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09 September 2025 | Story Martinette Brits | Photo Stephen Collett
Prof Botma Visser
Prof Botma Visser delivered his inaugural lecture at the University of the Free State, highlighting nearly two decades of research on wheat rust and global food security.

Safeguarding one of the world’s most vital staple foods was at the heart of the inaugural lecture delivered by Prof Botma Visser, Professor in the Department of Plant Sciences at the University of the Free State (UFS), on Wednesday 3 September 2025. Prof Visser shared insights from nearly two decades of research into wheat rust – a devastating crop disease that threatens both South Africa’s harvests and global food security.

“Wheat production in South Africa is threatened by three fungal pathogens that cause rust disease on the crop. Understanding the factors that contribute to virulence on locally grown cultivars is crucial to ensure continued wheat production,” said Prof Visser.

 

The fight against evolving wheat rusts

For the past 17 years, Prof Visser’s research has focused on the genetic structure of rust populations and the risks they pose to food security. His work has shown that these populations are dynamic and constantly changing due to genetic mutations within existing races, as well as the introduction of new races into South Africa.

“Computer modelling showed that rust can spread over vast distances by prevailing winds. During the 20th Century, at least four Southern African stem rust races managed to move across the Indian Ocean from Southern Africa to Australia. South Africa, in turn, received multiple new races from mid-Africa across Zambia and Zimbabwe, without any means of stopping these introductions,” he explained.

To respond to this challenge, his team recently implemented MARPLE (Mobile And Real-time Plant disEase) diagnostics using fourth-generation nanopore sequencing technology. This approach allows the rapid characterisation of fungal isolates, specifically targeting genes linked to fungicide resistance and virulence.

“This work,” Prof Visser noted, “is part of an effort to safeguard global wheat production.”

His research is a collaborative effort with Prof Willem Boshoff (Department of Plant Sciences, UFS) and Dr Tarekegn Terefe (Agricultural Research Council – Small Grain, Bethlehem). Together, their work has positioned the UFS as an internationally recognised centre of excellence in wheat rust research.

 

About Prof Botma Visser

Prof Botma Visser obtained his BSc in Botany and Microbiology (1988), BSc Honours in Microbiology (1989), and MSc in Botany (1993) at the University of the Free State, where he also completed his PhD in Botany in 2004.

His career spans more than 18 years of research into wheat rust pathogens, combining annual surveys, race pathotyping, molecular genetics, and cutting-edge sequencing technologies. His expertise has not only advanced understanding of rust population dynamics in South Africa but also contributed to global collaborative studies on crop disease.

News Archive

UFS team helps a pupil to hear again
2014-01-24

 

“I was scared at first. I could not remember the sound of my own voice. Being Deaf -it was like living on another planet.”

These are the words of the 18-year-old Andile (Godfrey) Jantjies after he heard sounds and words for the first time in almost 12 months.

Andile, a former pupil at the Albert Moroka School in Thaba Nchu, was the recipient of a cochlear implantation under the Bloemfontein Cochlear Implant Programme (BCIP) run by the Department of Otorhinolaryngology at the University of the Free State.

Andile lost his hearing after contracting bacterial meningitis in June 2013. This resulted in bilateral profound deafness and despite his good academic record, his school refused to have him enrolled for 2014.

The cochlear implant was inserted in October 2013 and was switched on for the first time on Thursday 23 January 2014.

“I want to go back immediately,” Andile said excitedly after gradually becoming comfortable with hearing his own and other voices.

Dr Iain Butler from the Department of Otorhinolaryngology says cases like Andile’s are a medical emergencies due to the fact that meningitis causes the inner ear to become replaced by bone.

“This can occur after as little as four months after the infection and means that the insertion of a cochlear implant becomes impossible.

A cochlear implant system costs approximately R220 000.

It converts sounds/speech into electrical signals that directly stimulate the auditory nerve, bypassing the damaged inner ear. It is indicated for babies with congenital hearing loss, as well as acquired hearing loss in children or adults. It requires intensive rehabilitation in order to learn to hear again, and most recipients develop very good hearing. Andile now has the opportunity to hear again, continue his schooling and become an economically independent member of society, rather than being dependent on others.

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