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1. A national-scale tree volume, biomass, and carbon modeling system for the United States

Author

Westfall, James A., primary, Coulston, John W., additional, Gray, Andrew N., additional, Shaw, John D., additional, Radtke, Philip J., additional, Walker, David M., additional, Weiskittel, Aaron R., additional, MacFarlane, David W., additional, Affleck, David L.R., additional, Zhao, Dehai, additional, Temesgen, Hailemariam, additional, Poudel, Krishna P., additional, Frank, Jereme M., additional, Prisley, Stephen P., additional, Wang, Yingfang, additional, Meador, Andrew J. Sánchez, additional, Auty, David, additional, and Domke, Grant M., additional

Published
2023
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2. Maine forests 2018

Author

Woodall, Christopher W., primary, Albright, Thomas, additional, Butler, Brett J., additional, Crocker, Susan J., additional, Frank, Jereme, additional, Goff, Thomas C., additional, Gormanson, Dale D., additional, Kenefic, Laura S., additional, Kurtz, Cassandra M., additional, Lister, Tonya W., additional, Miles, Patrick D., additional, Morin, Randall S., additional, Nelson, Mark D., additional, Piva, Ronald J., additional, Riemann, Rachel I., additional, Schanning, Sjana L., additional, Walters, Brian F., additional, and Westfall, James A., additional

Published
2022
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3. Evaluating the influence of stem form and damage on individual-tree diameter increment and survival in the Acadian Region: implications for predicting future value of northern commercial hardwood stands

Author

Castle, Mark, Weiskittel, Aaron, Wagner, Robert, Ducey, Mark, Frank, Jereme, and Pelletier, Gaetan

Subjects
Aspens -- Physiological aspects, Birches -- Physiological aspects, Earth sciences
Abstract

Northern hardwood species display a variety of forms and defects that can reduce stem quality and complicate their timber management. However, for the most part, growth and yield models do not account for the influence of stem form and damage. This study determined the influence of stem form and damage on growth, survival, and projected future sawlog value among several northern commercial hardwood species. To accomplish this, hardwood trees on 112 permanent plots across three long-term research sites in Maine were assigned stem form and risk classes using a tree classification system developed in New Brunswick. A highly significant influence of stem form and risk on annualized individual-tree diameter increment and survival was found. Inclusion of these equations into a regional growth and yield model highlighted the importance of stem form and defects on long-term simulations as projected stand-level future value was significantly reduced by over 17%, on average (range of 13% to 28%), when compared with projections that did not include that tree-level information. The results highlight the importance of stem form and defects, as well as the need to account for them, in growth and yield applications that assess the forecasted value of commercially important hardwood stands. Key words: paper birch, quaking aspen, red maple, red oak, yellow birch. Le tronc des especes de feuillus nordiques presente une variete de formes et de defauts qui peuvent diminuer la qualite des arbres et compliquer l'amenagement de ces essences pour la production de bois d'oeuvre. Cependant, la plupart des modeles de croissance et de rendement tiennent encore tres peu compte de l'impact de la forme du tronc et des defauts. Cette etude avait pour but de determiner l'influence de la forme du tronc et des defauts sur la croissance, la survie et la valeur future estimee des billes de sciage de plusieurs especes commerciales de feuillus nordiques. A cette fin, nous avons utilise un systeme de classification des arbres elabore au Nouveau-Brunswick et attribue une forme du tronc et une classe de risque de perte de vigueur a chaque tige de feuillus nordiques presente dans 112 placettes permanentes reparties dans trois stations de recherche a long terme situees dans le Maine. La forme du tronc et le risque avaient une influence tres significative sur le taux de survie et l'accroissement en diametre annualise des tiges prises individuellement. L'inclusion de ces equations dans un modele regional de croissance et de rendement a mis en evidence l'importance de la forme du tronc et des defauts pour les simulations a long terme etant donne que la valeur future estimee a l'echelle du peuplement etait significativement reduite, de plus de 17 % en moyenne (etendue de 13 a 28 %), comparativement aux projections qui n'incluaient pas cette information au sujet de chaque tige. Les resultats font aussi ressortir l'importance de la forme du tronc et des defauts, ainsi que la necessite d'en tenir compte, dans les applications de croissance et de rendement qui evaluent la valeur anticipee des peuplements feuillus qui ont une importance commerciale. [Traduit par la Redaction] Mots-cles : bouleau blanc, peuplier faux-tremble, erable rouge, chene rouge, bouleau jaune., Introduction Northern hardwood and mixed-wood forest types account for approximately 8.1 million ha across the northeastern United States (US) and portions of Canada adjacent to this region (Leak et al. [...]

Published
2018
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4. Variation in stem form and risk of four commercially important hardwood species in the Acadian Forest: implications for potential sawlog volume and tree classification systems

Author

Castle, Mark, Weiskittel, Aaron, Wagner, Robert, Ducey, Mark, Frank, Jereme, and Pelletier, Gaetan

Subjects
Deciduous forests -- Environmental aspects, Earth sciences
Abstract

Northern hardwood trees display a wide variety of stem forms and defects, which can substantially reduce their financial value and also complicate their silviculture. While attributes of stem form and defect have been incorporated into tree classification systems, their ability to assess product value and recovery in standing trees has not been adequately tested. To address this issue, we classified stem form and risk using a system developed by the Northern Hardwoods Research Institute (NHRI) for four species across several locations in Maine, New Hampshire, and New Brunswick: sugar maple (Acer saccharum Marsh.), red maple (Acerrubrum L.), yellow birch (Betula alleghaniensis Britton), and northern red oak (Quercus rubra L.). Using these data, we (i) quantified interspecific and regional variation in stem form and damage, (ii) related potential sawlog recovery to tree size, form, and risk, and (iii) compared the efficacy of the NHRI system with a commonly used classification system and a continuous measure of stem quality. High variation in both stem form and damage among the species was found, with red maple showing the largest range. A simplified NHRI system including three form classes proved to be sufficient in differentiating sawlog potential in individual trees, while a model using a continuous measure of stem quality (estimated merchantable sawlog height) performed best. Key words: stem form, risk, northern hardwoods, classification systems, sawlog potential. Le tronc des feuillus nordiques presente une variete de formes et de defauts qui peuvent reduire substantiellement leur valeur financiere et aussi compliquer leur sylviculture. Bien que les attributs de la forme et des defauts du tronc aient ete incorpores dans des systemes de classement des arbres, leur capacite a estimer le rendement et la valeur des produits chez les arbres sur pied n'a pas ete adequatement testee. Pour aborder ce probleme, nous avons classe la forme du tronc et le risque de perte de vigueur a plusieurs endroits dans le Maine, le New Hampshire et le Nouveau-Brunswick en utilisant un systeme developpe par l'Institut de recherche sur les feuillus nordiques (IRFN) pour quatre especes : l'erable a sucre (Acer saccharum Marsh.), l'erable rouge (Acer rubrum L.), le bouleau jaune (Betula alleghaniensis Britton) et le chene rouge (Quercus rubra L.). A l'aide de ces donnees nous avons (i) quantifie la variation interspecifique et regionale de la forme de la tige et des dommages, (ii) relie le rendement potentiel en billes de sciage a la taille de l'arbre, la forme du tronc et le risque de perte de vigueur et (iii) compare l'efficacite du systeme de l'IRFN a celle d'un systeme de classement generalement utilise ainsi qu'a la mesure continue de la qualite du tronc. Nous avons trouve une grande variation de la forme du tronc et des dommages parmi les especes; l'ampleur de la variation etait la plus importante chez l'erable rouge. Le systeme de l'IRFN simplifie comportant trois classes de de forme s'est avere suffisant pour differencier les billes de sciage potentielles chez les arbres individuels tandis qu'un modele utilisant la mesure continue de la qualite du tronc (hauteur marchande estimee en billes de sciage) etait le plus performant. [Traduit par la Redaction] Mots-cles: forme du tronc, risque de perte de vigueur, feuillus nordiques, systeme de classement, bille de sciage potentielle., Introduction The northern hardwood forest type covers approximately 8.1 million ha in the United States (US), spanning from New York into portions of Canada adjacent to this region (Leak et [...]

Published
2017
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11. Improved accuracy of aboveground biomass and carbon estimates for live trees in forests of the eastern United States

Author

Radtke, Philip J., Walker, David, Frank, Jereme, Weiskittel, Aaron R., DeYoung, Clara, MacFarlane, David W., Domke, Grant M., Woodall, Christopher W., Coulston, John W., Westfall, James A., Radtke, Philip J., Walker, David, Frank, Jereme, Weiskittel, Aaron R., DeYoung, Clara, MacFarlane, David W., Domke, Grant M., Woodall, Christopher W., Coulston, John W., and Westfall, James A.

Abstract

Accurate estimation of forest biomass and carbon stocks at regional to national scales is a key requirement in determining terrestrial carbon sources and sinks on United States (US) forest lands. To that end, comprehensive assessment and testing of alternative volume and biomass models were conducted for individual tree models employed in the component ratio method (CRM) currently used in the US' National Greenhouse Gas Inventory. The CRM applies species-specific stem volume equations along with specific gravity conversions and component expansion factors to ensure consistency between predicted stem volumes and weights, and additivity of predicted live tree component weights to match aboveground biomass (AGB). Data from over 76 600 stem volumes and 6600 AGB observations were compiled from individual studies conducted in the past 115 years - what we refer to as legacy data - to perform the assessment. Scenarios formulated to incrementally replace constituent equations in the CRM with models fitted to legacy data were tested using cross-validation methods, and estimates of AGB were scaled using forest inventory data to compare across 33 states in the eastern US. Modifications all indicated that the CRM in its present formulation underestimates AGB in eastern forests, with the range of underestimation ranging from 6.2 to 17 per cent. Cross-validation results indicated the greatest reductions in estimation bias and root-mean squared error could be achieved by scenarios that replaced stem volume, sapling AGB, and component ratio equations in the CRM. A change in the definitions used in apportioning biomass to aboveground components was also shown to increase prediction accuracy. Adopting modifications tested here would increase AGB estimates for the eastern US by 15 per cent, accounting for 1.5 Pg of C currently unaccounted for in live tree aboveground forest C stock assessments. Expansion of the legacy data set currently underway should be useful for further testing, su

Published
2017
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12. Improved accuracy of aboveground biomass and carbon estimates for live trees in forests of the eastern United States

Author

Forest Resources and Environmental Conservation, Radtke, Philip J., Walker, David, Frank, Jereme, Weiskittel, Aaron R., DeYoung, Clara, MacFarlane, David W., Domke, Grant M., Woodall, Christopher W., Coulston, John W., Westfall, James A., Forest Resources and Environmental Conservation, Radtke, Philip J., Walker, David, Frank, Jereme, Weiskittel, Aaron R., DeYoung, Clara, MacFarlane, David W., Domke, Grant M., Woodall, Christopher W., Coulston, John W., and Westfall, James A.

Abstract

Accurate estimation of forest biomass and carbon stocks at regional to national scales is a key requirement in determining terrestrial carbon sources and sinks on United States (US) forest lands. To that end, comprehensive assessment and testing of alternative volume and biomass models were conducted for individual tree models employed in the component ratio method (CRM) currently used in the US' National Greenhouse Gas Inventory. The CRM applies species-specific stem volume equations along with specific gravity conversions and component expansion factors to ensure consistency between predicted stem volumes and weights, and additivity of predicted live tree component weights to match aboveground biomass (AGB). Data from over 76 600 stem volumes and 6600 AGB observations were compiled from individual studies conducted in the past 115 years - what we refer to as legacy data - to perform the assessment. Scenarios formulated to incrementally replace constituent equations in the CRM with models fitted to legacy data were tested using cross-validation methods, and estimates of AGB were scaled using forest inventory data to compare across 33 states in the eastern US. Modifications all indicated that the CRM in its present formulation underestimates AGB in eastern forests, with the range of underestimation ranging from 6.2 to 17 per cent. Cross-validation results indicated the greatest reductions in estimation bias and root-mean squared error could be achieved by scenarios that replaced stem volume, sapling AGB, and component ratio equations in the CRM. A change in the definitions used in apportioning biomass to aboveground components was also shown to increase prediction accuracy. Adopting modifications tested here would increase AGB estimates for the eastern US by 15 per cent, accounting for 1.5 Pg of C currently unaccounted for in live tree aboveground forest C stock assessments. Expansion of the legacy data set currently underway should be useful for further testing, su

Published
2017

15. Improved accuracy of aboveground biomass and carbon estimates for live trees in forests of the eastern United States.

Author

Radtke, Philip, Walker, David, Frank, Jereme, Weiskittel, Aaron, DeYoung, Clara, MacFarlane, David, Domke, Grant, Woodall, Christopher, Coulston, John, and Westfall, James

Subjects
FORESTS & forestry, FOREST biomass, CARBON sequestration, PLANT stems, PARAMETER estimation
Abstract

Accurate estimation of forest biomass and carbon stocks at regional to national scales is a key requirement in determining terrestrial carbon sources and sinks on United States (US) forest lands. To that end, comprehensive assessment and testing of alternative volume and biomass models were conducted for individual tree models employed in the component ratio method (CRM) currently used in the US' National Greenhouse Gas Inventory. The CRM applies species-specific stem volume equations along with specific gravity conversions and component expansion factors to ensure consistency between predicted stem volumes and weights, and additivity of predicted live tree component weights to match aboveground biomass (AGB). Data from over 76 600 stem volumes and 6600 AGB observations were compiled from individual studies conducted in the past 115 years - what we refer to as legacy data - to perform the assessment. Scenarios formulated to incrementally replace constituent equations in the CRM with models fitted to legacy data were tested using cross-validation methods, and estimates of AGB were scaled using forest inventory data to compare across 33 states in the eastern US. Modifications all indicated that the CRM in its present formulation underestimates AGB in eastern forests, with the range of underestimation ranging from 6.2 to 17 per cent. Cross-validation results indicated the greatest reductions in estimation bias and root-mean squared error could be achieved by scenarios that replaced stem volume, sapling AGB, and component ratio equations in the CRM. A change in the definitions used in apportioning biomass to aboveground components was also shown to increase prediction accuracy. Adopting modifications tested here would increase AGB estimates for the eastern US by 15 per cent, accounting for 1.5 Pg of C currently unaccounted for in live tree aboveground forest C stock assessments. Expansion of the legacy data set currently underway should be useful for further testing, such as whether similar gains in accuracy can be achieved in estimates of regional or national-scale C sequestration rates. [ABSTRACT FROM AUTHOR]

Published
2017
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