Monitoring the Secondary Forest Succession and Land Cover/Use Changes of the Błędów Desert (Poland) Using Geospatial Analyses

Monitoring the Secondary Forest Succession and Land Cover/Use Changes of the Błędów Desert (Poland) Using Geospatial Analyses

The role of image classification based on multi-source, multi-temporal and multi-resolution remote sensed data is on the rise in the environmental studies due to the availability of new satellite sensors, easier access to aerial orthoimages and the automation of image analysis algorithms. The remote...

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Main Authors: Szostak Marta, Wężyk Piotr, Hawryło Paweł, Puchała Marta
Format: Article
Language:English
Published: Sciendo 2016-09-01
Series:Quaestiones Geographicae
Subjects:
lulc changes
geographic object based image analysis (geobia)
pixel-based classification
gis analyses
secondary forest succession
Online Access:https://doi.org/10.1515/quageo-2016-0022
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spelling doaj-aad43701413548c3a40ce5475e61630d2021-09-05T20:51:29ZengSciendoQuaestiones Geographicae2081-63832016-09-0135311310.1515/quageo-2016-0022quageo-2016-0022Monitoring the Secondary Forest Succession and Land Cover/Use Changes of the Błędów Desert (Poland) Using Geospatial AnalysesSzostak Marta0Wężyk Piotr1Hawryło Paweł2Puchała Marta3Institute of Forest Resources Management, University of Agriculture in Krakow, PolandInstitute of Forest Resources Management, University of Agriculture in Krakow, PolandInstitute of Forest Resources Management, University of Agriculture in Krakow, PolandInstitute of Forest Resources Management, University of Agriculture in Krakow, PolandThe role of image classification based on multi-source, multi-temporal and multi-resolution remote sensed data is on the rise in the environmental studies due to the availability of new satellite sensors, easier access to aerial orthoimages and the automation of image analysis algorithms. The remote sensing technology provides accurate information on the spatial and temporal distribution of land use and land cover (LULC) classes. The presented study focuses on LULC change dynamics (especially secondary forest succession) that occurred between 1974 and 2010 in the Błędów Desert (an area of approx. 1210 ha; a unique refuge habitat – NATURA 2000; South Poland). The methods included: photointerpretation and on-screen digitalization of KH-9 CORONA (1974), aerial orthoimages (2009) and satellite images (LANDSAT 7 ETM+, 1999 and BlackBridge – RapidEye, 2010) and GIS spatial analyses. The results of the study have confirmed the high dynamic of the overgrowth process of the Błędów Desert by secondary forest and shrub vegetation. The bare soils covered 19.3% of the desert area in 1974, the initial vegetation and bush correspondingly 23.1% and 30.5%. In the years 2009/2010 the mentioned classes contained: the bare soils approx. 1.1%, the initial vegetation – 8.7% and bush – 15.8%. The performed classifications and GIS analyses confirmed a continuous increase in the area covered by forests, from 11.6% (KH-9) up to 24.2%, about 25 years later (LANDSAT 7) and in the following 11 years, has shown an increase up to 35.7% (RapidEye 2010).https://doi.org/10.1515/quageo-2016-0022lulc changesgeographic object based image analysis (geobia)pixel-based classificationgis analysessecondary forest succession
collection DOAJ
language English
format Article
sources DOAJ
author Szostak Marta
Wężyk Piotr
Hawryło Paweł
Puchała Marta
spellingShingle Szostak Marta
Wężyk Piotr
Hawryło Paweł
Puchała Marta
Monitoring the Secondary Forest Succession and Land Cover/Use Changes of the Błędów Desert (Poland) Using Geospatial Analyses
Quaestiones Geographicae
lulc changes
geographic object based image analysis (geobia)
pixel-based classification
gis analyses
secondary forest succession
author_facet Szostak Marta
Wężyk Piotr
Hawryło Paweł
Puchała Marta
author_sort Szostak Marta
title Monitoring the Secondary Forest Succession and Land Cover/Use Changes of the Błędów Desert (Poland) Using Geospatial Analyses
title_short Monitoring the Secondary Forest Succession and Land Cover/Use Changes of the Błędów Desert (Poland) Using Geospatial Analyses
title_full Monitoring the Secondary Forest Succession and Land Cover/Use Changes of the Błędów Desert (Poland) Using Geospatial Analyses
title_fullStr Monitoring the Secondary Forest Succession and Land Cover/Use Changes of the Błędów Desert (Poland) Using Geospatial Analyses
title_full_unstemmed Monitoring the Secondary Forest Succession and Land Cover/Use Changes of the Błędów Desert (Poland) Using Geospatial Analyses
title_sort monitoring the secondary forest succession and land cover/use changes of the błędów desert (poland) using geospatial analyses
publisher Sciendo
series Quaestiones Geographicae
issn 2081-6383
publishDate 2016-09-01
description The role of image classification based on multi-source, multi-temporal and multi-resolution remote sensed data is on the rise in the environmental studies due to the availability of new satellite sensors, easier access to aerial orthoimages and the automation of image analysis algorithms. The remote sensing technology provides accurate information on the spatial and temporal distribution of land use and land cover (LULC) classes. The presented study focuses on LULC change dynamics (especially secondary forest succession) that occurred between 1974 and 2010 in the Błędów Desert (an area of approx. 1210 ha; a unique refuge habitat – NATURA 2000; South Poland). The methods included: photointerpretation and on-screen digitalization of KH-9 CORONA (1974), aerial orthoimages (2009) and satellite images (LANDSAT 7 ETM+, 1999 and BlackBridge – RapidEye, 2010) and GIS spatial analyses. The results of the study have confirmed the high dynamic of the overgrowth process of the Błędów Desert by secondary forest and shrub vegetation. The bare soils covered 19.3% of the desert area in 1974, the initial vegetation and bush correspondingly 23.1% and 30.5%. In the years 2009/2010 the mentioned classes contained: the bare soils approx. 1.1%, the initial vegetation – 8.7% and bush – 15.8%. The performed classifications and GIS analyses confirmed a continuous increase in the area covered by forests, from 11.6% (KH-9) up to 24.2%, about 25 years later (LANDSAT 7) and in the following 11 years, has shown an increase up to 35.7% (RapidEye 2010).
topic lulc changes
geographic object based image analysis (geobia)
pixel-based classification
gis analyses
secondary forest succession
url https://doi.org/10.1515/quageo-2016-0022
work_keys_str_mv AT szostakmarta monitoringthesecondaryforestsuccessionandlandcoverusechangesofthebłedowdesertpolandusinggeospatialanalyses
AT wezykpiotr monitoringthesecondaryforestsuccessionandlandcoverusechangesofthebłedowdesertpolandusinggeospatialanalyses
AT hawryłopaweł monitoringthesecondaryforestsuccessionandlandcoverusechangesofthebłedowdesertpolandusinggeospatialanalyses
AT puchałamarta monitoringthesecondaryforestsuccessionandlandcoverusechangesofthebłedowdesertpolandusinggeospatialanalyses
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