Designing an efficient sampling strategy is of crucial importance for habitat suitability modelling. This paper compares four such strategies, namely, 'random', 'regular', 'proportional-stratified' and 'equal -stratified'- to investigate (1) how they affect prediction accuracy and (2) how sensitive they are to sample size. In order to compare them, a virtual species approach (Ecol. Model. 145 (2001) 111) in a real landscape, based on reliable data, was chosen. The distribution of the virtual species was sampled 300 times using each of the four strategies in four sample sizes. The sampled data were then fed into a GLM to make two types of prediction: (1) habitat suitability and (2) presence/ absence. Comparing the predictions to the known di...
Correlative species distribution models (SDMs) are widely used to predict species distributions and ...
Species distribution models that only require presence data provide potentially inaccurate results d...
1.If animals moved randomly in space, the use of different habitats would be proportional to their a...
AbSTRACT Habitat suitability (HS) modeling relates a species ’ potential presence/ab-sence to a set ...
Habitat suitability (HS) modeling relates a species' potential presence/absence to a set of environm...
This paper compares two habitat-suitability assessing methods, the Ecological Niche Factor Analysis ...
Information on resource selection by a species is essential for understanding the species’ ecology, ...
Methods for modeling species’ distributions in nature are typically evaluated empirically with respe...
This paper compares two habitat-suitability assessing methods, the Ecological Niche Factor Analysis ...
Aim To evaluate the potential of models based on opportunistic reporting (OR) compared to models bas...
A wide range of modelling algorithms is used by ecologists, conservation practitioners, and others t...
Species distribution models (SDMs) have been used to predict potential distributions of habitats and...
International audienceSimulations of virtual species (i.e. species for which the environment–occupan...
The use of virtual species to test species distribution models is important for understanding how as...
Sampling is a key issue for answering most ecological and evolutionary questions. The importance of ...
Correlative species distribution models (SDMs) are widely used to predict species distributions and ...
Species distribution models that only require presence data provide potentially inaccurate results d...
1.If animals moved randomly in space, the use of different habitats would be proportional to their a...
AbSTRACT Habitat suitability (HS) modeling relates a species ’ potential presence/ab-sence to a set ...
Habitat suitability (HS) modeling relates a species' potential presence/absence to a set of environm...
This paper compares two habitat-suitability assessing methods, the Ecological Niche Factor Analysis ...
Information on resource selection by a species is essential for understanding the species’ ecology, ...
Methods for modeling species’ distributions in nature are typically evaluated empirically with respe...
This paper compares two habitat-suitability assessing methods, the Ecological Niche Factor Analysis ...
Aim To evaluate the potential of models based on opportunistic reporting (OR) compared to models bas...
A wide range of modelling algorithms is used by ecologists, conservation practitioners, and others t...
Species distribution models (SDMs) have been used to predict potential distributions of habitats and...
International audienceSimulations of virtual species (i.e. species for which the environment–occupan...
The use of virtual species to test species distribution models is important for understanding how as...
Sampling is a key issue for answering most ecological and evolutionary questions. The importance of ...
Correlative species distribution models (SDMs) are widely used to predict species distributions and ...
Species distribution models that only require presence data provide potentially inaccurate results d...
1.If animals moved randomly in space, the use of different habitats would be proportional to their a...