Applicability of Point- and Polygon-Based Vegetation Monitoring Data to Identify Soil, Hydrological and Climatic Driving Forces of Biological Invasions—A Case Study of Ailanthus altissima, Elaeagnus angustifolia and Robinia pseudoacacia

Visztra, Georgina Veronika; Frei, Kata; Hábenczyus, Alida Anna; Soóky, Anna; Bátori, Zoltán; Laborczi, Annamária; Csikós, Nándor; Szatmári, Gábor; Szilassi, Péter

doi:10.3390/plants12040855

Plants

2023

DOI: 10.3390/plants12040855

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Applicability of Point- and Polygon-Based Vegetation Monitoring Data to Identify Soil, Hydrological and Climatic Driving Forces of Biological Invasions—A Case Study of Ailanthus altissima, Elaeagnus angustifolia and Robinia pseudoacacia

Georgina Veronika Visztra

Kata Frei

Alida Anna Hábenczyus

et al.

Abstract: Invasive tree species are a significant threat to native flora. They modify the environment with their allelopathic substances and inhibit the growth of native species by shading, thus reducing diversity. The most effective way to control invasive plants is to prevent their spread which requires identifying the environmental parameters promoting it. Since there are several types of invasive plant databases available, determining which database type is the most relevant for investigating the occurrence of alien… Show more

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2024

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Application of a spatial dataset for monitoring invasive woody plant species in the forests of Transcarpathia, Ukraine

Mihaly,

Roman

2024

Geo&Bio

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The paper describes and provides examples of the application of the developed spatial dataset on the spread of invasive woody plant species in the forests of Transcarpathia, Ukraine. The dataset was developed based on forest inventory data using the open source QGIS program, which performed digitisation of forest plantation plans of permanent forest users and overlay analysis. The created dataset contains 4212 records of the distribution of the following invasive woody plant species: black locust (Robinia pseudoacacia L.), northern red oak (Quercus rubra L.), ash maple (Acer negundo L.), and brittle willow (Salix fragilis L.). The dataset contains information on the location of forest plots, silvicultural and taxonomic characteristics of stands with predominance and participation of invasive woody plant species. The created spatial dataset was used to study the distribution of invasive woody species of black locust and northern red oak in Transcarpathia by geobotanical and floristic zones. The results of the study showed that the most favourable conditions for the distribution of black locust are the area of beech-oak and oak-beech foothill forests of the Volcanic Range of the Ukrainian Carpathians within Transcarpathia, as well as the Transcarpathian Plain forest area. Unlike the artificially created northern red oak forests, the distribution of the black locust in the study area is primarily due to its biological properties, specifics of environmental relationships and of forestry in the past. Regarding the distribution of the northern red oak, the results of using our spatial dataset show that such forests have the largest portion in the areas of hornbeam-beech and beech forests (39.4%) and in the forests of the Volcanic Ridge (24.2%). The created spatial dataset can be used to study the distribution of invasive woody plant species within the forest cover of Transcarpathia. The spatial dataset can also be utilised as a source of training samples for machine learning, which is involved in the processing of satellite images to identify new habitats of invasive woody plant species.

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Application of a spatial dataset for monitoring invasive woody plant species in the forests of Transcarpathia, Ukraine

Mihaly,

Roman

2024

Geo&Bio

View full text Add to dashboard Cite

show abstract

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Applicability of Point- and Polygon-Based Vegetation Monitoring Data to Identify Soil, Hydrological and Climatic Driving Forces of Biological Invasions—A Case Study of Ailanthus altissima, Elaeagnus angustifolia and Robinia pseudoacacia

Cited by 1 publication

References 34 publications

Application of a spatial dataset for monitoring invasive woody plant species in the forests of Transcarpathia, Ukraine

Application of a spatial dataset for monitoring invasive woody plant species in the forests of Transcarpathia, Ukraine

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