@article {Wang1, author = {Xiping Wang and R. Bruce Allison}, title = {Decay Detection in Red Oak Trees Using a Combination of Visual Inspection, Acoustic Testing, and Resistance Microdrilling}, volume = {34}, number = {1}, pages = {1--4}, year = {2008}, doi = {10.48044/jauf.2008.001}, publisher = {Arboriculture \& Urban Forestry (AUF)}, abstract = {Arborists are often challenged to identify internal structural defects hidden from view within tree trunks. This article reports the results of a study using a trunk inspection protocol combining visual observation, single-path stress wave testing, acoustic tomography, and resistance microdrilling to detect internal defects. Two century-old red oak (Quercus rubra) trees located in Capitol Park, Madison, Wisconsin, U.S., were visually inspected and then evaluated using a single-path stress wave timer, an acoustic tomography, and a resistance measuring drill. The trees were subsequently felled, and a disk at each test location was obtained and examined. It was found that the visual inspection and single-path stress wave tests correctly identified a general problem but without specificity; the tomograph accurately revealed the general location and magnitude of the defect within the cross-sections tested but required resistance microdrilling to precisely locate defects and differentiate between decay and crack-induced acoustic shadows.}, issn = {1935-5297}, URL = {https://auf.isa-arbor.com/content/34/1/1}, eprint = {https://auf.isa-arbor.com/content/34/1/1.full.pdf}, journal = {Arboriculture \& Urban Forestry (AUF)} }