Your search keyword '"T. R. Grant"' showing total 2 results

1. Use of implanted acoustic tags to assess platypus movement behaviour across spatial and temporal scales

Author

Matthew D. Taylor, T. R. Grant, Larry Vogelnest, Richard T. Kingsford, and Gilad Bino

Subjects

Male, 0106 biological sciences, Movement, lcsh:Medicine, Zoology, Nocturnal, 010603 evolutionary biology, 01 natural sciences, Article, Intraspecific competition, biology.animal, Animals, Juvenile, Platypus, lcsh:Science, Temporal scales, Multidisciplinary, biology, Movement (music), 010604 marine biology & hydrobiology, lcsh:R, Female, lcsh:Q, Mammal, Spatial variability

Abstract

The platypus (Ornithorhynchus anatinus) is an evolutionarily distinct mammal, endemic to Australian freshwaters. Many aspects of its ecology and life-history, including detailed understanding of movements, are poorly known, hampered by its cryptic and mainly nocturnal habits and small numbers. We effectively trialled intraperitoneal implanted acoustic transmitters in nine platypuses in the Severn River (NSW), Australia, as a potential approach for studying movements in this challenging species. We tracked platypus movements over six months, at fine and broad spatial scales, using an array of acoustic sensors. Over six months (March-August 2016), four of five adult platypuses (two females\three males) maintained localized movements (average monthly maximums 0.37 km ± 0.03 sd), while one adult, one sub-adult, and one juvenile (males) moved further: average monthly maxima 1.2 km ± 2.0 sd, 0.9 km ± 0.6 sd, 4.5 km ± 5.9 sd, respectively. The longest recorded movement was by a male adult, covering 11.1 km in three days and travelling a maximum distance of about 13 km between records. Only one implanted animal was not detected immediately after release, indicative of transmission failure rather than an adverse event. High cumulative daily movements (daily 1.9 km ± 0.8 sd) indicated high metabolic requirements, with implications for previous estimates of platypus abundances and carrying capacities, essential for effective conservation. This novel approach offers new avenues to investigate relating to mating, nesting, and intraspecific competition behaviours and their temporal and spatial variation.

Published

2018

2. Life history and dynamics of a platypus (Ornithorhynchus anatinus) population: four decades of mark-recapture surveys

Author

Richard T. Kingsford, Gilad Bino, and T. R. Grant

Subjects

Range (biology), media_common.quotation_subject, Population, Longevity, Population Dynamics, Article, Mark and recapture, biology.animal, Surveys and Questionnaires, Juvenile, Population growth, Animals, education, Platypus, media_common, education.field_of_study, Life Cycle Stages, Multidisciplinary, biology, Ecology, Australia, Biological dispersal, Seasons, Demography

Abstract

Knowledge of the life-history and population dynamics of Australia’s iconic and evolutionarily distinct platypus (Ornithorhynchus anatinus) remains poor. We marked-recaptured 812 unique platypuses (total 1,622 captures), over four decades (1973–2014) in the Shoalhaven River, Australia. Strong sex-age differences were observed in life-history, including morphology and longevity. Apparent survival of adult females (Φ = 0.76) were higher than adult males (Φ = 0.57), as in juveniles: females Φ = 0.27, males Φ = 0.13. Females were highly likely to remain in the same pool (adult: P = 0.85, juvenile: P = 0.88), while residency rates were lower for males (adult: P = 0.74, juvenile: P = 0.46). We combined survival, movement and life-histories to develop population viability models and test the impact of a range of life-history parameters. While using estimated apparent survival produced unviable populations (mean population growth rate r = −0.23, extinction within 20 years), considering residency rates to adjust survival estimates, indicated more stable populations (r = 0.004, p = 0.04 of 100-year extinction). Further sensitivity analyses highlighted adult female survival and overall success of dispersal as most affecting viability. Findings provide robust life-history and viability estimates for a difficult study species. These could support developing large-scale population dynamics models required to underpin a much needed national risk assessment for the platypus, already declining in parts of its current distribution.

Published

2015