FournierLutherGuindonEtAl2003

Référence

Fournier, R.A., Luther, J.E., Guindon, L., Lambert, M.-C., Piercey, D., Hall, R.J., Wulder, M.A. (2003) Mapping aboveground tree biomass at the stand level from inventory information: Test cases in Newfoundland and Quebec. Canadian Journal of Forest Research, 33(10):1846-1863. (Scopus )

Résumé

A method of estimating and mapping aboveground tree biomass (AGTB) was developed using provincially available forest inventory databases. More specifically, AGTB conversion tables were devised to estimate biomass for stand attributes that are commonly mapped in provincial inventories over the Canadian landscape, i.e., species composition, projected crown density, and dominant tree height. AGTB is first estimated at the tree level using allometric relationships and measured stem distributions that are subsequently summed to estimate plot-level biomass. AGTB conversion tables are then computed from regression models that relate the plot-level biomass values to stand attributes. AGTB can then be mapped over the landscape by assigning the plot-level biomass values to the mapped stands. The method was developed using two provinces, Newfoundland and Labrador (N.L.) and Quebec, as test cases to assess the adaptation required between different management units. Models used to develop conversion tables from the test areas provided estimates of biomass with R <sup>2</sup> ranging from 0.22 to 0.35 and from 0.31 to 0.64 and root mean square errors of 38 to 47 t/ha and 21 to 41 t/ha for N.L. and Quebec, respectively, based on an independent validation data set not used in the development of the models. Mapping errors and potential improvements to the models are discussed. To extend the methods developed in this study to a national map of forest AGTB will require significant adjustments to account for differences in regional inventory specifications. While the method for AGTB mapping can fulfil an important monitoring requirement in forestry, applying it to all provinces, as well as including alternate data sources for areas where inventories do not exist, such as satellite remotely sensed images, requires further research, some of which is currently in progress.

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@ARTICLE { FournierLutherGuindonEtAl2003,
    AUTHOR = { Fournier, R.A. and Luther, J.E. and Guindon, L. and Lambert, M.-C. and Piercey, D. and Hall, R.J. and Wulder, M.A. },
    TITLE = { Mapping aboveground tree biomass at the stand level from inventory information: Test cases in Newfoundland and Quebec },
    JOURNAL = { Canadian Journal of Forest Research },
    YEAR = { 2003 },
    VOLUME = { 33 },
    PAGES = { 1846-1863 },
    NUMBER = { 10 },
    ABSTRACT = { A method of estimating and mapping aboveground tree biomass (AGTB) was developed using provincially available forest inventory databases. More specifically, AGTB conversion tables were devised to estimate biomass for stand attributes that are commonly mapped in provincial inventories over the Canadian landscape, i.e., species composition, projected crown density, and dominant tree height. AGTB is first estimated at the tree level using allometric relationships and measured stem distributions that are subsequently summed to estimate plot-level biomass. AGTB conversion tables are then computed from regression models that relate the plot-level biomass values to stand attributes. AGTB can then be mapped over the landscape by assigning the plot-level biomass values to the mapped stands. The method was developed using two provinces, Newfoundland and Labrador (N.L.) and Quebec, as test cases to assess the adaptation required between different management units. Models used to develop conversion tables from the test areas provided estimates of biomass with R <sup>2</sup> ranging from 0.22 to 0.35 and from 0.31 to 0.64 and root mean square errors of 38 to 47 t/ha and 21 to 41 t/ha for N.L. and Quebec, respectively, based on an independent validation data set not used in the development of the models. Mapping errors and potential improvements to the models are discussed. To extend the methods developed in this study to a national map of forest AGTB will require significant adjustments to account for differences in regional inventory specifications. While the method for AGTB mapping can fulfil an important monitoring requirement in forestry, applying it to all provinces, as well as including alternate data sources for areas where inventories do not exist, such as satellite remotely sensed images, requires further research, some of which is currently in progress. },
    COMMENT = { Cited By (since 1996): 16 Export Date: 10 February 2010 Source: Scopus CODEN: CJFRA doi: 10.1139/x03-099 },
    ISSN = { 00455067 (ISSN) },
    KEYWORDS = { Biomass, Image analysis, Mapping, Regression analysis, Remote sensing, Dominant tree height, Projected crown density, Forestry, aboveground biomass, estimation method, forest inventory, mapping, Newfoundland and Labrador, Quebec },
    OWNER = { Luc },
    TIMESTAMP = { 2010.02.10 },
    URL = { http://www.scopus.com/inward/record.url?eid=2-s2.0-0346216950&partnerID=40&md5=140a37c791daf27b7d5ec16614a965dd },
}

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