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1/10/2007Defining and Using the Forest Identity. 1 Defining and Using the Forest Identity Paul E. Waggoner & Jesse H. Ausubel Figures for DefiningUsingFI.doc.

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Presentation on theme: "1/10/2007Defining and Using the Forest Identity. 1 Defining and Using the Forest Identity Paul E. Waggoner & Jesse H. Ausubel Figures for DefiningUsingFI.doc."— Presentation transcript:

1 1/10/2007Defining and Using the Forest Identity. 1 Defining and Using the Forest Identity Paul E. Waggoner & Jesse H. Ausubel Figures for DefiningUsingFI.doc accessible at http://phe.rockefeller.edu/. Fig. 1. A synoptic chart with longitude the change a %/yr of area and latitude the change d %/yr of density. The point (a, d) is marked in quadrant I. A point (–d, d) with its first coordinate the negative of its second lies in quadrant II. Its longitude is –d and its latitude d. Point (–d, d) and point (a,- a) in quadrant IV with longitude a and latitude equal –a lie on and define the diagonal red line where timber volume is unchanging and v equals zero.

2 1/10/2007Defining and Using the Forest Identity. 2 Fig. 2. An idealized forest where the biomass per area M/A grows 1 tons//ha per time from time 0, whereas timber density D grows at 2 m3/ha but after time 1. The f represents the tons of timber per ton of biomass and approaches 1. B is the tons of biomass per m3 of timber and approaches the density r of timber, which is assumed 1.

3 1/10/2007Defining and Using the Forest Identity. 3 Fig. 3. A synoptic chart separating nations with increasing biomass northeast of the green line from those with decreasing biomass southeast of the green line. The longitude is the change a %/yr of area and latitude the change d %/yr of density. The point (a, d) is marked in quadrant I. Point (–0.7 d, d) in quadrant II with longitude equal to –0.7 d, and the point in the quadrant IV with latitude equal to –a/0.7 lie on and define the diagonal green line where timber volume is unchanging and m equals zero. If the carbon concentration in biomass does not change, the green line separating nations with increasing from those with decreasing biomass also becomes the separation for rising from falling carbon sequestration, too. The red line separates nations with increasing from those with decreasing timber volume v.

4 1/10/2007Defining and Using the Forest Identity. 4 Fig 4. The changing area d and density d in nations with the largest timber volumes in 2005. The red and green lines represent unchanging timber volume and biomass as they did in Fig. 2.

5 1/10/2007Defining and Using the Forest Identity. 5 Fig. 5. The lack of a relation between the FRA2005 reports of the average 1990 to 2005 change V’ m3/yr of timber volume to the FAO reports of the 2004 harvest of timber products.

6 1/10/2007Defining and Using the Forest Identity. 6 Fig. 6. The changes in the fractions of plantation and natural areas to match changing proportions of production from plantations and natural forests. Natural forest Plantation

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