Comparing assumptions and applications of dynamic vegetation models used in the Arctic-Boreal zone of Alaska and Canada

Elise Heffernan; Howard Epstein; T Declan McQuinn; Brendan M Rogers; Anna-Maria Virkkala; David Lutz; Amanda Armstrong

doi:10.1088/1748-9326/ad6619

Environmental Research Letters (Jan 2024)

Comparing assumptions and applications of dynamic vegetation models used in the Arctic-Boreal zone of Alaska and Canada

Elise Heffernan,
Howard Epstein,
T Declan McQuinn,
Brendan M Rogers,
Anna-Maria Virkkala,
David Lutz,
Amanda Armstrong

Affiliations

Elise Heffernan: ORCiD; Environmental Sciences, University of Virginia , Charlottesville, VA, United States of America
Howard Epstein: Environmental Sciences, University of Virginia , Charlottesville, VA, United States of America
T Declan McQuinn: Environmental Sciences, University of Virginia , Charlottesville, VA, United States of America
Brendan M Rogers: Woodwell Climate Research Center , Falmouth, MA, United States of America
Anna-Maria Virkkala: Woodwell Climate Research Center , Falmouth, MA, United States of America
David Lutz: Dartmouth College , Hanover, NH, United States of America; Colby-Sawyer College , New London, NH, United States of America
Amanda Armstrong: ORCiD; Environmental Sciences, University of Virginia , Charlottesville, VA, United States of America; Earth System Science Interdisciplinary Center (ESSIC) , University of Maryland, College Park, MD, United States of America; NASA Goddard Space Flight Center , Greenbelt, MD, United States of America

DOI: https://doi.org/10.1088/1748-9326/ad6619
Journal volume & issue: Vol. 19, no. 9
p. 093003

Abstract

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Modeling Arctic-Boreal vegetation is a challenging but important task, since this highly dynamic ecosystem is undergoing rapid and substantial environmental change. In this work, we synthesized information on 18 dynamic vegetation models (DVMs) that can be used to project vegetation structure, composition, and function in North American Arctic-Boreal ecosystems. We reviewed the ecosystem properties and scaling assumptions these models make, reviewed their applications from the scholarly literature, and conducted a survey of expert opinion to determine which processes are important but lacking in DVMs. We then grouped the models into four categories (specific intention models, forest species models, cohort models, and carbon tracking models) using cluster analysis to highlight similarities among the models. Our application review identified 48 papers that addressed vegetation dynamics either directly (22) or indirectly (26). The expert survey results indicated a large desire for increased representation of active layer depth and permafrost in future model development. Ultimately, this paper serves as a summary of DVM development and application in Arctic-Boreal environments and can be used as a guide for potential model users, thereby prioritizing options for model development.

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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