The EucXylo team at the Department of Forest and Wood Science (DFWS), Stellenbosch University, is delighted to extend heartiest congratulations to two outstanding individuals who have just completed their postgraduate research with
distinction:
- Dr Gugu Gama — PhD
- Erin Ramsay — MSc (cum laude)
Their success highlights the strength and vitality of our research community, and we are incredibly proud of their achievements.
Spotlight on Their Research
Dr Gugu Gama
As part of the EucXylo programme, Dr Gama’s PhD research tackled a topic of critical ecological and forestry relevance: How Eucalyptus cladocalyx, a species used in plantations, develops its xylem under repeated drought stress. Her work involved exposing sixty seedlings to cycles of drought and temperature variations, then using polarizing light microscopy and bright-field microscopy to capture images of the cambium. These images were subsequently analysed using ImageJ to quantify how cambial growth and xylem formation respond to water-stress conditions. A further aim of her study was to identify key anatomical and developmental differences between drought-tolerant species and those less adapted to dry conditions.
Erin Ramsay
Erin’s MSc focused on the juvenile phase of eucalypts, a critical window when young trees establish root systems and adapt morphologically and physiologically to their environment. Rather than focusing on mature plantation trees, Erin compared various Eucalyptus species from different climatic regions (humid, arid, subtropical), to see how species-specific leaf traits, photosynthetic capacity and water-use strategies affect early growth and adaptability. Through a combination of photosynthetic and structural measurements, her work links leaf structure, water management, and environmental adaptation.
Why Their Work Matters
Since its establishment under the Hans Merensky Legacy Foundation, EucXylo has set out to deepen our understanding of how eucalypts grow, form wood (xylogenesis), and adapt to environmental stress, from the cellular level to whole-tree physiology, and ultimately forest-scale growth.
EucXylo combines high-precision ecophysiological measurements, wood anatomy, long-term monitoring, and cutting-edge modelling. Our research spans from lab-scale cell analyses, through leaf-level physiology, to stand-level growth and wood production, all with the aim of developing predictive models of eucalypt growth and resilience under varying climatic conditions
In this context, the work of Gugu and Erin represents not just academic achievements, but contributions to a deeper knowledge base that underpins sustainable forestry, climate-resilient plantations, and long-term ecosystem management in South Africa and beyond.
