Time-activity budgets of cape gannets (Morus Capensis) at Bird Island, Algoa Bay
For several decades now, seabirds have been considered to be useful indicators of the state of their prey resources because of how they reflect lower-level trophic variability through proxies such as diet or behaviour. However, collection of appropriate data is often challenging in the marine enviro...
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ndltd-netd.ac.za-oai-union.ndltd.org-nmmu-vital-107282017-12-21T04:22:38ZTime-activity budgets of cape gannets (Morus Capensis) at Bird Island, Algoa BayRishworth, Gavin MidgleyBirds of prey -- Behavior -- South Africa -- Algoa BayGannets -- South Africa -- Algoa BayBirds -- Breeding -- South Africa -- Algoa BayFor several decades now, seabirds have been considered to be useful indicators of the state of their prey resources because of how they reflect lower-level trophic variability through proxies such as diet or behaviour. However, collection of appropriate data is often challenging in the marine environment because of logistical or financial constraints. In this study, time-activity budgets were studied in the Cape gannet (Morus capensis), a seabird which has been advocated as a potential bioindicator for local epipelagic prey. VHF transmitters attached to PVC leg-rings were fitted to 50 adult breeding pairs during the 2011/2012 and 2012/2013 breeding seasons at Bird Island, Algoa Bay, to determine whether an automated method of continuously collecting time-activity budget data can replace conventional laborious direct observations. To validate that the foraging trip duration data generated from the automated method was a reflection of foraging effort, Time-Depth Recorders (TDRs) were simultaneously equipped to birds with VHF transmitters for three weeks. In order to assess the influence of factors other than prey availability on parent time-activity budgets, sex, chick age and body condition were measured. Additionally, chick growth and survival were recorded in order to investigate the gender-specific effects of parental time-activity budget variability on these parameters. Attachment of VHF transmitters to leg-rings of adult Cape gannets had no observable negative effects on the adults or their chicks in terms of adult body condition, nest attendance and foraging trip durations, or chick growth and survival. Furthermore, the frequency distribution of behaviour bout (foraging trip and nest attendance) durations was no different between automated and directly observed data. However, the automated method did record shorter behaviour bouts, largely attributed to the increased likelihood of direct observations missing birds returning briefly to their nests during older chick provisioning. Additionally, foraging trip duration was highly correlated to foraging effort in terms of time spent resting on the sea surface, flying and diving. The automated method therefore appears to be a good reflection of direct nest attendance observations and foraging effort. Cape gannet time-activity budgets were related to chick age and parental sex. Especially as chicks neared fledging, females spent significantly longer periods of time foraging than males, with males consequently provisioning their chicks more often. Furthermore, adults departing their nests earlier spent more time away from the nest foraging as more same-day daylight hours were available. Chick growth was a function of parent foraging trip duration and associated prey delivery rates. Chick survival was most strongly affected by the amount of time which chicks were left unattended by both parents and consequently exposed to predation by kelp gulls (Larus dominicanus) or to adverse weather conditions. Additionally, for females (but not males) there appeared to be a trade-off between foraging trip duration and chick survival. The Cape gannet appears to demonstrate a strategy whereby the costs of reproduction to the female are shifted towards male-dominated chick provisioning as the chick nears fledging. Drivers of time-activity budget variability such as chick age and parental sex therefore need to be considered if using data on foraging trip duration as a proxy of foraging effort and prey availability.Nelson Mandela Metropolitan UniversityFaculty of Science2014ThesisMastersMScviii, 119 leavespdfvital:10728http://hdl.handle.net/10948/d1021046EnglishNelson Mandela Metropolitan University |
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NDLTD |
language |
English |
format |
Others
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sources |
NDLTD |
topic |
Birds of prey -- Behavior -- South Africa -- Algoa Bay Gannets -- South Africa -- Algoa Bay Birds -- Breeding -- South Africa -- Algoa Bay |
spellingShingle |
Birds of prey -- Behavior -- South Africa -- Algoa Bay Gannets -- South Africa -- Algoa Bay Birds -- Breeding -- South Africa -- Algoa Bay Rishworth, Gavin Midgley Time-activity budgets of cape gannets (Morus Capensis) at Bird Island, Algoa Bay |
description |
For several decades now, seabirds have been considered to be useful indicators of the state of their prey resources because of how they reflect lower-level trophic variability through proxies such as diet or behaviour. However, collection of appropriate data is often challenging in the marine environment because of logistical or financial constraints. In this study, time-activity budgets were studied in the Cape gannet (Morus capensis), a seabird which has been advocated as a potential bioindicator for local epipelagic prey. VHF transmitters attached to PVC leg-rings were fitted to 50 adult breeding pairs during the 2011/2012 and 2012/2013 breeding seasons at Bird Island, Algoa Bay, to determine whether an automated method of continuously collecting time-activity budget data can replace conventional laborious direct observations. To validate that the foraging trip duration data generated from the automated method was a reflection of foraging effort, Time-Depth Recorders (TDRs) were simultaneously equipped to birds with VHF transmitters for three weeks. In order to assess the influence of factors other than prey availability on parent time-activity budgets, sex, chick age and body condition were measured. Additionally, chick growth and survival were recorded in order to investigate the gender-specific effects of parental time-activity budget variability on these parameters. Attachment of VHF transmitters to leg-rings of adult Cape gannets had no observable negative effects on the adults or their chicks in terms of adult body condition, nest attendance and foraging trip durations, or chick growth and survival. Furthermore, the frequency distribution of behaviour bout (foraging trip and nest attendance) durations was no different between automated and directly observed data. However, the automated method did record shorter behaviour bouts, largely attributed to the increased likelihood of direct observations missing birds returning briefly to their nests during older chick provisioning. Additionally, foraging trip duration was highly correlated to foraging effort in terms of time spent resting on the sea surface, flying and diving. The automated method therefore appears to be a good reflection of direct nest attendance observations and foraging effort. Cape gannet time-activity budgets were related to chick age and parental sex. Especially as chicks neared fledging, females spent significantly longer periods of time foraging than males, with males consequently provisioning their chicks more often. Furthermore, adults departing their nests earlier spent more time away from the nest foraging as more same-day daylight hours were available. Chick growth was a function of parent foraging trip duration and associated prey delivery rates. Chick survival was most strongly affected by the amount of time which chicks were left unattended by both parents and consequently exposed to predation by kelp gulls (Larus dominicanus) or to adverse weather conditions. Additionally, for females (but not males) there appeared to be a trade-off between foraging trip duration and chick survival. The Cape gannet appears to demonstrate a strategy whereby the costs of reproduction to the female are shifted towards male-dominated chick provisioning as the chick nears fledging. Drivers of time-activity budget variability such as chick age and parental sex therefore need to be considered if using data on foraging trip duration as a proxy of foraging effort and prey availability. |
author |
Rishworth, Gavin Midgley |
author_facet |
Rishworth, Gavin Midgley |
author_sort |
Rishworth, Gavin Midgley |
title |
Time-activity budgets of cape gannets (Morus Capensis) at Bird Island, Algoa Bay |
title_short |
Time-activity budgets of cape gannets (Morus Capensis) at Bird Island, Algoa Bay |
title_full |
Time-activity budgets of cape gannets (Morus Capensis) at Bird Island, Algoa Bay |
title_fullStr |
Time-activity budgets of cape gannets (Morus Capensis) at Bird Island, Algoa Bay |
title_full_unstemmed |
Time-activity budgets of cape gannets (Morus Capensis) at Bird Island, Algoa Bay |
title_sort |
time-activity budgets of cape gannets (morus capensis) at bird island, algoa bay |
publisher |
Nelson Mandela Metropolitan University |
publishDate |
2014 |
url |
http://hdl.handle.net/10948/d1021046 |
work_keys_str_mv |
AT rishworthgavinmidgley timeactivitybudgetsofcapegannetsmoruscapensisatbirdislandalgoabay |
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1718564555759550464 |