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07 September 2020 | Story Leonie Bolleurs | Photo Supplied
With the research grant awarded to Dr Thulisile Mphambukeli, she has the opportunity to make a difference in society, especially in terms of the incorporation of social justice into planning.

The Joint National Institute for the Humanities and Social Sciences (NIHSS) and Chinese Academy of Social Sciences (CASS) research projects have awarded a R500 000 research grant to a team led by Dr Thulisile Mphambukeli, the principal investigator (PI). 

Within the parameters of the theme of social justice, sustainable development, and quality of life, Dr Mphambukeli’s team will focus their research on exploring the land policies in BRICS that inform agricultural practices. They will also document the policy approaches and strategies adopted by China and South Africa respectively to support the agriculture-land-water-labour nexus; additionally, they will propose a common agricultural land policy for China and South Africa. 

The title of the research project is: Exploring the Situated Political Ecology and Economy of Agricultural Land Policies in BRICS: A Case Study of China and South Africa. 

Dr Mphambukeli, who is passionate about social justice, is a Senior Lecturer in the Department of Urban and Regional Planning at the University of the Free State (UFS). With this project, she has the opportunity to make a difference in society, especially in terms of social justice. 

 

We don’t want to see the next generation suffer because we did not use our voice.- Dr Thulisile Mphambukeli

The human factor is crucial

“We need to understand the dynamics of local communities. The incorporation of social justice in planning is crucial! We cannot claim that we ‘plan for people’ and ignore them at the same time. People must be at the centre of what we do. No one must be deprived of their fundamental basic human rights.”

The team consists of Dr Mphambukeli (PI), Prof Peliwe Lolwana (University of the Witwatersrand), Dr Victor Okorie (Enugu State University of Science and Technology, Nigeria), and Dr Abraham Matamanda (UFS).

For this initiative, the China Africa Institute (CAI), which is part of CASS, joined hands with the NIHSS. Together, they will oversee the research projects of researchers and academics from South Africa and China. The research project, running from 1 April this year to 31 March 2021, will bring forth publications/research outputs, advocacy policy briefs, and proceeding reports.

The programme aims to strengthen research in the field of the humanities and social sciences between the two countries. 

Support the fight against climate change

She believes that although the BRICS countries are not geographically connected, it is a functional community with the same interests. “As BRICS countries, we need to cooperate in the fight against climate change. It affects so many components, including water, food, agriculture, land, and quality of infrastructure,” says Dr Mphambukeli. 

Due to the current COVID-19 pandemic, researchers will meet online to discuss how China and South Africa can collaborate and cooperate. “We don’t want to see the next generation suffer because we did not use our voice,” she says. 

News Archive

Water erosion research help determine future of dams
2017-03-07

Description: Dr Jay le Roux Tags: Dr Jay le Roux

Dr Jay le Roux, one of 31 new NRF-rated
researchers at the University of the Free State,
aims for a higher rating from the NRF.
Photo: Rulanzen Martin

“This rating will motivate me to do more research, to improve outcomes, and to aim for a higher C-rating.” This was the response of Dr Jay le Roux, who was recently graded as an Y2-rated researcher by the National Research Foundation (NRF).

Dr Le Roux, senior lecturer in the Department of Geography at the University of the Free State (UFS), is one of 31 new NRF-rated researchers at the UFS. “This grading will make it possible to focus on more specific research during field research and to come in contact with other experts. Researchers are graded on their potential or contribution in their respective fields,” he said.

Research assess different techniques
His research on water erosion risk in South Africa (SA) is a methodological framework with three hierarchal levels presented. It was done in collaboration with the University of Pretoria (UP), Water Research Commission, Department of Agriculture, Forestry and Fisheries, and recently Rhodes University and the Department of Environmental Affairs. Dr Le Roux was registered for 5 years at UP, while working full-time for the Agricultural Research Council – Institute for Soil, Climate and Water (ARC-ISCW).

Water erosion risk assessment in South Africa: towards a methodological framework
, illustrates the most feasible erosion assessment techniques and input datasets that can be used to map water erosion features in SA. It also emphasises the simplicity required for application at a regional scale, with proper incorporation of the most important erosion-causal factors.

The main feature that distinguishes this approach from previous studies is the fact that this study interprets erosion features as individual sediment sources. Modelling the sediment yield contribution from gully erosion (also known as dongas) with emphasis on connectivity and sediment transport, can be considered as an important step towards the assessment of sediment produce at regional scale. 
 
Dams a pivotal element in river networks

Soil is an important, but limited natural resource in SA. Soil erosion not only involves loss of fertile topsoil and reduction of soil productivity, but is also coupled with serious off-site impacts related to increased mobilisation of sediment and delivery to rivers.

The siltation of dams is a big problem in SA, especially dams that are located in eroded catchment areas. Dr Le Roux recently developed a model to assess sediment yield contribution from gully erosion at a large catchment scale. “The Mzimvubu River Catchment is the only large river network in SA on record without a dam.” The flow and sediment yield in the catchment made it possible to estimate dam life expectancies on between 43 and 55 years for future dams in the area.
 
Future model to assess soil erosion
“I plan to finalise a soil erosion model that will determine the sediment yield of gully erosion on a bigger scale.” It will be useful to determine the lifespan of dams where gully erosion is a big problem. Two of his PhD students are currently working on project proposals to assess soil erosion with the help of remote sensing techniques.

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