Use, calibration and verification of agroecological models for boreal environments: A review

Daniel Forster; Samuli Helama; Matthew T. Harrison; Clarence Alan Rotz; Jinfeng Chang; Phillippe Ciais; Elizabeth Pattey; Perttu Virkajärvi; Narasinha Shurpali

doi:10.1002/glr2.12010

Grassland Research (Mar 2022)

Use, calibration and verification of agroecological models for boreal environments: A review

Daniel Forster,
Samuli Helama,
Matthew T. Harrison,
Clarence Alan Rotz,
Jinfeng Chang,
Phillippe Ciais,
Elizabeth Pattey,
Perttu Virkajärvi,
Narasinha Shurpali

Affiliations

Daniel Forster: Production Systems/Grasslands and Sustainable Farming Natural Resources Institute Finland (LUKE) Maaninka Finland
Samuli Helama: Natural Resources Institute Finland (Luke) Rovaniemi Finland
Matthew T. Harrison: Tasmanian Institute of Agriculture University of Tasmania Launceston Tasmania Australia
Clarence Alan Rotz: USDA/Agricultural Research Service University Park Pennsylvania USA
Jinfeng Chang: College of Environmental and Resource Sciences Zhejiang University Hangzhou China
Phillippe Ciais: Laboratoire des Sciences du Climat et de l'Environnment, LSCE/IPSL, CEA‐CNRS‐UVSQ Université Paris‐Saclay Gif‐sur‐Yvette France
Elizabeth Pattey: Agriculture and Agri‐Food Canada, Ottawa Research and Development Centre Central Experimental Farm Ottawa Ontario Canada
Perttu Virkajärvi: Production Systems/Grasslands and Sustainable Farming Natural Resources Institute Finland (LUKE) Maaninka Finland
Narasinha Shurpali: Production Systems/Grasslands and Sustainable Farming Natural Resources Institute Finland (LUKE) Maaninka Finland

DOI: https://doi.org/10.1002/glr2.12010
Journal volume & issue: Vol. 1, no. 1
pp. 14 – 30

Abstract

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Abstract Past assessments report negative impacts of the climate crisis in boreal areas; but milder and shorter winters and elevated atmospheric CO2 may provide opportunities for agricultural productivity potentially playing a significant role in future food security. Arable cropping systems are expanding in boreal areas, but the regional mainstay will likely continue to be livestock production. Agroecological models can when appropriately calibrated and evaluated, facilitate improved productivity while minimising environmental impacts by identifying system interactions, and quantifying greenhouse gas emissions, soil carbon stocks and fertiliser use. While models designed for temperate and tropical zones abound, few are developed specifically for boreal zones, and there is uncertainty around the performance of existing models in boreal areas. We reviewed model performance across boreal environments and management systems. We identified a dearth of modelling studies in boreal regions, with the publication of three or less papers per year since the year 2000, constituting a significant research gap. Models IFSM and BASGRA_N performed best in grassland production, DNDC best in predicting soil N2O and NH3 emissions. No model outperformed all others, strengthening the case for ensemble modelling. Existing agroecological models would be worthy of further evaluation, providing model improvements designed for boreal systems.

Published in Grassland Research

ISSN: 2097-051X (Print); 2770-1743 (Online)
Publisher: Wiley
Country of publisher: Australia
LCC subjects: Agriculture: Agriculture (General); Agriculture: Plant culture
Website: https://onlinelibrary.wiley.com/journal/27701743

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