M. Bouvier scite author profile

We explored the potential of airborne laser scanner (ALS) data to improve Bayesian models linking biodiversity indicators of the understory vegetation to environmental factors. Biodiversity was studied at plot level and models were built to investigate species abundance for the most abundant plants found on each study site, and for ecological group richness based on light preference. The usual abiotic explanatory factors related to climate, topography and soil properties were used in the models. ALS data, available for two contrasting study sites, were used to provide biotic factors related to forest structure, which was assumed to be a key driver of understory biodiversity. Several ALS variables were found to have significant effects on biodiversity indicators. However, the responses of biodiversity indicators to forest structure variables, as revealed by the Bayesian model outputs, were shown to be dependent on the abiotic environmental conditions characterizing the study areas. Lower responses were observed on the lowland site than on the mountainous site. In the latter, shade-tolerant and heliophilous species richness was impacted by vegetation structure indicators linked to light penetration through the canopy. However, to reveal the full effects of forest structure on biodiversity indicators, forest structure would need to be measured over much wider areas than the plot we assessed. It seems obvious that the forest structure surrounding the field plots can impact biodiversity indicators measured at plot level. Various scales were found to be relevant depending on: the biodiversity indicators that were modelled, and the ALS variable. Finally, our results underline the utility of lidar data in abundance and richness models to characterize forest structure with variables that are difficult to measure in the field, either due to their nature or to the size of the area they relate to.

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Influence of Sampling Design Parameters on Biomass Predictions Derived from Airborne LiDAR Data

Bouvier

Durrieu

Fournier

et al. 2019

Canadian Journal of Remote Sensing

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Recherches sur le Développement post-embryonnaire de la Langouste commune (Palinurus vulgaris).

Bouvier

1914

J. Mar. Biol. Ass.

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C'est surtout pour étudier le développement post-embryonnaire de la Langouste commune (Palinurus vulgaris Latr.) que je me suis rendu au Laboratoire de Plymouth. L'endroit me semblait excellent parce que la Langouste n'est pas rare près des côtes dans les eaux du Devonshire et de la Cornouaille, parce qu'elle est principalement fréquente sur les fonds rocheux au-dessus desquels se dresse le phare d'Eddystone, aussi enfin, parce que le Laboratoire de Plymouth est très bien installé, avec un bateau, l'Oithona, qui peut se rendre en mer chaque jour et effectuer les pêches les plus diverses.

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M. Bouvier

Generalizing predictive models of forest inventory attributes using an area-based approach with airborne LiDAR data

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An investigation into lidar scan angle impacts on stand attribute predictions in different forest environments

Use of airborne lidar data to improve plant species richness and diversity monitoring in lowland and mountain forests

Influence of Sampling Design Parameters on Biomass Predictions Derived from Airborne LiDAR Data

Recherches sur le Développement post-embryonnaire de la Langouste commune (Palinurus vulgaris).

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