Use of geographically weighted regression to enhance the spatial features of forest attribute maps

Maselli, Fabio; Chiesi, Marta; Corona, Piermaria

doi:10.1117/1.jrs.8.083533

Cited by 4 publications

(2 citation statements)

References 33 publications

(42 reference statements)

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“…Environmental parameters derived from remote sensing data, as a comprehensive representation of climate and environmental factors, are used in large-scale biodiversity studies (Liu et al, 2019). Satellite remote sensing methods are a valuable alternative source of information on the characteristics of forest ecosystems at different spatial and time scales (Maselli et al, 2014;Furukawa et al, 2020). Equally effective is the use of remote sensing data for the analysis of flora species diversity (Coops et al, 2019;Damtew et al, 2021).…”

Section: Resultsmentioning

confidence: 99%

Spatial variation of earthworm communities in the motorway proximity

Harbar,

Moroz,

Harbar

et al. 2024

Biol. Stud.

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Background. The spatial features of the structure of earthworm communities in the area of influence of motor vehicles were analyzed. Five species of lumbricides belonging to three families were found in the studied biocenosis located near the M06 Kyiv–Chop motorway (Ukraine): Aporrectodea caliginosa (Savigny, 1826), A. rosea (Savigny, 1826), A. trapezoidеs (Dugesi, 1828), Lumbricus terrestris (Linnaeus, 1758) and Dendrobaena octaedra (Savigny, 1826). Materials and Methods. Earthworms were collected during 2021–2022 in the biocenosis near the M06 Kyiv–Chop motorway (Berezyna village, Zhytomyr region). The material was collected by excavation and layer-by-layer analysis of soil samples. The thickness of each layer was 10 cm. The maximum depth – 0.5 m. Samples were taken every 10 m from the road to a distance of 210 m. The distance between the rows of samples along the road was 30 m. STATISTICA software package was used for statistical analysis of the data. Biodiversity assessments were calculated using the PAST software package. SAGA and Q-GIS software packages were used for spatial analysis and mapping of the data. Results and Discussion. The key factor that influences the structure of earthworm communities in the area of road transport impact is the distance from the source of impact. The maximum values of the dominance, Margalef and Berger–Parker indexes and the number of species are observed in areas near the motorway, while the values of the Shannon, Simpson, Menhinik and Brillouin indexes have the opposite trend. There is a correlation between the spatial variability of the structure of earthworm communities and the values of reflectance in the bands B3, B5, B11 of the Sentinel-2 satellite image. It allowed us to apply a geographically weighted regression algorithm with several predictors that indirectly reflect environmental parameters to the data. Conclusion. The results obtained show that the use of predictors allows us to obtain a more mosaic model of the distribution of indicator values compared to interpolation by kriging, which can be used to predict the values of earthworm biodiversity indicators within the study area.

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Section: Resultsmentioning

confidence: 99%

Spatial variation of earthworm communities in the motorway proximity

Harbar,

Moroz,

Harbar

et al. 2024

Biol. Stud.

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“…The current iterative algorithm has provided satisfactory results, improving the spatial properties of the LR images in practically all cases. Other algorithms could be envisaged and tested, for example applying to the HR imagery classification or regression techniques trained on the LR abundance images [Maselli et al, 2014]. The final results are affected by the temporal proximity of the base and synthetic HR images but are mainly dependent on the information content of the HR data, which varies during the growing season.…”

Section: Discussionmentioning

confidence: 99%

A novel approach to produce NDVI image series with enhanced spatial properties

Maselli

Chiesi

Pieri

2016

European Journal of Remote Sensing

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A novel multi-step method is presented to improve the spatial properties of MODIS NDVI data series based on one or few single-date higher spatial resolution (HR) images. This method does not rely on the classification of the HR imagery, which is often inadequate in characterizing all main vegetation types that are present in the observed area. An unmixing strategy is instead applied to identify these vegetation types from the low spatial resolution (LR) MODIS imagery, which offers a more effective description of seasonal NDVI evolutions. In particular, an annual multitemporal MODIS NDVI data series is preliminarily decomposed by an automatic technique, which produces abundance images representative of the main vegetation types. These images are then used to extract spatially variable NDVI endmembers. Next, a statistical method is applied to improve the spatial features of the abundance images based on these endmembers and the available HR NDVI imagery. The final recombination of the spatially enhanced abundance images and NDVI endmbemers allows the production of synthetic imagery, which maintains the temporal information of the MODIS NDVI data and most spatial properties of the HR images. The new method is preliminarily tested using an annual MODIS NDVI data series and five Landsat 8 OLI images taken in a study area of Tuscany (Central Italy). The results obtained support the potential of the method and indicate some possibilities for future methodological advancement.

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