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Identifying human versus non-human skeletal remains in the field

Identifying human versus non-human skeletal remains in the field. Amy E. Kelly Forensic Investigator Coconino County Medical Examiner’s Office. Human vs. Non-human. In modern forensic cases, 25-30% of the presented cases are non-human in origin.

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Identifying human versus non-human skeletal remains in the field

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  1. Identifying human versus non-human skeletal remains in the field Amy E. Kelly Forensic Investigator Coconino County Medical Examiner’s Office

  2. Human vs. Non-human • In modern forensic cases, 25-30% of the presented cases are non-human in origin. • Access to and using a comprehensive comparative collection is necessary. • Using a variety of literature in the field is helpful and an easy and efficient means to improve animal vs. human identification (Cruz-Uribe and Klein 1994, Gilbert 1990, Ubelaker 1989). • If in any doubt, GPS, photograph and describe the specimen and “scene” before moving or collecting the remains and bringing it to the CCME office for analysis. If appropriate, call me or the CCME investigator on-call.

  3. Human vs. Non-human • The first question that should be asked is “Is it bone?” and not wood, shell or plastic or rock. • If yes, is it cranial or post-cranial? (cranial bones are usually thin, flat or even irregular in structure; look for sinuses, sutures or sockets) • Post-cranial bones are typically long, skinny and can be flat. Exceptions are the bones of the hands and feet, vertebrae and the pelves. • Then, look to see if the bone is whole or fragmented. • Also, are the bones adult in age or juvenile? (Fused or unfused epiphyses) • And lastly but most importantly, could this be human?

  4. Human vs. Non-human • Most mammalian bones share similar morphological features between species. The exceptions are marine mammals and some unusual critters like tree sloths. • The primary difference is size. However some animals, such as deer, have bones that are very close in size to an adult human. • Other mammals that cause confusion are bear and raccoon for their paws (Klepinger 2006). Bear paws look similar to adult hands and raccoon paws are easily confused for children’s hands.

  5. Human vs. Non-human Which hand is human versus bear?

  6. Human vs. Non-human • Human versus raccoon

  7. Human vs. Non-human • Easy identifications

  8. Human vs. Non-human • But what if you come across bones like these?

  9. Human vs. Non-human • Humans: bipedal • Pelvis is broad and shallow (bowl-shaped) • The femur is the longest bone in the body with a single linea aspera • The tibia and fibula are separate bones and the tibia is triangular in cross-section with a small tibial tuberosity • Long and narrow foot with multiple bones for bipediality • Other mammals: Quadrupedal (mostly) • Pelvis is long and narrow • The femur is short relative to the body size. If the femur’s length is comparable to an adult human femur, the diameter may be twice as thick as a human femur (i.e., cow) with a double or plateau linea aspera • The tibia and fibula are often fused and the tibia is more rounded in cross-section with a large tibial tuberosity or longitudinal ridge. • Legs of larger mammals are modified toes and fingers for speed and agility

  10. Human vs. Non-human Vertebrae • Humans: • Large, broad and flat vertebral body • Short spinous process (2-3 inches at the most) • Sacrum is triangular in shape and composed of 5 fused vertebrae, which are broad compared to length and flattened anteriorly-posteriorly • Other mammals: • Small vertebral body, often convex on one side and concave on the other • Long spinous process (>6 inches in some larger mammals) • Sacrum is long and narrow with fewer fused vertebrae (3-4)

  11. Human vs. Non-human Forelimbs • Humans: • Designed for rotation (i.e., throwing, swinging) • Long axis of scapula is perpendicular to scapular spine, which is why it’s triangular shaped • Clavicle present • Humerus, radius and ulna are not weight bearing so they are not robust. Ulna and radius not fused • Large thumb • Other mammals: • Designed for front-back stride • Long axis of scapula is parallel to scapular spine, which is why it’s rectangular shaped • Clavicle absent in most non-human mammals • Humerus, radius and ulna are weight bearing and robust. Ulna and radius are often fused to support these weight bearing limbs • Small thumb, even on mammals with similar hands (bear and raccoon)

  12. Human vs. Non-human • Juvenile Remains • The most common human bones to be mistaken for animal bones are bones from infants. • The ends of the long bones, bones of the hands and feet and clavicle are not fused • These unfused bones have indistinct edges • Multiple ossification centers and unfused epiphyses increase the number of bones in infants and children • Epiphyses (the ends of long bones) when separated from the rest of the skeleton do not look human to the untrained eye • Long bones are thinner in cross-section • Cranial bones can separate and lack the diploe structure, are uniform in thickness and can be confused with tortoise carapace. Petrous portion is separate in infants and due to it’s dense nature, often survives burial better • Can be confused with smaller mammals such as raccoon, rabbit or even bird

  13. Human vs. Non-human

  14. Human vs. Non-human • Mandibles from infants Petrous bones circled

  15. Human vs. Non-human • Human infant and fetal bones, recovered from a burial

  16. Human vs. Non-human • Fragmented and burned remains are more challenging to correctly identify than intact remains for distinguishing between human and non-human remains • Ids can be done macroscopically by morphology** • Ids can be done microscopically (histological examination) **For our purpose, we only need to discuss macroscopic analysis

  17. Human vs. Non-human • Skull Fragments?

  18. Human vs. Non-human • Fragmentary and burnt bison bones.

  19. Human vs. Non-human Traumatized and burned pig bones

  20. Human vs. Non-human • Macroscopic characteristics: cortical bone much thicker in animal long bones than in human; humeral and femoral cortical thickness in humans is about ¼ of total diameter • Bone macroscopic characteristics: cranial bone diploe relative to cranial cortical (tabular) bone is thinner in animals compared to humans

  21. Human vs. Non-human • Review: • Ask first, “Is it bone?” • Ask second, “Could it be human and why?” (i.e., context, size/shape of bones, do the bones fit bipedal locomotion?) • Have some reference material to aide in more accurate assessment of human versus animal (I can provide photocopies) • If in doubt, no matter how much, GPS, photograph and document the remains, then collect or call me or the on-call investigator

  22. Human vs. Non-human Call me directly if you ever come upon this…

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