dc.description.abstract | This independent study is an assessment of the utility of an unmanned
aerial vehicle (UAV) for measuring the heights of jack pine (Pinus banksiana)
trees in a provenance trial. An electronic hypsometer, the Haglöf Vertex IV, was
used in the field to measure tree heights, and an UAV, the DJI Mavic Pro 1, was
used to collect a point cloud of the provenance trial. Agisoft PhotoScan was the
cloud-processing engine used for image processing and ArcMap was used for
estimating tree heights. Tree height measurements were recorded for 256 jack
pine in the study area. Measurements taken using the Haglöf Vertex IV
displayed greater heights in comparison to the heights derived from the UAV
imagery. The mean difference between the two datasets was 1.1 m with a
standard deviation of 0.8 m. A correlation between the two datasets was
observed when mean tree height per provenance was compared; a value of 0.9
was calculated using the Pearson Product-Moment Correlation Coefficient. This
value of 0.9 indicated a positive association between the two datasets, however,
ranking provenance means from highest to lowest indicated the two datasets
differed. Although the UAV was capable of measuring tree heights, this study
demonstrates that further understanding of measurement error is important for
producing accurate results. | en_US |