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冠层辐射参数不确定性对陆地碳和能量循环模型预测的影响。

The influence of canopy radiation parameter uncertainty on model projections of terrestrial carbon and energy cycling.

机构信息

Brookhaven National Laboratory, Upton, New York, United States of America.

Finnish Meteorological Institute, Helsinki, Finland.

出版信息

PLoS One. 2019 Jul 18;14(7):e0216512. doi: 10.1371/journal.pone.0216512. eCollection 2019.

DOI:10.1371/journal.pone.0216512
PMID:31318875
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6638863/
Abstract

Reducing uncertainties in Earth System Model predictions requires carefully evaluating core model processes. Here we examined how canopy radiative transfer model (RTM) parameter uncertainties, in combination with canopy structure, affect terrestrial carbon and energy projections in a demographic land-surface model, the Ecosystem Demography model (ED2). Our analyses focused on temperate deciduous forests and tested canopies of varying structural complexity. The results showed a strong sensitivity of tree productivity, albedo, and energy balance projections to RTM parameters. Impacts of radiative parameter uncertainty on stand-level canopy net primary productivity ranged from 2 to > 20% and was most sensitive to canopy clumping and leaf reflectance/transmittance in the visible spectrum (400-750 nm). ED2 canopy albedo varied by 1 to ~10% and was most sensitive to near-infrared reflectance (800-1200 nm). Bowen ratio, in turn, was most sensitive to wood optical properties parameterization; this was much larger than expected based on literature, suggesting model instabilities. In vertically and spatially complex canopies the model response to RTM parameterization may show an apparent reduced sensitivity when compared to simpler canopies, masking much larger changes occurring within the canopy. Our findings highlight both the importance of constraining canopy RTM parameters in models and valuating how the canopy structure responds to those parameter values. Finally, we advocate for more model evaluation, similar to this study, to highlight possible issues with model behavior or process representations, particularly models with demographic representations, and identify potential ways to inform and constrain model predictions.

摘要

减少地球系统模型预测中的不确定性需要仔细评估核心模型过程。在这里,我们研究了冠层辐射传输模型(RTM)参数不确定性与冠层结构相结合如何影响生态系统动态模型(ED2)中的陆地碳和能量预测。我们的分析重点是温带落叶林,并测试了不同结构复杂性的冠层。结果表明,树木生产力、反照率和能量平衡预测对 RTM 参数非常敏感。辐射参数不确定性对林分水平冠层净初级生产力的影响范围为2%至>20%,对冠层聚集度和可见光范围内叶片反射率/透射率(400-750nm)最为敏感。ED2 冠层反照率变化约为1%至~10%,对近红外反射率(800-1200nm)最为敏感。Bowen 比反过来对木材光学性质参数化最为敏感;这比文献中的预期大得多,表明模型不稳定。在垂直和空间复杂的冠层中,与简单的冠层相比,模型对 RTM 参数化的响应可能表现出明显降低的敏感性,掩盖了冠层内发生的更大变化。我们的研究结果强调了在模型中约束冠层 RTM 参数的重要性,并评估了冠层结构对这些参数值的响应方式。最后,我们提倡进行更多类似本研究的模型评估,以突出模型行为或过程表示可能存在的问题,特别是具有人口统计表示的模型,并确定为模型预测提供信息和约束的潜在方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7d3d/6638863/978328642ad6/pone.0216512.g010.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7d3d/6638863/676c4b467dff/pone.0216512.g001.jpg
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