Olivia Whybird scite author profile

Olivia Whybird

4Publications

27Citation Statements Received

229Citation Statements Given

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The conservation status of the Spectacled Flying FoxPteropus conspicillatusin Australia

Garnett

Whybird²,

Spencer³

1999

Australian Zoologist

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A survey of ail known Spectacled Flying Fox camps in the wet tropics was undertaken in March 1998 with the assistance of volunteers. About 153000 flying foxes were counted at 12 major camps. These data are compared with historical data and the status of the species in Australia is discussed. The imperative for conservation management of the Spectacled Flying Fox is emphasized regardless of its official conservation status, particularly in relation to seed dispersal and pollination of rainforest plants. The most important component of this management must be the development of non-lethal deterrence at orchards followed by the development of methods for countering tick paralysis. Further annual censuses will be necessary to monitor population trends in comparison with me current baseline. This initial census was conducted as part of an integrated approach to Spectacled Flying Fox management by fruit growers, researchers, conservation groups and the Queensland Parks and Wildlife Service.

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Age estimation of barramundi (

Wright¹,

Wedding²,

Grauf³

et al. 2021

Mar. Freshwater Res.

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The age of whole otoliths from barramundi (Lates calcarifer) obtained from the southern Gulf of Carpentaria were estimated using Fourier transform near-infrared (FT-NIR) spectroscopy. Otoliths from 1716 barramundi collected in 2006, 2009 and 2012-2015 were used in this study. Partial least-squares regression models (PLS-R) and multiple linear regression models (MLR) were developed from the diffuse reflectance spectra and the age was obtained from traditional sectioned otoliths. Calibration models were built up over consecutive years (2012)(2013)(2014)(2015) by using a subset of the samples and used to predict the age of the remaining samples and samples from the following year. Results suggest that when seasonal (temporal) variability is incorporated into the calibration model, FT-NIR has the ability to predict barramundi age (validation R 2 ranged from 0.73 to 0.78; RMSEP ranged from 6.92 to 7.64 months). The predicted age class was within 1 year of the reference age in over 96% of the samples. These models were also able to predict the age of otoliths from 2006 and 2009, which were retrieved from long-term storage (validation R 2 ranged from 0.77 to 0.84; RMSEP ranged from 8.66 to 10.88 months). The results from this study have shown the potential for barramundi from the southern Gulf of Carpentaria to be aged quickly and accurately by using FT-NIR.

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Epigenetics underpins phenotypic plasticity of protandrous sex change in fish

Budd

Robins

Whybird³

et al. 2022

Ecology and Evolution

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Phenotypic plasticity is an important driver of species resilience. Often mediated by epigenetic changes, phenotypic plasticity enables individual genotypes to express variable phenotypes in response to environmental change. Barramundi (Lates calcarifer) are a protandrous (male‐first) sequential hermaphrodite that exhibits plasticity in length‐at‐sex change between geographic regions. This plasticity is likely to be mediated by changes in DNA methylation (DNAm), a well‐studied epigenetic modification. To investigate the relationships between length, sex, and DNAm in a sequential hermaphrodite, here, we compare DNAm in four conserved vertebrate sex‐determining genes in male and female barramundi of differing lengths from three geographic regions of northern Australia. Barramundi first mature as male and later sex change to female upon the attainment of a larger body size; however, a general pattern of increasing female‐specific DNAm markers with increasing length was not observed. Significant differences in DNAm between males and females of similar lengths suggest that female‐specific DNAm arises rapidly during sex change, rather than gradually with fish growth. The findings also reveal that region‐specific differences in length‐at‐sex change are accompanied by differences in DNAm and are consistent with variability in remotely sensed sea temperature and salinity. Together, these findings provide the first in situ evidence for epigenetically and environmentally mediated sex change in a protandrous hermaphrodite and offer significant insight into the molecular and ecological processes governing the marked and unique plasticity of sex in fish.

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Epigenetics underpins phenotypic plasticity of protandrous sex change in fish

Budd

Robins²,

Whybird³

et al. 2021

Preprint

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Phenotypic plasticity is an important driver of species resilience. Often mediated by epigenetic changes, phenotypic plasticity enables individual genotypes to express variable phenotypes in response to environmental change. Barramundi (Lates calcarifer) is a protandrous (male-first) sequential hermaphrodite that exhibit plasticity in length-at-sex change between geographic regions. This plasticity is likely to be mediated by changes in DNA methylation (DNAm), a well-studied epigenetic modification. However, region-specific relationships between length, sex and DNAm in sequential hermaphrodites were previously unreported. To investigate these relationships, here we compare DNAm in four conserved vertebrate sex-determining genes in male and female barramundi of differing lengths from three regions of northern Australia. Despite a strong association between increasing length and male-to-female sex change, the data reveal that DNAm becomes more sex-specific (rather than more female-specific) with length. Significant differences in DNAm between males and females of similar lengths suggest that female-specific DNAm arises rapidly during sex change, rather than gradually with growth. The findings also reveal that region-specific differences in length-at-sex change are accompanied by differences in DNAm, and were concurrent with variability in remotely sensed sea temperature and salinity. Together, these findings provide the first in situ evidence for epigenetically and environmentally mediated sex change in a protandrous hermaphrodite, and offer significant insight into the molecular and ecological processes governing the marked and unique plasticity of sex in fish.

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Olivia Whybird

The conservation status of the Spectacled Flying FoxPteropus conspicillatusin Australia

Age estimation of barramundi (

Epigenetics underpins phenotypic plasticity of protandrous sex change in fish

Epigenetics underpins phenotypic plasticity of protandrous sex change in fish

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