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. 2023 Aug 19;11(1):coad060.
doi: 10.1093/conphys/coad060. eCollection 2023.

Oxidative physiology of two small and highly migratory Arctic seabirds: Arctic terns (Sterna paradisaea) and long-tailed jaegers (Stercorarius longicaudus)

Melinda A Fowler  1 Joanna B Wong  2   3 Autumn-Lynn Harrison  4
Affiliations

Oxidative physiology of two small and highly migratory Arctic seabirds: Arctic terns (Sterna paradisaea) and long-tailed jaegers (Stercorarius longicaudus)

Melinda A Fowler et al. Conserv Physiol. .

Abstract

Arctic ecosystems are changing rapidly. The tundra supports nesting migratory seabirds that spend most of their year over the ocean. Migrations are demanding, but it is unclear how physiological capability may equip organisms to respond to their changing environments. For two migratory seabird species nesting in Alaska, USA, the Arctic tern (n = 10) and the long-tailed jaeger (n = 8), we compared oxidative physiology and aerobic capacity measured during incubation and we recorded individual movement paths using electronic tracking tags. Within species, we hypothesized that individuals with longer-distance migrations would show higher oxidative stress and display better aerobic capacity than shorter-distance migrants. We examined blood parameters relative to subsequent fall migration in jaegers and relative to previous spring migration in terns. We present the first measurements of oxidative stress in these species and the first migratory movements of long-tailed jaegers in the Pacific Ocean. Arctic terns displayed positive correlation of oxidative variables, or better integration than jaegers. Relative to physiological sampling, pre-breeding northward migration data were available for terns and post-breeding southward data were available for jaegers. Terns reached a farther maximum distance from the colony than jaegers (16 199 ± 275 km versus 10 947 ± 950 km) and rate of travel northward (447 ± 41.8 km/day) was positively correlated with hematocrit, but we found no other relationships. In jaegers, there were no relationships between individuals' physiology and southward rate of travel (193 ± 52.3 km/day) or migratory distance. While it is not clear whether the much longer migrations of the terns is related to their better integration, or to another factor, our results spark hypotheses that could be evaluated through a controlled phylogenetic study. Species with better integration may be less susceptible to environmental factors that increase oxidative stress, including thermal challenges or changes in prey distribution as the Arctic climate changes rapidly.

Keywords: migration; oxidative stress; seabirds.

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Figures

Figure 1
Figure 1
Migratory metrics used to relate to physiological variables measured during incubation for two seabird species tracked with electronic tags from nesting grounds in Alaska, USA. Lines indicate periods of migration (fast, directed movement omitting breeding and over-wintering periods, but including migratory stopovers). The northward, pre-breeding migration of Arctic tern and southward, post-breeding migration of long-tailed jaeger are shown. Triangles indicate the location at which the bird reached a straight-line maximum distance from their nest site in the tracked year. See Supplementary Material, Fig. S1 for full-annual cycle movement paths.
Figure 2
Figure 2
Variability in oxidative physiology between species. A: Reactive Oxygen Metabolites (ROM), B: Antioxidants (OXY) and C: Arctic terns and long-tailed jaegers captured in Alaska, USA. Horizontal lines indicate the median. Triangle (▲) indicates the mean. Apparent differences between distribution of raw values are not significant when mass is included as a covariate (see Table 1).
Figure 3
Figure 3
A) Relationship between physiological variables measured in incubating Arctic tern and long-tailed jaegers captured in Alaska, USA. Within terns, uric acid and antioxidants were significantly and positively related (adjusted R2 = 0.74, F2,5 = 10.76, p = 0.02), while in jaegers, there was no significant relationship. B) In terns, antioxidants were significantly related to ROM (reactive oxygen metabolites) (adjusted R2 = 0.64, F2,5 = 7.2, p = 0.03), but not in jaegers.
Figure 4
Figure 4
Maximum distance from colony is not related to either OXY or ROM. Individual OXY and ROM matched samples at the individual maximum distance from the colony.
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