Your search keyword '"Sandra Luque"' showing total 4 results

1. A Remote Sensing Approach to Understanding Patterns of Secondary Succession in Tropical Forest

Author

Eric Chraibi, Haley Arnold, Sandra Luque, Amy Deacon, Anne E. Magurran, and Jean-Baptiste Féret

Subjects

diversity indices, agroforestry, Sentinel-2, biodiversity monitoring, alpha-diversity, beta-diversity, Science

Abstract

Monitoring biodiversity on a global scale is a major challenge for biodiversity conservation. Field assessments commonly used to assess patterns of biodiversity and habitat condition are costly, challenging, and restricted to small spatial scales. As ecosystems face increasing anthropogenic pressures, it is important that we find ways to assess patterns of biodiversity more efficiently. Remote sensing has the potential to support understanding of landscape-level ecological processes. In this study, we considered cacao agroforests at different stages of secondary succession, and primary forest in the Northern Range of Trinidad, West Indies. We assessed changes in tree biodiversity over succession using both field data, and data derived from remote sensing. We then evaluated the strengths and limitations of each method, exploring the potential for expanding field data by using remote sensing techniques to investigate landscape-level patterns of forest condition and regeneration. Remote sensing and field data provided different insights into tree species compositional changes, and patterns of alpha- and beta-diversity. The results highlight the potential of remote sensing for detecting patterns of compositional change in forests, and for expanding on field data in order to better understand landscape-level patterns of forest diversity.

Published

2021

2. Complementarity between Textural and Radiometric Indices From Airborne and Spaceborne Multi VHSR Data: Disentangling the Complexity of Heterogeneous Landscape Matrix

Author

Marc Lang, Samuel Alleaume, Sandra Luque, Nicolas Baghdadi, and Jean-Baptiste Féret

Subjects

landscape structure, heterogeneity, FOTO, texture indices, very high resolution optical images, habitat monitoring, Science

Abstract

The quantitative characterization of landscape structure is critical to assess conservation, and monitor and manage biodiversity. The Mediterranean Basin is a biodiversity hotspot that illustrates the strong relationship between biodiversity and the complexity of the landscape mosaic. Our objective was to test the relevance of two textural indices and one radiometric index (the normalized difference vegetation index (NDVI)) to characterize vegetation structure. These indices could be used as indicators of vegetation composition and organization of four vertical strata when derived from airborne and Pléiades space-borne VHSR imagery. More specifically, we analyzed the influence of the spatial resolution and the radiometric information on the characterization of the landscape structure. Our results indicated that NDVI information at 0.5 m spatial resolution was necessary to be able to incorporate the heterogeneity of vegetation structure. Indices derived from lower resolution NDVI images or different radiometric information than airborne images also proved to be sensitive to vegetation fragmentation and composition. NDVI images brought out details on ligneous/herbs patterns while panchromatic image brought out more details on herbs/bare soil patterns. Combined textural and NDVI indices show strong potential for vegetation structure understanding, allowing detailed mapping. NDVI information shows good potential for applications related to landscape closure dynamics; related habitat degradation indicators caused by shrub encroachment. Panchromatic derived information, on the other hand, provides information relevant in applications focusing grazing management.

Published

2019

3. Monitoring and Characterizing Heterogeneous Mediterranean Landscapes with Continuous Textural Indices Based on VHSR Imagery

Author

Marc Lang, Samuel Alleaume, Sandra Luque, Nicolas Baghdadi, and Jean-Baptiste Féret

Subjects

habitat monitoring, landscape structure, FOTO, texture indices, landscape metrics, high-resolution airborne optical image, Science

Abstract

Remote sensing tools (RS) can contribute to a better understanding of the diversity of natural and semi-naturals habitats, their spatial distribution, and their conservation status. RS can also provide a generic set of derived indicators to support local to regional habitat monitoring. Here we propose a set of synthetic continuous textural indices computed from high spatial resolution airborne images for the characterization of vegetation structure in very heterogeneous landscape mosaics. These indices are based on Fourier-based textural ordination (FOTO) of very-high-resolution images. We investigate the relationship between textural indices and a set of common landscape metrics derived from vegetation maps, identifying four strata of interest: bare soil, herbs, low ligneous, and high ligneous. We identify two continuous textural indices, the first one being related to vegetation strata fragmentation and the second being related to the dominance of high ligneous. The combination of these two textural indices with the Normalized Difference Vegetation Index (NDVI) provides a synoptic and accurate overview of the spatial organization of the different vegetation strata. The methodological approach presented herein has a generic value in response to national conservation targets in the context of mapping relevant habitat indicators.

Published

2018

4. Monitoring and Characterizing Heterogeneous Mediterranean Landscapes with Continuous Textural Indices Based on VHSR Imagery

Author

Nicolas Baghdadi, Marc Lang, Jean-Baptiste Féret, Samuel Alleaume, Sandra Luque, Territoires, Environnement, Télédétection et Information Spatiale (UMR TETIS), and Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-AgroParisTech-Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA)-Centre National de la Recherche Scientifique (CNRS)

Subjects

0106 biological sciences, 010504 meteorology & atmospheric sciences, ECOSYSTEME, IMAGE SATELLITE, mediterranean zone, ANALYSE PAYSAGERE, 01 natural sciences, high spatial resolution, remote sensing, high-resolution airborne optical image, landscape structure, HABITAT, ComputingMilieux_MISCELLANEOUS, Spatial organization, INDICE DE VEGETATION, [SDE.IE]Environmental Sciences/Environmental Engineering, Habitat, [INFO.INFO-TI]Computer Science [cs]/Image Processing [eess.IV], [SDE]Environmental Sciences, Ordination, medicine.symptom, ecosystems, Cartography, texture indices, Science, habitat monitoring, FOTO, landscape metrics, Context (language use), Spatial distribution, 010603 evolutionary biology, Normalized Difference Vegetation Index, habitats, medicine, cartography, TELEDETECTION, CARTOGRAPHIE, 0105 earth and related environmental sciences, Fragmentation (computing), 15. Life on land, HAUTE RESOLUTION SPATIALE, CARTE DE VEGETATION, ZONE MEDITERRANEENNE, General Earth and Planetary Sciences, Environmental science, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, Vegetation (pathology), texture

Abstract

International audience; Remote sensing tools (RS) can contribute to a better understanding of the diversity of natural and semi-naturals habitats, their spatial distribution, and their conservation status. RS can also provide a generic set of derived indicators to support local to regional habitat monitoring. Here we propose a set of synthetic continuous textural indices computed from high spatial resolution airborne images for the characterization of vegetation structure in very heterogeneous landscape mosaics. These indices are based on Fourier-based textural ordination (FOTO) of very-high-resolution images. We investigate the relationship between textural indices and a set of common landscape metrics derived from vegetation maps, identifying four strata of interest: bare soil, herbs, low ligneous, and high ligneous. We identify two continuous textural indices, the first one being related to vegetation strata fragmentation and the second being related to the dominance of high ligneous. The combination of these two textural indices with the Normalized Difference Vegetation Index (NDVI) provides a synoptic and accurate overview of the spatial organization of the different vegetation strata. The methodological approach presented herein has a generic value in response to national conservation targets in the context of mapping relevant habitat indicators.This article belongs to the Section Remote Sensing in Agriculture and Vegetation.

Published

2018