Your search keyword '"Kasun B"' showing total 4 results

1. Transmission of a novel predatory behaviour is not restricted to kin

Author

Duncan R. Sutherland, Kasun B. Ekanayake, Laura Xin Lu Tan, Craig D. H. Sherman, Wouter F. D. van Dongen, Peter Dann, and Michael A. Weston

Subjects

0106 biological sciences, Eudyptula minor, Ecology, biology, 010604 marine biology & hydrobiology, Genetic traits, media_common.quotation_subject, Significant difference, Zoology, Burrow, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Adaptability, law.invention, Predation, Transmission (mechanics), law, Corvus mellori, Ecology, Evolution, Behavior and Systematics, media_common

Abstract

Corvids are exceptional predators which can become problematic and difficult to manage due to their adaptability, intelligence, and abundance. On Phillip Island (Victoria, Australia) little ravens (Corvus mellori) prey on the eggs of burrow-nesting little penguins (Eudyptula minor) at an ecologically and economically significant colony. Raven depredation of penguin clutches is intense but appears to have emerged only in recent years. Understanding whether or how the behaviour is transferred provides an opportunity to disrupt this undesirable behaviour. We explore the role genetic relatedness may have on the occurrence of raven burrow-raiding behaviour. We test an hypothesis regarding one specific scenario of possible transmission, namely that ravens preying upon eggs/young in penguin nests share genetic traits that facilitate burrow raiding, and are therefore more genetically related than birds which do not raid burrows. Using 15 microsatellite loci, we found no significant difference in mean relatedness between culprits and other birds. Burrow-raiding behaviour does not appear to be restricted to kin, and targeting ravens based solely on their relationship to culprits is unlikely to reduce depredation rates. However, targeting known culprits may slow transmission of burrow-raiding behaviour.

Published

2021

2. DIGGING IN! BURROWING PENGUINS AND SURFACE PREDATORS.

Author

TAN, LAURA X. L., EKANAYAKE, KASUN B., VAN DONGEN, WOUTER F. D., DANN, PETER, SUTHERLAND, DUNCAN R., and WESTON, MICHAEL A.

Subjects

*PENGUINS, *PREDATORY animals, *PREDATION, *ANIMAL clutches, *RAVENS

Abstract

A native Australian corvid, Little Raven Corvus mellori, has emerged as a dominant and problematic predator of an ecologically and economically important seabird, the Little Penguin Eudyptula minor. In 2013, ravens successfully preyed upon clutches/broods of the burrow-nesting penguin, especially those in shallower, more accessible burrows. Individual raven size might mediate which ravens attack penguins; smaller ravens may be able to enter burrows more easily; alternatively, larger ravens may be more capable of overcoming penguin parental defence. Here, we consider the predator-prey interactions to assess whether associations with burrow characteristics persisted and examine whether raven size mediated propensity to prey upon penguin eggs. We compared data from the 2013 and 2015 penguin breeding seasons at Phillip Island (Victoria, Australia) for differences in clutch survival and burrow characteristics. We also examined raven morphometrics to determine if any physical differences existed between known burrow-predators (“culprits”) and other birds. During the 2013 breeding season, penguins suffered clutch losses of 61.1% compared with 33.9% in 2015. Burrow characteristics changed between seasons—most noticeably, burrows were deeper in 2015 and ravens no longer discriminated between burrow characteristics. Culprits were heavier and larger. While we could not eliminate inter-annual variability as a possible contributing factor, our results were consistent with rapid adaptation of prey and predator to intense emergent depredation. Penguins may now construct deeper burrows, and ravens evidently no longer select more vulnerable burrows. Larger ravens may be more capable of approaching and attacking penguin burrows. [ABSTRACT FROM AUTHOR]

Published

2022

3. Corvids congregate to breeding colonies of a burrow-nesting seabird

Author

Duncan R. Sutherland, Peter Dann, Kasun B. Ekanayake, and Michael A. Weston

Subjects

0106 biological sciences, Eudyptula minor, Ecology, biology, 010604 marine biology & hydrobiology, Corvidae, Procellariidae, Burrow, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Shearwater, Predation, Silver gull, biology.animal, Seabird, Ecology, Evolution, Behavior and Systematics

Abstract

Egg predation is a major cause of reproductive failure among birds, and can compromise the viability of affected populations. Some egg predators aggregate near colonially breeding birds to exploit the seasonal increase of prey resources. We investigated spatial and temporal variations in the abundance of an egg predator (little raven Corvus mellori; Corvidae) to identify whether ravens aggregate spatially or temporally to coincide with any of three potential prey species: burrow-nesting little penguin (Eudyptula minor; Spheniscidae), short-tailed shearwater (Ardenna tenuirostris; Procellariidae), and surface-nesting silver gull (Chroicocephalus novaehollandiae; Laridae). We derived spatially explicit density estimates of little ravens using distance sampling along line transects throughout a calendar year, which encompassed little penguin, short-tailed shearwater and silver gull breeding and non-breeding seasons. High raven abundance coincided temporally with penguin and gull egg laying periods but not with that of shearwaters. The spatial distribution of raven density corresponded with the little penguin colony but not with shearwater or gull colonies. Thus, the presence of little penguin eggs in burrows correlated strongly with little raven activity, and this implies that little ravens may have learnt to exploit the plentiful subsurface food resource of little penguin eggs. Corvid management may be required to maintain the viability of this socially and economically important penguin colony.

Published

2015

4. Out of sight but not out of mind: corvids prey extensively on eggs of burrow-nesting penguins

Author

Peter Dann, Kasun B. Ekanayake, Michael A. Weston, and Duncan R. Sutherland

Subjects

education.field_of_study, Eudyptula minor, biology, Ecology, Foraging, Population, Context (language use), Management, Monitoring, Policy and Law, Burrow, biology.organism_classification, Predation, biology.animal, Camera trap, Seabird, education, Ecology, Evolution, Behavior and Systematics

Abstract

Context Egg depredation is a major cause of reproductive failure among birds and can drive population declines. In this study we investigate predatory behaviour of a corvid (little raven; Corvus mellori) that has only recently emerged, leading to widespread and intense depredation of eggs of a burrow-nesting seabird (little penguin; Eudyptula minor). Aims The main objective of this study was to measure the rate of penguin egg depredation by ravens to determine potential threat severity. We also examined whether penguin burrow characteristics were associated with the risk of egg depredation. Ravens generally employ two modes of predatory behaviour when attacking penguin nests; thus we examined whether burrow characteristics were associated with these modes of attack. Methods Remote-sensing cameras were deployed on penguin burrows to determine egg predation rates. Burrow measurements, including burrow entrance and tunnel characteristics, were measured at the time of camera deployment. Key results Overall, clutches in 61% of monitored burrows (n = 203) were depredated by ravens, the only predator detected by camera traps. Analysis of burrow characteristics revealed two distinct types of burrows, only one of which was associated with egg depredation by ravens. Clutches depredated by ravens had burrows with wider and higher entrances, thinner soil or vegetation layer above the egg chamber, shorter and curved tunnels and greater areas of bare ground and whitewash near entrances. In addition, 86% were covered by bower spinach (Tetragonia implexicoma), through which ravens could excavate. Ravens used two modes to access the eggs: they attacked through the entrance (25% of burrow attacks, n = 124); or dug a hole through the burrow roof (75% of attacks, n = 124). Burrows that were subject to attack through the entrance had significantly shorter tunnels than burrows accessed through the roof. Conclusions The high rates of clutch loss recorded here highlight the need for population viability analysis of penguins to assess the effect of egg predation on population growth rates. Implications The subterranean foraging niche of a corvid described here may have implications for burrow-nesting species worldwide because many corvid populations are increasing, and they exhibit great capacity to adopt new foraging strategies to exploit novel prey.

Published

2015