A boreal forest model benchmarking dataset for North America: a case study with the Canadian Land Surface Scheme Including Biogeochemical Cycles (CLASSIC)

Bo Qu; Alexandre Roy; Joe R Melton; T Andrew Black; Brian Amiro; Eugénie S Euskirchen; Masahito Ueyama; Hideki Kobayashi; Christopher Schulze; Gabriel Hould Gosselin; Alex J Cannon; Matteo Detto; Oliver Sonnentag

doi:10.1088/1748-9326/ace376

Environmental Research Letters (Jan 2023)

A boreal forest model benchmarking dataset for North America: a case study with the Canadian Land Surface Scheme Including Biogeochemical Cycles (CLASSIC)

Bo Qu,
Alexandre Roy,
Joe R Melton,
T Andrew Black,
Brian Amiro,
Eugénie S Euskirchen,
Masahito Ueyama,
Hideki Kobayashi,
Christopher Schulze,
Gabriel Hould Gosselin,
Alex J Cannon,
Matteo Detto,
Oliver Sonnentag

Affiliations

Bo Qu: ORCiD; Département de Géographie, Université de Montréal , Montréal, Canada; Centre d’Études Nordiques, Université Laval , Québec, Canada
Alexandre Roy: Centre d’Études Nordiques, Université Laval , Québec, Canada; Centre de Recherche Sur les Interactions Bassins Versants-écosystèmes Aquatiques (RIVE), Université du Québec à Trois-Rivières , Trois-Rivières, Canada
Joe R Melton: ORCiD; Climate Research Division, Environment and Climate Change Canada , Victoria, Canada
T Andrew Black: Biometeorology and Soil Physics Group, University of British Columbia , Vancouver, Canada
Brian Amiro: Department of Soil Science, University of Manitoba , Winnipeg, Canada
Eugénie S Euskirchen: Institute of Arctic Biology, University of Alaska Fairbanks , Fairbanks, AK, United States of America
Masahito Ueyama: ORCiD; Graduate School of Agriculture, Osaka Metropolitan University , Osaka 599-8531, Japan
Hideki Kobayashi: Research Institute for Global Change, Japan Agency for Marine-Earth Science and Technology , Yokohama, Japan
Christopher Schulze: ORCiD; Département de Géographie, Université de Montréal , Montréal, Canada; Department of Renewable Resources, University of Alberta , Edmonton, Canada
Gabriel Hould Gosselin: Département de Géographie, Université de Montréal , Montréal, Canada; Department of Geography, Wilfrid Laurier University , Waterloo, Canada
Alex J Cannon: ORCiD; Climate Research Division, Environment and Climate Change Canada , Victoria, Canada
Matteo Detto: ORCiD; Department of Ecology and Evolutionary Biology, Princeton University , Princeton, NJ, United States of America
Oliver Sonnentag: Département de Géographie, Université de Montréal , Montréal, Canada; Centre d’Études Nordiques, Université Laval , Québec, Canada

DOI: https://doi.org/10.1088/1748-9326/ace376
Journal volume & issue: Vol. 18, no. 8
p. 085002

Abstract

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Climate change is rapidly altering composition, structure, and functioning of the boreal biome, across North America often broadly categorized into ecoregions. The resulting complex changes in different ecoregions present a challenge for efforts to accurately simulate carbon dioxide (CO _2 ) and energy exchanges between boreal forests and the atmosphere with terrestrial ecosystem models (TEMs). Eddy covariance measurements provide valuable information for evaluating the performance of TEMs and guiding their development. Here, we compiled a boreal forest model benchmarking dataset for North America by harmonizing eddy covariance and supporting measurements from eight black spruce ( Picea mariana )-dominated, mature forest stands. The eight forest stands, located in six boreal ecoregions of North America, differ in stand characteristics, disturbance history, climate, permafrost conditions and soil properties. By compiling various data streams, the benchmarking dataset comprises data to parameterize, force, and evaluate TEMs. Specifically, it includes half-hourly, gap-filled meteorological forcing data, ancillary data essential for model parameterization, and half-hourly, gap-filled or partitioned component flux data on CO _2 (net ecosystem production, gross primary production [GPP], and ecosystem respiration [ER]) and energy (latent [LE] and sensible heat [H]) and their daily aggregates screened based on half-hourly gap-filling quality criteria. We present a case study with the Canadian Land Surface Scheme Including Biogeochemical Cycles (CLASSIC) to: (1) demonstrate the utility of our dataset to benchmark TEMs and (2) provide guidance for model development and refinement. Model skill was evaluated using several statistical metrics and further examined through the flux responses to their environmental controls. Our results suggest that CLASSIC tended to overestimate GPP and ER among all stands. Model performance regarding the energy fluxes (i.e., LE and H) varied greatly among the stands and exhibited a moderate correlation with latitude. We identified strong relationships between simulated fluxes and their environmental controls except for H, thus highlighting current strengths and limitations of CLASSIC.

Published in Environmental Research Letters

ISSN: 1748-9326 (Online)
Publisher: IOP Publishing
Country of publisher: United Kingdom
LCC subjects: Technology: Environmental technology. Sanitary engineering; Geography. Anthropology. Recreation: Environmental sciences; Science: Physics
Website: https://iopscience.iop.org/journal/1748-9326

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