Your search keyword '"Ionita, Monica"' showing total 7 results

1. Stable oxygen isotopes in Romanian oak tree rings record summer droughts and associated large-scale circulation patterns over Europe.

Author

Nagavciuc, Viorica, Ionita, Monica, Perșoiu, Aurel, Popa, Ionel, Loader, Neil J., and McCarroll, Danny

Subjects

*TREE-rings, *STABLE isotopes, *OXYGEN isotopes, *SUNSHINE, *DROUGHTS, *ATMOSPHERIC circulation, *ENGLISH oak

Abstract

We present the first annual oxygen isotope record (1900–2016) from the latewood (LW) cellulose of oak trees (Quercus robur) from NW Romania. As expected, the results correlate negatively with summer relative humidity, sunshine duration and precipitation and positively with summer maximum temperature. Spatial correlation analysis reveals a clear signal reflecting drought conditions at a European scale. Interannual variability is influenced by large-scale atmospheric circulation and by surface temperatures in the North Atlantic Ocean and the Mediterranean Sea. There is considerable potential to produce long and well-replicated oak tree ring stable isotope chronologies in Romania which would allow reconstructions of both regional drought and large-scale circulation variability over southern and central Europe. [ABSTRACT FROM AUTHOR]

Published

2019

2. Can tree-ring density data reflect summer temperature extremes and associated circulation patterns over Fennoscandia?

Author

Zhang, Peng, Ionita, Monica, Lohmann, Gerrit, Chen, Deliang, and Linderholm, Hans

Subjects

*TREE-rings, *ATMOSPHERIC circulation, *JET streams, *SUMMER

Abstract

Tree-ring maximum latewood density (MXD) records from Fennoscandia have been widely used to infer regional- and hemispheric-scale mean temperature variability. Here, we explore if MXD records can also be used to infer past variability of summer temperature extremes across Fennoscandia. The first principal component (PC1) based on 34 MXD chronologies in Fennoscandia explains 50% of the total variance in the observed warm-day extremes over the period 1901-1978. Variations in both observed summer warm-day extremes and PC1 are influenced by the frequency of anomalous anticyclonic pattern over the region, summer sea surface temperatures over the Baltic, North and Norwegian Seas, and the strength of the westerly zonal wind at 200 hPa across Fennoscandia. Both time series are associated with nearly identical atmospheric circulation and SST patterns according to composite map analysis. In a longer context, the first PC based on 3 millennium-long MXD chronologies in central and northern Fennoscandia explains 83% of the total variance of PC1 from the 34 MXD chronologies over the period 1901-1978, 48% of the total variance of the summer warm-day extreme variability over the period 1901-2006, and 36% of the total variance in the frequency of a summer anticyclonic pattern centered over eastern-central Fennoscandia in the period 1948-2006. The frequency of summer warm-day extremes in Fennoscandia is likely linked to a meridional shift of the northern mid-latitude jet stream. This study shows that the MXD network can be used to infer the variability of past summer warm-day extremes and the frequency of the associated summer anticyclonic circulation pattern over Fennoscandia. [ABSTRACT FROM AUTHOR]

Published

2017

3. Hotspot movement of compound events on the Europe continent.

Author

Doshi, Smit Chetan, Lohmann, Gerrit, and Ionita, Monica

Subjects

*GEOLOGIC hot spots, *EXTREME weather, *CLIMATE extremes, *HEAT index, *LAND cover, *CONTINENTS

Abstract

Climate indices are often used as a climate monitoring tool, allowing us to understand how the frequency, intensity, and duration of extreme weather events are changing over time. Here, based on complex statistical analysis we identify highly correlated significant pairs of compound events at the highest spatial resolution, on a monthly temporal scale across Europe. Continental-scale monthly analysis unleashes information on compound events such as high-risk zones, hotspots, monthly shifts of hotspots and trends, risk exposure to land cover and population, and identification of maximum increasing trends. While there are many studies on single or compound climate extremes there are only a few studies that addresses the relationship between pairs of hazards, the incorporation of bioclimatic indices, the determination of a grid best-fit copula approach, and the outlining relevance of this work of compound event risks with exposures. In this respect, here, using 27-bivariate and 10-trivariate copula models, we show that the different hazard pairs have high combined risks of indices related to radiation, temperature, evapotranspiration, bioclimatic-based indices, such as the universal thermal climate index, wind chill index, and heat index, mainly over the northern and eastern European countries. Furthermore, we show that over the last 7 decades, agricultural and coastal areas are highly exposed to the risks of defined hotspots of compound events. In some of the hotspots of compound events-identified by clusters, there is no monthly shifts of hotspots, leading to higher impacts when compounded. Future work needs to integrate the framework and process to identify other compound pairs. [ABSTRACT FROM AUTHOR]

Published

2023

4. Multidecadal variability of summer temperature over Romania and its relation with Atlantic Multidecadal Oscillation.

Author

Ionita, Monica, Rimbu, Norel, Chelcea, Silvia, and Patrut, Simona

Subjects

*SUMMER, *METEOROLOGICAL stations, *ATMOSPHERIC circulation, *NORTH Atlantic oscillation

Abstract

We investigate the multidecadal variability of summer temperature over Romania as measured at 14 meteorological stations with long-term observational records. The dominant pattern of summer temperature variability has a monopolar structure and shows pronounced multidecadal variations. A correlation analysis reveals that these multidecadal variations are related with multidecadal variations in the frequency of four daily atmospheric circulation patterns from the North Atlantic region. It is found that on multidecadal time scales, negative summer mean temperature (TT) anomalies are associated with positive sea level pressure (SLP) anomalies centered over the northern part of the Atlantic Ocean and Scandinavia and negative SLP anomalies centered over the northern part of Africa. It is speculated that a possible cause of multidecadal fluctuations in the frequency of these four patterns are the sea surface temperature (SST) anomalies associated to the Atlantic Multidecadal Oscillation (AMO). These results have implications for predicting the evolution of summer temperature over Romania on multidecadal time scales. [ABSTRACT FROM AUTHOR]

Published

2013

5. A tree ring-based hydroclimate reconstruction for eastern Europe reveals large-scale teleconnection patterns.

Author

Roibu, Cătălin-Constantin, Nagavciuc, Viorica, Ionita, Monica, Popa, Ionel, Horodnic, Sergiu-Andrei, Mursa, Andrei, and Büntgen, Ulf

Subjects

*TREE-rings, *OCEAN temperature, *EUROPEAN beech, *TELECONNECTIONS (Climatology), *ATMOSPHERIC circulation, *CLIMATE extremes, *DOCUMENTARY evidence, *BEECH

Abstract

We present a new beech (Fagus sylvatica L.) tree-ring width composite chronology from five natural low-elevation forests in eastern Romania, which represent the species' continental distribution limit. Our regional beech chronology reflects April–June hydroclimate variability in form of the Standardized Precipitation Evapotranspiration Index over large parts of Romania, Ukraine, and the Republic of Moldova, for which high-resolution paleoclimatic evidence is broadly missing. Most of the reconstructed hydroclimatic extremes back to 1768 CE are confirmed by documentary evidences, and a robust association is found with large-scale atmospheric circulation patterns in the Northern Hemisphere and sea surface temperatures over the North Atlantic. Reconstructed pluvials coincide with a high-pressure system over the North Atlantic Ocean and north-western Europe, and with a low-pressure system over south-western, central and eastern Europe, whereas historical droughts coincide with a high-pressure system over Europe and a low-pressure system over the central part of the Atlantic Ocean. Our study demonstrates the potential to produce well-replicated, multi-centennial beech chronologies for eastern Europe to reconstruct regional hydroclimate variation and better understand the causes and consequences of large-scale teleconnection patterns. [ABSTRACT FROM AUTHOR]

Published

2022

6. AMOC modes linked with distinct North Atlantic deep water formation sites.

Author

Dima, Mihai, Lohmann, Gerrit, Ionita, Monica, Knorr, Gregor, and Scholz, Patrick

Subjects

*ATLANTIC meridional overturning circulation, *ATLANTIC multidecadal oscillation, *GENERAL circulation model, *OCEAN temperature, *OCEAN circulation, *NORTH Atlantic oscillation

Abstract

The Atlantic Meridional Overturning Circulation (AMOC) is a tipping component of the climate system, with a quasi-global impact. Several numerical and observational studies emphasized two modes of AMOC variability, characterized by two distinct Atlantic sea surface temperature patterns. One is associated with centennial changes, the Trend Mode, and the other with the Atlantic Multidecadal Oscillation (AMO). The origin of the different manifestations of these modes it is not fully understood. Using observational data and an ocean general circulation model we present evidence that, whereas the Trend Mode is mainly linked with deep water formation in the Nordic Seas and with a North Atlantic AMOC cell centered at 50° N, AMO is related with deep water formation in the Labrador and Irminger Seas and with an overturning cell centered at 20° N. In combination with previous studies, these results imply that a main route of increasing atmospheric CO2 concentration influence on AMOC passes through deep water formation in the Nordic Seas and it is reflected in a subpolar North Atlantic meridional cell. [ABSTRACT FROM AUTHOR]

Published

2022

7. Disentangling and quantifying contributions of distinct forcing factors to the observed global sea level pressure field.

Author

Vaideanu, Petru, Dima, Mihai, Pirloaga, Razvan, and Ionita, Monica

Subjects

*SEA level, *GENERAL circulation model, *ATMOSPHERIC boundary layer, *ATLANTIC multidecadal oscillation, *CARBON cycle, *SOUTHERN oscillation

Abstract

Variations of the global sea level pressure (SLP) field reflect atmospheric and oceanic influences and have a profound influence on temperature, precipitation and the global carbon cycle. The impact of various forcing factors on this field was investigated mainly based on numerical simulations. Alternatively, here we identify and quantify the influences of various forcing factors on observational, reanalysis and simulated SLP fields. By applying canonical correlation analysis (CCA) on the aforementioned data sets, we separated and quantified the impact of increase CO2 concentration, El Niño–Southern Oscillation (ENSO), Atlantic Multidecadal Oscillation (AMO), Arctic Oscillation (AO) and solar forcing on the global SLP field, based on their associations with known footprints on the sea surface temperature (SST). Together, their corresponding SLP spatial structures explain ~ 60% of the observed variance. Whereas the atmospheric CO2 concentration has the most prominent impact on the global SLP field, explaining 28% of variance, ENSO and AO account for 9% each. The solar forcing and AMO explain 7%, respectively 6% of global SLP variance. Similar spatial structures corresponding to the same forcing factors are identified based on the reanalysis SLP data. CCA applied on simulated SLP fields derived from six CMIP5 model simulations captures only the spatial structures of atmospheric CO2 concentration, ENSO, AAO and AO. Such a decomposition of the global pressure field based on a linear combination of coupled SST-SLP pairs provide a reference against which one could validate the performance of general circulation models in simulating the lower atmosphere dynamics. [ABSTRACT FROM AUTHOR]

Published

2020