Climate Data Records from Meteosat First Generation Part II: Retrieval of the In-Flight Visible Spectral Response

Author(s):
Quast, Ralf; Giering, Ralf; Govaerts, Yves; Rüthrich, Frank; Roebeling, Rob
Publication title: Remote Sensing
2019
 | Volume: 11 | Issue: 5
2019
DOI: 10.3390/rs11050480
Abstract:
How can the in-flight spectral response functions of a series of decades-old broad band radiometers in Space be retrieved post-flight? This question i… How can the in-flight spectral response functions of a series of decades-old broad band radiometers in Space be retrieved post-flight? This question is the key to developing Climate Data Records from the Meteosat Visible and Infrared Imager on board the Meteosat First Generation (MFG) of geostationary satellites, which acquired Earth radiance images in the Visible (VIS) broad band from 1977 to 2017. This article presents a new metrologically sound method for retrieving the VIS spectral response from matchups of pseudo-invariant calibration site (PICS) pixels with datasets of simulated top-of-atmosphere spectral radiance used as reference. Calibration sites include bright desert, open ocean and deep convective cloud targets. The absolute instrument spectral response function is decomposed into generalised Bernstein basis polynomials and a degradation function that is based on plain physical considerations and able to represent typical chromatic ageing characteristics. Retrieval uncertainties are specified in terms of an error covariance matrix, which is projected from model parameter space into the spectral response function domain and range. The retrieval method considers target type-specific biases due to errors in, e.g., the selection of PICS target pixels and the spectral radiance simulation explicitly. It has been tested with artificial and well-comprehended observational data from the Spinning Enhanced Visible and Infrared Imager on-board Meteosat Second Generation and has retrieved meaningful results for all MFG satellites apart from Meteosat-1, which was not available for analysis. more
Application Climate Data Records EUM-Secr Method

Climate Data Records from Meteosat First Generation Part III: Recalibration and Uncertainty Tracing of the Visible Channel on Meteosat-2–7 Using Reconstructed, Spectrally Changing Response Functions

Author(s):
Rüthrich, Frank; John, Viju O.; Roebeling, Rob A.; Quast, Ralf; Govaerts, Yves; Woolliams, Emma R.; Schulz, Jörg
Publication title: Remote Sensing
2019
 | Volume: 11 | Issue: 10
2019
DOI: 10.3390/rs11101165
Abstract:
This paper presents a new Fundamental Climate Data Record (FCDR) for the visible (VIS) channel of the Meteosat Visible and Infrared Imager (MVIRI), wi… This paper presents a new Fundamental Climate Data Record (FCDR) for the visible (VIS) channel of the Meteosat Visible and Infrared Imager (MVIRI), with pixel-level metrologically traceable uncertainties and error covariance estimates. MVIRI has flown onboard Meteosat First Generation (MFG) satellites between 1982 and 2017. It has served the weather forecasting community with measurements of “visible”, “infra-red” and “water vapour” radiance in near real-time. The precision of the pre-launch sensor spectral response function (SRF) characterisation, particularly of the visible band of this sensor type, improved considerably with time, resulting in higher quality radiances towards the end of the MFG program. Despite these improvements, the correction of the degradation of this sensor has remained a challenging task and previous studies have found the SRF degradation to be faster in the blue than in the near-infrared part of the spectrum. With these limitations, the dataset cannot be immediately applied in climate science. In order to provide a data record that is suited for climate studies, the Horizon 2020 project “FIDelity and Uncertainty in Climate-data records from Earth Observation” (FIDUCEO) conducted (1) a thorough metrological uncertainty analysis for each instrument, and (2) a recalibration using enhanced input data such as reconstructed SRFs. In this paper, we present the metrological analysis, the recalibration results and the resulting consolidated FCDR. In the course of this study we were able to trace-back the remaining uncertainties in the calibrated MVIRI reflectances to underlying effects that have distinct physical root-causes and spatial/temporal correlation patterns. SEVIRI and SCIAMACHY reflectances have been used for a validation of the harmonised dataset. The resulting new FCDR is publicly available for climate studies and for the production of climate data records (CDRs) spanning about 35 years. more
Application Climate Data Records EUM-Secr Validation

Climate Data Records of Vegetation Variables from Geostationary SEVIRI/MSG Data: Products, Algorithms and Applications

Author(s):
García-Haro, Francisco Javier; Camacho, Fernando; Martínez, Beatriz; Campos-Taberner, Manuel; Fuster, Beatriz; Sánchez-Zapero, Jorge; Gilabert, María Amparo
Publication title: Remote Sensing
2019
 | Volume: 11 | Issue: 18
2019
DOI: 10.3390/rs11182103
Abstract:
The scientific community requires long-term data records with well-characterized uncertainty and suitable for modeling terrestrial ecosystems and ener… The scientific community requires long-term data records with well-characterized uncertainty and suitable for modeling terrestrial ecosystems and energy cycles at regional and global scales. This paper presents the methodology currently developed in EUMETSAT within its Satellite Application Facility for Land Surface Analysis (LSA SAF) to generate biophysical variables from the Spinning Enhanced Visible and InfraRed Imager (SEVIRI) on board MSG 1-4 (Meteosat 8-11) geostationary satellites. Using this methodology, the LSA SAF generates and disseminates at a time a suite of vegetation products, such as the leaf area index (LAI), the fraction of the photosynthetically active radiation absorbed by vegetation (FAPAR) and the fractional vegetation cover (FVC), for the whole Meteosat disk at two temporal frequencies, daily and 10-days. The FVC algorithm relies on a novel stochastic spectral mixture model which addresses the variability of soils and vegetation types using statistical distributions whereas the LAI and FAPAR algorithms use statistical relationships general enough for global applications. An overview of the LSA SAF SEVIRI/MSG vegetation products, including expert knowledge and quality assessment of its internal consistency is provided. The climate data record (CDR) is freely available in the LSA SAF, offering more than fifteen years (2004-present) of homogeneous time series required for climate and environmental applications. The high frequency and good temporal continuity of SEVIRI products addresses the needs of near-real-time users and are also suitable for long-term monitoring of land surface variables. The study also evaluates the potential of the SEVIRI/MSG vegetation products for environmental applications, spanning from accurate monitoring of vegetation cycles to resolving long-term changes of vegetation. more
Application Climate Data Records LSA-SAF Land Validation

Climate services in support of climate change impact analyses for the German inland transportation system

Author(s):
Haensel, Stephanie; Brendel, Christoph; Haller, Michael; Kraehenmann, Stefan; Razafimaharo, Christene S.; Stanley, Kelly; Brienen, Susanne; Deutschlaender, Thomas; Rauthe, Monika; Walter, Andreas
Publication title: METEOROLOGISCHE ZEITSCHRIFT
2022
 | Volume: 31 | Issue: 3
2022
DOI: 10.1127/metz/2022/1117
Abstract:
Climate change and extreme weather events are an increasing challenge for society and the economy, including the transport sector. A sustainable and r… Climate change and extreme weather events are an increasing challenge for society and the economy, including the transport sector. A sustainable and resilient transportation system therefore requires information on the temporal and spatial pattern of risks induced by climate change and the assessment of resulting vulnerabilities. Such analyses in the past were usually made separately for each mode of transport based on different observational and climate model datasets and using different methodological approaches to analyse climatic changes and their impacts on the transport infrastructure. Within the research network “BMDV Network of Experts” an intermodal perspective is taken on transportation. Common observational and climate model datasets as well as a standardized analysis framework were coordinated and agreed upon to form the basis for comparable climate impact assessments for roads, railways and inland waterways. This manuscript introduces the climatological datasets and methodological approaches for the climate change and climate impact analysis used for the transportation sector and beyond. Selected results on the projected increases of extreme temperature and heavy precipitation are exemplarily presented in order to illustrate the need for developing climate change adaptation measures for the German inland transport system. more
Application Atmosphere CM-SAF Climate Data Records

Climate-induced decline in the quality and quantity of European hops calls for immediate adaptation measures

Author(s):
Mozny, M.; Trnka, M.; Vlach, V.; Zalud, Z.; Cejka, T.; Hajkova, L.; Potopova, V.; Semenov, M.A.; Semeradova, D.; Büntgen, U.
Publication title: Nature Communications
2023
 | Volume: 14 | Issue: 1
2023
DOI: 10.1038/s41467-023-41474-5
Abstract:
A recent rise in the global brewery sector has increased the demand for high-quality, late summer hops. The effects of ongoing and predicted climate c… A recent rise in the global brewery sector has increased the demand for high-quality, late summer hops. The effects of ongoing and predicted climate change on the yield and aroma of hops, however, remain largely unknown. Here, we combine meteorological measurements and model projections to assess the climate sensitivity of the yield, alpha content and cone development of European hops between 1970 and 2050 CE, when temperature increases by 1.4 °C and precipitation decreases by 24 mm. Accounting for almost 90% of all hop-growing regions, our results from Germany, the Czech Republic and Slovenia show that hop ripening started approximately 20 days earlier, production declined by almost 0.2 t/ha/year, and the alpha content decreased by circa 0.6% when comparing data before and after 1994 CE. A predicted decline in hop yield and alpha content of 4–18% and 20–31% by 2050 CE, respectively, calls for immediate adaptation measures to stabilize an ever-growing global sector. © 2023, Springer Nature Limited. more
Application Atmosphere CM-SAF Climate Data Records

Climatic precipitation efficiency and its dependence on environmental factors over the Sichuan Basin and adjacent regions, Southwest China

Author(s):
Mo, Shuying; Zhao, Pengguo; Zhao, Chuanfeng; Xiao, Hui; Wang, Yuting; Zhang, Peiwen; Wen, Xiaohang; Qiu, Shuang
Publication title: Theoretical and Applied Climatology
2024
 | Volume: 155 | Issue: 5
2024
DOI: 10.1007/s00704-024-04835-8
Abstract:
Based on satellite observation and reanalysis data, basic features of cloud water and precipitation and the dependence of precipitation efficiency (PE… Based on satellite observation and reanalysis data, basic features of cloud water and precipitation and the dependence of precipitation efficiency (PE) on environmental factors over the Sichuan Basin and adjacent regions are investigated. Results found that the spatiotemporal distribution characteristics of precipitation and cloud water over the Sichuan Basin and adjacent regions are consistent. The liquid water path (LWP) and ice water path (IWP) in the Sichuan Basin (SCB) are richer than the West Sichuan Plateau (WSP) and Yunnan-Guizhou Plateau (YGP), and the contribution of IWP to precipitation in Sichuan Basin and adjacent regions is greater than that of LWP. Furthermore, the results indicate that PE has the most significant dependence on the low-tropospheric relative humidity (RH) and the convective available potential energy (CAPE) over the Sichuan Basin and adjacent regions. Higher RH and CAPE contribute to a larger PE in the Sichuan Basin. The CAPE has a positive effect on the PE, which indicates that PE is directly affected by precipitation convection, mainly due to the special topography of the Sichuan Basin and adjacent regions, leading to frequent convective activities. The ratio of LWP to IWP (RLI) affects PE. The RLI decreases with the increase of IWP, leading to an increase in PE. RLI is negatively correlated with PE, which further indicates that ice water clouds have a more significant impact on PE over the Sichuan Basin and adjacent regions. Through this study, we can enhance our understanding of the formation processes, spatio-temporal structures, and evolutionary mechanisms of cloud precipitation in the Sichuan Basin and its adjacent areas. This is crucial for unraveling the dynamics of atmospheric water cycle, climate change processes, and optimizing the utilization efficiency of cloud water resources. more
Application Atmosphere CM-SAF Climate Data Records

Climatology of Tropical Cyclone Precipitation in the S2S Models

Author(s):
García-Franco, J.L.; Lee, C.-Y.; Camargo, S.J.; Tippett, M.K.; Kim, D.; Molod, A.; Lim, Y.-K.
Publication title: Weather and Forecasting
2023
 | Volume: 38 | Issue: 9
2023
DOI: 10.1175/WAF-D-23-0029.1
Abstract:
This study evaluates the representation of tropical cyclone precipitation (TCP) in reforecasts from the Subseasonal to Seasonal (S2S) Prediction Proje… This study evaluates the representation of tropical cyclone precipitation (TCP) in reforecasts from the Subseasonal to Seasonal (S2S) Prediction Project. The global distribution of precipitation in S2S models shows relevant biases in the multimodel mean ensemble that are characterized by wet biases in total precipitation and TCP, except for the Atlantic. The TCP biases can contribute more than 50% of the total precipitation biases in basins such as the southern Indian Ocean and South Pacific. The magnitude and spatial pattern of these biases exhibit little variation with lead time. The origins of TCP biases can be attributed to biases in the frequency of tropical cyclone occurrence. The S2S models sim-ulate too few TCs in the Atlantic and western North Pacific and too many TCs in the Southern Hemisphere and eastern North Pacific. At the storm scale, the average peak precipitation near the storm center is lower in the models than observations due to a too high proportion of weak TCs. However, this bias is offset in some models by higher than observed precipitation rates at larger radii (300–500 km). An analysis of the mean TCP for each TC at each grid point reveals an overestimation of TCP rates, particularly in the near-equatorial Indian and western Pacific Oceans. These findings suggest that the simulation of TC occurrence and the storm-scale precipitation require better representation in order to reduce TCP biases and enhance the subseasonal prediction skill of mean and extreme total precipitation. © 2023 American Meteorological Society. more
Application Atmosphere CM-SAF Climate Data Records

Closing the Water Cycle from Observations across Scales: Where Do We Stand?

Author(s):
Dorigo, Wouter; Dietrich, Stephan; Aires, Filipe; Brocca, Luca; Carter, Sarah; Cretaux, Jean-Francois; Dunkerley, David; Enomoto, Hiroyuki; Forsberg, Rene; Guntner, Andreas; Hegglin, Michaela, I; Hollmann, Rainer; Hurst, Dale F.; Johannessen, Johnny A.; Kummerow, Christian; Lee, Tong; Luojus, Kari; Looser, Ulrich; Miralles, Diego G.; Pellet, Victor; Recknagel, Thomas; Vargas, Claudia Ruz; Schneider, Udo; Schoeneich, Philippe; Schroeder, Marc; Tapper, Nigel; Vuglinsky, Valery; Wagner, Wolfgang; Yu, Lisan; Zappa, Luca; Zemp, Michael; Aich, Valentin
Publication title: BULLETIN OF THE AMERICAN METEOROLOGICAL SOCIETY
2021
 | Volume: 102 | Issue: 10
2021
DOI: 10.1175/BAMS-D-19-0316.1
Abstract:
Life on Earth vitally depends on the availability of water. Human pressure on freshwater resources is increasing, as is human exposure to weather-rela… Life on Earth vitally depends on the availability of water. Human pressure on freshwater resources is increasing, as is human exposure to weather-related extremes (droughts, storms, floods) caused by climate change. Understanding these changes is pivotal for developing mitigation and adaptation strategies. The Global Climate Observing System (GCOS) defines a suite of essential climate variables (ECVs), many related to the water cycle, required to systematically monitor Earth's climate system. Since long-term observations of these ECVs are derived from different observation techniques, platforms, instruments, and retrieval algorithms, they often lack the accuracy, completeness, and resolution, to consistently characterize water cycle variability at multiple spatial and temporal scales. Here, we review the capability of ground-based and remotely sensed observations of water cycle ECVs to consistently observe the hydrological cycle. We evaluate the relevant land, atmosphere, and ocean water storages and the fluxes between them, including anthropogenic water use. Particularly, we assess how well they close on multiple temporal and spatial scales. On this basis, we discuss gaps in observation systems and formulate guidelines for future water cycle observation strategies. We conclude that, while long-term water cycle monitoring has greatly advanced in the past, many observational gaps still need to be overcome to close the water budget and enable a comprehensive and consistent assessment across scales. Trends in water cycle components can only be observed with great uncertainty, mainly due to insufficient length and homogeneity. An advanced closure of the water cycle requires improved model-data synthesis capabilities, particularly at regional to local scales. more
Application CM-SAF Climate Data Records H-SAF Land

Climatological analysis of solar and wind energy in Germany using the Grosswetterlagen classification

Author(s):
Drücke, J.
Publication title: Renewable Energy
2021
 | Volume: 164 | Issue: February
2021
DOI: 10.1016/j.renene.2020.10.102
Abstract:
Solar and wind energy play an important role in current and future energy supply in Germany and Europe. The production of renewable energy highly depe… Solar and wind energy play an important role in current and future energy supply in Germany and Europe. The production of renewable energy highly depends on weather conditions resulting in an increasing impact of meteorological fluctuations on energy production. Here, climatological data of solar radiation and wind speed are used to simulate hourly capacity factors for solar and wind energy for Germany from 1995 to 2015. Using renewable energy production data for 2015 these data are converted into time series of generated electrical power. Events with very low energy production, i.e., shortfall events, have been identified and related to large-scale weather regimes over Europe. In Germany, on average about twice as much electrical energy is generated from wind compared to solar radiation; in addition there is a distinct annual cycle with an equal share of generated energy during summer and a 70/30% wind/solar share in winter. There is an unambiguous dependency of wind and solar energy production on weather regimes. Shortfall events in Germany only occur in winter, often associated with a high pressure system over Central Europe. During this weather regime, the renewable energy potential in Northern and Southeastern Europe is above average, possibly allowing to balance shortfall events in Germany. more
Application Atmosphere CM-SAF Climate Data Records

Climatological Drought Monitoring in Switzerland Using EUMETSAT SAF Satellite Data

Author(s):
Rassl, Annkatrin; Michel, Dominik; Hirschi, Martin; Duguay-Tetzlaff, Anke; Seneviratne, Sonia I.
Publication title: Remote Sensing
2022
 | Volume: 14 | Issue: 23
2022
DOI: 10.3390/rs14235961
Abstract:
Climatological drought monitoring in Switzerland relies heavily on station-based precipitation and temperature data. Due to the high spatial variabili… Climatological drought monitoring in Switzerland relies heavily on station-based precipitation and temperature data. Due to the high spatial variability and complexity of droughts, it is important to complement station-based drought indices with gridded information and to couple multiple drought indicators within the monitoring system. Here, long-term satellite-based drought parameters from the EUMETSAT SAF network are analyzed in terms of dry anomalies within their climatology’s, namely ASCAT soil water index (SWI), CM SAF land surface temperature (LST), complemented with NOAA vegetation data, and LSA SAF Meteosat evapotranspiration data. The upcoming EUMETSAT SAF climate data records on land surface temperature and evapotranspiration will cover for the first time the WMO climatological 30-year reference period. This study is the first study investigating the potential of those long-term data records for climate monitoring of droughts in Europe. The satellite datasets are compared with the standardized precipitation index (SPI), soil moisture observations from the SwissSMEX measurement network, with a modelled soil moisture index (SMI) based on observations, and with evapotranspiration measurements, focusing on the temporal dynamics of the anomalies. For vegetation and surface temperature, the dry years of 2003, 2015, and 2018 are clearly visible in the satellite data. CM SAF LSTs show strong anomalies at the beginning of the drought period. The comparison of in situ and modelled soil moisture and evapotranspiration measurements with the satellite parameters shows strong agreement in terms of anomalies. The SWI indicates high anomaly correlations of 0.56 to 0.83 with measurements and 0.63 to 0.76 with the SMI at grassland sites. The Meteosat evapotranspiration data strongly agree with the measurements, with anomaly correlations of 0.63 and 0.67 for potential and actual evapotranspiration, respectively. Due to the prevailing humid climate conditions at the considered sites, evapotranspiration anomalies during the investigated dry periods were mostly positive and thus not water limited, but were also a driver for soil moisture drought. The results indicate that EUMETSAT SAF satellite data can well complement the station-based drought monitoring in Switzerland with spatial information. more
Application CM-SAF Climate Data Records H-SAF LSA-SAF Land
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