Land Conservation Initiative: Preserving and protecting farmland and urban green space

What is the Land Conservation Initiative?

The Land Conservation Initiative is the way we can protect the livability, health, and ecological integrity of our region for everyone. Access to nature and open space is the foundation to our collective quality of life. However, development threatens working lands that produce food, jobs, and a rural way of life. The Initiative sets forth the goal of conserving and preserving 65,000 acres of remaining high conservation value lands throughout King County within the next 30 years.

This Initiative is a regional collaboration between King County, cities, business people, farmers, environmental partners, and others that began by creating a strategy to preserve our last, most important natural lands, resource lands and green spaces.

“The main goals of the Initiative are to accelerate investments in land conservation to save money, to ensure critical natural areas and resource lands can be preserved before they are lost to other uses, and to ensure green space for all residents,” said Bob Burns, Deputy Director of King County Department of Natural Resources and Parks. “Prior to the Initiative we estimated it would take 60 to 70 years to protect those 65,000 acres. The goal of the Initiative is to cut that in half.  Because land values rise faster than the growth of our revenue streams, accelerating the pace to within 30 years will save an estimated $15 billion.”

The 65,000 acres of land fall within six categories: urban green space, trails, natural lands, river corridors, farmlands, and forests.

LCI pic 2.PNG

How is this initiative funded?

The primary funding source is the Conservation Futures Tax (CFT) fund, which is a property tax that exists on all parcels in the county.  The CFT requires a 50 percent match in most cases.

“We work to find match dollars, from other local, state or federal sources, to pair up with the CFT fund,” Bob said. “One way we invest our land conservation dollars is to buy farmland easements on our most valuable agricultural lands. Easements to remove development rights from private lands will preserve farmland and help keep farmland affordable and active, supporting local food production.”

How will it help protect agricultural land and green space in King County?

“Approximately 15,000 acres of the 65,000 acres goal is agricultural land,” Bob said. The Farmland Preservation Program (FPP) is an important component of this Initiative by preserving rapidly diminishing farmland through development rights purchases.

In addition to the 15,000 acres of agricultural land identified in rural areas, the Initiative also plans to protect 2,500 to 3,000 acres of urban green spaces, some of which could be used for community gardens.

LCI pic 3
Community gardens and open spaces make us healthier and our neighborhoods more livable

“An exciting component of this Initiative is urban green space preservation,” Bob said. “A key goal of the LCI is to ensure there is green space for every resident in King County. We want to make sure every neighborhood has green space. These green spaces will be preserved in ways that focus on resident interests and needs. The communities will drive how these green spaces will be used, whether that is through a community garden, open space, or other passive use.

“Green spaces provide a multitude of benefits for residents, and not all of our communities currently experience these benefits,” he said. “Every resident should have the opportunity to live their best lives, and providing access to open spaces for every neighborhood will help eliminate disparities in the quality of life for residents.”

In addition to addressing open space inequities, preserving farmland and green spaces will support locally grown food, which helps strengthen the local food economy and increase community resilience in the face of climate change.

“Investing in the preservation of farmland and green spaces will strengthen our local economy and promote a more robust local food system, which will benefit us all,” Bob said.

Learn more about the Land Conservation Initiative here.

Modeling Climate Change Impacts on Extreme Precipitation, Stormwater Design Requirements, and Wastewater Conveyance

By Jim Simmonds

King County’s 2015 Strategic Climate Action Plan calls for assessments of climate change effects on large rainstorms in King County and the ensuing impacts on stormwater and wastewater management. These assessments were prioritized in response to recent findings from the University of Washington that large rain events known as “atmospheric rivers” are projected to hold an average of 22 percent more moisture by the end of the century (Warner et al., 2015).


Large rain events known as “atmospheric rivers” are projected to hold an average of 22 percent more moisture by the end of the century.

(Warner et al., 2015)

Most extreme precipitation events along the West Coast are associated with winter atmospheric river events. Atmospheric rivers are relatively long, narrow bands of moisture-laden air that can deliver intense rain when they intersect land. Atmospheric rivers that affect western Washington often originate in the subtropical Pacific Ocean near Hawaii; these are sometimes referred to as “pineapple express” events. About one-half to two-thirds of Western Washington’s annual precipitation falls during atmospheric river events.


King County partnered in 2016 with the University of Washington’s Climate Impacts Group to model hourly rainfall throughout the county under climate change conditions. This modeling was funded by King County’s Stormwater Services Section,Wastewater Treatment Division, and a grant from the Washington State Department of Ecology. The innovative modeling approach relies on “nesting” a regional weather model within two global weather models to allow for more refined predictions. The nested modeling approach is critical for understanding climate change impacts on storms in the Pacific Northwest.

This image of total precipitable water contained in the atmosphere shows a long band of wet air crossing the Pacific Ocean towards the Pacific Northwest, known as an “atmospheric river” (from Warner et al 2015).

The regional model used was the Weather Research and Forecasting model applied by the University of Washington, which is the same model used to make short-term weather forecasts for the region. The climate scenario modeled is based on ongoing, unabated global carbon emissions through the end of the century.

Preliminary modeling results show about 20 to 40 percent more rain will fall during each year’s heaviest hour of rainfall by the end of this century. Increases are also projected for less-frequent storms and longer-duration storms. For the official Seattle weather station at SeaTac, this means that the one-hour annual peak rain event is projected to increase by 2100. Model results to date do not suggest that “atmospheric rivers” will occur more frequently under climate change conditions, only that they are projected to deliver more precipitation.

These modeling results have important implications for stormwater management. In accordance with requirements by the Washington State Department of Ecology, King County requires developers to use a manual to size and design stormwater flow control and water quality treatment. The design relies on the past 68 years of rainfall data for ensuring proper sizing. Because future storm sizes are projected to increase, this implies that stormwater systems designed today may be undersized for future conditions. A sensitivity analysis of stormwater facility design to future rainfall conditions will be completed in 2018, along with an analysis of options for updating the design requirements.

Intense rainstorms can overwhelm the stormwater system and cause urban flooding.

King County also owns and operates the regional wastewater conveyance and treatment system for the greater Seattle area. Portions of the City of Seattle have combined wastewater and stormwater conveyance systems, which allow for substantially greater flows during rain events than dry periods. King County is investing heavily to reduce overflows from the combined system during large rain events, and is interested in incorporating future storm conditions in the planning process. To do this, the King County Wastewater Treatment Division will be modeling the wastewater conveyance and treatment system under both historical and projected future climate conditions to determine possible changes in flow timing and volume. The results from this modeling will be incorporated into future plans for maintaining and upgrading the facilities.


Read more about the King County SciFYI newsletter.

jim-simmondsJim Simmonds is the Water Quality Unit Supervisor of King County’s Science and Technical Support Section. He has over 25 years’ experience monitoring and modeling environmental conditions, managing environmental investigations, managing environmental data, and assessing potential impacts of stormwater, wastewater, and environmental contamination. He has been with King County for 17 years.