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Your search keyword '"Horswill, Catharine"' showing total 9 results
Start Over Author "Horswill, Catharine" Publication Type Academic Journals
9 results on '"Horswill, Catharine"'

2. Optimizing the automated recognition of individual animals to support population monitoring.

Author

de Lorm, Tijmen A., Horswill, Catharine, Rabaiotti, Daniella, Ewers, Robert M., Groom, Rosemary J., Watermeyer, Jessica, and Woodroffe, Rosie

Subjects
*ANIMAL populations, *WILD dogs, *CONVOLUTIONAL neural networks, *ENDANGERED species, *INTEGRATED software, *IMAGE registration, *IDENTIFICATION
Abstract

Reliable estimates of population size and demographic rates are central to assessing the status of threatened species. However, obtaining individual‐based demographic rates requires long‐term data, which is often costly and difficult to collect. Photographic data offer an inexpensive, noninvasive method for individual‐based monitoring of species with unique markings, and could therefore increase available demographic data for many species. However, selecting suitable images and identifying individuals from photographic catalogs is prohibitively time‐consuming. Automated identification software can significantly speed up this process. Nevertheless, automated methods for selecting suitable images are lacking, as are studies comparing the performance of the most prominent identification software packages. In this study, we develop a framework that automatically selects images suitable for individual identification, and compare the performance of three commonly used identification software packages; Hotspotter, I3S‐Pattern, and WildID. As a case study, we consider the African wild dog, Lycaon pictus, a species whose conservation is limited by a lack of cost‐effective large‐scale monitoring. To evaluate intraspecific variation in the performance of software packages, we compare identification accuracy between two populations (in Kenya and Zimbabwe) that have markedly different coat coloration patterns. The process of selecting suitable images was automated using convolutional neural networks that crop individuals from images, filter out unsuitable images, separate left and right flanks, and remove image backgrounds. Hotspotter had the highest image‐matching accuracy for both populations. However, the accuracy was significantly lower for the Kenyan population (62%), compared to the Zimbabwean population (88%). Our automated image preprocessing has immediate application for expanding monitoring based on image matching. However, the difference in accuracy between populations highlights that population‐specific detection rates are likely and may influence certainty in derived statistics. For species such as the African wild dog, where monitoring is both challenging and expensive, automated individual recognition could greatly expand and expedite conservation efforts. [ABSTRACT FROM AUTHOR]

Published
2023
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3. Relative brain size is associated with natal dispersal rate and species' vulnerability to climate change in seabirds.

Author

Constanti Crosby, Laurel, Sayol, Ferran, and Horswill, Catharine

Subjects
SIZE of brain, ENDANGERED species, BODY size, WILDLIFE conservation, MATE selection
Abstract

The cognitive buffer hypothesis proposes that species with larger brains (relative to their body size) exhibit greater behavioural flexibility, conferring an advantage in unpredictable or novel environments. Therefore, behavioural flexibility – and relative brain size – are likely to be important predictors of a species' vulnerability to anthropogenic pressures and, ultimately, extinction risk. However, current evidence linking brain size to species' vulnerability and extinction risk is inconclusive. Furthermore, studies examining the relationship between relative brain size and behavioural flexibility have mainly focused on foraging innovations, whilst other forms of behavioural flexibility remain unexplored. In this study, we collate species‐specific information and examine links between relative brain size, rates of natal and adult dispersal (a measure of flexibility in breeding site fidelity), vulnerability to six anthropogenic threats and extinction risk for 131 species of seabird. We focused our study on seabirds, a highly threatened group that displays large variation in both relative brain size and dispersal behaviour. We found a significant positive relationship between relative brain size and natal dispersal rate, suggesting that relative brain size could enhance flexibility in breeding site choice in seabirds, consistent with the cognitive buffer hypothesis. However, this relationship does not persist when we consider adult dispersal, possibly reflecting constraints imposed by mate selection and knowledge transfer in seabirds. We also show that relative brain size is negatively associated with vulnerability to climate change. These findings have immediate application for predicting interspecific variation in species' vulnerability to climate change and identifying priority species for conservation. [ABSTRACT FROM AUTHOR]

Published
2023
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6. Cryptic population decrease due to invasive species predation in a long‐lived seabird supports need for eradication.

Author

Oppel, Steffen, Clark, Bethany L., Risi, Michelle M., Horswill, Catharine, Converse, Sarah J., Jones, Christopher W., Osborne, Alexis M., Stevens, Kim, Perold, Vonica, Bond, Alexander L., Wanless, Ross M., Cuthbert, Richard, Cooper, John, and Ryan, Peter G.

Subjects
BIRD populations, INTRODUCED species, SEA birds, POPULATION viability analysis, PREDATION, FISHERIES, ENVIRONMENTAL degradation, MICE
Abstract

Invasive species are one of the greatest drivers of biodiversity loss worldwide, and the eradication of invasive species from islands is a highly efficient management strategy. Because eradication operations require large financial investments, uncertainty over the magnitude of impacts of both invasive species and their removal can impede the willingness of decision makers to invest in eradication. Such uncertainty is prevalent for long‐lived species that display an inherent lag between life stages affected by invasive species and those used for population status assessments.Albatrosses are amongst the longest‐living bird species and are threatened on land by invasive species and at sea by industrial fisheries. As in many seabird species, usually only a segment of the population (breeding adults) is used for status assessments, making it difficult to assess albatross population trends and the potential benefit of conservation action, such as the management of predatory invasive species.We used population monitoring and mark‐recapture data to estimate the past population trajectory of the critically endangered Tristan albatross Diomedea dabbenena by accounting for unobservable birds at sea in an integrated population model. We then projected the future population trajectory of Tristan albatrosses for scenarios with or without predation by invasive house mice Mus musculus on their main breeding site, Gough Island.The adult breeding population remained stable between 2004 and 2021, but breeding success was low (31%) and our model indicated that the total population (including unobservable immature birds) decreased from a median estimate of 9,795 to 7,752 birds. Eradicating invasive mice leading to a two‐fold increase in breeding success would result in a 1.8–7.6 times higher albatross population by 2050 (median estimate 10,352 individuals) than without this intervention.Low reproductive output for long‐lived species may lead to a cryptic population decrease, which can be obscured from readily available counts of breeding pairs by changes in the population structure. Mouse eradication is necessary to halt the ongoing population decrease of the Tristan albatross, even if this decrease is not yet apparent in the breeding population size. [ABSTRACT FROM AUTHOR]

Published
2022
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7. Modelling and mapping how common guillemots balance their energy budgets over a full annual cycle.

Author

Dunn, Ruth E., Green, Jonathan A., Wanless, Sarah, Harris, Mike P., Newell, Mark A., Bogdanova, Maria I., Horswill, Catharine, Daunt, Francis, and Matthiopoulos, Jason

Subjects
OCEAN temperature, CALORIC expenditure, ANIMAL populations, SEVERE storms, ENERGY budget (Geophysics), REPRODUCTION, POPULATION dynamics, BAYESIAN analysis
Abstract

The ability of individual animals to balance their energy budgets throughout the annual cycle is important for their survival, reproduction and population dynamics. However, the annual cycles of many wild, mobile animals are difficult to observe and our understanding of how individuals balance their energy budgets throughout the year therefore remains poor.We developed a hierarchical Bayesian state‐space model to investigate how key components of animal energy budgets (namely individual energy gain and storage) varied in space and time. Our model used biologger‐derived estimates of time‐activity budgets, locations and energy expenditure to infer year‐round time series of energy income and reserves. The model accounted for seasonality in environmental drivers such as sea surface temperature and daylength, allowing us to identify times and locations of high energy gain.Our study system was a population of common guillemots Uria aalge breeding at a western North Sea colony. These seabirds manage their energy budgets by adjusting their behaviour and accumulating fat reserves. However, typically during severe weather conditions, birds can experience an energy deficit over a sustained period, leading to starvation and large‐scale mortality events.We show that guillemot energy gain varied in both time and space. Estimates of guillemot body mass varied throughout the annual cycle and birds periodically experienced losses in mass. Mass losses were likely to have either been adaptive, or due to energetic bottlenecks, the latter leading to increased susceptibility to mortality. Guillemots tended to be lighter towards the edge of their spatial distribution.We describe a framework that combines biologging data, time‐activity budget analysis and Bayesian state‐space modelling to identify times and locations of high energetic reward or potential energetic bottlenecks in a wild animal population. Our approach can be extended to address ecological and conservation‐driven questions that were previously unanswerable due to logistical complexities in collecting data on wild, mobile animals across full annual cycles. Read the free Plain Language Summary for this article on the Journal blog. [ABSTRACT FROM AUTHOR]

Published
2022
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8. Impact assessments of wind farms on seabird populations that overlook existing drivers of demographic change should be treated with caution.

Author

Horswill, Catharine, Miller, Julie A. O., and Wood, Matt J.

Subjects
*RURAL population, *WIND power plants, *POPULATION viability analysis, *DEMOGRAPHIC change, *VITAL statistics
Abstract

Population viability analyses (PVA) are now routinely used during the consenting process for offshore wind energy developments to assess potential impacts to vulnerable species, such as seabirds. These models are typically based on mean vital rates, such as survival and fecundity, with some level of environmental stochasticity (i.e., temporal variation). However, many species of seabird are experiencing population decline due to temporal (i.e., directional) trends in their vital rates. We assess the prevalence of temporal trends in rates of fecundity for a sentinel species of seabird, the black‐legged kittiwake Rissa tridactyla, and examine how accounting for these relationships affects the predictive accuracy of PVA, as well as the projected population response to an extrinsic threat. We found that temporal trends in kittiwake rates of fecundity are widespread, and that including these trends in PVA assessments dramatically influences the projected rate of population decline. We advocate that model validation become a prerequisite step in seabird PVA assessments to identify potential biases influencing the projected population response. We also argue that environmental factors driving current population dynamics need to be incorporated in PVA impact assessments as potential "worst‐case" scenarios. These findings have immediate application for improving and reducing uncertainty in impact assessments conducted as part of the consenting process for offshore wind energy developments. [ABSTRACT FROM AUTHOR]

Published
2022
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9. Humpback whales wintering at Pitcairn Island, South Pacific.

Author

Horswill, Catharine and Jackson, Jennifer A.

Subjects
*HUMPBACK whale, *OVERWINTERING in fishes, *ZOOGEOGRAPHY, *SURVEYS
Abstract

Here we present the first documentation of humpback whales (Megaptera novaeangliae) in the Pitcairn Island region. Land-based surveys were conducted from Pitcairn Island from June 2007 to August 2007 in order to monitor the presence of humpback whales in the surrounding near-shore waters. The highest sighting frequencies occurred in late August, with mother and calf pairs also becoming more prevalent during this period. Observation effort lasted 80.56 hours, totalling 35 sightings of 49 whales. There is no anecdotal history of humpback whales at Pitcairn Island previous to 1990 which may suggest a recent geographical shift in the easterly range of Oceania humpbacks. Our findings extend the known easterly range of humpbacks within Oceania (western South Pacific Ocean). [ABSTRACT FROM AUTHOR]

Published
2012
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