introduction- tax value
DESCRIPTION
Introduction- Tax Value. How are people using stacked ecosystem services? “Bringing Ecosystem Services to Market” (**can we mention?) Broad spatial scale ( Costanza ) or very small scale. Introduction- Tax Value. How are we evaluating stacked ecosystem services? - PowerPoint PPT PresentationTRANSCRIPT
Introduction- Tax Value• How are people using stacked ecosystem services?
– “Bringing Ecosystem Services to Market” (**can we mention?)– Broad spatial scale (Costanza) or very small scale
Introduction- Tax Value• How are we evaluating stacked ecosystem services?
– Tax Value vs. Stacked Ecosystem Service Value
– How does the dollar value for stacked ecosystem services –nutrient retention, carbon sequestration, pollination – compare to property value in the study region?
– In an area with rapid development and increasingly high land values, will the value of stacked services be able to compete?
Methods- Study Site• Upper Neuse River Basin, Central North Carolina
– Current Population = 190,000– Projected Population in 2025 = 280,000
www.unrba.org
Methods- Tax Value• High Property Value
– Taken from Triangle Land Conservancy– Convert Tax Value to $/900 sq-m (30 meter resolution)– 20 year values
Methods- Tax Value
• Division of Quantiles– Property value ($) divided by stacked
ecosystem service value ($)– Order of Magnitude– No Data
• Ecosystem Service Value is 0• No data on property value: Govt. Owned Sites
Category Range
1 100,000 - 1,000,000
2 10,000 - 100,000
3 1,000 - 10,000
4 100 - 1,000
5 10 - 100
6 1.05 - 10
7 0.95 - 1.05
8 0.1 - 0.95
9 0.01 - 0.1
10 0.001 - 0.0111 0.0 - 0.00112 No Data
Methods- Nutrient Retention• Nitrogen Loading Caps
– NCAC 15A Rule .0234 and .0279. Rule .0234 (6) (A)
• Cost – NC DENR/DWQ WARMF Report– Estimates nitrogen offset rate of $44/lb of nitrogen
• Translates to $97/kg for a 20 year period at 1% discount rate*
Data Name Value
Maximum Allowable Nitrogen Loading (Entire Upper Neuse
Watershed) 58,370.99 kg N/yr
Nitrogen Loading (At point of interest – Falls Dam) 8,756.00 kg N/yr
Cost 97.00 $/kg*
Methods- Water Runoff• InVEST Water Yield Model
– Convert all agricultural and forest land cover/land use data to urban – Assume change in water yield is the run-off expected
• Costs of storm-water BMP’s for Upper Neuse River Basin– Substituted values for study performed in Mecklenburg County, NC (American
Forests, 2010)– Unit cost of $2-6/cubic ft to mitigate additional storm-water runoff
Methods- Carbon• Carbon Storage
– Output from InVEST model– Social Cost from XX (**need reference)– Middle Cost from XX (**need reference)
• Carbon Sequestration– Annual NPP for each land cover in watershed at both social and middle cost– 20 year period with 1% discount rate (? Is this right???)
Methods- Pollination• InVEST Model Output
– Normalize relative scale– Reclassify to percentiles
• Managed Pollinator Estimate• Best Pollination Service Dollar Value:
– $50 for 1 pallets, 1 acre, 1 season – INPUT VALUE = $300 for 2 pallets, 1 acre, year = 3 seasons– Convert $/acre to $/pixel at 30 meter resolution– 20 year value with a 1% discount rate
Data Name Value
Local Bee Keeper Quote $40-60/acre/season
Best Pollination Service $300/acre/yr
Value per Pixel $66.72/pixel/yr********
Methods- Stacked ES Values
Overlay all value maps:Areas of high dollar value for ES are lighter.
Methods- Stacked ES Values• One-time ES costs– Carbon Storage– Water Runoff
• 20 year value– Carbon Sequestration– Nutrient Retention– Pollination