Closeness is not a problem: new ways to handle spatial dependencies in species distributions
Most present-day analyses suffer from the statistical problem of spatial dependency, meaning that points closer together in space are more likely to have similar characteristics than those further apart, a fact which may critically bias model predictions.
A new study in the journal Ecography by an international team of researchers now offers a landmark review of the approaches available to handle spatial dependencies in species’ distributions. The authors evaluate six fundamentally different statistical approaches to identify factors that correlate with species distributions and provide detailed guidelines for their application.
By providing the technical means to perform the relevant spatial analyses, this work will prove invaluable for anyone wanting to take spatial dependencies into account.
Media Contact
All latest news from the category: Ecology, The Environment and Conservation
This complex theme deals primarily with interactions between organisms and the environmental factors that impact them, but to a greater extent between individual inanimate environmental factors.
innovations-report offers informative reports and articles on topics such as climate protection, landscape conservation, ecological systems, wildlife and nature parks and ecosystem efficiency and balance.
Newest articles
Sea slugs inspire highly stretchable biomedical sensor
USC Viterbi School of Engineering researcher Hangbo Zhao presents findings on highly stretchable and customizable microneedles for application in fields including neuroscience, tissue engineering, and wearable bioelectronics. The revolution in…
Twisting and binding matter waves with photons in a cavity
Precisely measuring the energy states of individual atoms has been a historical challenge for physicists due to atomic recoil. When an atom interacts with a photon, the atom “recoils” in…
Nanotubes, nanoparticles, and antibodies detect tiny amounts of fentanyl
New sensor is six orders of magnitude more sensitive than the next best thing. A research team at Pitt led by Alexander Star, a chemistry professor in the Kenneth P. Dietrich…
