Demonstration and testing of the improved shelterbelt component in the Holos model

Kröbel, R.; Moore, J.; Ni, Z. Y.; McPherson, A.; Poppy, L.; Soolanayakanahally, R. Y.; Amichev, B. Y.; Ward, T.; Laroque, C. P.; Van Rees, K. C. J.; Akhter, F.

doi:https://open-science.canada.ca/handle/123456789/237

Demonstration and testing of the improved shelterbelt component in the Holos model

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creativework.keywords - en: windbreaks, shelterbelts, etc.; agroforestry; Holos model; carbon sequestration; allometric modeling of carbon
creativework.keywords - fr: brise-vent; agroforesterie; modèle Holos; piégeage du carbone; modélisation allométrique du carbone
dc.contributor.author: Kröbel, R.; Moore, J.; Ni, Z. Y.; McPherson, A.; Poppy, L.; Soolanayakanahally, R. Y.; Amichev, B. Y.; Ward, T.; Laroque, C. P.; Van Rees, K. C. J.; Akhter, F.
dc.date.accessioned: 2023-04-20T21:47:46Z
dc.date.available: 2023-04-20T21:47:46Z
dc.date.issued: 2020-09-08
dc.description.abstract - en: The shelterbelt component of Canada’s whole-farm model Holos was upgraded from an age-determined to a circumference-determined (at breast height) calculation using a multi-stem averaging approach. The model interface was developed around the idea that a shelterbelt could have multiple rows, and a variable species composition within each row. With this, the model calculates the accumulated aboveground carbon in the standing biomass and a lookup table of modeled tree growth is used to add estimates of the belowground carbon. Going from an initial interface that asks for the current state, the model also incorporates an option of past and future shelterbelt plantings. In order to test the model’s suitability, we measured diverse shelterbelts (evergreen, deciduous, shrub type) in southern Saskatchewan, Canada representing commonly planted woody species. By making use of Caragana, Green Ash, Colorado Spruce, Siberian Elm, and a mixed Caragana/Green Ash tree row, we tested how many tree circumference measurements would be required to yield a representative average. Later, these results were incorporated in the Holos model to estimate the accumulated above- and below-ground carbon in each shelterbelt type.
dc.identifier.citation: Kröbel, R., Moore, J., Ni, Y. Z., McPherson, A., Poppy, L., Soolanayakanahally, R. Y., Amichev, B. Y., Ward, T., Laroque, C., Van Rees, K. C. J., & Akhter, F. (2020). Demonstration and testing of the improved shelterbelt component in the Holos model. Frontiers in Environmental Science, 8. https://doi.org/10.3389/fenvs.2020.00149
dc.identifier.doi: https://doi.org/10.3389/fenvs.2020.00149
dc.identifier.issn: 2296-665X
dc.identifier.uri: https://open-science.canada.ca/handle/123456789/237
dc.language.iso: en
dc.publisher: Frontiers
dc.rights.openaccesslevel - en: Gold
dc.rights.openaccesslevel - fr: Or
dc.subject - en: Agriculture
dc.subject - fr: Agriculture
dc.subject.en - en: Agriculture
dc.subject.fr - fr: Agriculture
dc.title - en: Demonstration and testing of the improved shelterbelt component in the Holos model
dc.title.fosrctranslation - en: Demonstration and testing of the improved shelterbelt component in the Holos model
dc.type - en: Article
dc.type - fr: Article
local.article.journaltitle: Frontiers in Environmental Science
local.article.journalvolume: 8
local.peerreview - en: Yes
local.peerreview - fr: Oui

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