Using satellite data to assess spatial drivers of bird diversity

Birds are useful indicators of overall biodiversity, which continues to decline globally, despite targets to reduce its loss. The aim of this paper is to understand the importance of different spatial drivers for modelling bird distributions. Specifically, it assesses the importance of satellite‐der...

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Bibliographic Details
Published in:Remote sensing in ecology and conservation 2023-08, Vol.9 (4), p.483-500
Main Authors: Hunt, Merryn L., Blackburn, George Alan, Siriwardena, Gavin M., Carrasco, Luis, Rowland, Clare S., Sankey, Temuulen, Caravaggi, Anthony
Format: Article
Language:English
Subjects:
Agricultural land
avian
Biodiversity
Birds
feature contribution analysis
Feature selection
Grasslands
habitat productivity
Heterogeneity
Landsat
Landscape
landscape heterogeneity
Mathematical analysis
Modelling
Normalized difference vegetative index
Original Research
Productivity
random forest
Spatial analysis
Species diversity
Species richness
Variables
Woodlands
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Summary:Birds are useful indicators of overall biodiversity, which continues to decline globally, despite targets to reduce its loss. The aim of this paper is to understand the importance of different spatial drivers for modelling bird distributions. Specifically, it assesses the importance of satellite‐derived measures of habitat productivity, heterogeneity and landscape structure for modelling bird diversity across Great Britain. Random forest (RF) regression is used to assess the extent to which a combination of satellite‐derived covariates explain woodland and farmland bird diversity and richness. Feature contribution analysis is then applied to assess the relationships between the response variable and the covariates in the final RF models. We show that much of the variation in farmland and woodland bird distributions is explained (R2 0.64–0.77) using monthly habitat‐specific productivity values and landscape structure (FRAGSTATS) metrics. The analysis highlights important spatial drivers of bird species richness and diversity, including high productivity grassland during spring for farmland birds and woodland patch edge length for woodland birds. The feature contribution provides insight into the form of the relationship between the spatial drivers and bird richness and diversity, including when a particular spatial driver affects bird richness positively or negatively. For example, for woodland bird diversity, the May 80th percentile Normalized Difference Vegetation Index (NDVI) for broadleaved woodland has a strong positive effect on bird richness when NDVI is >0.7 and a strong negative effect below. If relationships such as these are stable over time, they offer a useful analytical tool for understanding and comparing the influence of different spatial drivers. The aim of this paper is to understand the importance of different spatial drivers for modelling bird distributions. Specifically, it assesses the importance of satellite‐derived measures of habitat productivity and landscape heterogeneity for modelling bird diversity across Great Britain. Random Forest (RF) regression is used to explore the extent to which a combination of satellite‐derived covariates explain woodland and farmland bird diversity, and feature contribution analysis is then applied to explore the relationships between the response variable and the covariates in the final RF models.
ISSN:2056-3485
2056-3485
DOI:10.1002/rse2.322