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  1. Article: Too hot to handle? Behavioural plasticity during incubation in a small, Australian passerine

    Sharpe, Lynda L / Bayter, Camilo / Gardner, Janet L

    Journal of thermal biology. 2021 May, v. 98

    2021  

    Abstract: Global warming and intensifying extreme heat events may affect avian reproductive success and costs, particularly in hot, arid environments. It is unclear how breeding birds alter their behaviour in response to rapid climate change, and whether such ... ...

    Abstract Global warming and intensifying extreme heat events may affect avian reproductive success and costs, particularly in hot, arid environments. It is unclear how breeding birds alter their behaviour in response to rapid climate change, and whether such plasticity will be sufficient to offset rising temperatures. We examine whether a small, open-cup nesting, passerine - the Jacky Winter Microeca fascinans – in semi-arid Australia, exhibits similar levels of behavioural plasticity when incubating under high temperatures as low, and how heat impacts upon parental effort, body mass change and reproductive success. At high temperatures, female effort increased. Females doubled nest attendance between 28 °C and 40 °C, switching from incubating to shading eggs at approx. 30 °C. Egg-shading females panted to avoid hyperthermia. Panting increased with temperature and sun exposure. Male breeding effort was linked to temperature extremes. In cold conditions, males provisioned their mates heavily, buffering females from additional energetic costs, and males suffered a loss of body mass. In extreme heat, males helped shade eggs (although they never incubated). The likelihood of male egg-shading increased with temperature, but level of contribution was positively related to sun exposure. Hatching success declined with air temperatures >35 °C. Egg mortality reached 100 at air temperatures >42.5 °C. Parents continued to attend unviable eggs (for up to two weeks), suggesting egg-loss from heat exposure is a recent phenomenon. Although pairs exhibited considerable behavioural plasticity - including positioning nests to maximize afternoon shade - this was insufficient to counter extreme temperatures. In 2019, one hot day (45 °C) effectively terminated reproduction two months early, and was associated with a 50% decrease in reproductive success. The increasing frequency, intensity and earlier arrival of extreme heat events is likely to pose a major threat to avifauna populations in hot, arid environments, due to increased parental costs, reduced reproductive success and direct mortality.
    Keywords Passeriformes ; air ; avifauna ; birds ; body weight ; cold ; eggs ; females ; fever ; heat ; males ; mortality ; nests ; reproductive success ; Australia
    Language English
    Dates of publication 2021-05
    Publishing place Elsevier Ltd
    Document type Article
    Note NAL-AP-2-clean
    ZDB-ID 1498364-3
    ISSN 1879-0992 ; 0306-4565
    ISSN (online) 1879-0992
    ISSN 0306-4565
    DOI 10.1016/j.jtherbio.2021.102921
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  2. Article ; Online: Spatial variation in avian bill size is associated with temperature extremes in a major radiation of Australian passerines.

    Subasinghe, Kalya / Symonds, Matthew R E / Prober, Suzanne M / Bonnet, Timothée / Williams, Kristen J / Ware, Chris / Gardner, Janet L

    Proceedings. Biological sciences

    2024  Volume 291, Issue 2015, Page(s) 20232480

    Abstract: Morphology is integral to body temperature regulation. Recent advances in understanding of thermal physiology suggest a role of the avian bill in thermoregulation. To explore the adaptive significance of bill size for thermoregulation we characterized ... ...

    Abstract Morphology is integral to body temperature regulation. Recent advances in understanding of thermal physiology suggest a role of the avian bill in thermoregulation. To explore the adaptive significance of bill size for thermoregulation we characterized relationships between bill size and climate extremes. Most previous studies focused on climate means, ignoring frequencies of extremes, and do not reflect thermoregulatory costs experienced over shorter time scales. Using 79 species (9847 museum specimens), we explore how bill size variation is associated with temperature extremes in a large and diverse radiation of Australasian birds, Meliphagides, testing a series of predictions. Overall, across the continent, bill size variation was associated with both climate extremes and means and was most strongly associated with winter temperatures; associations at the level of climate zones differed from continent-wide associations and were complex, yet consistent with physiology and a thermoregulatory role for avian bills. Responses to high summer temperatures were nonlinear suggesting they may be difficult to detect in large-scale continental analyses using previous methodologies. We provide strong evidence that climate extremes have contributed to the evolution of bill morphology in relation to thermoregulation and show the importance of including extremes to understand fine-scale trait variation across space.
    MeSH term(s) Animals ; Temperature ; Australia ; Beak ; Hot Temperature ; Climate
    Language English
    Publishing date 2024-01-24
    Publishing country England
    Document type Journal Article
    ZDB-ID 209242-6
    ISSN 1471-2954 ; 0080-4649 ; 0962-8452 ; 0950-1193
    ISSN (online) 1471-2954
    ISSN 0080-4649 ; 0962-8452 ; 0950-1193
    DOI 10.1098/rspb.2023.2480
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  3. Article: Too hot to handle? Behavioural plasticity during incubation in a small, Australian passerine.

    Sharpe, Lynda L / Bayter, Camilo / Gardner, Janet L

    Journal of thermal biology

    2021  Volume 98, Page(s) 102921

    Abstract: Global warming and intensifying extreme heat events may affect avian reproductive success and costs, particularly in hot, arid environments. It is unclear how breeding birds alter their behaviour in response to rapid climate change, and whether such ... ...

    Abstract Global warming and intensifying extreme heat events may affect avian reproductive success and costs, particularly in hot, arid environments. It is unclear how breeding birds alter their behaviour in response to rapid climate change, and whether such plasticity will be sufficient to offset rising temperatures. We examine whether a small, open-cup nesting, passerine - the Jacky Winter Microeca fascinans - in semi-arid Australia, exhibits similar levels of behavioural plasticity when incubating under high temperatures as low, and how heat impacts upon parental effort, body mass change and reproductive success. At high temperatures, female effort increased. Females doubled nest attendance between 28 °C and 40 °C, switching from incubating to shading eggs at approx. 30 °C. Egg-shading females panted to avoid hyperthermia. Panting increased with temperature and sun exposure. Male breeding effort was linked to temperature extremes. In cold conditions, males provisioned their mates heavily, buffering females from additional energetic costs, and males suffered a loss of body mass. In extreme heat, males helped shade eggs (although they never incubated). The likelihood of male egg-shading increased with temperature, but level of contribution was positively related to sun exposure. Hatching success declined with air temperatures >35 °C. Egg mortality reached 100 at air temperatures >42.5 °C. Parents continued to attend unviable eggs (for up to two weeks), suggesting egg-loss from heat exposure is a recent phenomenon. Although pairs exhibited considerable behavioural plasticity - including positioning nests to maximize afternoon shade - this was insufficient to counter extreme temperatures. In 2019, one hot day (45 °C) effectively terminated reproduction two months early, and was associated with a 50% decrease in reproductive success. The increasing frequency, intensity and earlier arrival of extreme heat events is likely to pose a major threat to avifauna populations in hot, arid environments, due to increased parental costs, reduced reproductive success and direct mortality.
    MeSH term(s) Acclimatization ; Animals ; Body Weight ; Climate Change ; Embryo, Nonmammalian ; Embryonic Development ; Female ; Male ; Nesting Behavior ; Passeriformes/physiology ; Reproduction ; South Australia ; Temperature
    Language English
    Publishing date 2021-04-01
    Publishing country England
    Document type Journal Article
    ZDB-ID 1498364-3
    ISSN 1879-0992 ; 0306-4565
    ISSN (online) 1879-0992
    ISSN 0306-4565
    DOI 10.1016/j.jtherbio.2021.102921
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  4. Article ; Online: The effects of temperature extremes on survival in two semi‐arid Australian bird communities over three decades, with predictions to 2104

    Gardner, Janet L. / Clayton, Mark / Allen, Richard / Stein, John / Bonnet, Timothée

    Global Ecology and Biogeography. 2022 Dec., v. 31, no. 12 p.2498-2509

    2022  

    Abstract: AIM: Organisms in arid and semi‐arid regions are frequently exposed to climatic extremes and accordingly among the most vulnerable to climate change. Studies of seasonal differences in vital rates, which mediate effects of climate on viability, are rare ... ...

    Abstract AIM: Organisms in arid and semi‐arid regions are frequently exposed to climatic extremes and accordingly among the most vulnerable to climate change. Studies of seasonal differences in vital rates, which mediate effects of climate on viability, are rare in arid species, limiting ability to project population trends. We quantified survival patterns for two bird communities as a function of exposure to temperature extremes in winter and summer, then projected survival patterns to 2104. LOCATION: Semi‐arid eastern Australia. TIME PERIOD: 1986–2016; 1986–2104. MAJOR TAXA STUDIED: Birds. METHODS: Using mark–recapture time‐dependent Cormack–Jolly–Seber models and data for 37 species from two >30‐year ringing programmes, we tested for effects on 6‐monthly survival of exposure to temperatures >38 and <0°C. We then predicted future survival for different emission scenarios, testing whether changes in survival associated with warming winters would be sufficient to offset the effects of rising summer temperatures. RESULTS: Survival probability declined strongly with increasing exposure to days >38°C and to a lesser extent to days <0°C, with temperature extremes explaining 43 and 13% of temporal variation in survival among years, respectively. Summer survival patterns were similar across avian guilds but only survival of nectarivores declined in winter. Our models predict that gains in winter survival will not offset reductions in summer survival. Annual survival is predicted to decline substantially by the end of the century: from .63 in 1986 to .43 in 2104 under an optimistic emission scenario and to .11 under a pessimistic scenario. MAIN CONCLUSIONS: We highlight the significance of temperature extremes for species' persistence in arid and semi‐arid regions, comprising 70% of Australia's landmass, and 40% globally. Our demography‐based results are consistent with physiological‐based projections evaluating avian survival in arid and semi‐arid regions globally and suggest rising summer temperatures pose a risk to population persistence in these regions.
    Keywords biogeography ; birds ; climate ; climate change ; ecology ; mark-recapture studies ; nectar feeding ; overwintering ; risk ; summer ; temperature ; temporal variation ; viability ; winter ; Australia
    Language English
    Dates of publication 2022-12
    Size p. 2498-2509.
    Publishing place John Wiley & Sons, Ltd
    Document type Article ; Online
    Note JOURNAL ARTICLE
    ZDB-ID 2021283-5
    ISSN 1466-8238 ; 1466-822X ; 0960-7447
    ISSN (online) 1466-8238
    ISSN 1466-822X ; 0960-7447
    DOI 10.1111/geb.13591
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  5. Article ; Online: Response to 'Allometry to evaluate Allen's rule in climate warming' by Santoro and Calzada.

    Ryding, Sara / Klaassen, Marcel / Tattersall, Glenn J / Gardner, Janet L / Symonds, Matthew R E

    Trends in ecology & evolution

    2022  Volume 37, Issue 6, Page(s) 478–479

    MeSH term(s) Body Size ; Climate
    Language English
    Publishing date 2022-04-10
    Publishing country England
    Document type Letter ; Comment
    ZDB-ID 284965-3
    ISSN 1872-8383 ; 0169-5347
    ISSN (online) 1872-8383
    ISSN 0169-5347
    DOI 10.1016/j.tree.2022.03.005
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  6. Article ; Online: Shape-shifting: changing animal morphologies as a response to climatic warming: (Trends in Ecology and Evolution 36, 1036-1048; 2021).

    Ryding, Sara / Klaassen, Marcel / Tattersall, Glenn J / Gardner, Janet L / Symonds, Matthew R E

    Trends in ecology & evolution

    2022  Volume 37, Issue 1, Page(s) 106

    Language English
    Publishing date 2022-01-18
    Publishing country England
    Document type Published Erratum
    ZDB-ID 284965-3
    ISSN 1872-8383 ; 0169-5347
    ISSN (online) 1872-8383
    ISSN 0169-5347
    DOI 10.1016/j.tree.2021.10.012
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  7. Article: Shape-shifting: changing animal morphologies as a response to climatic warming

    Ryding, Sara / Klaassen, Marcel / Tattersall, Glenn J. / Gardner, Janet L. / Symonds, Matthew R.E.

    Trends in ecology & evolution. 2021 Nov., v. 36, no. 11

    2021  

    Abstract: Many animal appendages, such as avian beaks and mammalian ears, can be used to dissipate excess body heat. Allen’s rule, wherein animals in warmer climates have larger appendages to facilitate more efficient heat exchange, reflects this. We find that ... ...

    Abstract Many animal appendages, such as avian beaks and mammalian ears, can be used to dissipate excess body heat. Allen’s rule, wherein animals in warmer climates have larger appendages to facilitate more efficient heat exchange, reflects this. We find that there is widespread evidence of ‘shape-shifting’ (changes in appendage size) in endotherms in response to climate change and its associated climatic warming. We re-examine studies of morphological change over time within a thermoregulatory context, finding evidence that temperature can be a strong predictor of morphological change independently of, or combined with, other environmental changes. Last, we discuss how Allen’s rule, the degree of temperature change, and other ecological factors facilitate morphological change and make predictions about what animals will show shape-shifting.
    Keywords birds ; body temperature ; ecology ; endothermy ; evolution ; heat transfer ; mammals
    Language English
    Dates of publication 2021-11
    Size p. 1036-1048.
    Publishing place Elsevier Ltd
    Document type Article
    ZDB-ID 284965-3
    ISSN 1872-8383 ; 0169-5347
    ISSN (online) 1872-8383
    ISSN 0169-5347
    DOI 10.1016/j.tree.2021.07.006
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  8. Article ; Online: Shape-shifting: changing animal morphologies as a response to climatic warming.

    Ryding, Sara / Klaassen, Marcel / Tattersall, Glenn J / Gardner, Janet L / Symonds, Matthew R E

    Trends in ecology & evolution

    2021  Volume 36, Issue 11, Page(s) 1036–1048

    Abstract: Many animal appendages, such as avian beaks and mammalian ears, can be used to dissipate excess body heat. Allen's rule, wherein animals in warmer climates have larger appendages to facilitate more efficient heat exchange, reflects this. We find that ... ...

    Abstract Many animal appendages, such as avian beaks and mammalian ears, can be used to dissipate excess body heat. Allen's rule, wherein animals in warmer climates have larger appendages to facilitate more efficient heat exchange, reflects this. We find that there is widespread evidence of 'shape-shifting' (changes in appendage size) in endotherms in response to climate change and its associated climatic warming. We re-examine studies of morphological change over time within a thermoregulatory context, finding evidence that temperature can be a strong predictor of morphological change independently of, or combined with, other environmental changes. Last, we discuss how Allen's rule, the degree of temperature change, and other ecological factors facilitate morphological change and make predictions about what animals will show shape-shifting.
    MeSH term(s) Animals ; Birds ; Body Size ; Body Temperature Regulation/physiology ; Climate Change ; Mammals ; Temperature
    Language English
    Publishing date 2021-09-07
    Publishing country England
    Document type Journal Article ; Research Support, Non-U.S. Gov't ; Review
    ZDB-ID 284965-3
    ISSN 1872-8383 ; 0169-5347
    ISSN (online) 1872-8383
    ISSN 0169-5347
    DOI 10.1016/j.tree.2021.07.006
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  9. Article: Using different body size measures can lead to different conclusions about the effects of climate change

    Bailey, Liam D / Kruuk, Loeske E. B / Allen, Richard / Clayton, Mark / Stein, John / Gardner, Janet L

    Journal of biogeography. 2020 Aug., v. 47, no. 8

    2020  

    Abstract: AIM: Declining animal body size has been proposed as a general response to increasing global temperatures that should be observed across a broad biogeographical scale. However, published studies have shown large variation in both the magnitude and ... ...

    Abstract AIM: Declining animal body size has been proposed as a general response to increasing global temperatures that should be observed across a broad biogeographical scale. However, published studies have shown large variation in both the magnitude and direction of body size trends. We aim to investigate how the way body size is measured (body mass, structural size, body condition) may contribute to differences in body size trends between studies. LOCATION: Semi‐arid Australia. TAXON: White‐plumed honeyeater (Ptilotula penicillatus). METHODS: We studied two separate populations of P. penicillatus over 30 years to investigate the associations between weather and body size. We first investigated how body mass has been affected by weather conditions at each site and then determined how these same local weather conditions affected the constituent components of body mass (structural size and body condition). RESULTS: The magnitude and direction of weather effects differed with the measure of body size used. Average structural size (wing length) increased with increasing temperatures while average body condition decreased. As body mass is a composite of structural size and body condition, the magnitude and direction of body mass trends was affected by trends in these two other traits. For example, differences in temperature effects on structural size between our two sites led to clear differences in body mass trends. MAIN CONCLUSIONS: Trends in body size will be strongly affected by the choice of body size measure used in analyses. Change in body mass can be particularly difficult to interpret as it will be a composite of changes in both structural size and body condition. Our results indicate that it is difficult to compare studies using different measures of body size. Using consistent measures of body size will be important to better understand the general effects of climate change on body size.
    Keywords animals ; biogeography ; body condition ; body size ; body weight ; climate change ; geographical distribution ; temperature ; weather ; Australia
    Language English
    Dates of publication 2020-08
    Size p. 1687-1697.
    Publishing place John Wiley & Sons, Ltd
    Document type Article
    Note NAL-AP-2-clean ; JOURNAL ARTICLE
    ZDB-ID 188963-1
    ISSN 0305-0270
    ISSN 0305-0270
    DOI 10.1111/jbi.13850
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  10. Article ; Online: (with research data) Effects of extreme weather on two sympatric Australian passerine bird species.

    Gardner, Janet L / Rowley, Eleanor / de Rebeira, Perry / de Rebeira, Alma / Brouwer, Lyanne

    Philosophical transactions of the Royal Society of London. Series B, Biological sciences

    2017  Volume 372, Issue 1723

    Abstract: Despite abundant evidence that natural populations are responding to climate change, there are few demonstrations of how extreme climatic events (ECEs) affect fitness. Climate warming increases adverse effects of exposure to high temperatures, but ... ...

    Abstract Despite abundant evidence that natural populations are responding to climate change, there are few demonstrations of how extreme climatic events (ECEs) affect fitness. Climate warming increases adverse effects of exposure to high temperatures, but also
    MeSH term(s) Animals ; Climate Change ; Female ; Longevity ; Male ; Seasons ; Songbirds/physiology ; Sympatry/physiology ; Temperature ; Weather ; Western Australia
    Language English
    Publishing date 2017-05-08
    Publishing country England
    Document type Journal Article
    ZDB-ID 208382-6
    ISSN 1471-2970 ; 0080-4622 ; 0264-3839 ; 0962-8436
    ISSN (online) 1471-2970
    ISSN 0080-4622 ; 0264-3839 ; 0962-8436
    DOI 10.1098/rstb.2016.0148
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