Pelly Malebe's research on helping plants withstand drought is personal as well as scientific. She grew up in South Africa's drought-prone northern province of Limpopo, where crop failures are frequent.

If the affected crop is food for family consumption, the result can be hunger. If it is a crop for trade or export, the loss of earnings can also mean too little food on the family table, as well as threatening commercial farmers, both large and small. (Article: Julie Frederikse)


In effect, Malebe has found a shortcut that suggests that a particular tea plant will tolerate drought conditions, without having to wait to see if and how the plant grows. Happily, the drought-tolerant plants can adapt to excess moisture, which means they can survive rainy weather as well.


Malebe's research is supported by RISE, the Regional Initiative in Science and Education, aimed at building capacity for science research and teaching in African universities. Funded by the Carnegie Corporation of New York, a charitable foundation, RISE works through a series of thematic networks, including Sabina, which stands for the Southern African Biochemistry and Informatics for Natural Products Network.



Sabina members include the Tea Research Foundation of Central Africa and the universities of Malawi, Namibia and Dar es Salaam [Tanzania], as well as South Africa's universities of the Witwatersrand and Pretoria. South Africa's Council for Scientific and Industrial Research also participates.


Biochemistry Professor Zeno Apostolides, founder of the University of Pretoria's Tea Research Laboratory, is a Sabina faculty advisor supervising three PhD students, including Malebe and fellow researcher Nicholas Mphangwe.

Before he was accepted into the Sabina programme, Mphangwe had been working as a plant breeder for the Tea Research Foundation in his home country of Malawi, where tea provides about 30 percent of the country's foreign exchange and about five percent of the world's tea crop.


"In Malawi, Zimbabwe and Zambia, the main work on tea is being carried out at research stations, so we tea breeders are still continuing to go into the field and visually assess promising cultivars," Mphangwe said. "I hope eventually to develop cultivars with good off-season growth, so as to extend the growing season."


Once he earns his PhD, Mphangwe plans to return to Malawi to work with the Tea Research Foundation of Central Africa. This non-profit organisation is funded by Malawi and Zimbabwe tea growers to improve technologies. Some of the tea cultivars it has developed are also grown in Tanzania, Kenya and Uganda, as well as outside Africa.


The Tea Board of Kenya reported that Kenya's tea exports last year overtook horticulture – flower production – to become the country's largest foreign exchange earner.  Uganda, Malawi and South Africa are Africa's other leaders in tea production.

Pelly Malebe's work has included finding a feasible way to send cultivars to research labs. "Developing countries lack skills for the isolation of genetic material," she says. "What is needed is a simple leaf-drying method so that the tea leaves can be transported to laboratories where genetic material can be extracted and usable genomic DNA can be isolated and stored."


After testing various methods of drying tea plants – blanching, pressing, freeze drying and placing it in bags with silica gel – she determined that using silica gel in sealable plastic bags gave the best results. That encouraging finding could point the way to a simple methodology for obtaining and storing genetic material, applicable to other products and places.


Before publishing her research on DNA markers for drought resistance, Malebe conferred with Apostolides. The scientists had to choose whether or not to patent the cultivars. She and her advisor decided that she would write up the research results without claiming them as intellectual property. So this breakthrough from Africa will soon become free knowledge to the international scientific community.

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