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30 January 2024 Photo SUPPLIED
Prof Frank Zachos
Prof Frank Zachos, an Affiliated Professor in the Department of Genetics, participated in a study on the genetic diversity of species published in the prestigious Nature Ecology & Evolution.

Early this year, an article examining the monitoring of genetic diversity in Europe – indicating which countries are doing it, for which and for how many species – was published in the prestigious Nature Ecology & Evolution. Prof Frank Zachos, an Affiliated Professor in the Department of Genetics at the University of the Free State (UFS) in Bloemfontein, South Africa, participated in this study, which was co-conducted by 52 scientists representing 60 universities and research institutes from 31 countries.

According to Prof Zachos, who is also a scientist and curator of mammals at the Natural History Museum in Vienna in Austria – one of the world’s largest natural history museums with more than 30 million specimens – genetic diversity is crucial for species to adapt to climate change.

Genetic diversity key to species survival

Genetic diversity is one of the keys to species survival. He points out that in 2022, the International Convention on Biological Diversity (CBD) has placed increased emphasis on the need to protect the genetic diversity found in wild species – a fundamental component of biological diversity that has been generally neglected in the past.

Prof Zachos explains that global warming is already putting pressure on many species in Europe and elsewhere, particularly those with populations at the climatic limits of their range. These populations are not only at risk of extinction, but also tend to carry genetic variants favoured by natural selection for survival in challenging environments. “These ecologically peripheral regions may, therefore, function as reservoirs from which, through gene flow, adaptive variants can spread into populations of the core range that will be affected by climate change later. This increases the overall resilience of species,” he says. 

He emphasises that analysing genetic diversity and its changes over time in populations located in areas with challenging environmental conditions is especially important for conservation.

Better monitoring of species needed

In a statement, he mentions that this study reveals that current efforts to monitor genetic diversity in Europe are incomplete and insufficient.

According to the new study, more efforts are necessary, particularly in the southeast of Europe (Turkey and the Balkans), as this region is underrepresented, but at the same time strongly affected by climate change, possibly harbouring many reservoir populations that can adapt well to the challenges posed by environmental shifts.

Prof Zachos adds that monitoring efforts were significantly biased towards certain taxonomic groups, as they have found many monitoring projects targeting large carnivores such as brown bears and wolves, iconic species that are also of political relevance.

He explains that they will, however, be less affected by climate change than, for example, amphibians and many tree species. “Yet, the latter are only rarely included in genetic monitoring projects,” says Prof Zachos, who is of the opinion that a monitoring strategy with less geographic and taxonomic bias, along with systematic targeting of full environmental gradients and high-biodiversity regions, would be an important contribution towards the protection of threatened species – many of which also provide invaluable services to humans, such as crop pollination or pest control.

Better support for ecosystem conservation

He holds the view that this is not only restricted to Europe, but applies globally, especially in superdiverse regions such as Southern Africa.

Prof Zachos states that, considering recent agreements aimed at halting biodiversity decline – of which South Africa is a signatory country – the study also points out the urgent need for improved international monitoring of species, and especially their genetic diversity. “This will facilitate better land-use planning and support for ecosystem conservation and restoration actions, ensuring the survival of species and the services they provide,” he says.

News Archive

UFS cardiac team leading with project
2017-05-31

 Description: Cardiac team read more Tags: Cardiac team read more

Prof Peter Schultheiss of the Charité University in Berlin,
Germany, visited the Robert WM Frater Centre for
Cardiovascular Research at the UFS for a study regarding
cardiomyopathy, a significant cause of fatal heart failure
among Africans. From the left are Dr Glen Taylor,
Dr Danie Buys, Prof Makoali Makatoko,
Prof Schultheiss and Prof Francis Smit.
Photo: Rulanzen Martin

A team of cardiac doctors associated with the Robert WM Frater Cardiovascular Research Centre at the University of the Free State’s (UFS) Faculty of Health Sciences has commenced with a pioneering research project regarding idiopathic dilating cardiomyopathy.  

An Afrocentric research focus
Prof Francis Smit, Head of the Department of Cardiothoracic Surgery at the UFS and Head of the Frater Centre, describes dilating cardiomyopathy as a heart muscle disease that is quite common, particularly among people of African descent. The disease weakens the heart muscle, which in turn leads to heart failure.

“To date there is no curable treatment for this condition and 50% of patients that have shown heart failure, died within a period of five years. The causes of this condition have been unknown in the majority of patients. But over the past few years major strides have been made where virus infections of the heart muscle or myocarditis have been identified as a possible underlying cause. Various genetic diseases are also linked to it,” says Prof Smit.

International collaborations ensure success
According to Prof Smit, the project is being run in conjunction with Prof Heinz-Peter Schultheiss of the Charité University and the Institute for Cardiac Diagnostics and Therapy in Berlin, Germany.

“We have been working on the project over the past 18 months and I have twice visited Prof Schultheiss in Germany. He is now visiting us in Bloemfontein. We have established a collaborative project focused on patients in central South Africa”.
Prof Schultheiss is a world leader regarding the diagnosis, pathology and treatment of dilating cardiomyopathy, says Prof Smit.

“He brings a lifetime of research experience to Bloemfontein and is internationally renowned as the father of myocardial or heart muscle biopsies.

“His pioneering work on the discipline has led to diagnostic accuracy that has induced purposeful and personalised treatment of dilating cardiomyopathy and has brought about dramatic changes in some subsets of patients’ life expectancy and their cure.”

Solving problems close to home
According to Prof Mokoali Makatoko, Head of the Department of Cardiology, there are more than 1500 new cases of heart failure identified annually at the Universitas Academic Hospital, of which approximately 30% are attributed to cardiomyopathy. “With the use of endomyocardial biopsies the team hopes to treat viruses unique to Southern Africa as well as other underlying causes of dilating cardiomyopathy.”

Prof Stephen Brown, Head of Paediatric Cardiology at the Universitas Academic Hospital, says children suffering from this disease never reach a mature age and those under his supervision will also be undergoing these tests. Various other departments at the UFS will also participate in this project. Profs Makatoko and Brown did the first four endomyocardial biopsies under the management of Prof Schultheiss during the past week. The results will be available in the coming weeks after which the project will be officially launched and patient recruitment will start in earnest.

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