Adult capture on the nest does not affect hatching success of masked lapwing (Vanellus miles) eggs on a fox-free island
Daniel Lees
A D , Adam P. A. Cardilini A , Craig D. H. Sherman B , Peter Dann C and Michael A. Weston A
+ Author Affiliations
- Author Affiliations
A Deakin University, Geelong, Australia. Faculty of Science, Engineering and the Built Environment, School of Life and Environmental Sciences, 221 Burwood Highway, Burwood, Vic. 3125, Australia.
B Deakin University, Geelong, Australia. Faculty of Science, Engineering and the Built Environment, School of Life and Environmental Sciences, 75 Pigdons Road, Waurn Ponds, Vic. 3216, Australia.
C Research Department, Phillip Island Nature Parks, PO Box 97, Cowes, Phillip Island, Vic. 3922, Australia.
D Corresponding author. Email: dan.lees@birdlife.org.au
Wildlife Research 48(4) 361-365 https://doi.org/10.1071/WR20129
Submitted: 30 July 2020 Accepted: 10 November 2020 Published: 26 February 2021
Abstract
Context: Capture, measurement, genetic sampling, ringing and flagging of shorebirds on their nests are standard techniques that underpin the study and conservation of these species. However, these techniques may reduce hatching success by compromising parental care or nest crypsis, thereby negatively influencing results, study populations and bird welfare. Only a few studies that examine the effect of capture of shorebirds on subsequent egg hatching success are currently available.
Aims: To compare the hatching success of masked lapwing (Vanellus miles) nests, at which adult capture and associated techniques (ringing, flagging and bleeding) have occurred, with nests at which these did not occur, on the fox-free Phillip Island, Victoria, Australia.
Methods: Hatching success of masked lapwings was monitored and compared between nests at which adult capture did, and did not, occur. Clutches were aged and age was included in our models to adjust for exposure of clutches to risks such as predators.
Key results: There was no difference in egg hatching success between nests at which capture occurred and those at which it did not occur: 138 chicks hatched from 178 eggs attended by adults that were captured (77.5% hatched); and 279 chicks hatched from 442 eggs attended by adults that were not captured (63.1%).
Conclusion: Trapping incubating lapwings using our existing protocols does not compromise egg hatching success, at least where there are no foxes present.
Implications: Studies of ground-nesting shorebird hatching success in relation to capture can usefully assess for adverse effects of the methods employed. We suggest that further examination of capture of lapwings at the nest be conducted in environments where foxes are present.
Keywords: abandonment, banding, desertion, funnel traps, incubation, ringing.
References
Bates, D., Maechler, M., Bolker, B., and Walker, S. (2014). Fitting linear mixed-effects models using lme4. Journal of Statistical Software 67, 1–48.Bulla, M., Valcu, M., Rutten, A. L., and Kempenaers, B. (2014). Biparental incubation patterns in a high-Arctic breeding shorebird: how do pairs divide their duties? Behavioral Ecology 25, 152–164.
| Biparental incubation patterns in a high-Arctic breeding shorebird: how do pairs divide their duties?Crossref | GoogleScholarGoogle Scholar | 24347997PubMed |
Cardilini, A. P., Weston, M. A., Nimmo, D. G., Dann, P., and Sherman, C. D. (2013). Surviving in sprawling suburbs: suburban environments represent high quality breeding habitat for a widespread shorebird. Landscape and Urban Planning 115, 72–80.
| Surviving in sprawling suburbs: suburban environments represent high quality breeding habitat for a widespread shorebird.Crossref | GoogleScholarGoogle Scholar |
Cardilini, A. P., Lees, D., Dann, P., and Weston, M. A. (2019). Higher rates of non-breeding territory occupancy of urban compared with rural masked lapwings Vanellus miles on Phillip Island, Victoria. Victorian Naturalist 136, 96–100.
Chambers, L. E., Gibbs, H., Weston, M. A., and Ehmke, G. C. (2008). Spatial and temporal variation in the breeding of masked lapwings (Vanellus miles) in Australia. Emu 108, 115–124.
| Spatial and temporal variation in the breeding of masked lapwings (Vanellus miles) in Australia.Crossref | GoogleScholarGoogle Scholar |
Champagnon, J., Carré, H., and Gili, L. (2019). Effects of research disturbance on nest survival in a mixed colony of waterbirds. PeerJ 7, e7844.
| Effects of research disturbance on nest survival in a mixed colony of waterbirds.Crossref | GoogleScholarGoogle Scholar | 31616597PubMed |
Colwell, M. A., Gratto, C. L., Oring, L. W., and Fivizzani, A. J. (1988). Effects of blood sampling on shorebirds: injuries, return rates, and clutch desertions. The Condor 90, 942–945.
| Effects of blood sampling on shorebirds: injuries, return rates, and clutch desertions.Crossref | GoogleScholarGoogle Scholar |
Criscuolo, F. (2001). Does blood sampling during incubation induce nest desertion in the female common eider Somateria mollissima? Marine Ornithology 29, 47–50.
Donalty, S. M., and Henke, S. E. (2001). Can researchers conceal their scent from predators in artificial nest studies? Wildlife Society Bulletin 29, 814–820.
Ekanayake, K. B., Whisson, D. A., Tan, L. X., and Weston, M. A. (2015a). Intense predation of non-colonial, ground-nesting bird eggs by corvid and mammalian predators. Wildlife Research 42, 518–528.
| Intense predation of non-colonial, ground-nesting bird eggs by corvid and mammalian predators.Crossref | GoogleScholarGoogle Scholar |
Ekanayake, K. B., Sutherland, D. R., Dann, P., and Weston, M. A. (2015b). Out of sight but not out of mind: corvids prey extensively on eggs of burrow-nesting penguins. Wildlife Research 42, 509–517.
| Out of sight but not out of mind: corvids prey extensively on eggs of burrow-nesting penguins.Crossref | GoogleScholarGoogle Scholar |
Ekanayake, K. B., Weston, M. A., Nimmo, D. G., Maguire, G. S., Endler, J. A., and Küpper, C. (2015c). The bright incubate at night: sexual dichromatism and adaptive incubation division in an open-nesting shorebird. Proceedings. Biological Sciences 282, 20143026.
| The bright incubate at night: sexual dichromatism and adaptive incubation division in an open-nesting shorebird.Crossref | GoogleScholarGoogle Scholar | 25854884PubMed |
Englefield, B., Blackman, S. A., Starling, M., and McGreevy, P. D. (2019). A review of Australian animal welfare legislation, regulation, codes of practice, and policy, and their influence on stakeholders caring for wildlife and the animals for whom they care. Animals (Basel) 9, 335–363.
| A review of Australian animal welfare legislation, regulation, codes of practice, and policy, and their influence on stakeholders caring for wildlife and the animals for whom they care.Crossref | GoogleScholarGoogle Scholar |
Fontaine, J. J., and Martin, T. E. (2006). Parent birds assess nest predation risk and adjust their reproductive strategies. Ecology Letters 9, 428–434.
| Parent birds assess nest predation risk and adjust their reproductive strategies.Crossref | GoogleScholarGoogle Scholar | 16623728PubMed |
Gratto-Trevor, C. L., Oring, L. W., and Fivizzani, A. J. (1991). Effects of blood sampling stress on hormone levels in the semipalmated sandpiper. Journal of Field Ornithology 62, 19–27.
Graul, W. D. (1979). An evaluation of selected capture techniques for nesting shorebirds. North American Bird Bander 4, 19–21.
Hall, L. K., and Cavitt, J. F. (2012). Comparative study of trapping methods for ground-nesting shorebirds. Waterbirds 35, 342–346.
| Comparative study of trapping methods for ground-nesting shorebirds.Crossref | GoogleScholarGoogle Scholar |
Hill, L. A., and Talent, L. G. (1990). Effects of capture, handling, banding, and radio-marking on breeding least terns and snowy plovers. Journal of Field Ornithology 61, 310–319.
Hooijmeijer, J. C., Gill, R. E., Mulcahy, D. M., Tibbitts, T. L., Kentie, R., Gerritsen, G. J., Bruinzeel, L. W., Tijssen, D. C., Harwood, C. M., and Piersma, T. (2014). Abdominally implanted satellite transmitters affect reproduction and survival rather than migration of large shorebirds. Journal of Ornithology 155, 447–457.
| Abdominally implanted satellite transmitters affect reproduction and survival rather than migration of large shorebirds.Crossref | GoogleScholarGoogle Scholar |
Ibáñez-Álamo, J. D., Sanllorente, O., and Soler, M. (2012). The impact of researcher disturbance on nest predation rates: a meta-analysis. Ibis 154, 5–14.
| The impact of researcher disturbance on nest predation rates: a meta-analysis.Crossref | GoogleScholarGoogle Scholar |
Johnson, P. J., Adams, V. M., Armstrong, D. P., Baker, S. E., Biggs, D., Boitani, L., Cotterill, A., Dale, E., O’Donnell, H., Douglas, D. J., and Droge, E. (2019). Consequences matter: compassion in conservation means caring for individuals, populations and species. Animals 9, 1115.
| Consequences matter: compassion in conservation means caring for individuals, populations and species.Crossref | GoogleScholarGoogle Scholar |
Kirkpatrick, C., and Conway, C. J. (2009). Effects of researcher disturbance on nesting success of red-faced warblers: a species of conservation concern. Wildlife Research Report #2009-01. United States Geological Survey, Arizona Cooperative Fish and Wildlife Research Unit, Tucson, AZ, USA.
Kostoglou, K. N., van Dongen, W. F. D., and Weston, M. A. (2020). Parental defence in shorebirds is mediated by embryonic calling, ambient temperature and predator latency. Journal of Ornithology , .
| Parental defence in shorebirds is mediated by embryonic calling, ambient temperature and predator latency.Crossref | GoogleScholarGoogle Scholar |
Lees, D., Sherman, C. D. H., Maguire, G. S., Dann, P., Cardilini, A. P. A., and Weston, M. A. (2013). Swooping in the suburbs; parental defence of an abundant aggressive urban bird against humans. Animals 3, 754–766.
| Swooping in the suburbs; parental defence of an abundant aggressive urban bird against humans.Crossref | GoogleScholarGoogle Scholar | 26479532PubMed |
Lees, D., Sherman, C. D. H., Maguire, G. S., Dann, P., and Weston, M. A. (2017). Implications of radio-tracking for the survival of masked lapwing chicks. Corella 41, 37–41.
Lees, D., Schmidt, T., Sherman, C. D. H., Maguire, G. S., Dann, P., Ehmke, G., and Weston, M. A. (2019). An assessment of radio telemetry for monitoring shorebird chick survival and causes of mortality. Wildlife Research 46, 622–627.
| An assessment of radio telemetry for monitoring shorebird chick survival and causes of mortality.Crossref | GoogleScholarGoogle Scholar |
Liebezeit, J. R., Smith, P. A., Lanctot, R. B., Schekkerman, H., Tulp, I., Kendall, S. J., Tracy, D. M., Rodrigues, R. J., Meltofte, H., Robinson, J. A., Gratto-Trevor, C., McCaffery, B. J., Morse, J., and Zack, S. W. (2007). Assessing the development of shorebird eggs using the floatation method: species-specific and generalized regression models. The Condor 109, 32–47.
| Assessing the development of shorebird eggs using the floatation method: species-specific and generalized regression models.Crossref | GoogleScholarGoogle Scholar |
MacIvor, L. H., Melvin, S. M., and Griffin, C. R. (1990). Effects of research activity on piping plover nest predation. The Journal of Wildlife Management 54, 443–447.
| Effects of research activity on piping plover nest predation.Crossref | GoogleScholarGoogle Scholar |
Maher, K. H., Eberhart‐Phillips, L. J., Kosztolányi, A., Remedios, N. D., Carmona‐Isunza, M. C., Cruz‐López, M., Zefania, S., St Clair, J. J., Alrashidi, M., Weston, M. A., and Serrano‐Meneses, M. A. (2017). High fidelity: extra‐pair fertilisations in eight Charadrius plover species are not associated with parental relatedness or social mating system. Journal of Avian Biology 48, 910–920.
| High fidelity: extra‐pair fertilisations in eight Charadrius plover species are not associated with parental relatedness or social mating system.Crossref | GoogleScholarGoogle Scholar |
O’Reilly, K. M., and Wingfield, J. C. (2001). Ecological factors underlying the adrenocortical response to capture stress in arctic-breeding shorebirds. General and Comparative Endocrinology 124, 1–11.
| Ecological factors underlying the adrenocortical response to capture stress in arctic-breeding shorebirds.Crossref | GoogleScholarGoogle Scholar | 11703066PubMed |
Pakanen, V. M., Rönkä, N., Thomson, R. L., and Koivula, K. (2015). No strong effects of leg-flagged geolocators on return rates or reproduction of a small long-distance migratory shorebird. Ornis Fennica 92, 101–111.
Petel, A. M., Kirkwood, R., Gigliotti, F., and Marks, C. (2004). Adaptation and assessment of M-44 ejectors in a fox-control program on Phillip Island, Victoria. Wildlife Research 31, 143–147.
| Adaptation and assessment of M-44 ejectors in a fox-control program on Phillip Island, Victoria.Crossref | GoogleScholarGoogle Scholar |
Piatt, J. F., Roberts, B. D., and Hatch, S. A. (1990). Effects of human disturbance on breeding least and crested auklets at St Lawrence Island, Alaska. The Auk 107, 342–350.
| Effects of human disturbance on breeding least and crested auklets at St Lawrence Island, Alaska.Crossref | GoogleScholarGoogle Scholar |
R Core Development Team (2015). ‘R: A language and environment for statistical computing.’ (R Core Team: Vienna, Austria.)
Schlicht, E., and Kempenaers, B. (2015). Immediate effects of capture on nest visits of breeding blue tits, Cyanistes caeruleus, are substantial. Animal Behaviour 105, 63–78.
| Immediate effects of capture on nest visits of breeding blue tits, Cyanistes caeruleus, are substantial.Crossref | GoogleScholarGoogle Scholar |
Shealer, D. A., and Haverland, J. A. (2000). Effects of investigator disturbance on the reproductive behavior and success of black terns. Waterbirds 23, 15–23.
Skagen, S. K., Stanley, T. R., and Dillon, M. B. (1999). Do mammalian nest predators follow human scent trails in the shortgrass prairie? The Wilson Bulletin 111, 415–420.
Stantial, M. L., Cohen, J. B., Darrah, A. J., Iaquinto, K. E., Loring, P. H., and Paton, P. W. (2018). Radio transmitters did not affect daily nest and chick survival of piping plovers (Charadrius melodus). The Wilson Journal of Ornithology 130, 518–524.
| Radio transmitters did not affect daily nest and chick survival of piping plovers (Charadrius melodus).Crossref | GoogleScholarGoogle Scholar |
Sun, A., Whelan, S., Hatch, S. A., and Elliott, K. H. (2020). Tags below three percent of body mass increase nest abandonment by rhinoceros auklets, but handling impacts decline as breeding progresses. Marine Ecology Progress Series 643, 173–181.
| Tags below three percent of body mass increase nest abandonment by rhinoceros auklets, but handling impacts decline as breeding progresses.Crossref | GoogleScholarGoogle Scholar |
Székely, T. (2019). Why study plovers? The significance of non-model organisms in avian ecology, behaviour and evolution. Journal of Ornithology 160, 923–933.
| Why study plovers? The significance of non-model organisms in avian ecology, behaviour and evolution.Crossref | GoogleScholarGoogle Scholar |
Székely, T., Kosztolányi, A., and Küpper, C. (2008). ‘Practical Guide for Investigating Breeding Ecology of Kentish Plover (Charadrius alexandrinus).’ (University of Bath, UK.)
Tan, L. X. L., Buchanan, K. L., Maguire, G. S., and Weston, M. A. (2015). Cover, not caging, influences chronic physiological stress in a ground-nesting bird. Journal of Avian Biology 46, 482–488.
| Cover, not caging, influences chronic physiological stress in a ground-nesting bird.Crossref | GoogleScholarGoogle Scholar |
Uher-Koch, B. D., Schmutz, J. A., and Wright, K. G. (2015). Nest visits and capture events affect breeding success of yellow-billed and Pacific loons. The Condor 117, 121–129.
| Nest visits and capture events affect breeding success of yellow-billed and Pacific loons.Crossref | GoogleScholarGoogle Scholar |
Verboven, N., Ens, B. J., and Dechesne, S. (2001). Effect of investigator disturbance on nest attendance and egg predation in Eurasian oystercatchers. The Auk 118, 503–508.
| Effect of investigator disturbance on nest attendance and egg predation in Eurasian oystercatchers.Crossref | GoogleScholarGoogle Scholar |
Vincze, O., Kosztolányi, A., Barta, Z., Küpper, C., Alrashidi, M., Amat, J. A., Argüelles Ticó, A., Burns, F., Cavitt, J., Conway, W. C., and Cruz‐López, M. (2017). Parental cooperation in a changing climate: fluctuating environments predict shifts in care division. Global Ecology and Biogeography 26, 347–358.
| Parental cooperation in a changing climate: fluctuating environments predict shifts in care division.Crossref | GoogleScholarGoogle Scholar |
Webb, D. R. (1987). Thermal tolerance of avian embryos: a review. The Condor 89, 874–898.
| Thermal tolerance of avian embryos: a review.Crossref | GoogleScholarGoogle Scholar |
Weiser, E. L., Lanctot, R. B., Brown, S. C., Alves, J. A., Battley, P. F., Bentzen, R., Bêty, J., Bishop, M. A., Boldenow, M., Bollache, L., and Casler, B. (2016). Effects of geolocators on hatching success, return rates, breeding movements, and change in body mass in 16 species of Arctic-breeding shorebirds. Movement Ecology 4, 12.
| Effects of geolocators on hatching success, return rates, breeding movements, and change in body mass in 16 species of Arctic-breeding shorebirds.Crossref | GoogleScholarGoogle Scholar | 27134752PubMed |
Weiser, E. L., Lanctot, R. B., Brown, S. C., River Gates, H., Bentzen, R. L., Boldenow, M. L., Cunningham, J. A., Doll, A., Donnelly, T. F., English, W. B., and Franks, S. E. (2018). Effects of leg flags on nest survival of four species of Arctic‐breeding shorebirds. Journal of Field Ornithology 89, 287–297.
| Effects of leg flags on nest survival of four species of Arctic‐breeding shorebirds.Crossref | GoogleScholarGoogle Scholar |
Weston, M. A., Ekanayake, K. B., Lomas, S., Glover, H. K., Mead, R. E., Cribbin, A., Tan, L. X., Whisson, D. A., Maguire, G. S., and Cardilini, A. P. A. (2017). Case studies of motion-sensing cameras to study clutch survival and fate of real and artificial ground-nests in Australia. Bird Study 64, 476–491.
| Case studies of motion-sensing cameras to study clutch survival and fate of real and artificial ground-nests in Australia.Crossref | GoogleScholarGoogle Scholar |
Whelan, C. J., Dilger, M. L., Robson, D., Hallyn, N., and Dilger, S. (1994). Effects of olfactory cues on artificial-nest experiments. The Auk 111, 945–952.
| Effects of olfactory cues on artificial-nest experiments.Crossref | GoogleScholarGoogle Scholar |
