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Accurate assessment of land-atmosphere coupling in climate models requires high-frequency data output

Publication ,  Journal Article
Findell, KL; Yin, Z; Seo, E; Dirmeyer, PA; Arnold, NP; Chaney, N; Fowler, MD; Huang, M; Lawrence, DM; Ma, PL; Santanello, JA
Published in: Geoscientific Model Development
February 29, 2024

Land-atmosphere (L-A) interactions are important for understanding convective processes, climate feedbacks, the development and perpetuation of droughts, heatwaves, pluvials, and other land-centered climate anomalies. Local L-A coupling (LoCo) metrics capture relevant L-A processes, highlighting the impact of soil and vegetation states on surface flux partitioning and the impact of surface fluxes on boundary layer (BL) growth and development and the entrainment of air above the BL. A primary goal of the Climate Process Team in the Coupling Land and Atmospheric Subgrid Parameterizations (CLASP) project is pa-rameterizing and characterizing the impact of subgrid heterogeneity in global and regional Earth system models (ESMs) to improve the connection between land and atmospheric states and processes. A critical step in achieving that aim is the incorporation of L-A metrics, especially LoCo metrics, into climate model diagnostic process streams. However, because land-atmosphere interactions span timescales of minutes (e.g., turbulent fluxes), hours (e.g., BL growth and decay), days (e.g., soil moisture memory), and seasons (e.g., variability in behavioral regimes between soil moisture and latent heat flux), with multiple processes of interest happening in different geographic regions at different times of year, there is not a single metric that captures all the modes, means, and methods of interaction between the land and the atmosphere. And while monthly means of most of the LoCo-relevant variables are routinely saved from ESM simulations, data storage constraints typically preclude routine archival of the hourly data that would enable the calculation of all LoCo metrics. Here, we outline a reasonable data request that would allow for adequate characterization of sub-daily coupling processes between the land and the atmosphere, preserving enough sub-daily output to describe, analyze, and better understand L-A coupling in modern climate models. A secondary request involves embedding calculations within the models to determine mean properties in and above the BL to further improve characterization of model behavior. Higher-frequency model output will (i) allow for more direct comparison with observational field campaigns on process-relevant timescales, (ii) enable demonstration of inter-model spread in L-A coupling processes, and (iii) aid in targeted identification of sources of deficiencies and opportunities for improvement of the models.

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Published In

Geoscientific Model Development

DOI

EISSN

1991-9603

ISSN

1991-959X

Publication Date

February 29, 2024

Volume

17

Issue

4

Start / End Page

1869 / 1883

Related Subject Headings

  • 37 Earth sciences
  • 04 Earth Sciences
 

Citation

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Findell, K. L., Yin, Z., Seo, E., Dirmeyer, P. A., Arnold, N. P., Chaney, N., … Santanello, J. A. (2024). Accurate assessment of land-atmosphere coupling in climate models requires high-frequency data output. Geoscientific Model Development, 17(4), 1869–1883. https://doi.org/10.5194/gmd-17-1869-2024
Findell, K. L., Z. Yin, E. Seo, P. A. Dirmeyer, N. P. Arnold, N. Chaney, M. D. Fowler, et al. “Accurate assessment of land-atmosphere coupling in climate models requires high-frequency data output.” Geoscientific Model Development 17, no. 4 (February 29, 2024): 1869–83. https://doi.org/10.5194/gmd-17-1869-2024.
Findell KL, Yin Z, Seo E, Dirmeyer PA, Arnold NP, Chaney N, et al. Accurate assessment of land-atmosphere coupling in climate models requires high-frequency data output. Geoscientific Model Development. 2024 Feb 29;17(4):1869–83.
Findell, K. L., et al. “Accurate assessment of land-atmosphere coupling in climate models requires high-frequency data output.” Geoscientific Model Development, vol. 17, no. 4, Feb. 2024, pp. 1869–83. Scopus, doi:10.5194/gmd-17-1869-2024.
Findell KL, Yin Z, Seo E, Dirmeyer PA, Arnold NP, Chaney N, Fowler MD, Huang M, Lawrence DM, Ma PL, Santanello JA. Accurate assessment of land-atmosphere coupling in climate models requires high-frequency data output. Geoscientific Model Development. 2024 Feb 29;17(4):1869–1883.

Published In

Geoscientific Model Development

DOI

EISSN

1991-9603

ISSN

1991-959X

Publication Date

February 29, 2024

Volume

17

Issue

4

Start / End Page

1869 / 1883

Related Subject Headings

  • 37 Earth sciences
  • 04 Earth Sciences