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Estimating Variation in Landscape Analysis

Estimating Variation in Landscape Analysis. Introduction. General Approach Create spatial database (GIS) Populate polygons with sample data Simulate change for variable of interest Generate maps Common Uses Managerial Scientific Public policy. Spatial Landscape Analyses: how & why?.

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Estimating Variation in Landscape Analysis

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  1. Estimating Variation in Landscape Analysis

  2. Introduction • General Approach • Create spatial database (GIS) • Populate polygons with sample data • Simulate change for variable of interest • Generate maps • Common Uses • Managerial • Scientific • Public policy Spatial Landscape Analyses: how & why?

  3. Introduction Spatial Landscape Analysis: what? Hessburg, P.F., Smith, B.G., and R.B. Salter. 1999. Detecting Change in Forest Spatial Patterns from Reference Conditions. Ecological Applications, 9 (4) 1232-1252. Wales, B.C. and L.H. Suring. 2004. Assessment Techniques for Terrestrial Vertebrates of Conservation Concern. In: Hayes, J.L., Ager, A.A., and R.J. Barbour (Tech. Eds. Methods for Integrated Modeling of Landscape Change. USDA Forest Service GTR-610. pp 64-72.

  4. Problem • The results of landscape simulation are often reported without an estimate of uncertainty 1995 2045 2095 http://www.fsl.orst.edu/clams/prj_lamps_simulation.html

  5. Research Goals • To examine the potential effects of variation in sample data on the results of landscape simulation • To begin to develop ways to communicate these effects

  6. Study Objectives • Estimate the area of late seral forest (LSF) structure in a 6070 ha reserve over 30 years (FVS) Hummel) • Calculate the effect of sampling uncertainty on the estimates in each decade (Monte Carlo/SAS) (Cunningham)

  7. Methods: 1. LSF Area

  8. 1:12,000

  9. Landscape Summary Matrix 18 13 11 10 SI SEOC SECC UR YFMS OFMS

  10. Area of LSF Structure Basal area (BA) at least 55.2 m2/ha BA of trees greater than 61.0 cm dbh ≥ 8.3 m2/ha BA of trees greater than 35.6 cm dbh ≥ 33.1 m2/ha BA of trees less than 35.6 cm dbh ≥ 8.3 m2/ha If LSF=1 If not LSF=0

  11. Results 1: LSF area estimate

  12. Methods: 2. Sampling Error

  13. Bootstrap Re-sampling • Developed in the 1980s (Efron), based on classical statistical theory from the 1930s. • Computer-intensive method that creates an empirical distribution function of a statistic to estimate its true distribution function. • The SD of a sample of bootstrap means is the bootstrap estimate of the true SD of the mean.

  14. What is a Bootstrap Sample? Xi=5 x*1 x*2 …… x*B 1 (15) 5 (12)3 ( 7 )…… 2 ( 4 ) 2 ( 4 ) 4 ( 9 )1 (15) …… 1 (15) 3 ( 7 ) 5 (12)2 ( 4) …… 4 ( 9 ) 4 ( 9 ) 3 ( 7 )2 ( 4 ) …… 5 (12) 5 (12) 1 (15)3 ( 7 ) …… 2 ( 4 ) =9.4=11.0=7.4 …… =8.8

  15. Bootstrapped Samples (200)

  16. LSF Probabilities each Decade PVT SC

  17. Results 2 : LSF mean & SE Decade 1 1690 ha (se 233 ha) Decade 2 2060 ha (se 251 ha) Decade 3 3674 ha (se 109 ha)

  18. Comparison of Results 1 & 2

  19. Acknowledgements • Pat Cunningham • Tom Gregg • Tim Max Further information shummel@fs.fed.us Gregg, T.F.; Hummel, S. 2002. Assessing sampling uncertainty in FVS projections using a bootstrap resampling method. In: Crookston, N.L.; Havis, R.N., comps. Second Forest Vegetation Simulator Conference; 2002 February 12-14; Fort Collins, CO. Proc. RMRS-P-25. Ogden, UT: U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station: 164-167.

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