Search Results - "Braghiere, R. K."

A Decadal Survey Without Analogs: Earth Observation Needs for a Warming World by Miner, K. R., Braghiere, R. K., Miller, C. E., Schlegel, N., Schimel, D.

“…Since 2007, the National Academy for Sciences Engineering and Medicine (NASEM) has recommended Earth Science research and investment priorities every 10 years…”
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The Importance of Hyperspectral Soil Albedo Information for Improving Earth System Model Projections by Braghiere, R. K., Wang, Y., Gagné‐Landmann, A., Brodrick, P. G., Bloom, A. A., Norton, A. J., Ma, S., Levine, P., Longo, M., Deck, K., Gentine, P., Worden, J. R., Frankenberg, C., Schneider, T.

“…Earth system models (ESMs) typically simplify the representation of land surface spectral albedo to two values, which correspond to the photosynthetically…”
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Underestimation of Global Photosynthesis in Earth System Models Due to Representation of Vegetation Structure by Braghiere, R. K., Quaife, T., Black, E., He, L., Chen, J. M.

“…The impact of vegetation structure on the absorption of shortwave radiation in Earth System Models (ESMs) is potentially important for accurate modeling of the…”
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Modeling Global Carbon Costs of Plant Nitrogen and Phosphorus Acquisition by Braghiere, R. K., Fisher, J. B., Allen, K., Brzostek, E., Shi, M., Yang, X., Ricciuto, D. M., Fisher, R. A., Zhu, Q., Phillips, R. P.

“…Most Earth system models (ESMs) do not explicitly represent the carbon (C) costs of plant nutrient acquisition, which leads to uncertainty in predictions of…”
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Modeling Global Vegetation Gross Primary Productivity, Transpiration and Hyperspectral Canopy Radiative Transfer Simultaneously Using a Next Generation Land Surface Model—CliMA Land by Wang, Y., Braghiere, R. K., Longo, M., Norton, A. J., Köhler, P., Doughty, R., Yin, Y., Bloom, A. A., Frankenberg, C.

“…Recent progress in satellite observations has provided unprecedented opportunities to monitor vegetation activity at global scale. However, a major challenge…”
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Mycorrhizal Distributions Impact Global Patterns of Carbon and Nutrient Cycling by Braghiere, R. K., Fisher, J. B., Fisher, R. A., Shi, M., Steidinger, B. S., Sulman, B. N., Soudzilovskaia, N. A., Yang, X., Liang, J., Peay, K. G., Crowther, T. W., Phillips, R. P.

“…Most tree species predominantly associate with a single type of mycorrhizal fungi, which can differentially affect plant nutrient acquisition and…”
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Testing stomatal models at the stand level in deciduous angiosperm and evergreen gymnosperm forests using CliMA Land (v0.1) by Wang, Yujie, Köhler, Philipp, He, Liyin, Doughty, Russell, Braghiere, Renato K, Wood, Jeffrey D, Frankenberg, Christian

“…At the leaf level, stomata control the exchange of water and carbon across the air–leaf interface. Stomatal conductance is typically modeled empirically, based…”
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Improved process representation of leaf phenology significantly shifts climate sensitivity of ecosystem carbon balance by Norton, Alexander J, Bloom, A. Anthony, Parazoo, Nicholas C, Levine, Paul A, Ma, Shuang, Braghiere, Renato K, Smallman, T. Luke

“…Terrestrial carbon cycle models are routinely used to determine the response of the land carbon sink under expected future climate change, yet these…”
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Characterization of the radiative impact of aerosols on CO2 and energy fluxes in the Amazon deforestation arch using artificial neural networks by Braghiere, Renato Kerches, Marcia Akemi Yamasoe, Nilton Manuel Évora do Rosário, Humberto Ribeiro da Rocha, de Souza Nogueira, José, Alessandro Carioca de Araújo

“…In vegetation canopies with complex architectures, diffuse solar radiation can enhance carbon assimilation through photosynthesis because isotropic light is…”
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