When things go wrong: intra-season dynamics of breeding failure in a seabird
Permanent lenke
https://hdl.handle.net/10037/12033Dato
2014-01-16Type
Journal articleTidsskriftartikkel
Peer reviewed
Forfatter
Ponchon, Aurore; Grémillet, David J.H.; Christensen-Dalsgaard, Signe; Erikstad, Kjell E; Barrett, Robert T.; Reiertsen, Tone Kristin; McCoy, Karen D.; Tveraa, Torkild; Boulinier, ThierrySammendrag
During breeding, long-lived species face important time and energy constraints that can lead
to breeding failure when food becomes scarce. Despite the potential implications of intra-season dynamics
in breeding failure for individual behavior, carry-over effects, dispersal decisions and population
dynamics, little information is currently available on these dynamics at fine temporal scales. Here, we
monitored the foraging behavior and the proportion of successful black-legged kittiwake pairs from nest
construction to chick fledging in a colony of the southern Barents Sea, to relate foraging effort to the
dynamics of breeding failure over an entire breeding season, and to infer the environmental conditions
leading to this failure. Specifically, we tracked kittiwakes with GPS and satellite tags during incubation and
early chick-rearing to document nest attendance, foraging range, time budgets and daily energy
expenditures (DEE). We also monitored diet changes over time. We predicted that breeding failure would
follow a non-linear trend characterized by a break point after which breeding success would drop abruptly
and would be related to a substantial increase in foraging effort. Kittiwakes showed contrasting foraging
patterns between incubation and chick-rearing: they extended their foraging range from 20 km during
incubation to more than 450 km during chick-rearing and switched diet. They also increased their DEE and
readjusted their time budgets by increasing time spent at sea. These changes corresponded to a break point
in breeding dynamics beyond which the proportion of successful pairs abruptly dropped. At the end of the
season, less than 10% of kittiwake pairs raised chicks in the monitored plots. This integrative study
confirms that breeding failure is a non-linear process characterized by a threshold beyond which
individuals face an energetic trade-off and cannot simultaneously sustain high reproductive and selfmaintenance
efforts. In this way, the occurrence of sudden environmental changes complicates our ability
to predict population dynamics and poses conservation challenges.
breeding success; energetic trade-off; environmental change; food availability; GPS and satellite tracking;
maximum working capacity; reproductive costs; Rissa tridactyla.
Beskrivelse
Source at http://dx.doi.org/10.1890/ES13-00233.1