Satellite and In Situ Observations for Advancing Global Earth Surface Modelling: A Review

Gianpaolo Balsamo; Anna Agusti-Parareda; Clement Albergel; Gabriele Arduini; Anton Beljaars; Jean Bidlot; Nicolas Bousserez; Souhail Boussetta; Andy Brown; Roberto Buizza; Carlo Buontempo; Frederic Chevallier; Margarita Choulga; Hannah Cloke; Meghan F. Cronin; Mohamed Dahoui; Patricia De Rosnay; Paul A. Dirmeyer; Matthias Drusch; Emanuel Dutra; Michael B. Ek; Pierre Gentine; Helene Hewitt; Sarah P. E. Keeley; Yann Kerr; Sujay Kumar; Cristina Lupu; Jean-Francois Mahfouf; Joe McNorton; Susanne Mecklenburg; Kristian Mogensen; Joaquin Munoz-Sabater; Rene Orth; Florence Rabier; Rolf Reichle; Ben Ruston; Florian Pappenberger; Irina Sandu; Sonia I. Seneviratne; Steffen Tietsche; Isabel F. Trigo; Remko Uijlenhoet; Nils Wedi; R. Iestyn Woolway; Xubin Zeng

doi:10.3390/rs10122038

Satellite and In Situ Observations for Advancing Global Earth Surface Modelling: A Review

Gianpaolo Balsamo
, Anna Agusti-Parareda
, Clement Albergel
, Gabriele Arduini
, Anton Beljaars
, Jean Bidlot
, Nicolas Bousserez
, Souhail Boussetta
, Andy Brown
, Roberto Buizza
, Carlo Buontempo
, Frederic Chevallier
, Margarita Choulga
, Hannah Cloke
, Meghan F. Cronin
, Mohamed Dahoui
, Patricia De Rosnay
, Paul A. Dirmeyer
, Matthias Drusch
, Emanuel Dutra

Michael B. Ek, Pierre Gentine, Helene Hewitt, Sarah P. E. Keeley, Yann Kerr, Sujay Kumar, Cristina Lupu, Jean-Francois Mahfouf, Joe McNorton, Susanne Mecklenburg, Kristian Mogensen, Joaquin Munoz-Sabater, Rene Orth, Florence Rabier, Rolf Reichle, Ben Ruston, Florian Pappenberger, Irina Sandu, Sonia I. Seneviratne, Steffen Tietsche, Isabel F. Trigo, Remko Uijlenhoet, Nils Wedi, R. Iestyn Woolway, Xubin Zeng

Ysgol Gwyddorau Eigion

European Centre for Medium-Range Weather Forecasts, Shinfield Park, Reading, RG2 9AX (UK)
Centre National de Recherches Météorologique
Institut Pierre-Simon-Laplace
University of Reading
National Oceanic and Atmospheric Administration
George Mason University, Fairfax
European Space Agency, Netherlands
University of Lisbon
National Center for Atmospheric Research, Boulder
Columbia University, New York
National Aeronautics and Space Administration (NASA)
Centre National d’Etudes Spatiales
Met Office
Max Planck Institute for Biogeochemistry, Jena
Naval Research Laboratory, Monterey
ETH Zürich
Instituto Português do Mar e da Amosfera (IPMA)
Wageningen University & Research
University of Arizona, Tucson

Allbwn ymchwil: Cyfraniad at gyfnodolyn › Erthygl › adolygiad gan gymheiriaid

Crynodeb

In this paper, we review the use of satellite-based remote sensing in combination with in situ data to inform Earth surface modelling. This involves verification and optimization methods that can handle both random and systematic errors and result in effective model improvement for both surface monitoring and prediction applications. The reasons for diverse remote sensing data and products include (i) their complementary areal and temporal coverage, (ii) their diverse and covariant information content, and (iii) their ability to complement in situ observations, which are often sparse and only locally representative. To improve our understanding of the complex behavior of the Earth system at the surface and sub-surface, we need large volumes of data from high-resolution modelling and remote sensing, since the Earth surface exhibits a high degree of heterogeneity and discontinuities in space and time. The spatial and temporal variability of the biosphere, hydrosphere, cryosphere and anthroposphere calls for an increased use of Earth observation (EO) data attaining volumes previously considered prohibitive. We review data availability and discuss recent examples where satellite remote sensing is used to infer observable surface quantities directly or indirectly, with particular emphasis on key parameters necessary for weather and climate prediction. Coordinated high-resolution remote-sensing and modelling/assimilation capabilities for the Earth surface are required to support an international application-focused effort.

Iaith wreiddiol	Saesneg
Cyfnodolyn	Remote Sensing
Cyfrol	10
Rhif cyhoeddi	12
Dynodwyr Gwrthrych Digidol (DOIs)	https://doi.org/10.3390/rs10122038
Statws	Cyhoeddwyd - 14 Rhag 2018

NDC y CU

Mae’r allbwn hwn yn cyfrannu at y Nod(au) Datblygu Cynaliadwy canlynol

NDC 13 Gweithredu ar y Newid yn yr Hinsawdd

Mynediad at Ddogfen

10.3390/rs10122038Trwydded: CC BY

Dyfynnu hyn

Balsamo, G., Agusti-Parareda, A., Albergel, C., Arduini, G., Beljaars, A., Bidlot, J., Bousserez, N., Boussetta, S., Brown, A., Buizza, R., Buontempo, C., Chevallier, F., Choulga, M., Cloke, H., Cronin, M. F., Dahoui, M., De Rosnay, P., Dirmeyer, P. A., Drusch, M., ... Zeng, X. (2018). Satellite and In Situ Observations for Advancing Global Earth Surface Modelling: A Review. Remote Sensing, 10(12). https://doi.org/10.3390/rs10122038

@article{aad187db13534e9bb4c14b6003a3241a,

title = "Satellite and In Situ Observations for Advancing Global Earth Surface Modelling: A Review",

abstract = "In this paper, we review the use of satellite-based remote sensing in combination with in situ data to inform Earth surface modelling. This involves verification and optimization methods that can handle both random and systematic errors and result in effective model improvement for both surface monitoring and prediction applications. The reasons for diverse remote sensing data and products include (i) their complementary areal and temporal coverage, (ii) their diverse and covariant information content, and (iii) their ability to complement in situ observations, which are often sparse and only locally representative. To improve our understanding of the complex behavior of the Earth system at the surface and sub-surface, we need large volumes of data from high-resolution modelling and remote sensing, since the Earth surface exhibits a high degree of heterogeneity and discontinuities in space and time. The spatial and temporal variability of the biosphere, hydrosphere, cryosphere and anthroposphere calls for an increased use of Earth observation (EO) data attaining volumes previously considered prohibitive. We review data availability and discuss recent examples where satellite remote sensing is used to infer observable surface quantities directly or indirectly, with particular emphasis on key parameters necessary for weather and climate prediction. Coordinated high-resolution remote-sensing and modelling/assimilation capabilities for the Earth surface are required to support an international application-focused effort.",

keywords = "earth-observations, earth system modelling, direct and inverse methods",

author = "Gianpaolo Balsamo and Anna Agusti-Parareda and Clement Albergel and Gabriele Arduini and Anton Beljaars and Jean Bidlot and Nicolas Bousserez and Souhail Boussetta and Andy Brown and Roberto Buizza and Carlo Buontempo and Frederic Chevallier and Margarita Choulga and Hannah Cloke and Cronin, \{Meghan F.\} and Mohamed Dahoui and \{De Rosnay\}, Patricia and Dirmeyer, \{Paul A.\} and Matthias Drusch and Emanuel Dutra and Ek, \{Michael B.\} and Pierre Gentine and Helene Hewitt and Keeley, \{Sarah P. E.\} and Yann Kerr and Sujay Kumar and Cristina Lupu and Jean-Francois Mahfouf and Joe McNorton and Susanne Mecklenburg and Kristian Mogensen and Joaquin Munoz-Sabater and Rene Orth and Florence Rabier and Rolf Reichle and Ben Ruston and Florian Pappenberger and Irina Sandu and Seneviratne, \{Sonia I.\} and Steffen Tietsche and Trigo, \{Isabel F.\} and Remko Uijlenhoet and Nils Wedi and Woolway, \{R. Iestyn\} and Xubin Zeng",

year = "2018",

month = dec,

day = "14",

doi = "10.3390/rs10122038",

language = "English",

volume = "10",

journal = "Remote Sensing",

issn = "2072-4292",

publisher = "Multidisciplinary Digital Publishing Institute",

number = "12",

}

Balsamo, G, Agusti-Parareda, A, Albergel, C, Arduini, G, Beljaars, A, Bidlot, J, Bousserez, N, Boussetta, S, Brown, A, Buizza, R, Buontempo, C, Chevallier, F, Choulga, M, Cloke, H, Cronin, MF, Dahoui, M, De Rosnay, P, Dirmeyer, PA, Drusch, M, Dutra, E, Ek, MB, Gentine, P, Hewitt, H, Keeley, SPE, Kerr, Y, Kumar, S, Lupu, C, Mahfouf, J-F, McNorton, J, Mecklenburg, S, Mogensen, K, Munoz-Sabater, J, Orth, R, Rabier, F, Reichle, R, Ruston, B, Pappenberger, F, Sandu, I, Seneviratne, SI, Tietsche, S, Trigo, IF, Uijlenhoet, R, Wedi, N, Woolway, RI & Zeng, X 2018, 'Satellite and In Situ Observations for Advancing Global Earth Surface Modelling: A Review', Remote Sensing, cyfrol. 10, rhif 12. https://doi.org/10.3390/rs10122038

TY - JOUR

T1 - Satellite and In Situ Observations for Advancing Global Earth Surface Modelling: A Review

AU - Balsamo, Gianpaolo

AU - Agusti-Parareda, Anna

AU - Albergel, Clement

AU - Arduini, Gabriele

AU - Beljaars, Anton

AU - Bidlot, Jean

AU - Bousserez, Nicolas

AU - Boussetta, Souhail

AU - Brown, Andy

AU - Buizza, Roberto

AU - Buontempo, Carlo

AU - Chevallier, Frederic

AU - Choulga, Margarita

AU - Cloke, Hannah

AU - Cronin, Meghan F.

AU - Dahoui, Mohamed

AU - De Rosnay, Patricia

AU - Dirmeyer, Paul A.

AU - Drusch, Matthias

AU - Dutra, Emanuel

AU - Ek, Michael B.

AU - Gentine, Pierre

AU - Hewitt, Helene

AU - Keeley, Sarah P. E.

AU - Kerr, Yann

AU - Kumar, Sujay

AU - Lupu, Cristina

AU - Mahfouf, Jean-Francois

AU - McNorton, Joe

AU - Mecklenburg, Susanne

AU - Mogensen, Kristian

AU - Munoz-Sabater, Joaquin

AU - Orth, Rene

AU - Rabier, Florence

AU - Reichle, Rolf

AU - Ruston, Ben

AU - Pappenberger, Florian

AU - Sandu, Irina

AU - Seneviratne, Sonia I.

AU - Tietsche, Steffen

AU - Trigo, Isabel F.

AU - Uijlenhoet, Remko

AU - Wedi, Nils

AU - Woolway, R. Iestyn

AU - Zeng, Xubin

PY - 2018/12/14

Y1 - 2018/12/14

N2 - In this paper, we review the use of satellite-based remote sensing in combination with in situ data to inform Earth surface modelling. This involves verification and optimization methods that can handle both random and systematic errors and result in effective model improvement for both surface monitoring and prediction applications. The reasons for diverse remote sensing data and products include (i) their complementary areal and temporal coverage, (ii) their diverse and covariant information content, and (iii) their ability to complement in situ observations, which are often sparse and only locally representative. To improve our understanding of the complex behavior of the Earth system at the surface and sub-surface, we need large volumes of data from high-resolution modelling and remote sensing, since the Earth surface exhibits a high degree of heterogeneity and discontinuities in space and time. The spatial and temporal variability of the biosphere, hydrosphere, cryosphere and anthroposphere calls for an increased use of Earth observation (EO) data attaining volumes previously considered prohibitive. We review data availability and discuss recent examples where satellite remote sensing is used to infer observable surface quantities directly or indirectly, with particular emphasis on key parameters necessary for weather and climate prediction. Coordinated high-resolution remote-sensing and modelling/assimilation capabilities for the Earth surface are required to support an international application-focused effort.

AB - In this paper, we review the use of satellite-based remote sensing in combination with in situ data to inform Earth surface modelling. This involves verification and optimization methods that can handle both random and systematic errors and result in effective model improvement for both surface monitoring and prediction applications. The reasons for diverse remote sensing data and products include (i) their complementary areal and temporal coverage, (ii) their diverse and covariant information content, and (iii) their ability to complement in situ observations, which are often sparse and only locally representative. To improve our understanding of the complex behavior of the Earth system at the surface and sub-surface, we need large volumes of data from high-resolution modelling and remote sensing, since the Earth surface exhibits a high degree of heterogeneity and discontinuities in space and time. The spatial and temporal variability of the biosphere, hydrosphere, cryosphere and anthroposphere calls for an increased use of Earth observation (EO) data attaining volumes previously considered prohibitive. We review data availability and discuss recent examples where satellite remote sensing is used to infer observable surface quantities directly or indirectly, with particular emphasis on key parameters necessary for weather and climate prediction. Coordinated high-resolution remote-sensing and modelling/assimilation capabilities for the Earth surface are required to support an international application-focused effort.

KW - earth-observations

KW - earth system modelling

KW - direct and inverse methods

U2 - 10.3390/rs10122038

DO - 10.3390/rs10122038

M3 - Article

SN - 2072-4292

VL - 10

JO - Remote Sensing

JF - Remote Sensing

IS - 12

ER -

Satellite and In Situ Observations for Advancing Global Earth Surface Modelling: A Review

Crynodeb

NDC y CU

Mynediad at Ddogfen

Ôl bys

Dyfynnu hyn