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Images, UC QuakeStudies

University of Canterbury staff members are escorted by Civil Defence members in order to retrieve essential items from their offices. The photographer comments, "E-learning team after clearing their offices. Brendon Stillwell (ICTS tech helping with PCs), Antoine Monti, Susan Tull, Herbert Thomas, Paul Nicholls, Gregor Ronald, Lei Zhang, Jess Hollis".

Images, UC QuakeStudies

University of Canterbury staff members are escorted by Civil Defence members in order to retrieve essential items from their offices. The photographer comments, "E-learning team after clearing their offices. Brendon Stillwell (ICTS tech helping with PCs), Antoine Monti, Susan Tull, Herbert Thomas, Paul Nicholls, Gregor Ronald, Lei Zhang, Jess Hollis".

Research papers, Lincoln University

Tree mortality is a fundamental process governing forest dynamics, but understanding tree mortality patterns is challenging because large, long-term datasets are required. Describing size-specific mortality patterns can be especially difficult, due to few trees in larger size classes. We used permanent plot data from Nothofagus solandri var. cliffortioides (mountain beech) forest on the eastern slopes of the Southern Alps, New Zealand, where the fates of trees on 250 plots of 0.04 ha were followed, to examine: (1) patterns of size-specific mortality over three consecutive periods spanning 30 years, each characterised by different disturbance, and (2) the strength and direction of neighbourhood crowding effects on sizespecific mortality rates. We found that the size-specific mortality function was U-shaped over the 30-year period as well as within two shorter periods characterised by small-scale pinhole beetle and windthrow disturbance. During a third period, characterised by earthquake disturbance, tree mortality was less size dependent. Small trees (,20 cm in diameter) were more likely to die, in all three periods, if surrounded by a high basal area of larger neighbours, suggesting that sizeasymmetric competition for light was a major cause of mortality. In contrast, large trees ($20 cm in diameter) were more likely to die in the first period if they had few neighbours, indicating that positive crowding effects were sometimes important for survival of large trees. Overall our results suggest that temporal variability in size-specific mortality patterns, and positive interactions between large trees, may sometimes need to be incorporated into models of forest dynamics.

Images, UC QuakeStudies

University of Canterbury library staff in their temporary office in the NZi3 building. The photographer comments, "University of Canterbury administration all fits into one building! Well, sort of. Library staff - contacting publishers to ask for free online resources. A very high hit rate, shame they're not on commission".

Images, UC QuakeStudies

Members of the University of Canterbury's E-Learning team meet at a staff member's home on Wairakei Road. The photographer comments, "E-Learning and Library staff plan for a return to UC. L-R Heather Jenks, Alison McIntyre, Susan Tull, Jess Hollis".

Images, UC QuakeStudies

Members of the University of Canterbury's E-Learning team meet at a staff member's home on Wairakei Road. The photographer comments, "E-Learning team & library staff meet for a briefing and to plan a return to work. L-R Herbert Thomas, Alan Hoskin, Anne Scott".