Bond Scoping Exercise

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Parent Module

Background

If a bond is essentially a loan (or financing) that can support implementation a “project”, we need to know what is the scope of the proposed work (e.g. where is it, how big is it, how many acres, how many miles) and fundamentally how much is it going to cost?

Later, we will also need to know who is going to pay for it(i.e. beneficiaries), what is their ability to pay for, and how much the work is worth to those paying for it. In this exercise, we’re just trying to land at a defensible estimate of what is the restoration we want to propose and how much is going to cost. You wouldn’t ask a bank for a loan for a house (i.e. a mortgage) without knowing how much the property is selling for (i.e. purchase price). The bank will do its due diligence to a) independently confirm with an appraisal that the house is worth more than you are asking for in the loan, and b) make sure that you are able to pay that back (e.g. employment, assets, income, credit score etc.). We’re not dealing with those pieces yet for this exercise. We are just looking on Zillow and seeing how much the type of home we want to buy in this town is going to cost us and whether that buys us a 1 bedroom studio apartment, a 3 bedroom townhome, or a 5 bedroom house.

The Assignment

As discussed in class, you are working in teams to prepare a preliminary answer to the basic question of how much do we need for a proposed resilience bond in the HUC 8 (use this map to figure out your HUC 8) you and your team chose. Specifically, how much:

  • Total acres of Proposed Upland Treatments (e.g. PJ removal, forest thinning, fuels treatments)
  • Total miles of riverscape proposed for Low-Tech PBR treatments
  • Estimated Total Cost of Proposed Actions (you can provide ranges and medians)

To support your analysis, please use the following assumptions on implementation costs to calculate ranges and medians in your table/spreadsheet:

  • For Upland Treatments use: Min cost of $300/acre; Median cost of $1000/acre; Upper cost of $2500 /acre
  • For Riverscape LTPBR Treatments use: Min cost of $50,000/mile; Upper cost of $100,000/mile; and also a Reference Traditional Restoration cost of $350,000/mile

To identify your upland treatments:

  • Maybe filter down to just PJ and or Douglas Fir on land that looks treatable (e.g. USFS / BLM ownership) or large private tracts (ignore lots of small parcels)

To identify your LTPBR treatments:

  • Just filter down and use the length in the Conservation and Restoration Opportunties management layer and - filter to just theLow-Hanging-Fruit result. - Optionally, maybe also filter down to just public BLM and USFS lands.

Some Supporting GIS to Help You

There are lots of ways to approximate the above, but here is one recommended workflow based on using data from the warehouse, QGIS and QRAVE.

In class, we just used WebRAVE to look at projects. Below, I show you how to do this in QGIS with QRAVE (if you want to install QGIS from scratch for first time, see here and you can do it < 5 minutes), but you can do same thing in ArcGIS 10.X with ArcRAVE.

Getting Data from Warehouse

Warehouse Info

In class, we gave you all access to the Bear River Resilience Bond Program in the Riverscapes Consortium Warehouse.

If you still need to register for access, see these instructions and then email Joe.

Video Tutorial


5 minutes

Riverscape Context for Upland Treatments (acres)

Riverscape Context and LANDFIRE

It could take you a very long time to manually digitize polygons looking just at the aerial imagery. I show you how you can do that in QGIS in first 5 minutes. A more repatable and powerful GIS workflow is to filter down based on some GIS layers. In this 55 minute video, we use the Riverscapes Context project for a HUC 8 to do the following steps:
  1. Use LANDFIRE existing vegetation (EVT)to identify dominant vegetaton types and choose some to target for treatment areas.
  2. Create a raster that highlights just those chosen vegetaton classes.
  3. Convert that raster to polygons, and calculate acreage.
  4. Clip those polygons based on some other information (i.e. only treat on federal BLM and USFS land.
  5. Use summary statistics to get total acreage.
  6. Fill out spreadsheet with acreage and cost estimates.

Video Tutorial


55 minutes

BRAT for LTPBR Riverscape Treatments (miles)

BRAT-Based Workflow

We will learn more about the Beaver Restoration Assessment Tool (BRAT) in our LTPBR Planning Module. For now, we are just going to take its analysis of "Low-Hanging Fruit Conservation and Restoration Opporunities" to approximate where and how much low-tech PBR restoration to do in your HUC 8. In this 17 minute video, we do the following steps:
  1. Open up BRAT in QRAVE in QGIS
  2. Load the Conservation and Restoration layer from the Managment outputs
  3. Summarize the total mileage of "Low-Hanging Fruit Conservation and Restoration Opporunities"
  4. Use some simple "Select by Expression" queries to filter down to only the reaches on BLM and USFS land.
  5. Use summary statistics to get total mileage.
  6. Fill out spreadsheet with acreage and cost estimates.

Video Tutorial


17 minutes

What you are being asked to turn in on Canvas

Please upload:

  1. A shared URL to your Google Sheet with numbers (don’t forget to turn on sharing)
  2. A PDF of your Map (show HUC 8, some context and the polygons for upland treatment, and the portion of the river network you used for areas to treat)