The 3-PG model, a simple process-based model (PBM) has gained popularity with researchers and forest resources managers (especially pulp growers in South Africa) as a practical tool for sustainable forest management strategies. This is because the classical growth and yield models used have become unsustainable as we are in a time where forest growth cannot be reliably predicted from historical bioassay. This project aimed to test and set up the 3-PG model for Eucalyptus grandis x urophylla (the most planted hybrid clones by the forest industries in South Africa) and compare its performance with the currently used conventional growth and yield model. The outcome from this project was to recommend an operational tool for forest managers, which can accurately predict the growth and yield under changing environment and management practices, provide data useful in the economic management of stands, predict the productivity of a new site that has not been previously afforested.
PhD project title: Characterizing the spatiotemporal dynamics of crown architecture in young eucalypts using LiDAR technology
The aim of this research is to characterise the spatiotemporal dynamics of crown architecture and quantify its influence on the function and performance of young eucalypts. This project is conducted at the E. grandis common garden experiment at Mondi Hilton and at the IMPACT OAL on Eucalyptus grandis, E. cladocalyx, E. urophylla and E. cloeziana. The RIEGL VZ-400i terrestrial laser scanner is used to capture point cloud data of the trees. Additionally, drones are deployed to gather airborne laser scanning data. The acquired scan data is registered into a common local reference coordinate system using the RiScan Pro software. Several software packages are used to further process the point cloud data and reconstruct the trees, whereafter a detailed model is generated of their branching architecture. This project is a collaborative effort between Prof Dave Drew and Prof Zander Myburg.
