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Shining a spotlight on the heroes of the UFS food environment

07 January 2025 | Story Leonie Bolleurs | Photo Anja Aucamp

Food Garden — Students transport fresh vegetables from the university's sustainable vegetable tunnels for distribution to their peers. These vegetables play a role in promoting healthy eating habits and ensuring students have access to healthy meals, making a difference in their overall well-being and academic success.

“I’m writing this email to express my gratitude for what you and your office do. I don’t think you can fully understand how grateful I am for the food parcels. I’m able to go to bed with food in my stomach, all because of you and your team, and for that, I am so thankful. Before I found out about your office, I was stressed about where my next meal would come from. Now, I perform incredibly well in my studies. I honestly pray and hope that the office continues to receive the support it needs to continue being of assistance to those in need.”

This letter is one of many received by the UFS Food Environment Office, highlighting the important role the university plays in supporting students struggling with food insecurity.

Healthy food choices

Five years ago, the university established the institutional Food Environment Committee (FETC) to provide guidance and recommendations to the university administration on matters relating to the food environment of the university. The aim of the FETC is to promote healthy and sustainable food choices across all three UFS campuses.

The committee is also responsible for assessing the food needs of vulnerable groups to ensure inclusive and accessible programmes, overseeing strategy implementation, and advocating participation across the campus. Additionally, they ensure that university policies do not detract from the policies and activities of the Food Environment Strategy in order to promote a culture of health and wellness across the UFS. The committee also engages in continuous planning and budgeting to keep the strategy relevant and effective.

Some of their key strategic objectives include strengthening sustainability through more collaborative food projects and partnerships. They also aim to improve food security by increasing affordable, nutritious meal options. These also talk to the number of students supported through food bursaries, and the quantity of food items distributed through food banks. Other goals focus on ensuring dignity and inclusivity, and activating residences, student associations, and faculty organisations in the food environment programme.

Dr WP Wahl, Director of Student Life in the Division of Student Affairs, explains that the committee includes stakeholders from academic, support services, and student groups. Its purpose is to oversee different priority projects within the institution that speak to addressing hunger and malnutrition among students. Key members include Student Affairs, the Student Representative Council, food service providers, Kovsie Act, and faculty representatives, such as the Department of Nutrition and Dietetics in the Faculty of Health Sciences and the Department of Sustainable Food Systems and Development in the Faculty of Natural and Agricultural Sciences. These departments play a vital role in empowering and educating students, sharing information through videos, podcasts, and recipes on Facebook, the Food Environment webpage, and the Student Newsletter, as well as the Eat&Succeed page on Blackboard.

The Department of Nutrition and Dietetics is also closely involved in research, ensuring that decisions are based on scientific data. For instance, they compiled the 2021 and 2022 UFS Food Environment Task Committee Report, revealing that only 27% of UFS students are food secure, with 74% experiencing various degrees of food insecurity. In 2022, 39% of students reported going without food for a day because they could not afford it, and for 13%, this was almost a daily occurrence.

This research also examined, among others, eating patterns, food purchasing behaviours, and preparation habits that guide decisions to improve the university’s food environment and inform messaging to students.

Also playing a key role in executing the goals of the committee is the Department of Sustainable Food Systems and Development and Kovsie Act with the vegetable tunnels that were created on the Bloemfontein Campus and now on the South Campus for a sustainable flow of fresh produce that is channelled towards the food bank.

A supportive environment

The goal of promoting collaboration and mutually beneficial partnerships is to make a difference in the food environment at the university. Annelize Visagie, who is heading the Food Environment Office, highlights the university’s partnerships with major sponsors such as Gift for the Givers and Tiger Brands, who assist with food parcels. The No Student Hungry Programme (NSH) also has donors supporting its bursary initiative.

Since 2011, the university has made great strides in combating food insecurity through the NSH, which has supported the graduation of 875 students. Visagie finds it particularly rewarding to witness these graduates celebrate their achievements alongside their families, who express gratitude for the assistance provided. Such moments affirm the positive impact of their efforts in creating a supportive environment for students in need.

News Archive

What do diamonds, chocolates, bugs and almost 30 Nobel Prizes have in common? Crystallography

2014-10-15

Some of the keynote speakers and chairpersons at the third world summit in the International Year of Crystallography (in Africa) were, from the left, front: Profs Abdelmalek Thalal (Morocco), Prosper Kanyankogote (University of Kinshasa, Democratic Republic of the Congo); Habib Bougzala (Tunisia), Santiago Garcia-Granda (IUCr, University Oviedo, Spain), Michele Zema (IYCr 2014, Italy/UK) and Dr Jean-Paul Ngome-Abiaga (UNESCO, Paris, France); back: Dr Thomas Auf der Heyde (Acting Director-general, South African Department of Science and Technology); Dr Petrie Steynberg (SASOL) and Prof André Roodt (UFS, host).

Photo: Marija Zbacnik

The third world summit in the International Year of Crystallography (in Africa) was hosted by Prof André Roodt, Head of the Department of Chemistry and President of the European Crystallographic Association, at the University of the Free State in Bloemfontein.

A declaration with and appeal to support crystallography and science across Africa, was signed.

When one mentions 'Crystallography', or more simply 'crystals', what comes to mind? Diamonds? Perhaps jewellery in general? When thinking of crystals and Crystallography, you will need to think much bigger. And further – even to Mars and back.

Crystallography refers to the branch of science that is concerned with structure and properties of crystals. The obvious examples would include cut diamonds, gemstones such as amethysts, and ‘simple’ crystals such as selenite and quartz.

But have you thought about the irritating brown scales at the bottom of your kettle? The sand in your shoes? The salt over your lamb chops or the sugar in your coffee? All crystals. From egg shells to glucose, from bugs and insecticides to additives in food – even the compounds in chocolate – all fall under the close scrutiny of Crystallography.

The breakthroughs this field of science has produced have led to almost 30 Nobel Prizes over the years.

Determining the structure of DNA by crystallography was arguably one of the most significant scientific events of the 20th century. Different diseases have been cured or slowed by medicines obtained based on crystallographic studies. These include certain cancers, HIV/Aids, Tuberculosis and Malaria. Biological Crystallography enables the development of anti-viral drugs and vaccines.

This field of science influences our daily lives in virtually immeasurable ways. Here are but a few areas of study and development Crystallography contributes to:

•   LCD displays;
•   cellular smartphones;
•   insects and insecticides;
•   additives and products in foods;
•   improved effectiveness and security of credit cards;
•   new materials to preserve energy;
•   better gasoline with less by-products;
•   identify colour pigments used in paintings from the old masters, indicating if it’s an original or an imitation; and
•   beauty products such as nail polish, sun-block, mascara and eye shadow.

Crystallography is also currently used by the Curiosity Rover to analyse the substances and minerals on Mars.

Crystals and Crystallography form an integrated part of our daily lives – from bones and teeth to medicines and viruses, from chocolates to the blades in airplane turbines. Even down to the humble snowflake.

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