National Geographic - USA (2021-11)

(Antfer) #1
FOR MORE THAN 20 YEARS Carla Dove has run the Feather Identifica-
tion Lab at the Smithsonian’s National Museum of Natural History in
Washington, D.C. Her team of forensic ornithologists receives more than
10,000 avian remains a year from aircraft collisions—bird strikes—and
matches them to specimens in the museum’s collections, using morphol-
ogy and DNA analysis. An example: After the “Miracle on the Hudson”
emergency landing in 2009, Dove’s lab ID’d the birds involved as Canada
geese. By knowing what species are struck most, airfield staff can deter
birds and reduce the number of damaging strikes. —HICKS WOGAN


  1. Avian skull
    The Smithsonian houses
    the world’s most diverse
    bird skeleton collection,
    including this skull of an
    American bittern. (See
    other aspects of the same
    species at 2 and 5 .)

  2. Study skin
    Also in the archives are
    more than 500,000 bird
    specimens, or study skins,
    representing 85 percent of
    avian species worldwide.

  3. Feather sample
    Dove (that’s her hand pic-
    tured) and her team match
    mailed-in whole or partial
    feathers to study skins by
    color, size, or pattern.

  4. Scanning electron
    photomicrograph
    A scanning electron micro-
    scope reveals distinguish-
    ing features in downy
    feathers’ structures.

  5. Snarge
    A term for blood, guts, or
    other bird tissue scraped
    off a plane (here, an MD-10
    aircraft in Miami in 2006).

  6. Hand lens
    This allows a close look at
    small birds—horned larks,
    mourning doves, swallows—
    the size most often hit.

  7. Probe, forceps, scissors
    These tools aid in handling
    feather fragments or pre-
    paring samples for study.

  8. DNA sampling plate
    Once a tray is filled with
    96 bird strike samples, off
    they go for DNA testing,
    or bar coding.

  9. Field guide
    Which species live near a
    strike site? Alas, no book
    can explain some outlier
    IDs, such as parrots at New
    York’s JFK Airport.

  10. Microslide supplies
    Lab staff use microscopy
    to study a feather’s bar-
    bules (seen in 4 ) and
    barbs, the branches
    extending off its shaft.

  11. Light microscope
    Some barb traits are
    unique to groups of birds;
    with a light microscope, an
    expert can tell a duck from
    a pigeon, for example.

  12. Reference microslides
    The Smithsonian team
    can compare slides of
    feathers from bird strikes
    with slides of feathers
    taken from study skins in
    the museum’s collection.


PHOTOGRAPH BY REBECCA HALE

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NOVEMBER 2021 33
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