Climate Signals in the Black Sea From a Multidecadal Eddy-Resolving Reanalysis

Leonardo Lima; Stefania Angela Ciliberti; Ali Aydoğdu; Simona Masina; Romain Escudier; Andrea Cipollone; Diana Azevedo; Salvatore Causio; Elisaveta Peneva; Rita Lecci; Emanuela Clementi; Eric Jansen; Mehmet Ilicak; Sergio Cretì; Laura Stefanizzi; Francesco Palermo; Giovanni Coppini

doi:10.3389/fmars.2021.710973

Climate Signals in the Black Sea From a Multidecadal Eddy-Resolving Reanalysis

Leonardo Lima^*, Stefania Angela Ciliberti, Ali Aydoğdu, Simona Masina, Romain Escudier, Andrea Cipollone, Diana Azevedo, Salvatore Causio, Elisaveta Peneva, Rita Lecci, Emanuela Clementi, Eric Jansen, Mehmet Ilicak, Sergio Cretì, Laura Stefanizzi, Francesco Palermo, Giovanni Coppini

^*Bu çalışma için yazışmadan sorumlu yazar

Avrasya Yer Bilimleri Enstitüsü

Araştırma sonucu: Dergiye katkı › Makale › bilirkişi

14 Atıf (Scopus)

Özet

Ocean reanalyses are becoming increasingly important to reconstruct and provide an overview of the ocean state from the past to the present-day. In this article, we present a Black Sea reanalysis covering the whole satellite altimetry era. In the scope of the Copernicus Marine Environment Monitoring Service, the Black Sea reanalysis system is produced using an advanced variational data assimilation method to combine the best available observations with a state-of-the-art ocean general circulation model. The hydrodynamical model is based on Nucleus for European Modeling of the Ocean, implemented for the Black Sea domain with a horizontal resolution of 1/27^◦ × 1/36^◦, and 31 unevenly distributed vertical levels. The model is forced by the ECMWF ERA5 atmospheric reanalysis and climatological precipitation, whereas the sea surface temperature is relaxed to daily objective analysis fields. The model is online coupled to OceanVar, a 3D-Var ocean data assimilation scheme, to assimilate sea level anomaly along-track observations and in situ vertical profiles of temperature and salinity. Temperature fields present a continuous warming in the layer between 25 and 150 m, where the Black Sea Cold Intermediate Layer resides. This is an important signal of the Black Sea response to climate change. Sea surface temperature shows a basin-wide positive bias and the root mean square difference can reach 0.75^◦C along the Turkish coast in summer. The overall surface dynamic topography is well reproduced as well as the reanalysis can represent the main Black Sea circulation such as the Rim Current and the quasi-permanent anticyclonic Sevastopol and Batumi eddies. The system produces very accurate estimates of temperature, salinity and sea level which makes it suitable for understanding the Black Sea physical state in the last decades. Nevertheless, in order to improve the quality of the Black Sea reanalysis, new developments in ocean modeling and data assimilation are still important, and sustaining the Black Sea ocean observing system is crucial.

Orijinal dil	İngilizce
Makale numarası	710973
Dergi	Frontiers in Marine Science
Hacim	8
DOI'lar	https://doi.org/10.3389/fmars.2021.710973
Yayın durumu	Yayınlandı - Eyl 2021

Bibliyografik not

Publisher Copyright:
© 2021 Lima, Ciliberti, Aydoğdu, Masina, Escudier, Cipollone, Azevedo, Causio, Peneva, Lecci, Clementi, Jansen, Ilicak, Cretì, Stefanizzi, Palermo and Coppini.

Finansman

This research was funded by the Copernicus Marine Environment and Monitoring Service for the Black Sea Monitoring and Forecasting Centre (Contract No. 72-CMEMS-MFC-BS).

BM SKH

Bu sonuç, aşağıdaki Sürdürülebilir Kalkınma Hedefine/Hedeflerine katkıda bulunur

Belgeye Erişim

10.3389/fmars.2021.710973

Diğer Dosyalar ve Linkler

Link to publication in Scopus

Alıntı Yap

Lima, L., Ciliberti, S. A., Aydoğdu, A., Masina, S., Escudier, R., Cipollone, A., Azevedo, D., Causio, S., Peneva, E., Lecci, R., Clementi, E., Jansen, E., Ilicak, M., Cretì, S., Stefanizzi, L., Palermo, F., & Coppini, G. (2021). Climate Signals in the Black Sea From a Multidecadal Eddy-Resolving Reanalysis. Frontiers in Marine Science, 8, Makale 710973. https://doi.org/10.3389/fmars.2021.710973

@article{7385d821cf5242b192224bfd4e09d599,

title = "Climate Signals in the Black Sea From a Multidecadal Eddy-Resolving Reanalysis",

abstract = "Ocean reanalyses are becoming increasingly important to reconstruct and provide an overview of the ocean state from the past to the present-day. In this article, we present a Black Sea reanalysis covering the whole satellite altimetry era. In the scope of the Copernicus Marine Environment Monitoring Service, the Black Sea reanalysis system is produced using an advanced variational data assimilation method to combine the best available observations with a state-of-the-art ocean general circulation model. The hydrodynamical model is based on Nucleus for European Modeling of the Ocean, implemented for the Black Sea domain with a horizontal resolution of 1/27◦ × 1/36◦, and 31 unevenly distributed vertical levels. The model is forced by the ECMWF ERA5 atmospheric reanalysis and climatological precipitation, whereas the sea surface temperature is relaxed to daily objective analysis fields. The model is online coupled to OceanVar, a 3D-Var ocean data assimilation scheme, to assimilate sea level anomaly along-track observations and in situ vertical profiles of temperature and salinity. Temperature fields present a continuous warming in the layer between 25 and 150 m, where the Black Sea Cold Intermediate Layer resides. This is an important signal of the Black Sea response to climate change. Sea surface temperature shows a basin-wide positive bias and the root mean square difference can reach 0.75◦C along the Turkish coast in summer. The overall surface dynamic topography is well reproduced as well as the reanalysis can represent the main Black Sea circulation such as the Rim Current and the quasi-permanent anticyclonic Sevastopol and Batumi eddies. The system produces very accurate estimates of temperature, salinity and sea level which makes it suitable for understanding the Black Sea physical state in the last decades. Nevertheless, in order to improve the quality of the Black Sea reanalysis, new developments in ocean modeling and data assimilation are still important, and sustaining the Black Sea ocean observing system is crucial.",

keywords = "climate change, eddy-resolving reanalysis, ocean monitoring indicators, past reconstruction, variational data assimilation",

author = "Leonardo Lima and Ciliberti, {Stefania Angela} and Ali Aydoğdu and Simona Masina and Romain Escudier and Andrea Cipollone and Diana Azevedo and Salvatore Causio and Elisaveta Peneva and Rita Lecci and Emanuela Clementi and Eric Jansen and Mehmet Ilicak and Sergio Cret{\`i} and Laura Stefanizzi and Francesco Palermo and Giovanni Coppini",

note = "Publisher Copyright: {\textcopyright} 2021 Lima, Ciliberti, Aydoğdu, Masina, Escudier, Cipollone, Azevedo, Causio, Peneva, Lecci, Clementi, Jansen, Ilicak, Cret{\`i}, Stefanizzi, Palermo and Coppini.",

year = "2021",

month = sep,

doi = "10.3389/fmars.2021.710973",

language = "English",

volume = "8",

journal = "Frontiers in Marine Science",

issn = "2296-7745",

publisher = "Frontiers Media SA",

}

Lima, L, Ciliberti, SA, Aydoğdu, A, Masina, S, Escudier, R, Cipollone, A, Azevedo, D, Causio, S, Peneva, E, Lecci, R, Clementi, E, Jansen, E, Ilicak, M, Cretì, S, Stefanizzi, L, Palermo, F & Coppini, G 2021, 'Climate Signals in the Black Sea From a Multidecadal Eddy-Resolving Reanalysis', Frontiers in Marine Science, hac. 8, 710973. https://doi.org/10.3389/fmars.2021.710973

TY - JOUR

T1 - Climate Signals in the Black Sea From a Multidecadal Eddy-Resolving Reanalysis

AU - Lima, Leonardo

AU - Ciliberti, Stefania Angela

AU - Aydoğdu, Ali

AU - Masina, Simona

AU - Escudier, Romain

AU - Cipollone, Andrea

AU - Azevedo, Diana

AU - Causio, Salvatore

AU - Peneva, Elisaveta

AU - Lecci, Rita

AU - Clementi, Emanuela

AU - Jansen, Eric

AU - Ilicak, Mehmet

AU - Cretì, Sergio

AU - Stefanizzi, Laura

AU - Palermo, Francesco

AU - Coppini, Giovanni

PY - 2021/9

Y1 - 2021/9

N2 - Ocean reanalyses are becoming increasingly important to reconstruct and provide an overview of the ocean state from the past to the present-day. In this article, we present a Black Sea reanalysis covering the whole satellite altimetry era. In the scope of the Copernicus Marine Environment Monitoring Service, the Black Sea reanalysis system is produced using an advanced variational data assimilation method to combine the best available observations with a state-of-the-art ocean general circulation model. The hydrodynamical model is based on Nucleus for European Modeling of the Ocean, implemented for the Black Sea domain with a horizontal resolution of 1/27◦ × 1/36◦, and 31 unevenly distributed vertical levels. The model is forced by the ECMWF ERA5 atmospheric reanalysis and climatological precipitation, whereas the sea surface temperature is relaxed to daily objective analysis fields. The model is online coupled to OceanVar, a 3D-Var ocean data assimilation scheme, to assimilate sea level anomaly along-track observations and in situ vertical profiles of temperature and salinity. Temperature fields present a continuous warming in the layer between 25 and 150 m, where the Black Sea Cold Intermediate Layer resides. This is an important signal of the Black Sea response to climate change. Sea surface temperature shows a basin-wide positive bias and the root mean square difference can reach 0.75◦C along the Turkish coast in summer. The overall surface dynamic topography is well reproduced as well as the reanalysis can represent the main Black Sea circulation such as the Rim Current and the quasi-permanent anticyclonic Sevastopol and Batumi eddies. The system produces very accurate estimates of temperature, salinity and sea level which makes it suitable for understanding the Black Sea physical state in the last decades. Nevertheless, in order to improve the quality of the Black Sea reanalysis, new developments in ocean modeling and data assimilation are still important, and sustaining the Black Sea ocean observing system is crucial.

AB - Ocean reanalyses are becoming increasingly important to reconstruct and provide an overview of the ocean state from the past to the present-day. In this article, we present a Black Sea reanalysis covering the whole satellite altimetry era. In the scope of the Copernicus Marine Environment Monitoring Service, the Black Sea reanalysis system is produced using an advanced variational data assimilation method to combine the best available observations with a state-of-the-art ocean general circulation model. The hydrodynamical model is based on Nucleus for European Modeling of the Ocean, implemented for the Black Sea domain with a horizontal resolution of 1/27◦ × 1/36◦, and 31 unevenly distributed vertical levels. The model is forced by the ECMWF ERA5 atmospheric reanalysis and climatological precipitation, whereas the sea surface temperature is relaxed to daily objective analysis fields. The model is online coupled to OceanVar, a 3D-Var ocean data assimilation scheme, to assimilate sea level anomaly along-track observations and in situ vertical profiles of temperature and salinity. Temperature fields present a continuous warming in the layer between 25 and 150 m, where the Black Sea Cold Intermediate Layer resides. This is an important signal of the Black Sea response to climate change. Sea surface temperature shows a basin-wide positive bias and the root mean square difference can reach 0.75◦C along the Turkish coast in summer. The overall surface dynamic topography is well reproduced as well as the reanalysis can represent the main Black Sea circulation such as the Rim Current and the quasi-permanent anticyclonic Sevastopol and Batumi eddies. The system produces very accurate estimates of temperature, salinity and sea level which makes it suitable for understanding the Black Sea physical state in the last decades. Nevertheless, in order to improve the quality of the Black Sea reanalysis, new developments in ocean modeling and data assimilation are still important, and sustaining the Black Sea ocean observing system is crucial.

KW - climate change

KW - eddy-resolving reanalysis

KW - ocean monitoring indicators

KW - past reconstruction

KW - variational data assimilation

UR - http://www.scopus.com/inward/record.url?scp=85113386896&partnerID=8YFLogxK

U2 - 10.3389/fmars.2021.710973

DO - 10.3389/fmars.2021.710973

M3 - Article

AN - SCOPUS:85113386896

SN - 2296-7745

VL - 8

JO - Frontiers in Marine Science

JF - Frontiers in Marine Science

M1 - 710973

ER -

Climate Signals in the Black Sea From a Multidecadal Eddy-Resolving Reanalysis

Özet

Bibliyografik not

Finansman

BM SKH

Belgeye Erişim

Diğer Dosyalar ve Linkler

Parmak izi

Alıntı Yap