Welcome to vnonline.co.uk

vnonline.co.uk provides the veterinary nursing profession with the latest news and industry developments, as well as events, resources, learning materials and careers.

Our website is dedicated to veterinary nurses and we strive to provide a platform where you can voice and explore your interests.

Not a member yet? Sign up for free!

Register for free with vnonline.co.uk to gain unlimited access to news, resources, jobs and much more!



Click here to become a member







Log in to vnonline

Forgot your password?

Posted: 7th October 2014

New approach sheds light on evolutionary puzzle
anolis lizard
Restricting analyses to either the intra-specific or inter-specific levels can miss important patterns and both must be considered.

Insights on how animal evolution is affected by the geography of climate are revealed

Scientists have been given an insight into a 150-year-old evolutionary puzzle through a new approach to studying how animals change in size according to the temperature of their environment.

A new and potentially more revealing way of studying how animal evolution is affected by the geography of climate has been designed by researchers at the The University of Nottingham and Harvard University to shed light on Bergmann’s rule — the tendency for warm-blooded animal body size to increase in colder environments. Bergmann's rule has long been controversial with debate about whether it applies to cold-blooded animals and how it applies within or among species.

The research, published in the journal The American Naturalist, uses a new unified model to simultaneously investigate how animals across (inter-specific) and within (intra-specific) species change in size along temperature gradients. The researchers focused on two groups of Anolis lizard, one on Cuba and the other on nearby Hispaniola, the island occupied by Haiti and the Dominican Republic. They found that the size of lizards decreases with elevation on both islands, but their model revealed that different ecological and evolutionary processes are responsible on each island.

Dr Adam Algar, from the University of Nottingham's School of Geography, said;  "Our new approach allows for the separation of intra- and inter-specific components of the relationships between animal traits and the environment. We found that the similar body size gradients in the lizards on both islands are constructed in very different ways. Even though lizards are smaller at high elevations on both islands, these body size patterns are underlain by very different processes. On Hispaniola, interspecific processes dominate, while on Cuba, intraspecific processes drive the pattern."

The results suggest that restricting analyses to either the intra-specific or inter-specific levels can miss important patterns and that both must be considered.

The researchers think the different geographies of Cuba and its neighbour Hispaniola may account for some of the varying patterns observed on each island. Hispaniola’s highland areas and their associated climatic gradients are far more extensive than on Cuba. Hispaniola has nearly 8,000 km² of habitat above 1,000m whereas Cuba has only 271 km² of highland habitat.

Image © Paul Hirst Wikimedia Commons CC-BY-SA-2.5






Become a member
or log in to add this story to your CPD history