Tuesday, June 24, 2014

UQ School of Biological Sciences studies evolutionary success

Research into reef fish species diversity will provide conservationists with new information to protect the Great Barrier Reef.

University of Queensland researchers who looked at species diversity patterns through fish family trees for the past 100 million years have  found that parents who guarded their young were more likely to yield new species.

UQ School of Biological Sciences
Study biological sciences at UQ
The study’s lead author, Dr Cynthia Riginos from the UQ School of Biological Sciences, said the discovery would help protect reefs as it provided an insight into ecosystem connections.

“We compared egg-guarding fish species with those that release eggs into the water column after fertilisation,” Dr Riginos said. “We found that fish hatched from guarded eggs settled closer to home than those from floating eggs, and were more likely to yield new species in the long term; however, egg-guarding fish species are more vulnerable to threats in the short term as they are less connected to other populations.”

Dr Riginos said identifying and protecting key reef areas would be critical for the long-term survival of tropical marine biodiversity.

“This research provides an important evaluation of how different species move between separate reefs,” she said.

“Existing theories and tools for designing marine reserves suffer from a lack of information about how marine larvae move among reefs.

“These findings will help us to fine tune assessments of the connections between reefs, such as those of the Great Barrier Reef, with the aim of identifying critical areas for conservation and determining the different management strategies which are most suited for different species.”

Biological Sciences at the University of Queensland

The UQ School of Biological Sciences is situated on the St Lucia campus in Brisbane and is part of the Faculty of Science.

Academic staff conduct research in evolution, global change biology, ecology, aquaculture, behaviour, physiology, entomology, zoology, botany, genomics, development and conservation biology. World-class infrastructure, proximity to stunning habitats and biodiversity, and UQ’s tropical-subtropical location contribute to its unique working environment.


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