The impact of site on tree form, wood properties, and lumber quality of plantation-grown Pinus patula
Author:
van der Merwe Jaco-Pierre12, Bacher Martin3, Madiope Sechaba2, Ncongwane Thandekile2, Ngomane Robert4, Spogter Olwethu4, Kuisis Hilton4, Potgieter Jaco4, Tait Oscar4, Clarke Charlie5, Cool Julie1, Avramidis Stavros1, Ellis Simon1, Mansfield Shawn D.16
Affiliation:
1. Department of Wood Science , University of British Columbia , Vancouver , BC, V6T 1Z4 , Canada 2. Research Division , York Timbers , Sabie , Mpumalanga , South Africa 3. Microtec srl GmbH , Brixen , Italy 4. Sabie Mill , York Timbers , Sabie , Mpumalanga , South Africa 5. CharlieC Consulting , Cheltenham , Gloucestershire , GL54 4NU , UK 6. Department of Botany , University of British Columbia , Vancouver , BC , V6T 1Z4 , Canada
Abstract
Abstract
South Africa is a water scarce country with minimal natural forests. Plantation forest species such as the Mexican tropical hard pine, Pinus patula Schiede & Deppe ex Schltdl. & Cham., was introduced into the country to satisfy local fibre demand. Today, the majority of pine plantations in South Africa are found in the Mpumalanga province. The province has diverse growing conditions in relation to climate and soil properties. Sample plots were established in even-aged P. patula plantations and stratified according to soil parent material and altitude. Growing conditions of each sample plot were characterised according to climate and soil properties. A total of 540 sample trees were measured for height, diameter, density, and latewood content. The sample trees were harvested to produce 2690 logs. The logs were milled, and the resultant lumber was graded according to density, dynamic modulus of elasticity, and modulus of rupture. Annual maximum temperature had the most significant impact on tree growth, while rainfall correlated with wood density and latewood content of standing trees. However, annual maximum temperature and tree height had a negative relationship with the recovered lumber properties and dimensional stability. Spring rainfall appeared to be the most important factor influencing lumber twist and this was possibly due to the associated larger juvenile core present in the trees.
Publisher
Walter de Gruyter GmbH
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