Parameterizing Perennial Bioenergy Crops in Version 5 of the Community Land Model Based on Site‐Level Observations in the Central Midwestern United States

Parameterizing Perennial Bioenergy Crops in Version 5 of the Community Land Model Based on Site‐Level Observations in the Central Midwestern United States

Abstract With projected expansion of biofuel production at a global scale, there is a pressing need to develop adequate representation of bioenergy crops in land surface models to help effectively quantify the biogeophysical and biogeochemical effects of its associated land use changes. This study i...

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Main Authors: Yanyan Cheng, Maoyi Huang, Min Chen, Kaiyu Guan, Carl Bernacchi, Bin Peng, Zeli Tan
Format: Article
Language:English
Published: American Geophysical Union (AGU) 2020-01-01
Series:Journal of Advances in Modeling Earth Systems
Online Access:https://doi.org/10.1029/2019MS001719
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spelling doaj-8084ab712f9e4a29a7146e5ba64194f32021-04-08T18:46:33ZengAmerican Geophysical Union (AGU)Journal of Advances in Modeling Earth Systems1942-24662020-01-01121n/an/a10.1029/2019MS001719Parameterizing Perennial Bioenergy Crops in Version 5 of the Community Land Model Based on Site‐Level Observations in the Central Midwestern United StatesYanyan Cheng0Maoyi Huang1Min Chen2Kaiyu Guan3Carl Bernacchi4Bin Peng5Zeli Tan6Atmospheric Sciences and Global Change Division Pacific Northwest National Laboratory Richland WA USAAtmospheric Sciences and Global Change Division Pacific Northwest National Laboratory Richland WA USAJoint Global Change Research Institute Pacific Northwest National Laboratory College Park MD USADepartment of Natural Resources and Environmental Sciences University of Illinois at Urbana‐Champaign Urbana IL USAAgricultural Research Service, Global Change and Photosynthesis Research Unit U.S. Department of Agriculture Urbana IL USADepartment of Natural Resources and Environmental Sciences University of Illinois at Urbana‐Champaign Urbana IL USAAtmospheric Sciences and Global Change Division Pacific Northwest National Laboratory Richland WA USAAbstract With projected expansion of biofuel production at a global scale, there is a pressing need to develop adequate representation of bioenergy crops in land surface models to help effectively quantify the biogeophysical and biogeochemical effects of its associated land use changes. This study implements two new perennial bioenergy crops, Miscanthus and switchgrass, into the Community Land Model Version 5 based on site‐level observations from the midwestern United States by modifying parameters associated with photosynthesis, phenology, allocation, decomposition, and carbon cost of nitrogen uptake and integrating concomitantly land management practices. Sensitivity analyses indicate that carbon and energy fluxes of the perennial crops are most sensitive to photosynthesis and phenology parameters. Validation of simulated fluxes against site‐level measurements demonstrates that the model is capable of capturing the overall patterns of energy and carbon fluxes, as well as physiological transitions from leaf emergence to senescence. Compared to annual crops, perennial crops feature longer growing season, greater leaf areas, and higher productivity, leading to increased transpiration, lower annual runoff, and larger carbon uptake. The model simulations suggest that with higher CO2 assimilation rates and lower demands for nutrients and water, high‐yielding perennial crops are promising alternatives of bioenergy feedstocks compared to traditional annual crops not only for mitigating climate change but also for environmental conservation purposes by reducing fertilizer application and therefore alleviating surface‐ and ground‐water contaminations. Although the local‐scale simulations shed light on potential benefits of using perennial grasses as bioenergy feedstocks, quantifying consequences of their plantations at larger scales warrants additional investigation.https://doi.org/10.1029/2019MS001719
collection DOAJ
language English
format Article
sources DOAJ
author Yanyan Cheng
Maoyi Huang
Min Chen
Kaiyu Guan
Carl Bernacchi
Bin Peng
Zeli Tan
spellingShingle Yanyan Cheng
Maoyi Huang
Min Chen
Kaiyu Guan
Carl Bernacchi
Bin Peng
Zeli Tan
Parameterizing Perennial Bioenergy Crops in Version 5 of the Community Land Model Based on Site‐Level Observations in the Central Midwestern United States
Journal of Advances in Modeling Earth Systems
author_facet Yanyan Cheng
Maoyi Huang
Min Chen
Kaiyu Guan
Carl Bernacchi
Bin Peng
Zeli Tan
author_sort Yanyan Cheng
title Parameterizing Perennial Bioenergy Crops in Version 5 of the Community Land Model Based on Site‐Level Observations in the Central Midwestern United States
title_short Parameterizing Perennial Bioenergy Crops in Version 5 of the Community Land Model Based on Site‐Level Observations in the Central Midwestern United States
title_full Parameterizing Perennial Bioenergy Crops in Version 5 of the Community Land Model Based on Site‐Level Observations in the Central Midwestern United States
title_fullStr Parameterizing Perennial Bioenergy Crops in Version 5 of the Community Land Model Based on Site‐Level Observations in the Central Midwestern United States
title_full_unstemmed Parameterizing Perennial Bioenergy Crops in Version 5 of the Community Land Model Based on Site‐Level Observations in the Central Midwestern United States
title_sort parameterizing perennial bioenergy crops in version 5 of the community land model based on site‐level observations in the central midwestern united states
publisher American Geophysical Union (AGU)
series Journal of Advances in Modeling Earth Systems
issn 1942-2466
publishDate 2020-01-01
description Abstract With projected expansion of biofuel production at a global scale, there is a pressing need to develop adequate representation of bioenergy crops in land surface models to help effectively quantify the biogeophysical and biogeochemical effects of its associated land use changes. This study implements two new perennial bioenergy crops, Miscanthus and switchgrass, into the Community Land Model Version 5 based on site‐level observations from the midwestern United States by modifying parameters associated with photosynthesis, phenology, allocation, decomposition, and carbon cost of nitrogen uptake and integrating concomitantly land management practices. Sensitivity analyses indicate that carbon and energy fluxes of the perennial crops are most sensitive to photosynthesis and phenology parameters. Validation of simulated fluxes against site‐level measurements demonstrates that the model is capable of capturing the overall patterns of energy and carbon fluxes, as well as physiological transitions from leaf emergence to senescence. Compared to annual crops, perennial crops feature longer growing season, greater leaf areas, and higher productivity, leading to increased transpiration, lower annual runoff, and larger carbon uptake. The model simulations suggest that with higher CO2 assimilation rates and lower demands for nutrients and water, high‐yielding perennial crops are promising alternatives of bioenergy feedstocks compared to traditional annual crops not only for mitigating climate change but also for environmental conservation purposes by reducing fertilizer application and therefore alleviating surface‐ and ground‐water contaminations. Although the local‐scale simulations shed light on potential benefits of using perennial grasses as bioenergy feedstocks, quantifying consequences of their plantations at larger scales warrants additional investigation.
url https://doi.org/10.1029/2019MS001719
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