Species distribution
A deep learning approach to Species Distribution Modelling
26
Combining remote sensing and ancillary data to improve species distribution models
1
Biogeographical network analysis of plant species distribution in the Mediterranean region
27
Environmental impact assessment of development projects improved by merging species distribution and habitat connectivity modelling
24
Biogeographical network analysis of plant species distribution in the Mediterranean region
15
Using species distribution models to optimize vector control in the framework of the tsetse eradication campaign in Senegal
13
Biogeographical network analysis of plant species distribution in the Mediterranean region
2
Species Distribution 2.0: An Accurate Time- and Cost-Effective Method of Prospection Using Street View Imagery
15
Estimating consensus and associated uncertainty between inherently different species distribution models
12
Environmental correlates for tree occurrences, species distribution and richness on a high-elevation tropical island
16
Sampbias, a method for quantifying geographic sampling biases in species distribution data
8
Hindcasting the impacts of land-use changes on bird communities with species distribution models of Bird Atlas data
17
CFD analysis of an ALD reactor: gaseous species distribution and cycle time
2
Species Distribution Modelling: Contrasting presence-only models with plot abundance data
13
Convolutional neural networks improve species distribution modelling by capturing the spatial structure of the environment
22
How can model comparison help improving species distribution models?
13
Combining ecotope segmentation and remote sensing data for biotope and species distribution modelling
1
Impacts of a rapid climate warming event on forest plant species distribution along the elevation gradient
284
Transferability of species distribution models for the detection of an invasive alien bryophyte using imaging spectroscopy data
81
Climate limitation at the cold edge: contrasting perspectives from species distribution modelling and a transplant experiment
12