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29 October 2018

Prof Stef Coetzee, former Rector and Vice-Chancellor of the University of the Free State (UFS), passed away in the Mediclinic Cape Gate on Saturday 27 October 2018. 

Prof Coetzee assumed duty as the 11th Rector and Vice-Chancellor of the UFS on 1 April 1997. He will be remembered for his drive to promote transformation at the UFS. During his time as Rector and Vice-Chancellor, he initiated a revitalisation process (turnaround strategy) which was ultimately finalised by his successor, Prof Frederick Fourie.

Among others, he established a Broad Transformation Forum (BTF) and transformation office to draft a new political framework for the UFS. He strived to manage the university as a business enterprise and was focused on developing the academy in an entrepreneurial manner. His legacy includes the establishment of the BTF, the revitalisation process (turnaround strategy), academic revitalisation, growing student numbers, and increased research outputs. He stepped down as Rector at the end of 2002.

“The turnaround strategy initiated by Prof Coetzee during his term as Rector and Vice-Chancellor is still evident today in the management approach of the UFS. On behalf of the executive management and the university community, I wish his family, relatives, and former colleagues all the best during this difficult and sad time. I hope that they will find comfort in his significant contribution to various sectors in the country – especially at the UFS,” said Prof Francis Petersen, Rector and Vice-Chancellor of the UFS.

Prof Stef Coetzee obtained his MA degree in Economics at Stellenbosch University in 1973, and a DPhil in Development Economics at the University of the Free State (UFS) in 1980. He is a former Executive Officer of the Afrikaanse Handelsinstituut and was also associated with Unisa and the North-West University


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News Archive

Extending new discoveries in the deep subsurface – UFS paper published in Nature Communications
2015-11-30



Scanning electron microscopy of some of the Eukarya recovered from two different mines. (a) Dochmiotrema sp. (Plathyelminthes), (b) A. hemprichi (Annelida), (c) Mylonchulus brachyurus (Nematoda), (d) Amphiascoides (Arthropoda). Scale bar, 50 µm (a,b), 100 µm (c), 20 µm (d).

Following the discovery of the first Eukarya in the deep subsurface (Nature, 2010) by a research group from the Department of Microbial, Biochemical, and Food Biotechnology at the University of the Free State (UFS) and their international collaborators, intense interest has developed in understanding the diversity of more complex organisms living in these extreme environments.

Prof Gaetan Borgonie from Extreme Life Isyensya, together with a group of UFS researchers, took this research further, resulting in a paper on this research released in Nature Communications – impact factor 11.47.  This paper is an extension of the first reports of more complex life at great depths, and their abilities to survive these harsh conditions.

Ten authors from the UFS contributed with the array of expertise needed to define this discovery. The group was supported by staff from the different mining groups, long-term leading collaborators from the USA and Canada, and the idea specialist driver of the paper, Prof Borganie.

“After a sampling campaign that lasted more than two years, we identified that Platyhelminthes, Rotifera, Annelida and Arthropoda are thriving at 1.4 km depths in fissure water up to 12,000-years old in the South African mines of Driefontein and Kopanang,” said Prof Borgonie, who was appointed as associated researcher in the Department of Microbial, Biochemical, and Food Biotechnology.

This paper really opens a “can of worms” so to speak. According to Prof Esta van Heerden from the Department of Microbial, Biochemical and Food Biotechnology at the UFS they extended to define protozoa and fungi. “However, they are present in low numbers,” she said.

Characterisation of the different species reveals that many are opportunistic organisms. In house-adapted video equipment was used to film inside the fissure for the home of the organisms.

This is the first-known study to demonstrate the in situ distribution of biofilms on fissure rock faces using video documentation. Calculations suggest that food, not dissolved oxygen, is the limiting factor for population growth. The discovery of a group of complex multicellular organisms in the underground has important implications for the search for life on other planets in our solar system.

More articles

The strange beasts that live in solid rock deep underground
A microscopic ‘zoo’ is found deep, deep underground

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