities with more limited
source availability.

Regional Water Supply Plans
To meet the anticipated needs of 2025, the Florida Water Resources Act (Chapter 373,
F.S.) requires water management districts to develop regional water supply plans where
existing and anticipated water sources are deemed inadequate. Regional water supply
plans must be updated every five years and must include a list of water supply sources
and water resource development projects that will meet anticipated demands while
sustaining water resources and related natural systems.
In 2001, the Northwest Florida, St. Johns River, Southwest Florida, and South Florida
Water Management Districts completed the first set of regional water supply plans. The
original plans identified sufficient sources of water to meet 2020 demands. They
included many projects that would help the districts better manage regional water
resources.
By February 2007, these four districts completed the five-year plan updates. These
updated plans have identified long-term strategies that, if implemented in a timely
manner, will be more than sufficient to meet the reasonable-beneficial uses of 2025,
while protecting the water resources. (Additional information on each district’s plan
may be found in the appendices at:
http://www.dep.state.fl.us/water/waterpolicy/rwsp.htm).
The Suwannee River Water Management District determined that water supplies in the
district were sufficient to meet the 2025 demand and no regional water supply plan was
needed. Still, this district is closely monitoring three areas with high population growth
to ensure that water supplies will be adequate to meet future demands.
The Northwest Florida Water Management District has
approved regional water supply plans for two of seven
planning regions within the district. In Region II (Okaloosa,
Walton, and Santa Rosa Counties), the District has been
assisting with the development and expansion of an inland
Floridan Aquifer well field to reduce demand on coastal wells
that are vulnerable to saltwater intrusion. Additional projects
in this region include reclaimed water facilities, the expansion
of an inland Sand-and-Gravel Aquifer well field, and the
completion of a groundwater sustainability model. In Region
V (Gulf and Franklin Counties), the major project under
development is the Port St. Joe surface water supply project that is expected to be
completed in 2008. The District also has completed a draft regional water supply plan
for Region III (Bay County). The focus of this plan is the development of an inland well
field to diversify regional source options and provide back-up supply for Deer Point

5

Lake Reservoir, the primary source of supply in the region. The reservoir is potentially
vulnerable to seawater contamination from storm surge associated with hurricanes.
During the past year, the St. Johns River Water Management
District completed nine of the water supply development
projects identified in its updated water supply plan. Those
projects are estimated to be capable of producing 15.2 million
gallons per day (mgd) of water. Twenty-four additional
projects, mostly reclaimed water facilities, are under
construction. The district estimates that the projects completed
by the end of 2008 will create an additional 19.5 mgd of water.
The district also is updating its water supply assessment, which
will include 2030 demand projections and will identify areas
where supplies are not sufficient to meet demands.
The Southwest Florida Water Management District has
completed 25 of the reclaimed water projects identified in
their regional water supply plan and 58 are underway.
Additionally, five water conservation projects have been
completed and 19 are underway. The Tampa Bay Water
Seawater Desalination plant, which has the capacity to
produce 25 mgd, is now operational. Other large projects
include the expansion of the Peace River Manasota Regional
Water Supply Authority facilities (reservoir and Aquifer
Storage and Recovery wells), the Tampa Bay Water System
Configuration II (surface water withdrawals, storage, and
infrastructure improvements), the Lake Hancock Level
Modification (which will help with the restoration of flows to the Peace River), and the
Facilitation of Agricultural Resource Management Systems project (agricultural
conservation projects which have helped offset 10.2 mgd of groundwater use). These
projects helped create approximately 40 mgd of water. By the end of next year, the
district expects completed projects to produce an additional 7 mgd of water.
The South Florida Water Management District adopted plans
for each of its four planning regions. The District worked with
the utilities in each region to identify specific alternative water
supply projects that would provide enough water to meet
future needs. Many of these projects are funded through the
Water Protection and Sustainability Program. Additionally,
the District identified several projects that support the
development of alternative water supplies such as feasibility
studies, groundwater monitoring and assessment, and a
comprehensive water conservation program. In 2008, the
district has allocated approximately $4.5 million for those
support projects. The District’s comprehensive water
conservation program is estimated to have made 2.85 mgd of additional water
available.

6

During fiscal year 2006-07, the water management districts spent approximately $111
million implementing projects identified in their water supply plans. During the
current fiscal year (FY 2007-2008), the districts expect to spend about $193 million more
on projects that will create additional water or will help protect and manage water
resources more efficiently.

Water Resource Development Work Programs
Each year, the water management districts prepare Five-Year Water Resource
Development Work Programs, which describe the districts’ implementation of the
water resource development portion of their regional water supply plans. DEP
reviewed this year’s work programs and determined that they were consistent with the
regional water supply plans and the expenditures appeared to be adequate.

A Year of Drought Challenges
Florida’s average annual rainfall is 54 inches (greater than any other state except
Louisiana), but it is not evenly distributed and has some unusual characteristics that
tend to produce periods of severe water shortages. Major statewide or regional
droughts occurred in recent decades, including the early 1970s, the early 1980s, 1989-
1990, and 1999-2001 (Figure 7). The recurrence of these extreme drought events
presents some unique challenges when developing and implementing regional water
supply plans.

Figure 7. Statewide Average Annual Precipitation 1895-2007
75 (Average during Period of Record: 54.00 inches)

70
Precipitation (inches)

65

60

55

50

45
2006
40
1895 1905 1915 1925 1935 1945 1955 1965 1975 1985 1995 2005

7

Most recently, 2006 was
Florida’s third driest year
on record. By 2007,
Florida’s water managers
faced serious challenges as
the drought continued to
diminish the water
available in large portions
of the state. The drought
was particularly severe in
the South Florida Water
Management District
where major surface water
storage areas throughout
the district – the Kissimmee
Chain of Lakes, the Water
Conservation Areas, and
Lake Okeechobee – were
all experiencing critically low water levels at the same time. The Kissimmee River did
not flow for eight months, and, in July 2007, Lake Okeechobee reached a new record
low of 8.82 feet National Geodetic Vertical Datum (NGVD).
Other parts of the state were affected by abnormally dry conditions as well. In the
Northwest Florida Water Management District, many of the rivers were flowing near
record low levels. In the Southwest Florida Water Management District, the Peace and
Hillsborough Rivers were flowing at levels lower than 19 years out of 20. In May,
portions of the Suwannee River Water Management District experienced 12-month
rainfall deficits of up to 30 inches. The St. Johns River Water Management District,
although drier than usual,
did not experience
significant water shortages.
The summer rainy season
of 2007 offered little relief
from drought conditions,
especially in South Florida.
Most of the rain in South
Florida fell in the coastal
regions and was not able to
be captured and stored as
is usually possible. In the
first half of 2008,
conditions have improved
statewide. An unusually
wet February and March
resulted in a return to

8

normal conditions for most of the Florida Panhandle and North Florida. Ground and
surface water levels in South Florida still remain below average, but are higher this year
than they were at this time last year. Lake Okeechobee is higher in June 2008 than it
was last year, but still several feet lower than average and only a little above its all-time
low in 2007. Much will depend on whether the 2008 summer rainy season delivers a
normal amount of rainfall.
In the face of these drought challenges, Florida’s water management system proved to
be reasonably resilient. Lessons learned in past droughts were put into play.
Regulatory tools such as water shortage orders, irrigation restrictions, and mandatory
use limitations were implemented to stretch limited supplies and protect water
resources. Alternative water supplies developed over the last several years
supplemented traditional groundwater sources and reduced stress on aquifers.
Increased use of reclaimed water and recycled stormwater resulted in less need to use
potable water for purposes that can be accomplished with water of lower quality.
Conservation programs and public education helped ensure that water was used
efficiently and not wasted. In sum, Florida’s water management programs worked
largely as they were intended to, providing at least minimally adequate water for most
uses even under an extreme and prolonged drought. Florida did not experience a more
damaging water supply crisis even while in a severe meteorological drought, which is
testament to the strength of the Florida Water Resources Act of 1972 (Chapter 373, F.S.).
It also speaks well of water managers and water suppliers at the state, regional and
local levels who have developed comprehensive and effective approaches to managing
Florida’s water resources.
Still, there are opportunities for improvement. Alternative water supplies which could
help reduce reliance on stressed groundwater supplies are not being developed as
quickly as could be hoped for. That trend might continue in light of state budget
cutbacks, including funding for the development of alternative water supplies.
Reclaimed water, though used at impressive levels in some areas, is underused in large
parts of the state, and inefficiently used in many cases. Ocean outfalls in South Florida
send some 300 million gallons a day of treated domestic wastewater into the sea – water
that could be put to beneficial use on land. (Fortunately, the 2008 Florida Legislature
has put the state on a long-term path to converting the ocean outfalls to beneficial uses
of reclaimed water.)
Despite the state’s many water conservation initiatives, there are still significant water
use inefficiencies to be addressed. We continue to use about 50 percent of our potable
water supplies to irrigate landscapes that often are not well suited to Florida’s climate
and soils. Although efficiency improvements have been made in the agricultural water
use sector – in 2005 the largest use of water in Florida – agricultural water use is still
measured less accurately than other water use sectors and has significant opportunities
for improved efficiency.

9

Adapting to Recurring Drought
Florida’s approach to water management involves a wide range of planning, regulatory,
and management tools. This approach is designed to promote orderly development of
water supplies to meet reasonable projected demands without harming water
resources, ecological systems, or existing legal uses of water. In recent years, greater
emphasis has been placed on adapting the water management system to better manage
extreme drought events.

Planning
The regional water supply plans, which are the primary subject of this report, are the
key planning tools used to ensure that Florida identifies sufficient developable water
sources to meet projected demands while protecting the state’s water resources.
However, the plans are only designed to meet the demands anticipated to occur during
a 1-in-10 year drought event. It is not feasible to build sufficient water supply
infrastructure to meet all the demands in extreme droughts. Yet, extreme droughts are
recurring events in Florida. For this reason, Florida has to plan for drought as a
recurring event to be anticipated and managed, rather than an unanticipated crisis.
In 2007, the DEP, in cooperation with the Florida Department of Agriculture and
Consumer Services, the South Florida Water Management District, and the Florida
Division of Emergency Management, produced the Florida Drought Action Plan, which
served to improve coordination and communication among key agencies, facilitate
outreach to concerned parties, and express the basic short- and mid-term actions to
address the drought. In response to one of the action steps in the plan, the participants
of the Conserve Florida program, a statewide water conservation program for the
public water supply sector, identified several water conservation measures that could
lessen the adverse effects of drought. The recommendations from this group may be
found in the Being Drought Smart report available on-line at:
http://www.dep.state.fl.us/water/waterpolicy/index.htm. (Click on the report in the
“Highlights” section of the page.)

Regulation and Management
The water management districts have all adopted water shortage rules that govern their
response to drought. Pursuant to those rules, the districts implemented appropriate
measures, based on the seriousness of the drought in their regions, the particular mix of
water sources and water users, and the experience acquired in previous droughts. For
example, the South Florida Water Management District, for the first time in its history,
issued Phase III water shortage orders, which included a 45 percent reduction goal for
many water uses and limited outdoor irrigation to one day per week. Less hard hit
areas were subject to fewer restrictions, and in some areas only voluntary restrictions
were imposed.
In addition to water use restrictions, other mechanisms were used to ensure that water
supplies were available while protecting public health and minimizing environmental
impacts. At various times and locations when conditions warranted, the DEP, water

10 10

management districts, or the U.S. Army Corps of Engineers implemented several types
of emergency measures, including:
• Allowing the use of temporary pumps to overcome low water levels in Lake
Okeechobee;
• Allowing water treatment plants to operate under alternative (but safe)
standards for total dissolved solids, chloride, sulfate, pH, and sodium;
• Allowing the recharge of aquifers and well fields using reclaimed water;
• Authorizing the South Florida Water Management District to deviate from
adopted regulation schedules for Lake Istokpoga and the Water Conservation
Areas to increase supplies (authorization was granted, but never needed to be
used); and
• Providing alternate surface water withdrawal schedules to increase water
supplies while still meeting adopted minimum flows and levels.
In counties subject to regulation by more than one water management district, the
districts worked with local governments to develop a consistent set of county-wide
restrictions to avoid the confusion of having multiple sets of restrictions in one county.
Other activities with regulatory implications are also underway. The South Florida
Water Management District convened a stakeholder group to help develop a new
comprehensive water conservation program. The St. Johns River, Southwest Florida,
and South Florida Water Management Districts are working together to develop
consistent rule language to update their existing year-round water conservation rules.

Developing Alternative Supplies
Water use and demographic trends in Florida suggest that source diversification is
another important consideration in effectively managing drought. As shown in Figure
8, since 1975, Florida has relied more heavily on fresh groundwater than surface water
to meet water
supply needs. In Figure 8. Statewide - Total Fresh Water Use
2005, groundwater (source: U.S. Geological Survey)
withdrawals 6
accounted for about
5
62 percent of all
Withdrawals (BGD)

fresh water 4
withdrawals in the
state. Too much 3
reliance on this one
water source results 2 Groundwater
in a system that is Surface Water
not drought 1
resistant and can
0
lead to water
shortages and 1975 1980 1985 1990 1995 2000 2005

11

environmental damage. Supplies of fresh, inexpensively treated groundwater are
increasingly limited in many parts of the state. For example, the Central Florida region
is almost completely dependent upon groundwater. Water management district studies
indicate that there is only enough ground water to meet regional demands through
2013. Already, in some instances, groundwater withdrawals have damaged wetlands
and reduced spring flows. As a result, the South Florida, Southwest Florida, and St.
Johns River Water Management Districts are working together to identify alternative
sources of water to meet Central Florida’s water demands.
One way to improve drought resistance is to rely on water from several sources, at least
some of which tend to still be available when rainfall is deficient. In 2005, the Florida
Legislature created the Water Protection and Sustainability Program to encourage the
development of alternative water supplies as a way to meet future needs. The
development of alternative supplies will help diversify the state’s supply sources,
which will decrease the adverse effects of drought. This program provides state funds
to the water management districts for alternative water supply project construction as
shown in Table 1. These funds, along with matching district funds, are awarded as
grants to local water suppliers. Florida Statutes do not require the Suwannee River and
Northwest Florida Water Management Districts to provide matching funds.

Table 1. Funding Distributions for Alternative Water Supply through the
Water Protection and Sustainability Program

Water Management FY 2005 – 2006 FY 2006 – 2007 FY 2007– 2008
District Funds Funds Funds
($ million) ($ million) ($ million)
South Florida 30 18 15.6

Southwest Florida 25 15 13

St. Johns River 25 15 13

Suwannee River 10 6 5.2

Northwest Florida 10 6 5.2

Total 100 60 52

During the three years of the Water Protection and Sustainability Program, the water
management districts provided funding assistance to local water suppliers for the
construction of 344 projects. Figure 9 shows that approximately 63 percent of the
projects funded were reclaimed water projects. The next most common group of
projects funded were brackish groundwater projects, which comprised approximately
20 percent of the total.

12

Figure 9. Statewide Summary of Types of Alternative Water Supply Projects Funded

250
217
200
NWFWMD
SRWMD
Number of Projects

150 SJRWMD
SWFWMD
100 SFWMD
69
50
23
15 12 7 1
0
Reclaimed Brackish Surface Water ASR Other Stormwater Seawater
Water Groundwater

The districts estimate that when construction of these projects is complete they will help
create approximately 842 mgd of “new water,” which is about 42 percent of the
additional 2 bgd of water needed by 2025. Figure 10 shows that reclaimed water
projects are expected to produce the largest amount of water, approximately 330 mgd.
That is about 16.5 percent of the additional water needed by 2025 (though not all of the
reclaimed water will completely offset groundwater use). Brackish groundwater

Figure 10. Quantity of Water Created by AWS Projects
900
800
700
Water Created (MGD)

Quantity of Water Created when Projects Completed
600
Quantity of Water Already Created
500
400
300
200
100
0
Total Reclaimed Brackish Surface Other Seawater ASR Stormwater
GW Water

projects are expected to produce the next largest amount of water, approximately 234
mgd. That is about 12 percent of the additional water needed by 2025.

13

The total construction costs of the projects selected for funding assistance are
approximately $3.8 billion (Figure 11). In the first three years, the Water Protection and
Sustainability Program, including the match provided by the water management
districts, will provide about $422.6 million. This represents about 11 percent of the total
construction costs. The water suppliers have committed to providing about $2.7 billion
toward construction of these projects, which represents about 72 percent of the total.
Larger, multi-year projects may receive additional state and district funds in future
years. However, in most cases, the statute requires that the local sponsor ultimately be
responsible for at least 60 percent of the total project construction costs.1
Figure 11. Statewide Costs of Alternative Water Supply Projects

4.0

Total Construction Costs
3.0 Total Sponsor Match
WMD Match
$ (billions)

Total Money from Trust Fund
2.0

1.0

0.0
Total Reclaimed Water Brackish Surface Water Seawater
Groundwater Storage

In addition to total costs, Figure 11 shows the cost breakdown for the four types of
projects with the highest construction costs. The estimated costs for reclaimed water
projects are $1.3 billion and account for approximately 35 percent of the construction
costs for all the alternative water supply projects. There is only one seawater
desalination project proposed for funding assistance (by SJRWMD), yet the cost of that
project is expected to be $717 million and accounts for approximately 19 percent of the
construction costs for all the alternative water supply projects.
Water suppliers are making good progress toward meeting projected 2025 demands,
but as noted earlier in this report it is not feasible to build enough infrastructure to meet
all demands in periods of extreme drought. Developing alternative water sources is
simply one element of a diverse, drought resistant water supply system.

1
The total construction costs are reported for the life of the project which may extend beyond three years, while the
costs reported for the state program, water suppliers, and water management district match represent the costs
reported for the first three years of the program. Larger projects may receive additional funds in subsequent years
which is why the total of sponsor match, WMD match, and program match may not equal total construction costs.

14

Looking to the Future
A principal purpose of the Annual Status Report on Regional Water Supply Planning is
to report on progress in implementing the plans as written by the water management
districts. Overall, DEP believes that good progress is being made. Looking forward,
DEP suggests that the following issues will become important in the next cycle of
updates of the regional water supply plans.

Climate Change
In the face of changing climatic patterns, it is important to ensure reliable supplies of
water for future needs. Climate change will have significant effects on our water
supply systems, but the dimensions of that impact are only now being explored. It is a
state priority to ensure that the effects of climate change are reduced as much as
possible. The 2008 legislative session saw the passage of House Bill 7135 which created
the Florida Energy and Climate Commission within the Executive Office of the
Governor to centralize energy and climate change policy development and program
implementation.
The bill contains numerous provisions to improve energy efficiency and reduce
greenhouse gas emissions. Though not the main focus of the bill, water conservation
will have to be addressed in various ways. There is a growing awareness of the energy
use and greenhouse gas emissions associated with the withdrawal, treatment,
transmission, and use of water, which makes water conservation an essential element of
a comprehensive energy plan. Climate change also has significant implications for
water supply planning, including potential changes in the frequency of droughts and
tropical storms, as well as saltwater intrusion from rising sea level, and other impacts to
surface water and groundwater.

Improving Water Use Efficiency
The purpose of regional water supply planning is to identify water supply sources to
meet 20-year projected demands in areas where sufficient sources have not been
previously identified. Water use efficiency is a “source” of water that historically has
not received the same level of consideration in water supply planning as ground and
surface water sources. As supplies become increasingly limited and expensive to
develop, improving efficiency should become a priority for water managers.
As noted earlier in this report, about 50 percent of publicly supplied water is used for
landscape irrigation. The use of efficient irrigation products, the proper installation and
management of irrigation systems, the increased use of Florida appropriate
landscaping, and the enforcement of reasonable year-round irrigation restrictions could
make a real difference in the amount of water used for landscape irrigation.

15

Building Drought Resistance
Currently, Florida’s response to drought relies too much on the short term
implementation of a series of water use cutbacks until the crisis has passed. Florida’s
water managers realize that creating a drought resistant water management system
should lessen the economic and environmental impacts currently experienced during
droughts. Toward that end, the state is considering ways to improve the effectiveness
of various strategies, with emphasis on:
• Creating water supply systems that rely on a diverse array of sources, including
reclaimed water, which will be less vulnerable to drought;
• Creating more interconnected or regional systems that would reduce the
individual drought vulnerability of member utilities; and
• Using water more efficiently in all sectors.

It appears that Florida has the knowledge of how to meet the projected 2025 demands
for water. However, as was apparent during the latest drought, Florida must do more
to ensure that we are able cope with recurring droughts and the uncertainties associated
with climate change. A more resilient water management system will rely on source
diversification, improved water use efficiency, and the development of alternative
water supplies.

16

For more information about Regional Water Supply Plans please call or write:
Florida Department of Environmental Protection
Office of Water Policy
2600 Blair Stone Road, M.S. 46
Tallahassee, Florida 32399-2400
(850) 245-8678
Northwest Florida Water Management District
81 Water Management Drive
Havana, Florida 32333-9700
(850) 539-5999
St. Johns River Water Management District
P.O. Box 1429
Palatka, Florida 32178-1429
(904) 329-4500
South Florida Water Management District
P.O. Box 24680
West Palm Beach, Florida 33416-4680
(561) 686-8800
Southwest Florida Water Management District
2379 Broad Street (U.S. 41 South)
Brooksville, Florida 34604-6899
(352) 796-7211
Suwannee River Water Management District
9225 County Road 49
Live Oak, Florida 32060
(386) 362-1001

17

Learning from the Drought - South Florida Water District

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Learning from the Drought - South Florida Water District