First published online August 31, 2004
Journal of Experimental Biology 207, 3559-3567 (2004)
Published by The Company of Biologists 2004
doi: 10.1242/jeb.01189
Plastic and evolved responses of larval tracheae and mass to varying atmospheric oxygen content in Drosophila melanogaster
Joanna R. Henry* and
Jon F. Harrison
Section of Organismal, Integrative and Systems Biology, School of
Life Sciences, Arizona State University, PO Box 874601, Tempe, AZ 85287-4601,
USA
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Fig. 1. Experimental design for the multi-generation experiments. In the oxygen
selection experiment, 30 randomly chosen female flies were mated and used to
found each generation. The same procedure was used to found the first
generation and last two generations of the artificial selection experiment,
whereas for generations two to n, only the heaviest 25% of the
females were allowed to mate and found the next generation. For both
experiments, flies were reared in 21% O2 in generation 0 and the
final two generations. Flies were reared in 10, 21 or 40% O2 during
all other generations. Two trials of both experiments were performed, each
with a different relative humidity. Multiple main dorsal tracheae (DT)
diameters were measured in the first trial; only posterior DT diameters were
measured in the second trial. See text for details.
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Fig. 2. Image of a third-instar larva. Diameters of the main dorsal tracheae (DT)
were measured at (a) the anterior anastomosis, (b) the second, (c) fourth, (d)
sixth and (e) eighth transverse connectives and (f) the posterior anastomosis.
Scale bar, 0.1 mm.
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Fig. 3. Larval mass vs % O2 in the plasticity trials. The
asterisk denotes significant difference from 21% values (post-hoc
test, P<0.05).
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Fig. 4. (A) Larval mass vs generation for the first multi-generation
trial. Shaded regions indicate generations raised in normoxia. Asterisks
indicate significant difference from the normoxic group (post-hoc
test, P<0.05). (B) Larval mass vs generation of the
second multi-generation trial. Shaded regions indicate normoxic conditions.
Asterisks indicate significant difference from the normoxic group
(post-hoc test, P<0.05).
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Fig. 5. Tracheal diameters vs position in the first plasticity trial
(similar patterns were observed in the other trials). Alphanumerical values
along the x-axis correspond to the six measurement positions
described in Fig. 2, with a
being the diameter at the anterior anastomosis and f being the diameter at the
posterior anastomosis. Lines are defined using spline curves. Asterisks
indicate a significant effect (P<0.02) of oxygen on diameter.
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Fig. 6. The posterior tracheal diameters of fruit fly larvae in the two plasticity
trials after one generation of exposure to different oxygen levels. * shows a
significant difference (P<0.05) from normoxic diameters in trial 1
and ** shows significance (P<0.05) from normoxic diameters in
trial 2.
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Fig. 7. (A) Mean tracheal diameters over multiple generations during the first
trial. Shaded areas indicate the generations during which all treatment groups
were raised in normoxic conditions. (B) Tracheal diameters at the posterior
anastomosis over multiple generations during the second trial. Shaded areas
indicate the generations that were raised in normoxic conditions regardless of
treatment line. Generations in which O2 significantly affects
tracheal diameter are marked with an asterisk (P<0.05).
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Fig. 8. Diffusing capacities of the main dorsal tracheae (DT) in the first
plasticity and multi-generation trials vs rearing oxygen partial
pressure (PO2).
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© The Company of Biologists Ltd 2004
