Add to ORKGAbstract. The ability to predict spatial patterns of species richness using a few easily measured environmental variables would facilitate timely evaluation of potential impacts of anthropogenic and natural disturbances on biodiversity and ecosystem functions. Two common hypotheses maintain that faunal species richness can be explained in part by either local vegetation heterogeneity or primary productivity. Although remote sensing has long been identified as a potentially powerful source of information on the latter, its principal application to biodiversity studies has been to develop classified vegetation maps at relatively coarse resolution, which then have been used to estimate animal diversity. Although classification schemes can be d...
Many remote sensing metrics have been applied in large-scale animal species monitoring and conservat...
The ability of remote-sensing technologies to rapidly deliver data on habitat quantity (e.g., amount...
1. Biodiversity includes multiscalar and multitemporal structures and processes, with different leve...
An important challenge in ecology is to predict patterns of biodiversity across eco-geographical gra...
This review paper evaluates the potential of remote sensing for assessing species diversity, an incr...
The conservation of biodiversity has gained prominence in ecological research for the last decades. ...
Amongst many ongoing initiatives to preserve biodiversity, the Millennium Ecosystem Assessment again...
Identification of spatial patterns of species diversity is a central problem in conservation biology...
Urban landscapes are expanding rapidly and are reshaping the distribution of many animal and plant s...
In this work, we aimed to examine the feasibility of Landsat‐derived remote sensing analyses (Normal...
Species distribution models are often used to study the biodiversity of ecosystems. The modelling pr...
Assessing biodiversity from field-based data is difficult for a number of practical reasons: (i) est...
Remote sensing represents a powerful tool to derive quantitative and qualitative information about e...
Aims: Remote sensing approaches could be beneficial for monitoring and compiling essential biodivers...
Many remote sensing metrics have been applied in large-scale animal species monitoring and conservat...
The ability of remote-sensing technologies to rapidly deliver data on habitat quantity (e.g., amount...
1. Biodiversity includes multiscalar and multitemporal structures and processes, with different leve...
An important challenge in ecology is to predict patterns of biodiversity across eco-geographical gra...
This review paper evaluates the potential of remote sensing for assessing species diversity, an incr...
The conservation of biodiversity has gained prominence in ecological research for the last decades. ...
Amongst many ongoing initiatives to preserve biodiversity, the Millennium Ecosystem Assessment again...
Identification of spatial patterns of species diversity is a central problem in conservation biology...
Urban landscapes are expanding rapidly and are reshaping the distribution of many animal and plant s...
In this work, we aimed to examine the feasibility of Landsat‐derived remote sensing analyses (Normal...
Species distribution models are often used to study the biodiversity of ecosystems. The modelling pr...
Assessing biodiversity from field-based data is difficult for a number of practical reasons: (i) est...
Remote sensing represents a powerful tool to derive quantitative and qualitative information about e...
Aims: Remote sensing approaches could be beneficial for monitoring and compiling essential biodivers...
Many remote sensing metrics have been applied in large-scale animal species monitoring and conservat...
The ability of remote-sensing technologies to rapidly deliver data on habitat quantity (e.g., amount...
1. Biodiversity includes multiscalar and multitemporal structures and processes, with different leve...