urn:ddi:se.researchdata:doi-10-17044-scilifelab-29543516:0 SND doi-10-17044-scilifelab-29543516 0 urn:ddi:se.researchdata:doi-10-17044-scilifelab-29543516.ResourcePackage:2.0 urn:ddi:se.researchdata:doi-10-17044-scilifelab-29543516.OtherMaterialScheme:2.0 urn:ddi:se.researchdata:doi-10-17044-scilifelab-29543516.OrganizationScheme-0:2.0 urn:ddi:se.researchdata:doi-10-17044-scilifelab-29543516.Individual-0:2.0 affiliation Science for Life Laboratory Sheng Leslie Joevenller Sheng Leslie Joevenller ORCID 0000-0002-6428-0422 urn:ddi:se.researchdata:doi-10-17044-scilifelab-29543516.Individual-0:2.0 Fredrik Nysjö Fredrik Nysjö ORCID 0000-0003-2734-8149 urn:ddi:se.researchdata:doi-10-17044-scilifelab-29543516.Individual-0:2.0 kari hyll kari hyll ORCID 0000-0002-1467-7413 urn:ddi:se.researchdata:doi-10-17044-scilifelab-29543516.Individual-0:2.0 Fredrik Forsberg Fredrik Forsberg ORCID 0000-0001-7395-3302 urn:ddi:se.researchdata:doi-10-17044-scilifelab-29543516.Individual-0:2.0 Henrik Svennerstam Henrik Svennerstam ORCID 0000-0002-3096-5028 urn:ddi:se.researchdata:doi-10-17044-scilifelab-29543516.Individual-0:2.0 Liviu Ene Liviu Ene ORCID 0000-0003-2572-6169 urn:ddi:se.researchdata:doi-10-17044-scilifelab-29543516.Individual-0:2.0 Dick Sandberg Dick Sandberg urn:ddi:se.researchdata:doi-10-17044-scilifelab-29543516.StudyUnit:2.0 doi-10-17044-scilifelab-29543516 Mapping resinwood in CT scans of Scots pine with a hybrid Gaussian Mixture Model image segmentation pipeline urn:ddi:se.researchdata:doi-10-17044-scilifelab-29543516.Individual-0:2.0 Individual Luleå tekniska universitet Luleå University of Technology Luleå tekniska universitet Luleå University of Technology 2026-01-23 10.17044/SCILIFELAB.29543516 DOI The presence of resinwood in Cronartium pini-infected Scots pine stems represents a major quality concern, diminishing timber value and challenging processing workflows. Although X‑ray computed tomography (CT) provides a non‑destructive means of visualising internal density, robust and automated methods to separate resinwood from heartwood and sapwood in such scans remain underdeveloped. To address this, we present a hybrid image analysis pipeline that combines a slice‑adaptive Gaussian Mixture Model (GMM), this statistically characterises tissue‑specific density patterns in each CT slice. This dataset was created through X-ray computed tomography (CT) imaging for developing segmentation method that capable identifying internal resinwood. Infected pine tree samples were inspected and harvested by trained inventory specialist, then scanned by MicroTec Mito industrial-scale CT scanner. The scanner produced data using a cone beam and two angled flat detectors on a helical scanning trajectory. The spatial resolution and resulting voxel dimensions were uniform at 0.5 × 0.5 × 0.5 mm³. The resolution of each image was 750 x 750 pixels on 2D. The resulting 3D images comprised 16-bit greyscale values representing density in kg/m³ at each location, and helical 1PI Katsevich was used for image reconstruction. urn:ddi:se.researchdata:doi-10-17044-scilifelab-29543516.TopicalCoverage:2.0 Medical and Health Sciences Medicin och hälsovetenskap urn:ddi:se.researchdata:doi-10-17044-scilifelab-29543516.Archive:2.0 urn:ddi:se.researchdata:doi-10-17044-scilifelab-29543516.Archive-ArchiveSpecificType-AccessType:2.0 0