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Implications of differing input data sources and approaches upon forest carbon stock estimation

Implications of differing input data sources and approaches upon forest carbon stock estimation
Implications of differing input data sources and approaches upon forest carbon stock estimation
Site index is an important forest inventory attribute that relates productivity and growth expectation of forests over time. In forest inventory programs, site index is used in conjunction with other forest inventory attributes (i.e., height, age) for the estimation of stand volume. In turn, stand volumes are used to estimate biomass (and biomass components) and enable conversion to carbon. In this research, we explore the implications and consequences of different estimates of site index on carbon stock characterization for a 2,500-ha Douglas-fir-dominated landscape located on Eastern Vancouver Island, British Columbia, Canada. We compared site index estimates from an existing forest inventory to estimates generated from a combination of forest inventory and light detection and ranging (LIDAR)-derived attributes and then examined the resultant differences in biomass estimates generated from a carbon budget model (Carbon Budget Model of the Canadian Forest Sector (CBM-CFS3)). Significant differences were found between the original and LIDAR-derived site indices for all species types and for the resulting 5-m site classes (p < 0.001). The LIDAR-derived site class was greater than the original site class for 42{\%} of stands; however, 77{\%} of stands were within +/-1 site class of the original class. Differences in biomass estimates between the model scenarios were significant for both total stand biomass and biomass per hectare (p < 0.001); differences for Douglas-fir-dominated stands (representing 85{\%} of all stands) were not significant (p = 0.288). Overall, the relationship between the two biomass estimates was strong (R(2) = 0.92, p < 0.001), suggesting that in certain circumstances, LIDAR may have a role to play in site index estimation and biomass mapping.
Air Pollutants, Air Pollutants: analysis, Air Pollutants: metabolism, Biomass, Carbon, Carbon: analysis, Carbon: metabolism, Data Collection, Environmental Monitoring, Environmental Monitoring: methods, Models, Statistical, Statistics as Topic, Trees, Trees: growth {\&} development, Trees: metabolism
0167-6369
543-561
Wulder, Michael A.
13414360-db3d-4d88-a76d-ccffd69d0084
White, Joanne C.
d577fc32-2e72-4619-b84f-8efe7ee7f3e0
Stinson, Graham
3c829411-1da6-4b41-bbc4-e8c8a520a49b
Hilker, Thomas
c7fb75b8-320d-49df-84ba-96c9ee523d40
Kurz, Werner A.
6d1f3637-c536-412f-a73e-866b4f8b1f94
Coops, Nicholas C.
5511e778-fec2-4f54-8708-de65ba5a0992
St-Onge, Benoit
12df8492-877b-4409-883e-175a462e1106
Trofymow, J.A. Tony
772aefba-3938-4ee1-a5d7-0ceb4ae66ab2
Wulder, Michael A.
13414360-db3d-4d88-a76d-ccffd69d0084
White, Joanne C.
d577fc32-2e72-4619-b84f-8efe7ee7f3e0
Stinson, Graham
3c829411-1da6-4b41-bbc4-e8c8a520a49b
Hilker, Thomas
c7fb75b8-320d-49df-84ba-96c9ee523d40
Kurz, Werner A.
6d1f3637-c536-412f-a73e-866b4f8b1f94
Coops, Nicholas C.
5511e778-fec2-4f54-8708-de65ba5a0992
St-Onge, Benoit
12df8492-877b-4409-883e-175a462e1106
Trofymow, J.A. Tony
772aefba-3938-4ee1-a5d7-0ceb4ae66ab2

Wulder, Michael A., White, Joanne C., Stinson, Graham, Hilker, Thomas, Kurz, Werner A., Coops, Nicholas C., St-Onge, Benoit and Trofymow, J.A. Tony (2010) Implications of differing input data sources and approaches upon forest carbon stock estimation. Environmental Monitoring and Assessment, 166 (1), 543-561. (doi:10.1007/s10661-009-1022-6).

Record type: Article

Abstract

Site index is an important forest inventory attribute that relates productivity and growth expectation of forests over time. In forest inventory programs, site index is used in conjunction with other forest inventory attributes (i.e., height, age) for the estimation of stand volume. In turn, stand volumes are used to estimate biomass (and biomass components) and enable conversion to carbon. In this research, we explore the implications and consequences of different estimates of site index on carbon stock characterization for a 2,500-ha Douglas-fir-dominated landscape located on Eastern Vancouver Island, British Columbia, Canada. We compared site index estimates from an existing forest inventory to estimates generated from a combination of forest inventory and light detection and ranging (LIDAR)-derived attributes and then examined the resultant differences in biomass estimates generated from a carbon budget model (Carbon Budget Model of the Canadian Forest Sector (CBM-CFS3)). Significant differences were found between the original and LIDAR-derived site indices for all species types and for the resulting 5-m site classes (p < 0.001). The LIDAR-derived site class was greater than the original site class for 42{\%} of stands; however, 77{\%} of stands were within +/-1 site class of the original class. Differences in biomass estimates between the model scenarios were significant for both total stand biomass and biomass per hectare (p < 0.001); differences for Douglas-fir-dominated stands (representing 85{\%} of all stands) were not significant (p = 0.288). Overall, the relationship between the two biomass estimates was strong (R(2) = 0.92, p < 0.001), suggesting that in certain circumstances, LIDAR may have a role to play in site index estimation and biomass mapping.

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Accepted/In Press date: 26 May 2009
Published date: July 2010
Keywords: Air Pollutants, Air Pollutants: analysis, Air Pollutants: metabolism, Biomass, Carbon, Carbon: analysis, Carbon: metabolism, Data Collection, Environmental Monitoring, Environmental Monitoring: methods, Models, Statistical, Statistics as Topic, Trees, Trees: growth {\&} development, Trees: metabolism
Organisations: Earth Surface Dynamics

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Local EPrints ID: 384652
URI: http://eprints.soton.ac.uk/id/eprint/384652
ISSN: 0167-6369
PURE UUID: 6b01c394-3910-4123-8344-f640d1841be2

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Date deposited: 14 Apr 2016 15:55
Last modified: 14 Mar 2024 22:02

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Contributors

Author: Michael A. Wulder
Author: Joanne C. White
Author: Graham Stinson
Author: Thomas Hilker
Author: Werner A. Kurz
Author: Nicholas C. Coops
Author: Benoit St-Onge
Author: J.A. Tony Trofymow

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