Observed changes in return values of annual temperature extremes over Argentina

Extreme temperature events are one of the most studied extreme events since their occurrence has a huge impact on society. In this study, the frequency of occurrence of absolute extreme temperature events in Argentina is analyzed. Four annual extremes are defined based on minimum and maximum daily d...

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Autores principales: Rusticucci, M., Tencer, B.
Formato: JOUR
Materias:
Climatology
Electric power transmission
Annual temperatures
Argentina
Buenos aires
Central regions
Climatic shifts
Data sets
Extreme events
Extreme temperatures
Extreme Value theories
Generalized extreme values
Lower frequencies
Maximum temperatures
Patagonia
Probability of occurrences
Return values
Spatial distributions
Twentieth centuries
Probability distributions
climate change
extreme event
spatial distribution
temperature anomaly
twentieth century
South America
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_08948755_v21_n21_p5455_Rusticucci
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
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spelling todo:paper_08948755_v21_n21_p5455_Rusticucci2023-10-03T15:42:11Z Observed changes in return values of annual temperature extremes over Argentina Rusticucci, M. Tencer, B. Climatology Electric power transmission Annual temperatures Argentina Buenos aires Central regions Climatic shifts Data sets Extreme events Extreme temperatures Extreme Value theories Generalized extreme values Lower frequencies Maximum temperatures Patagonia Probability of occurrences Return values Spatial distributions Twentieth centuries Probability distributions climate change extreme event spatial distribution temperature anomaly twentieth century Argentina South America Extreme temperature events are one of the most studied extreme events since their occurrence has a huge impact on society. In this study, the frequency of occurrence of absolute extreme temperature events in Argentina is analyzed. Four annual extremes are defined based on minimum and maximum daily data: the highest maximum (minimum) temperature of the year, and the lowest maximum (minimum) temperature of the year. Applying the extreme value theory (EVT), a generalized extreme value (GEV) distribution is fitted to these extreme indices and return values are calculated for the period 1956-2003. Its spatial distribution indicates that, for warm extremes, maximum temperature (Tx) is expected to be greater than 32°C at least once every 100 yr throughout the country (reaching values even higher than 46°C in the central region), while minimum temperature (Tn) is expected to exceed 16°C (reaching 30°C in the central and northern regions). Cold annual extremes show larger gradients across the country, with Tx being lower than 8°C at least once every 100 yr, and Tn lower than 0°C every 2 yr, with values even less 10°C in the southwestern part of the country. However, the frequency of occurrence of climatic extremes has changed throughout the globe during the twentieth century. Changes in return values of annual temperature extremes due to the 1976-77 climatic shift at six long-term datasets are then analyzed. The lowest Tx of the year is the variable in which the 1976-77 shift is less noticeable. At all the stations studied there is a decrease in the probability of occurrence of the highest Tx if the study is based on more recent records, while the frequency of occurrence of the highest Tn increases at some stations and decreases at others. This implies that in the "present climate" (after 1977) there is a greater frequency of occurrence of high values of Tn at Observatorio Central Buenos Aires and Río Gallegos together with a lower frequency of occurrence of high values of Tx, leading to a decrease in the annual temperature range. The most noticeable change in return values due to the 1976-77 shift is seen in Patagonia where the 10-yr return value for the highest Tn increases from 13.7°C before 1976 to 18.6°C after 1977. That is, values of the highest Tn that occurred at least once every 10 yr in the "past climate" (before 1976) now happened more than once every 2 yr. © 2008 American Meteorological Society. Fil:Rusticucci, M. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Fil:Tencer, B. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_08948755_v21_n21_p5455_Rusticucci
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Climatology
Electric power transmission
Annual temperatures
Argentina
Buenos aires
Central regions
Climatic shifts
Data sets
Extreme events
Extreme temperatures
Extreme Value theories
Generalized extreme values
Lower frequencies
Maximum temperatures
Patagonia
Probability of occurrences
Return values
Spatial distributions
Twentieth centuries
Probability distributions
climate change
extreme event
spatial distribution
temperature anomaly
twentieth century
Argentina
South America
spellingShingle Climatology
Electric power transmission
Annual temperatures
Argentina
Buenos aires
Central regions
Climatic shifts
Data sets
Extreme events
Extreme temperatures
Extreme Value theories
Generalized extreme values
Lower frequencies
Maximum temperatures
Patagonia
Probability of occurrences
Return values
Spatial distributions
Twentieth centuries
Probability distributions
climate change
extreme event
spatial distribution
temperature anomaly
twentieth century
Argentina
South America
Rusticucci, M.
Tencer, B.
Observed changes in return values of annual temperature extremes over Argentina
topic_facet Climatology
Electric power transmission
Annual temperatures
Argentina
Buenos aires
Central regions
Climatic shifts
Data sets
Extreme events
Extreme temperatures
Extreme Value theories
Generalized extreme values
Lower frequencies
Maximum temperatures
Patagonia
Probability of occurrences
Return values
Spatial distributions
Twentieth centuries
Probability distributions
climate change
extreme event
spatial distribution
temperature anomaly
twentieth century
Argentina
South America
description Extreme temperature events are one of the most studied extreme events since their occurrence has a huge impact on society. In this study, the frequency of occurrence of absolute extreme temperature events in Argentina is analyzed. Four annual extremes are defined based on minimum and maximum daily data: the highest maximum (minimum) temperature of the year, and the lowest maximum (minimum) temperature of the year. Applying the extreme value theory (EVT), a generalized extreme value (GEV) distribution is fitted to these extreme indices and return values are calculated for the period 1956-2003. Its spatial distribution indicates that, for warm extremes, maximum temperature (Tx) is expected to be greater than 32°C at least once every 100 yr throughout the country (reaching values even higher than 46°C in the central region), while minimum temperature (Tn) is expected to exceed 16°C (reaching 30°C in the central and northern regions). Cold annual extremes show larger gradients across the country, with Tx being lower than 8°C at least once every 100 yr, and Tn lower than 0°C every 2 yr, with values even less 10°C in the southwestern part of the country. However, the frequency of occurrence of climatic extremes has changed throughout the globe during the twentieth century. Changes in return values of annual temperature extremes due to the 1976-77 climatic shift at six long-term datasets are then analyzed. The lowest Tx of the year is the variable in which the 1976-77 shift is less noticeable. At all the stations studied there is a decrease in the probability of occurrence of the highest Tx if the study is based on more recent records, while the frequency of occurrence of the highest Tn increases at some stations and decreases at others. This implies that in the "present climate" (after 1977) there is a greater frequency of occurrence of high values of Tn at Observatorio Central Buenos Aires and Río Gallegos together with a lower frequency of occurrence of high values of Tx, leading to a decrease in the annual temperature range. The most noticeable change in return values due to the 1976-77 shift is seen in Patagonia where the 10-yr return value for the highest Tn increases from 13.7°C before 1976 to 18.6°C after 1977. That is, values of the highest Tn that occurred at least once every 10 yr in the "past climate" (before 1976) now happened more than once every 2 yr. © 2008 American Meteorological Society.
format JOUR
author Rusticucci, M.
Tencer, B.
author_facet Rusticucci, M.
Tencer, B.
author_sort Rusticucci, M.
title Observed changes in return values of annual temperature extremes over Argentina
title_short Observed changes in return values of annual temperature extremes over Argentina
title_full Observed changes in return values of annual temperature extremes over Argentina
title_fullStr Observed changes in return values of annual temperature extremes over Argentina
title_full_unstemmed Observed changes in return values of annual temperature extremes over Argentina
title_sort observed changes in return values of annual temperature extremes over argentina
url http://hdl.handle.net/20.500.12110/paper_08948755_v21_n21_p5455_Rusticucci
work_keys_str_mv AT rusticuccim observedchangesinreturnvaluesofannualtemperatureextremesoverargentina
AT tencerb observedchangesinreturnvaluesofannualtemperatureextremesoverargentina
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