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Main Authors: Vanícek, Karel, Metelka, Ladislav, Skrivánková, Pavla, Stanek, Martin
Format: Dataset Open Access
Language:en
Published: PANGAEA 2012
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Online Access:https://doi.org/10.1594/PANGAEA.779819
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author Vanícek, Karel
Metelka, Ladislav
Skrivánková, Pavla
Stanek, Martin
author_facet Vanícek, Karel
Metelka, Ladislav
Skrivánková, Pavla
Stanek, Martin
collection Datos científicos de ciencias marinas y ambientales
contents Homogenized data series of total ozone measurements taken by the regularly and well calibrated Dobson and Brewer spectrophotometers at Hradec Králové (Czech) and the data from the re-analyses ERA-40 and ERA-Interim were assimilated and combined to investigate differences between the particular data sets over Central Europe, the NH mid-latitudes. The Dobson-to-Brewer transfer function and the algorithm for approximation of the data from the re-analyses were developed, tested and applied for creation of instrumentally consistent and completed total ozone data series of the 50-year period 1961-2010 of observations. The assimilation has reduced the well-known seasonal differences between Dobson and Brewer data below the 1% calibration limit of the spectrophotometers. Incorporation of the ERA-40 and ERA-Interim total ozone data on days with missing measurements significantly improved completeness and reliability of the data series mainly in the first two decades of the period concerned. Consistent behaviour of the original and assimilated data sets was found in the pre-ozone-hole period (1961-1985). In the post-Pinatubo (1994-2010) era the data series show seasonal differences that can introduce uncertainty in estimation of ozone recovery mainly in the winter-spring season when the effect of the Montreal Protocol and its Amendments is expected. All the data sets confirm substantial depletion of ozone also in the summer months that gives rise to the question about its origin. The assimilated and completed data series of total ozone will be further analyzed to quantify chemical ozone losses and contribution of natural atmospheric processes to the ozone depletion over the region. This case study points out importance of selection and evaluation of the quality and consistency of the input data sets used in estimation of long-term ozone changes including recovery of the ozone layer over the selected areas.
format Dataset Open Access
id pangaea_https___doi_org_10_1594_PANGAEA_779819
institution PANGAEA
language en
publishDate 2012
publisher PANGAEA
record_format pangaea
spellingShingle Hradec Králové total ozone assimilated time series from 1961 to 2010
Vanícek, Karel
Metelka, Ladislav
Skrivánková, Pavla
Stanek, Martin
Brewer Ozone Spectrophotometer, B098; Czech rural; DATE/TIME; Dobson Ozone Spectrophotometer, D074; Hradec Králové; Ozone total; P209_10_0058; see comment; Validation flag/comment; Weather station/meteorological observation; WST
Homogenized data series of total ozone measurements taken by the regularly and well calibrated Dobson and Brewer spectrophotometers at Hradec Králové (Czech) and the data from the re-analyses ERA-40 and ERA-Interim were assimilated and combined to investigate differences between the particular data sets over Central Europe, the NH mid-latitudes. The Dobson-to-Brewer transfer function and the algorithm for approximation of the data from the re-analyses were developed, tested and applied for creation of instrumentally consistent and completed total ozone data series of the 50-year period 1961-2010 of observations. The assimilation has reduced the well-known seasonal differences between Dobson and Brewer data below the 1% calibration limit of the spectrophotometers. Incorporation of the ERA-40 and ERA-Interim total ozone data on days with missing measurements significantly improved completeness and reliability of the data series mainly in the first two decades of the period concerned. Consistent behaviour of the original and assimilated data sets was found in the pre-ozone-hole period (1961-1985). In the post-Pinatubo (1994-2010) era the data series show seasonal differences that can introduce uncertainty in estimation of ozone recovery mainly in the winter-spring season when the effect of the Montreal Protocol and its Amendments is expected. All the data sets confirm substantial depletion of ozone also in the summer months that gives rise to the question about its origin. The assimilated and completed data series of total ozone will be further analyzed to quantify chemical ozone losses and contribution of natural atmospheric processes to the ozone depletion over the region. This case study points out importance of selection and evaluation of the quality and consistency of the input data sets used in estimation of long-term ozone changes including recovery of the ozone layer over the selected areas.
title Hradec Králové total ozone assimilated time series from 1961 to 2010
topic Brewer Ozone Spectrophotometer, B098; Czech rural; DATE/TIME; Dobson Ozone Spectrophotometer, D074; Hradec Králové; Ozone total; P209_10_0058; see comment; Validation flag/comment; Weather station/meteorological observation; WST
url https://doi.org/10.1594/PANGAEA.779819