Your search keyword '"Rebecca Hallas"' showing total 12 results

1. Basal resistance enhances warming tolerance of alien over indigenous species across latitude

Author

Rebecca Hallas, Carla M. Sgrò, Grant A. Duffy, Charlene Janion-Scheepers, Laura M. Phillips, and Steven L. Chown

Subjects

0106 biological sciences, 0301 basic medicine, Acclimatization, Climate change, Alien, Biology, 010603 evolutionary biology, 01 natural sciences, Global Warming, Models, Biological, Indigenous, 03 medical and health sciences, laboratory evolution, Ecosystem, Plant Physiological Phenomena, Phenotypic plasticity, Multidisciplinary, Resistance (ecology), Ecology, Global warming, Australia, Tropics, 15. Life on land, Biological Sciences, Plants, introduced species, 030104 developmental biology, climate change, thermal limits, 13. Climate action, Terrestrial ecosystem, sense organs, soil fauna, Environmental Sciences

Abstract

Significance How climate change and biological invasions interact to affect biodiversity is of major concern to conservation. Quantitative evidence for the nature of climate change–invasion interactions is, however, limited. For the soil ecosystem fauna, such evidence is nonexistent. Yet across the globe, soil-dwelling animals regulate belowground functioning and have pronounced influences on aboveground dynamics. Using springtails as an exemplar taxon, widely known to have species-specific effects on below- and aboveground dynamics, we show that across a wide latitudinal span (16–54°S), alien species have greater ability to tolerate climate change-associated warming than do their indigenous counterparts. The consequences of such consistent differences are profound given globally significant invasions of soil systems by springtails., Soil systems are being increasingly exposed to the interactive effects of biological invasions and climate change, with rising temperatures expected to benefit alien over indigenous species. We assessed this expectation for an important soil-dwelling group, the springtails, by determining whether alien species show broader thermal tolerance limits and greater tolerance to climate warming than their indigenous counterparts. We found that, from the tropics to the sub-Antarctic, alien species have the broadest thermal tolerances and greatest tolerance to environmental warming. Both groups of species show little phenotypic plasticity or potential for evolutionary change in tolerance to high temperature. These trait differences between alien and indigenous species suggest that biological invasions will exacerbate the impacts of climate change on soil systems, with profound implications for terrestrial ecosystem functioning.

Published

2017

2. Overwintering in Drosophila melanogaster: outdoor field cage experiments on clinal and laboratory selected populations help to elucidate traits under selection

Author

Ary A. Hoffmann, Linda Partridge, Rebecca Hallas, and M. Scott

Subjects

Male, Time Factors, media_common.quotation_subject, Population, Biology, Tropical climate, Temperate climate, Animals, Selection, Genetic, education, Ecology, Evolution, Behavior and Systematics, Overwintering, media_common, Tropical Climate, education.field_of_study, Natural selection, Ecology, Fecundity, Adaptation, Physiological, humanities, Cold Temperature, Fertility, Drosophila, Female, Seasons, Adaptation, Reproduction

Abstract

Insects can adapt to temperate environments by increasing levels of resistance to cold conditions over winter and/or altering reproductive patterns to focus reproduction in favourable conditions. In temperate areas, Drosophila melanogaster persists over winter at the adult stage. A previous experiment, conducted with flies kept in outdoor population cages in the temperate winter, indicated that temperate populations produced more eggs than did tropical populations following an abrupt increase in reproduction in late winter. In contrast, the tropical populations produced more eggs prior to the increase. Both patterns resulted in a higher net number of surviving offspring for temperate populations. Here we again examine the clinal pattern in reproduction using outdoor cages, this time held under tropical winter conditions. In this environment, surprisingly, egg production was higher and on average earlier in populations originating from temperate areas. However, mortality rates also increased with latitude of origin, and the relationship of lifetime egg production to latitude should therefore be measured. To test the role of altered pattern of egg production per se in the reproductive advantage of temperate populations in the temperate winter, we tested the performance of laboratory lines selected for altered reproductive patterns, under temperate winter conditions. Lines selected for high early fecundity exhibited this characteristic in the field cages and lines selected for late reproduction exhibited a relatively high fecundity in spring. The timing of the abrupt increase in egg production was identical in these sets of lines and occurred at the same time in recently collected populations, suggesting evolutionary conservation of the switch. These findings suggest that changes in early and late reproduction per se determine adaptation to temperate winter conditions, and illustrate how laboratory selection lines can be used to understand traits underlying adaptive shifts in field performance.

Published

2003

3. Opposing clines for high and low temperature resistance in Drosophila melanogaster

Author

Alisha Anderson, Ary A. Hoffmann, and Rebecca Hallas

Subjects

Temperature resistance, Resistance (ecology), Ecology, Cold resistance, Temperate climate, Weak association, Tropics, Biology, Drosophila melanogaster, biology.organism_classification, Ecology, Evolution, Behavior and Systematics, Latitude

Abstract

In insects, species comparisons suggest a weak association between upper thermal limits and latitude in contrast to a stronger association for lower limits. To compare this to latitudinal patterns of thermal responses within species, we considered latitudinal variation in heat and cold resistance in Drosophila melanogaster. We found opposing clines in resistance to these temperature extremes in comparisons of 17–24 populations from coastal eastern Australia. Knockdown time following heat shock increased towards the tropics, whereas recovery time following cold shock decreased towards temperate latitudes. Mortality following cold shock also showed a clinal pattern. Clinal associations with latitude were linear and related to minimum temperatures in the coldest month (for cold resistance) and maximum temperatures in the warmest month (for heat resistance). This suggests that within species both high and low temperature responses can vary with latitude as a consequence of direct or indirect effects of selection.

Published

2002

4. RAPID LOSS OF STRESS RESISTANCE IN DROSOPHILA MELANOGASTER UNDER ADAPTATION TO LABORATORY CULTURE

Author

Ary A. Hoffmann, Rebecca Hallas, Linda Partridge, and Chantelle Sinclair

Subjects

Genetics, Dehydration, biology, Resistance (ecology), media_common.quotation_subject, Period (gene), Longevity, Mutation Accumulation, biology.organism_classification, Adaptation, Physiological, Drosophila melanogaster, Trait, Animals, Selection, Genetic, Adaptation, Food Deprivation, General Agricultural and Biological Sciences, Desiccation, Ecology, Evolution, Behavior and Systematics, media_common

Abstract

We investigate changes in resistance to desiccation and starvation during adaptation of Drosophila melanogaster to laboratory culture. We test the hypothesis that resistance to environmental stresses is lost under laboratory adaptation. For both traits, there was a rapid loss of resistance over a three-year period. The rapidity of the response suggested that mutation accumulation could not account for it. Rather, resistance to environmental stresses appeared to be lost as a correlated response to selection on another trait, such as early fertility, with which stress resistance is negatively genetically correlated. These results suggest that caution is needed when extrapolating from evolution of stress resistance in long-established laboratory stocks to patterns of responses and correlated responses in natural populations.

Published

2001

5. Protein synthesis rates in Drosophila associate with levels of the hsr-omega nuclear transcript

Author

Lauren B. Carrington, Stephen William McKechnie, Rebecca Hallas, and Travis K. Johnson

Subjects

Male, Transcription, Genetic, Biochemistry, Heat shock protein, Genetic variation, Protein biosynthesis, Animals, Drosophila Proteins, Heat shock, RNA Processing, Post-Transcriptional, Gene, Alleles, Heat-Shock Proteins, Regulation of gene expression, Genetics, Original Paper, biology, Ovary, Genetic Variation, Cell Biology, biology.organism_classification, Drosophila melanogaster, Gene Expression Regulation, Female, Drosophila Protein, Heat-Shock Response

Abstract

Transcripts of the Drosophila hsr-omega gene are known to interact with RNA processing factors and ribosomes and are postulated to aid in co-ordinating nuclear and cytoplasmic activities particularly in stressed cells. However, the significance of these interactions for physiological processes and in turn for whole-organism fitness remains an open question. Because hsr-omega's cellular expression characteristics suggest it may influence protein synthesis, and because both genotypic and expression variation of hsr-omega have been associated with thermotolerance, we characterised 30 lines for variation in the rates of protein synthesis, measured in ovarian tissues, both before and after a mild heat shock, and for basal levels of the two main hsr-omega transcripts, omega-n and omega-c. As expected, the mild heat shock reduced protein synthesis rates. Large variation occurred among lines in levels of omega-n which was negatively associated with rates of basal protein synthesis--a result that supports the model for the cellular function of omega-n. Furthermore, omega-n levels were associated with hsr-omega genotype of the line parents. Little variation occurred among lines for omega-c levels and no associations were detected with protein synthesis or genotype. Since protein synthesis is a fundamental process for growth and development, we characterised the lines for several life-history traits; however, no associations with protein synthesis, omega-n or omega-c levels were detected. Our results are consistent with the idea that natural variation in hsr-omega expression influence rates of protein synthesis in this species.

Published

2008

6. Selection for cold resistance alters gene transcript levels in Drosophila melanogaster

Author

Stephen William McKechnie, Marina Telonis-Scott, Choon W. Wee, Ary A. Hoffmann, and Rebecca Hallas

Subjects

Genetics, Regulation of gene expression, Candidate gene, biology, Transcription, Genetic, Physiology, Gene Expression Profiling, Molecular Sequence Data, Quantitative trait locus, biology.organism_classification, Gene expression profiling, Cold Temperature, Drosophila melanogaster, Gene Expression Regulation, Insect Science, Gene expression, Animals, Drosophila Proteins, sense organs, DNA microarray, Gene

Abstract

Microarrays have been used to examine changes in gene expression underlying responses to selection for increased stress resistance in Drosophila melanogaster, but changes in expression patterns associated with increased resistance to cold stress have not been previously reported. Here we describe such changes in basal expression levels in replicate lines following selection for increased resistance to chill coma stress. We found significant up- or down-regulation of expression in 94 genes on the Affymetrix Genome 2.0 array. Quantitative RT-PCR was used to confirm changes in expression of six genes. Some of the identified genes had previously been associated with stress resistance but no previously identified candidate genes for cold resistance showed altered patterns of expression. Seven differentially expressed genes that form a tight chromosomal cluster and an unlinked gene AnnX may be potentially important for cold adaptation in natural populations. Artificial selection for chill coma resistance therefore altered basal patterns of gene expression, but we failed to link these changes to plastic changes in expression under cold stress or to previously identified candidate genes for components of cold resistance.

Published

2008

7. Costs and benefits of cold acclimation in field released Drosophila

Author

Rebecca Hallas, Jesper Givskov Sørensen, Ary A. Hoffmann, Volker Loeschcke, Torsten Nygaard Kristensen, and Johannes Overgaard

Subjects

Male, Hot Temperature, Time Factors, Evolution, Acclimatization, Climate, Climate change, Biology, Models, Biological, TheoryofComputation_ANALYSISOFALGORITHMSANDPROBLEMCOMPLEXITY, Cold acclimation, Animals, Drosophila, Multidisciplinary, Ecology, fungi, Global warming, Temperature, Biological evolution, Biological Sciences, biology.organism_classification, Biological Evolution, Adaptation, Physiological, Heat, Cold Temperature, Drosophila melanogaster, Female, Adaptation, Body Temperature Regulation, Cold

Abstract

One way animals can counter the effects of climatic extremes is via physiological acclimation, but acclimating to one extreme might decrease performance under different conditions. Here, we use field releases of Drosophila melanogaster on two continents across a range of temperatures to test for costs and benefits of developmental or adult cold acclimation. Both types of cold acclimation had enormous benefits at low temperatures in the field; in the coldest releases only cold-acclimated flies were able to find a resource. However, this advantage came at a huge cost; flies that had not been cold-acclimated were up to 36 times more likely to find food than the cold-acclimated flies when temperatures were warm. Such costs and strong benefits were not evident in laboratory tests where we found no reduction in heat survival of the cold-acclimated flies. Field release studies, therefore, reveal costs of cold acclimation that standard laboratory assays do not detect. Thus, although physiological acclimation may dramatically improve fitness over a narrow set of thermal conditions, it may have the opposite effect once conditions extend outside this range, an increasingly likely scenario as temperature variability increases under global climate change One way animals can counter the effects of climatic extremes is via physiological acclimation, but acclimating to one extreme might decrease performance under different conditions. Here, we use field releases of Drosophila melanogaster on two continents across a range of temperatures to test for costs and benefits of developmental or adult cold acclimation. Both types of cold acclimation had enormous benefits at low temperatures in the field; in the coldest releases only cold-acclimated flies were able to find a resource. However, this advantage came at a huge cost; flies that had not been cold-acclimated were up to 36 times more likely to find food than the cold-acclimated flies when temperatures were warm. Such costs and strong benefits were not evident in laboratory tests where we found no reduction in heat survival of the cold-acclimated flies. Field release studies, therefore, reveal costs of cold acclimation that standard laboratory assays do not detect. Thus, although physiological acclimation may dramatically improve fitness over a narrow set of thermal conditions, it may have the opposite effect once conditions extend outside this range, an increasingly likely scenario as temperature variability increases under global climate change

Published

2008

8. Antagonistic selection between adult thorax and wing size in field released Drosophila melanogaster independent of thermal conditions

Author

E Ratna, Mark J. Blacket, Carla M. Sgrò, S De Garis, Andrew Weeks, Madeleine Barton, Ary A. Hoffmann, and Rebecca Hallas

Subjects

Phenotypic plasticity, Larva, animal structures, Wing, biology, Ecology, fungi, Temperature, Zoology, Organ Size, Thorax, biology.organism_classification, Drosophila melanogaster, Biological dispersal, Thorax (insect anatomy), Animals, Wings, Animal, Female, Selection, Genetic, Drosophila, Ecology, Evolution, Behavior and Systematics, Selection (genetic algorithm)

Abstract

Attempts to explain size variation in Drosophila and other small insects often focus on the larval stage and association between development time and size, but patterns are also influenced by direct selection on size-related traits in the adults. Here we use multiple field releases of Drosophila melanogaster to test the association between size and one component of field fitness, the ability of Drosophila to locate resources for feeding and breeding. We find antagonistic selection between wing length and thorax length in both males and females, such that capture at baits is higher for flies with relatively larger thorax lengths and smaller wings. However flies with large wings relative to thoraces disperse further as reflected in the longer distances moved to baits. These patterns did not depend strongly on weather conditions, suggesting that selection on adult size is at least partly independent of temperature. Antagonistic selection between size traits can generate changes in size along gradients if the distribution of resources in the environment varies and selects for different dispersal patterns, particularly as dispersal is relatively higher under warmer conditions.

Published

2007

9. Low potential for climatic stress adaptation in a rainforest Drosophila species

Author

Ary A. Hoffmann, J. A. Dean, Michele Schiffer, and Rebecca Hallas

Subjects

Male, Climate, Population, Rainforest, Environment, Trees, Genetic variation, Animals, Inbreeding, Selection, Genetic, education, Drosophila, Crosses, Genetic, Ecosystem, education.field_of_study, Multidisciplinary, biology, Resistance (ecology), Dehydration, Geography, Ecology, Australia, Genetic Variation, biology.organism_classification, Adaptation, Physiological, Biological Evolution, Threatened species, Female, Adaptation, Tropical rainforest, Microsatellite Repeats

Abstract

The ability of sensitive rainforest species to evolve in response to climate change is largely unknown. We show that the Australian tropical rainforest fly Drosophila birchii exhibits clinal variation in desiccation resistance, but the most resistant population lacks the ability to evolve further resistance even after intense selection for over 30 generations. Parent-offspring comparisons indicate low heritable variation for this trait but high levels of genetic variation for morphology. D. birchii also exhibits abundant genetic variation at microsatellite loci. The low potential for resistance evolution highlights the importance of assessing evolutionary potential in targeted ecological traits and species from threatened habitats.

Published

2003

10. Clinal variation in Drosophila serrata for stress resistance and body size

Author

Michele Schiffer, Rebecca Hallas, and Ary A. Hoffmann

Subjects

Male, Zoology, Context (language use), Latitude, Genetics, Animals, Wings, Animal, Endemism, Drosophila, Crosses, Genetic, Demography, biology, Resistance (ecology), Dehydration, Ecology, Australia, Genetic Variation, General Medicine, Cline (biology), biology.organism_classification, Cold Temperature, Genetics, Population, Starvation, Cosmopolitan distribution, Body Constitution, Female, Desiccation

Abstract

Clines for size and stress resistance traits have been described for several Drosophila species and replicable clines across different species may indicate climatic selection. Here we consider clines in stress resistance traits in an Australian endemic species, D. serrata, by comparing levels of variation within and among isofemale lines initiated with flies collected from the eastern coast of Australia. We also consider clinal variation in chill coma recovery, a trait that has recently been shown to exhibit high levels of variation among Drosophila species. Patterns were compared with those in the cosmopolitan species D. melanogaster from the same area. Both desiccation and starvation resistance showed no clinal pattern despite heritable variation among isofemale lines. In contrast chill coma resistance exhibited a linear cline in the anticipated direction, resistance increasing with latitude. Body size was measured as wing length and body weight. Both traits showed geographic variation and strong non-linear clines with a sharp reduction in size in the tropics. These results are discussed in the context of climatic selection and evolutionary processes limiting species borders.

Published

2002

11. Levels of variation in stress resistance in drosophila among strains, local populations, and geographic regions: patterns for desiccation, starvation, cold resistance, and associated traits

Author

Chantelle Sinclair, P Mitrovski, Ary A. Hoffmann, and Rebecca Hallas

Subjects

Male, Population, Tasmania, Melanogaster, Temperate climate, Genetics, Animals, Desiccation, education, Drosophila, Ecology, Evolution, Behavior and Systematics, Crosses, Genetic, education.field_of_study, Analysis of Variance, biology, Resistance (ecology), Ecology, Strain (biology), Genetic Variation, biology.organism_classification, Lipids, Cold Temperature, Variation (linguistics), Drosophila melanogaster, Starvation, Female, Queensland, General Agricultural and Biological Sciences

Abstract

Stress resistance traits in Drosophila often show clinal variation. Although these patterns suggest selection, there is generally no attempt to test how large differences at the geographical level are relative to levels of variation within and between local populations. Here we compare these levels in D. melanogaster from temperate Tasmania versus tropical northern Queensland by focusing on adult resistance to desiccation, cold and starvation stress, as well as associated traits (size, lipid content). For starvation and desiccation resistance, levels of variation were highest among strains from the same population. whereas there was little differentiation among local populations and a low level of differentiation at the geographic level. For adult cold resistance, there was local differentiation and strain variation but no geographic variation. For size (thorax length), geographic differentiation was higher despite some overlap among strains from the tropical and temperate locations. Finally, for lipid levels there was only evidence for variation among strains. The low level of differentiation among geographic locations for stress resistance was further verified with the characterization of isofemale strains from 18 locations along a coastal transect extending from Tasmania to northern Queensland. Crosses among some of the isofemale strains showed that results were not confounded by inbreeding effects. Strains derived from a cross between a tropical and temperate strain differed for all traits, and variation among strains for body size was higher than strain variation within the geographic regions. Unlike in previous studies, lipid content and starvation resistance were not correlated in any set of strains, but there was a correlation between cold resistance and lipid content. There was also a correlation between desiccation resistance and size but only in the geographic cross strains. These findings suggest a large amount of variation in stress resistance at the population level and inconsistent correlation patterns across experimental approaches.

Published

2001

12. Evidence for a robust sex-specific trade-off between cold resistance and starvation resistance in Drosophila melanogaster

Author

Rebecca Hallas, Alisha Anderson, Ary A. Hoffmann, and Marina Telonis-Scott

Subjects

Male, media_common.quotation_subject, Trade-off, Sex Factors, Melanogaster, medicine, Animals, Selection, Genetic, Crosses, Genetic, Ecology, Evolution, Behavior and Systematics, media_common, Starvation, Genetics, Analysis of Variance, biology, Resistance (ecology), Longevity, Lipid Metabolism, biology.organism_classification, Adaptation, Physiological, Cold Temperature, Drosophila melanogaster, Female, Adaptation, medicine.symptom, Desiccation

Abstract

In insects changes in lipid metabolism may underlie a trade-off between cold resistance and starvation resistance. To test this we examined correlated responses in independent sets of Drosophila melanogaster lines selected for increased cold resistance and increased starvation resistance. The starvation lines showed correlated patterns found in other D. melanogaster populations selected for this trait, including higher lipid levels and increased resistance to desiccation, although the selected lines did not show a longer development time as found in some other studies. Consistent with the trade-off hypothesis, selected lines with increased starvation resistance showed decreased resistance to a cold stress as measured by mortality, whereas selected lines with increased cold resistance showed a decrease in starvation resistance. To counter the possibility of inadvertent selection accounting for these patterns, selected and control lines from both selection regimes were crossed to form mass bred populations, which were left for four generations prior to establishing isofemale lines. By scoring starvation and cold resistance in these lines derived from both sets of selection regimes, we confirmed the negative association between resistance to these stresses in females but not in males. Potential implications of this trade-off for surviving cold conditions when food resources are limiting are discussed.