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2. Bioregional boundaries and genomically-delineated stocks in snapper (Chrysophrys auratus) from southeastern Australia

Author

Andrea Bertram, Justin Bell, Chris Brauer, Anthony Fowler, Paul Hamer, Jonathan Sandoval-Castillo, John Stewart, Maren Wellenreuther, and Luciano B. Beheregaray

Abstract

Marine species often exhibit genetic discontinuities concordant with biogeographic boundaries, frequently occurring due to changes in ocean circulation, bathymetry, coastline topography and temperature. Here we used 10,916 single nucleotide polymorphisms (SNPs) to assess the concordance between population genomic differentiation and coastal biogeography in the fishery important snapper (Chrysophrys auratus) across southeastern Australia. Additionally, we investigated whether spatial scales of assessment and management of snapper align with evidence from population genomics. Across 488 snapper samples from 11 localities between the west coast of South Australia and the south coast of New South Wales, we detected genomic structure concordant with the region’s three biogeographic provinces. We also detected fine-scale genetic structuring relating to spatial variation in spawning and recruitment dynamics, as well as temporal stability in the genomic signal associated with two important spawning grounds. The current management boundaries in the region coincided with either the genetic breaks at bioregional boundaries or with localscale variation. Our study highlights the value of population genomic surveys in species with high dispersal potential for uncovering stock boundaries and demographic variation related to spawning and recruitment. It also illustrates the importance of marine biogeography in shaping population structure in commercial species with high dispersal potential.

Published
2023
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4. Fisheries genomics of snapper (Chrysophrys auratus) along the western Australian coast

Author

Andrea Bertram, David Fairclough, Jonathan Sandoval-Castillo, Chris Brauer, Anthony Fowler, Maren Wellenreuther, and Luciano B. Beheregaray

Abstract

The efficacy of fisheries management strategies depends on stock assessment and management actions being carried out at appropriate spatial scales. This requires understanding of spatial and temporal population structure and connectivity, which is challenging in weakly structured and highly connected marine populations. We carried out a population genomics study of the heavily exploited snapper (Chrysophrys auratus) along ∼2,600 km of the Australian coastline, with a focus on Western Australia (WA). We used 10,903 filtered SNPs in 341 individuals from eight locations to characterise population structure and connectivity in snapper across WA and to assess if current spatial scales of stock assessment and management agree with evidence from population genomics. Our dataset also enabled us to investigate temporal stability in population structure as well as connectivity between WA and its nearest, eastern jurisdictional neighbor. As expected for a species influenced by the extensive ocean boundary current in the region, low genetic differentiation and high connectivity was uncovered across WA. However, we did detect strong isolation by distance and genetic discontinuities in the mid-west and south-east. The discontinuities correlate with boundaries between biogeographic regions, influenced by on-shelf oceanography, and the sites of important spawning aggregations. We also detected temporal instability in genetic structure at one of our sites, possibly due to interannual variability in recruitment in adjacent regions. Our results partly contrast with the current spatial management of snapper in WA, highlighting the need for a review. This study supports the value of population genomic surveys in informing the management of weakly-structured and wide-ranging marine fishery resources.

Published
2022
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5. Seascape genomics of coastal bottlenose dolphins along strong gradients of temperature and salinity

Author

Eleanor A. L. Pratt, Luciano B. Beheregaray, Kerstin Bilgmann, Nikki Zanardo, Fernando Diaz‐Aguirre, Chris Brauer, Jonathan Sandoval‐Castillo, and Luciana M. Möller

Subjects
Bottle-Nosed Dolphin, Salinity, Genetics, Temperature, Animals, Genomics, Ecology, Evolution, Behavior and Systematics, Ecosystem
Abstract

Heterogeneous seascapes and strong environmental gradients in coastal waters are expected to influence adaptive divergence, particularly in species with large population sizes where selection is expected to be highly efficient. However, these influences might also extend to species characterized by strong social structure, natal philopatry and small home ranges. We implemented a seascape genomic study to test this hypothesis in Indo-Pacific bottlenose dolphins (Tursiops aduncus) distributed along the environmentally heterogeneous coast of southern Australia. The data sets included oceanographic and environmental variables thought to be good predictors of local adaptation in dolphins and 8081 filtered single nucleotide polymorphisms (SNPs) genotyped for individuals sampled from seven different bioregions. From a neutral perspective, population structure and connectivity of the dolphins were generally influenced by habitat type and social structuring. Genotype-environment association analysis identified 241 candidate adaptive loci and revealed that sea surface temperature and salinity gradients influenced adaptive divergence in these animals at both large- (1000 km) and fine-scales (100 km). Enrichment analysis and annotation of candidate genes revealed functions related to sodium-activated ion transport, kidney development, adipogenesis and thermogenesis. The findings of spatial adaptive divergence and inferences of putative physiological adaptations challenge previous suggestions that marine megafauna is most likely to be affected by environmental and climatic changes via indirect, trophic effects. Our work contributes to conservation management of coastal bottlenose dolphins subjected to anthropogenic disturbance and to efforts of clarifying how seascape heterogeneity influences adaptive diversity and evolution in small cetaceans.

Published
2022

6. Fisheries genomics of snapper (

Author

Andrea, Bertram, David, Fairclough, Jonathan, Sandoval-Castillo, Chris, Brauer, Anthony, Fowler, Maren, Wellenreuther, and Luciano B, Beheregaray

Abstract

The efficacy of fisheries management strategies depends on stock assessment and management actions being carried out at appropriate spatial scales. This requires understanding of spatial and temporal population structure and connectivity, which is challenging in weakly structured and highly connected marine populations. We carried out a population genomics study of the heavily exploited snapper (

Published
2022

7. Two distinct mechanisms upon absorption of volatile organic compounds into siloxane polymers

Author

Hans-Peter Loock, John Saunders, McGregor Clayton, Chris Brauer, and Hao Chen

Subjects
Polydimethylsiloxane, 02 engineering and technology, General Chemistry, BTEX, 021001 nanoscience & nanotechnology, Condensed Matter Physics, medicine.disease, 01 natural sciences, Ethylbenzene, Toluene, 3. Good health, 010309 optics, chemistry.chemical_compound, chemistry, Chemical engineering, Siloxane, 0103 physical sciences, medicine, Absorption (chemistry), 0210 nano-technology, Benzene, Vapours
Abstract

The response of polysiloxane materials to volatile organic compounds (VOCs) including benzene, toluene, ethylbenzene, and toluene (BTEX), as well as cyclohexane, acetone, methanol and isopropanol is studied using thin film large-angle refractometry. Refractive index and thickness changes are measured to quantify the diffusion rate and partition coefficients associated with the absorption and desorption of VOC vapours into polydimethylsiloxane (PDMS) and polydiphenylsiloxane (PDPS) - PDMS copolymer films. Absorption of volatile solvent vapours into siloxane polymers is found to follow two distinct mechanisms with different absorption rates. These mechanisms are also associated with different excess volumes of mixing and may be accompanied by a polymer restructuring step.

Published
2018
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8. Interactions of Cationic Lipids with DNA: A Structural Approach

Author

Matthias Dittrich, Chris Brauer, Christian Wölk, Sérgio S. Funari, Bodo Dobner, and Gerald Brezesinski

Subjects
02 engineering and technology, Malonic acid, 010402 general chemistry, 01 natural sciences, chemistry.chemical_compound, Differential scanning calorimetry, Lamellar phase, X-Ray Diffraction, Lyotropic, Scattering, Small Angle, Electrochemistry, Transition Temperature, General Materials Science, Spectroscopy, Molecular Structure, Chemistry, Small-angle X-ray scattering, Cationic polymerization, Mesophase, Surfaces and Interfaces, DNA, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Amides, Malonates, 0104 chemical sciences, Crystallography, ddc:540, Nucleic acid, Fatty Acids, Unsaturated, Thermodynamics, lipids (amino acids, peptides, and proteins), 0210 nano-technology
Abstract

Langmuir 34(49), 14858 - 14868 (2018). doi:10.1021/acs.langmuir.8b01635 special issue: "Nucleic Acids Nanoscience at Interfaces", Colloidal nucleic acid carrier systems based on cationic lipids are a promising pharmaceutical tool in the implementation of gene therapeutic strategies. This study demonstrates the complex behavior of DNA at the lipid–solvent interface facilitating structural changes of the lyotropic liquid-crystalline phases. For this study, the structural properties of six malonic acid based cationic lipids were determined using small- and wide-angle X-ray scattering (SAXS and WAXS) as well as differential scanning calorimetry (DSC). Selected lipids (lipid 3 and lipid 6) with high nucleic acid transfer activity have been investigated in detail because of the strong influence of the zwitterionic helper lipid 1,2-di(9Z-octadecenoyl)-sn-glycero-3-phosphoethanolamine (DOPE) on the structural properties as well as of the complex formation of lipid–DNA complexes (lipoplexes). In the case of lipid 3, DNA stabilizes a metastable cubic mesophase with Im3m symmetry and an Im3m Q$_{α}^c$ lipoplex is formed, which is rarely described for DNA lipoplexes in literature. In the case of lipid 6, a cubic mesophase with Im3m symmetry turns into a fluid lamellar phase while mixing with DOPE and complexing DNA., Published by ACS Publ., Washington, DC

Published
2018
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9. Quantitative diffusion and swelling kinetic measurements using large-angle interferometric refractometry

Author

Jack A. Barnes, Hao Chen, John Saunders, McGregor Clayton, Hans-Peter Loock, Weijian Chen, and Chris Brauer

Subjects
Chemistry, Kinetics, Analytical chemistry, General Chemistry, Condensed Matter Physics, Kinetic energy, Fick's laws of diffusion, medicine, Swelling, medicine.symptom, Diffusion (business), Refractometry, Mass fraction, Refractive index
Abstract

The uptake and release of sorbates into films and coatings is typically accompanied by changes of the films' refractive index and thickness. We provide a comprehensive model to calculate the concentration of the sorbate from the average refractive index and the film thickness, and validate the model experimentally. The mass fraction of the analyte partitioned into a film is described quantitatively by the Lorentz-Lorenz equation and the Clausius-Mosotti equation. To validate the model, the uptake kinetics of water and other solvents into SU-8 films (d = 40-45 μm) were explored. Large-angle interferometric refractometry measurements can be used to characterize films that are between 15 μm to 150 μm thick and, Fourier analysis, is used to determine independently the thickness, the average refractive index and the refractive index at the film-substrate interface at one-second time intervals. From these values the mass fraction of water in SU-8 was calculated. The kinetics were best described by two independent uptake processes having different rates. Each process followed one-dimensional Fickian diffusion kinetics with diffusion coefficients for water into SU-8 photoresist film of 5.67 × 10(-9) cm(2) s(-1) and 61.2 × 10(-9) cm(2) s(-1).

Published
2015

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