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24 February 2023 | Story André Damons | Photo Supplied
Prof Paul Oberholster
Prof Paul Oberholster is Director of the Centre for Environmental Management at the University of the Free State (UFS) and winner of the NSTF-Water Research Commission (WRC) Award for his contribution to water resource management in South Africa in 2021.

This year has already seen severe natural disasters across the world, including devastating floods and forest fires, which serve as reminders of the planet's fragility and the importance of addressing the impacts of climate change. Nature-based solutions can play a critical role in mitigating climate change and offer a range of benefits to both people and the planet.

Prof Paul Oberholster – Director of the Centre for Environmental Management at the University of the Free State (UFS) – and his team played their part by researching nature-based solutions as an alternative to treating acid mine drainage (AMD) and domestic wastewater. Freshwater algae as a phycoremediation solution approach have the potential to help society and the environment in several ways.  

Prof Oberholster, winner of the NSTF-Water Research Commission (WRC) Award for his contribution to water resource management in South Africa in 2021, says nature-based solutions also play a vital role in realising the Kunming-Montreal Global Biodiversity Framework (GBF), which was adopted during the United Nations Biodiversity Conference (COP15) on 19 December 2022 in Montreal, Canada. The GBF sets global targets for 2030 that aim to effectively conserve and manage at least 30% of the world's lands, inland waters, coastal areas, and oceans, prioritise ecologically representative and well-connected systems of protected areas, restore at least 30% of degraded ecosystems, reduce the loss of areas of high biodiversity importance, cut global food waste in half, and significantly reduce over-consumption and waste generation.

What are nature-based solutions?

According to Prof Oberholster, nature-based solutions are approaches that utilise natural ecosystem processes, functions, and structures to address a variety of planetary health challenges, including climate change. These solutions involve protecting, restoring, regenerating, and sustainably managing natural ecosystems, such as forests, wetlands, and oceans, to enhance their ability to store carbon, regulate water flow, reinstate ecosystem services, and provide habitat for wildlife.

The significance of nature-based solutions regarding climate change adaptation is multifaceted. Firstly, natural ecosystems are essential for regulating the earth's climate, as they absorb and store carbon dioxide from the atmosphere, which helps to mitigate the effects of greenhouse gas emissions. 

Secondly, nature-based solutions can help to reduce the vulnerability of human communities to the impact of climate change, such as flooding, drought, and extreme weather events. Thirdly, nature-based solutions can provide multiple benefits beyond climate change adaptation, such as enhancing biodiversity, supporting sustainable livelihoods, and improving human health and well-being.

Prof Oberholster’s work

Algae-based treatment systems use bio-stimulation applications and natural processes to remove pollutants from water, which can be more cost-effective and produce less waste. Traditional treatment methods for AMD and domestic wastewater often rely on using chemicals or energy-intensive processes, which can be expensive and have negative environmental impacts. 

"Algae-based treatment systems can help mitigate the environmental impacts of AMD and domestic wastewater by removing pollutants such as heavy metals and reducing the acidity of the water. This can help restore the ecosystem and protect public health. Similarly, algae-based treatment systems can remove nutrients from domestic wastewater, reducing its environmental impact and preventing eutrophication, which can harm aquatic life," says Prof Oberholster.

Clean water and sanitation, forestry (plant life and agriculture), and climate change are part of the 17 Sustainable Development Goals (SDGs) making Prof Oberholster's research much more important. 


Meet a Limnologist, Paul Oberholster (NSTF-South32 Award Winner): 


Significance of nature-based solutions

According to him, there are several reasons why we should make more use of nature-based solutions. It can help reduce our carbon footprint and mitigate the impact of climate change. It can help protect the environment and promote biodiversity. By reducing waste and pollution, we can preserve natural resources and ecosystems and ensure they remain healthy and vibrant for future generations.

Dr Yolandi Schoeman , a postdoc student of Prof Oberholster, says the significance of nature-based solutions is multifaceted and includes environmental, social, and economic benefits. Nature-based solutions can play a critical role in mitigating climate change by sequestering carbon, enhancing carbon sinks, and reducing greenhouse gas emissions. By protecting and restoring natural ecosystems, we can enhance their ability to store carbon, which in turn helps to mitigate the effects of climate change.

"These solutions are also important for climate change adaptation. Nature-based solutions can also help to reduce the vulnerability of human communities to the impact of climate change, such as flooding, drought, and extreme weather events. By regenerating natural wetlands and floodplains, for example, we can help to reduce the risk of flooding, while reforestation can help to prevent soil erosion and landslides,'' says Dr Schoeman.

According to her, rewilding is another key reason why nature-based solutions are critical in the process of regenerating natural ecosystems. Through rewilding, habitat can be reinstated for a wide range of plant and animal species, lost species guilds can be restored by giving them space to thrive, population enhancement can be enabled, and key native species can be reintroduced as essential ecosystem builders. By protecting, regenerating, and restoring these ecosystems, we can help conserve biodiversity and prevent species loss, ultimately securing our own survival on earth.

UFS research initiative relating to nature-based solutions 

The UFS has a number of ongoing research initiatives and projects focused on nature-based technology solutions, including projects focused on climate adaptation in water resource management, establishing the water-climate-food-rewilding-land nexus as a planetary health ‘stock-take’ of ecosystems, reducing water usage, reinstating connections as coupled human and natural systems, enabling rewilding, and increasing water efficiency. 

The UFS is also involved in research that addresses water pollution through developing and implementing nature-based systems such as hybrid constructed wetlands, phytoremediation and phycoremediation, regenerating natural wetland systems and riparian buffer zones, bio-remediation, design of bio-intelligent systems, integrating grey and green infrastructure, and the use of big data and analytics in the design and management of nature-based solutions for water, according to Dr Schoeman. 

Ecological Engineering Institute of Africa

Prof Oberholster is leading a globally significant initiative that has recently been established at the UFS – the Ecological Engineering Institute of Africa (EEIA). The EEIA's managing members include scientists and engineers from across the world, including Egypt, Ghana, Greece, and the United States of America (USA). 

Prof William Mitsch, an original co-founder of the EEIA, is also a managing member. Prof Mitsch, regarded as the best wetland scientist in the world, is also known for his positions as director of the Everglades Wetland Research Park, United States National Ramsar committee chair (to name but a few), and is an ecological engineer who was the co-laureate of the 2004 Stockholm Water Prize

The EEIA intends to promote interdisciplinary collaboration in advancing the field of ecological engineering in Africa and globally, and to encourage research in this innovative field. The EEIA's goal is also to establish a fully functional research and training facility, to develop various undergraduate and postgraduate curricula, and to provide international accreditation to ecological engineers. 

Snow

Evaluating on-site performance of Africa’s first ecologically engineered wetland treating a cocktail of anthropogenically impacted water from the agricultural, mining, and industrial sectors in Emalahleni, South Africa.

Forest

Phycoremediation integrated with phytoremediation in an ecologically engineered wetland to treat mine and industrial-impacted water.

Mountains

Dr Yolandi Schoeman (UFS), together with Mr Pieter Nel from North West Parks Board. Her nexus research project covers an area of more than 20 000 km² in South Africa to develop a water-climate-food-rewilding-land nexus as a novel approach to determining the planetary health status quo and boundaries of ecosystems as coupled human-natural systems.

News Archive

UV vestig hom afgelope eeu as leier op verskeie terreine
2004-05-11

Michelle O'Connor - Volksblad - 11 Mei 2004

Ondank terugslae nou 'n 'gesonde volwassene'

HOEWEL die Universiteit van die Vrystaat (UV) vanjaar sy eeufees vier en met 23 000 studente die grootste universiteit in die sentrale deel van die land is, was dié instelling se geboorte glad nie maklik nie. MICHELÉ O'CONNOR het met prof. Frederick Fourie, rektor, oor die nederige begin van dié instelling gesels.

DIE behoefte aan 'n eie universiteit in die Vrystaat het reeds in 1855, kort ná die stigting van Grey-kollege, kop uitgesteek.

Grey se manne het hulleself teen 1890 begin voorberei om die intermediêre B.A.-eksamens af te lê. Dié eksamen het hulle toegang gegee tot die tweede jaar van 'n B.A.-graad aan die destydse University of the Cape Good Hope, nou die Universiteit van Kaapstad.

"Presidente F.W. Reitz en M.T. Steyn het destyds albei die stigting van 'n universiteit hier bepleit. Die grootste rede was sodat die seuns van die Vrystaat nie weggestuur word nie.

"Dié twee se droom is op 28 Januarie 1904 bewaarheid toe ses studente hulle onder dr. Johannes Bril, as hoof/rektor van Grey-kollege, vir die graad B.A. ingeskryf het. Dié graad is aanvanklik deur die Kaapse universiteit toegeken.

"Net die klassieke tale soos Latyns en Grieks, die moderne tale, Nederlands, Duits en Engels, filosofie, geskiedenis, wiskunde, fisika, chemie, plant- en dierkunde is aanvanklik aangebied.

"Die UV se geboue het gegroei van 'n klein tweevertrek-geboutjie wat nou naby Huis Abraham Fischer staan, en verblyf in die Grey-kollege se seunskoshuis," sê Fourie.

Volgens hom is die universiteit se eerste raad en senaat tussen 1904 en 1920 saamgestel. Die eerste dosente is aangestel en die eerste geboue opgerig. "Dié tyd was egter baie moeilik.

"Die instelling het teen 1920 net 100 studente gehad en was geldelik in die knyp. Daar was geen vaste rektor nie en geen vooruitgang nie. Vrystaatse kinders is steeds na ander universiteite gestuur.

"Ds. J.D. Kestell, rektor van 1920 tot 1927, het egter dié instelling finaal gevestig.

"Hy het self studente van oor die hele Vrystaat gewerf en geld by onder meer kerke en banke ingesamel. Kestell het selfs Engelse ouers oortuig om hul kinders na die Greyuniversiteitskollege (GUK) te stuur en teen 1927 het dié instelling met 400 studente gespog.

"In die tydperk tussen 1927 en 1950 het die GUK weer verskeie terugslae beleef.

"In dié tyd was dit onder meer die Groot Depressie en die Tweede Wêreldoorlog. Die armblanke-vraagstuk het regstreeks op studente en dosente ingewerk en die politieke onderstrominge van dié tyd het die instelling ontwrig.

"Die GUK het egter oorleef en die Universiteitskollege van die Oranje-Vrystaat (UKOVS) is in 1935 gebore," sê Fourie.

Hy sê in dié tyd is verskeie fakulteite gevestig en teen 1950 het die UKOVS met 1 000 studente gespog.

Teen 1950 het dit 'n onafhanklike universiteit geword en die naam is verander na die Universiteit van die OranjeVrystaat (UOVS).

Dié tydperk is gekenmerk deur Afrikaner- en blanke selfvertroue en heerskappy. Studentegetalle het tot 7 000 in 1975 gegroei en heelwat vooruitgang het in dié tyd plaasgevind.

"Tussen 1976 en 1989 sukkel dieuniversiteit weer met onder meer ekonomiese krisisse, die land se politieke onstabiliteit en word die UOVS geï soleer.

"Een ligpunt in dié tyd is die toelating van die eerste swart studente, die nuwe Sasol-biblioteek en die fakulteit teologie wat die lig sien.

"Tussen 1990 en vanjaar het die UOVS verskeie op- en afdraandes beleef. Die universiteit doen nie net die eerste stappe van transformasie nie, maar begin ook aan 'n beleid van multikulturaliteit werk.

"Die UOVS se naam verander in 1996 na die Universiteit van die Vrystaat/University of the Free State en in 2001 word die Sotho-vertaling bygevoeg.

"Geldelike druk en probleme neem drasties toe en personeel word gerasionaliseer.

"Teen 2000 begin die UV met 'n draaistrategie en studentegetalle neem tot meer as 23 000 toe," sê Fourie.

Hy sê die UV het die afgelope eeu nie net verskeie terugslae oorleef nie, maar homself ook op verskeie gebiede as 'n leier gevestig.

Die universiteit behaal sy eie geldelike mikpunte, neem 'n nuwe taalbeleid van veeltaligheid aan en herbelê in personeel.

Die instelling inkorporeer die kampusse van die Vista- en Qwaqwa-universiteit en groei internasionaal.

Die UV vestig ook fondamente van 'n institusionele kultuur van verdraagsaamheid, geregtigheid en diversiteit.

"Die baba het in die afgelope eeu 'n gesonde volwassene geword."

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