2021 Publications
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Roe P, Eichinski P, Fuller RA, McDonald PG, Schwarzkopf L, Towsey M, Truskinger A, Tucker D & Watson DM (2021) The Australian Acoustic Observatory. Methods in Ecology and Evolution, 12, 1802-1808.
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Fauna surveys are traditionally manual, and hence limited in scale, expensive and labour-intensive. Low-cost hardware and storage mean that acoustic recording now has the potential to efficiently build scale in terrestrial fauna surveys, both spatially and temporally. With this aim, we have constructed the Australian Acoustic Observatory. It provides a direct and permanent record of terrestrial soundscapes through continuous recording across Australian ecoregions, including those periodically subject to fire and flood, when manual surveys are dangerous or impossible. The observatory comprises 360 permanent listening stations deployed across Australia. Groups of four sensors are deployed at each of 90 sites, placed strategically across ecoregions, to provide representative datasets of soundscapes. Each station continuously records sound, resulting in year-round data collection. All data are made freely available under an open access licence. The Australian Acoustic Observatory is the world's first terrestrial acoustic observatory of this size. It provides continental-scale environmental monitoring of unparalleled spatial extent, temporal resolution and archival stability. It enables new approaches to understanding ecosystems, long-term environmental change, data visualization and acoustic science that will only increase in scientific value over time, particularly as others replicate the design in other parts of the world.
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Jackson MV, Woodworth BK, Bush R, Clemens RS, Fuller RA, Garnett ST, Lilleyman A, Maron M, Purnell C, Rogers DI & Amano T (2021) Widespread use of artificial habitats by shorebirds in Australia. Emu, 121, 187-197.
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Shorebirds in the East Asian-Australasian Flyway have experienced population declines linked to loss of coastal wetlands. Despite this vulnerability to habitat loss, shorebirds regularly use artificial habitats, especially for high-tide roosting. Understanding the distribution of shorebirds in artificial versus natural roosts could inform habitat management strategies aimed at population recovery. We analysed time-series of high-tide shorebird monitoring data from five developed regions of Australia where artificial habitat use has previously been documented and made three key discoveries. First, artificial habitat use was generally high across the regions, with >50% of the average proportion of the regional population of 39 of 75 species-region combinations (52%) using artificial habitats at high tide. Second, in 84% of species-region combinations the average proportion of birds that used artificial habitats from the time of their establishment onward did not show a significant temporal trend. Third, migratory and coastal specialist species showed lower proportional artificial habitat use than non-migratory and generalist/inland specialist species. These findings showing consistent, widespread use of artificial habitats by large shorebird aggregations at high tide suggest that a framework for high-tide habitat management that includes artificial habitats alongside preservation of remaining natural habitats could make a significant contribution to shorebird conservation in Australia.
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Clemens RS, Rogers DI, Minton CDT, Rogers KG, Hansen BD, Choi C-Y & Fuller RA (2021) Favourable inland wetland conditions increase apparent survival of migratory shorebirds in Australia. Emu, 121, 211-222.
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Many migratory shorebird species using the East Asian–Australasian Flyway are declining rapidly. While the loss of staging habitats in East Asia is considered the primary cause, stressors to fitness often occur throughout the geographic range of declining species, and threats in the non-breeding grounds have been comparatively poorly studied. Three species of migratory shorebird, Curlew Sandpiper (Calidris ferruginea), Sharp-tailed Sandpiper (C. acuminata) and Red-necked Stint (C. ruficollis), use Australia’s dynamic temporary wetland systems opportunistically, yet these large wetland systems have become increasingly degraded, with reduced frequency and extent of flooding. Here, we test whether variables related to wetland availability in Australia’s interior can explain annual variation in apparent survival, abundance or immature to adult ratios at three well-monitored coastal shorebird areas in southern Australia (total area > 1315 km2). We show that coastal annual bird abundance and ratios of immatures at the coast were higher when inland Australia was relatively hot and dry. Also, a small but significant amount of variation in annual apparent survival can be explained by annual variation in inland conditions, with higher survival rates in years when inland conditions were relatively wet and cool. For the endangered Curlew Sandpiper, the impacts of Australian environmental conditions may be exacerbating the impacts of conditions experienced in other parts of its range on fitness and survival. While the effects we document here are relatively weak, they do suggest that management of inland wetlands for these shorebirds may positively affect survival rates of these sharply declining species.
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Oh RRY, Fielding KS, Chang C-C, Nghiem LTP, Tan CLY, Quazi SA, Shanahan DF, Gaston KJ, Carrasco RL & Fuller RA (2021) Health and wellbeing benefits from nature experiences in tropical settings depend on strength of connection to nature. International Journal of Environmental Research and Public Health, 181, 10149.
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A growing number of policies and programmes in cities aim to increase the time people spend in nature for the health and wellbeing benefits delivered by such interactions. Yet, there is little research investigating the extent to which, and for whom, nature experiences deliver such benefits outside Europe, North America, and Australia. Here, we assessed the relationships between nature dose (frequency, duration, and intensity) and three mental wellbeing (depression, stress, and anxiety) and two physical health (high blood pressure, diabetes) outcomes in Singapore, an intensely urbanised tropical city. Our analyses accounted for individual factors, including socio-economic status, nature connection (nature relatedness), and whether people with poor health are prevented by their condition from visiting green spaces. Our results show that the association between nature dose (specifically duration) and mental wellbeing is moderated by a nature connection. Specifically, people with a stronger nature connection were less likely to be depressed, stressed, and anxious, regardless of the duration of their nature dose. For those with a weaker connection to nature, spending longer in nature was associated with being more depressed, stressed, and anxious. We did not find a relationship between nature dose and high blood pressure or diabetes. Our results highlight that the relationship between nature dose and wellbeing might vary substantially among cities.
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Chowdhury S, Zalucki MP, Amano T, Woodworth BK, Venegas-Li R & Fuller RA (2021) Seasonal spatial dynamics of butterfly migration. Ecology Letters, 24, 1814-1823.
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Understanding the seasonal movements of migratory species underpins ecological studies. Several hundred butterfly species show migratory behaviour, yet the spatial pattern of these migrations is poorly understood. We developed climatic niche models for 405 migratory butterfly species globally to estimate patterns of seasonal movement and the distribution of seasonal habitat suitability. We found strong seasonal variation in habitat suitability for most migratory butterflies with >75% of pixels within their distributions showing seasonal switching in predicted occupancy for 85% of species. The greatest rate of seasonal switching occurred in the tropics. Several species showed extreme range fluctuations between seasons, exceeding 10-fold for 53 species (13%) and more than 100-fold for nine species (2%), suggesting that such species may be at elevated extinction risk. Our results can be used to search for the ecological processes that underpin migration in insects, as well as to design conservation interventions for declining migratory insects.
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Bird JP, Woodworth BK, Fuller RA & Shaw JD (2021) Uncertainty in population estimates: A meta-analysis for petrels. Ecological Solutions and Evidence, 2, e12077.
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1. Population estimates are commonly generated and used in conservation science. All estimates carry inherent uncertainty, but little attention has been given to when and how this uncertainty limits their use. This requires an understanding of the specific purposes for which population estimates are intended, an assessment of the level of uncertainty each purpose can tolerate, and information on current uncertainty.
2. We conducted a review and meta-analysis for a widespread group of seabirds, the petrels, to better understand how and why population estimates are being used. Globally petrels are highly threatened, and aspects of their ecology make them difficult to survey, introducing high levels of uncertainty into population estimates.
3.We found that by far the most common intended use of population estimates was to inform status and trend assessments, while less common uses were trialling methods to improve estimates and assessing threat impacts and conservation outcomes.
4. The mean coefficient of variation for published estimates was 0.17 (SD = 0.14), with no evidence that uncertainty has been reduced through time. As a consequence of this high uncertainty, when we simulated declines equivalent to thresholds commonly used to trigger management, only 5% of studies could detect significant differences between population estimates collected 10 years apart for populations declining at a rate of 30% over three generations.
5. Reporting of uncertainty was variable with no dispersion statistics reported with 38% of population estimates and most not reporting key underlying parameters: nest numbers/density and nest occupancy. We also found no correlation between uncertainty in petrel population estimates and either island size, body size or species threat status – potential predictors of uncertainty.
6. Key recommendations for managers are to be mindful of uncertainty in past population estimates if aiming to collect contemporary estimates for comparison, to report uncertainty clearly for new estimates, and to give careful consideration to whether a proposed estimate is likely to achieve the requisite level of certainty for the investment in its generation to be warranted. We recommend a practitioner-based value of information assessment to confirm where there is value in reducing uncertainty.
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Steven R, Van Helden BE, Tulloch AI, Barnes, M, Close PG & Fuller RA (2021) Exploring the ability of urban householders to correctly identify nocturnal mammals. Urban Ecosystems, 24, 1359-1369.
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Urban landscapes present substantial opportunities for biodiversity conservation with residential gardens offering some of the greatest potential conservation gains given that they represent a significant proportion of the total greenspace in urbanised landscapes. However, knowledge of wildlife ecology within gardens remains scarce, likely due to the difficulties associated with field ecologists accessing privately owned areas. Citizen-sourced data presents an alternative approach to typical field-based investigations and could be used to develop an extensive understanding of biodiversity within privately owned green spaces, providing concerns of data unreliability could be overcome. Here we i) examine the potential for urban householders to identify a threatened nocturnal mammal, in the presence of a similar non-threatened species, ii) examine which attributes can predict the level of accuracy in householders’ species identifications and iii) investigate how their self-reported level of certainty affects identification reliability. We found up to 80% agreement between householders and experienced ecologists when we assessed presence and absence of nocturnal mammals on urban properties. The amount of time a householder had lived at their residence was a significant predictor of accuracy for mammal species identification, suggesting that familiarity with a site enhances the accuracy of citizen science data. Those people with a high level of certainty in their ability to correctly identify nocturnal mammals were no more likely to show higher species identification accuracy than those with low certainty. In urban areas, where ecological surveys for nocturnal taxa are especially challenging, our results inspire optimism that householders can add to the body of knowledge about biodiversity persisting in these landscapes, especially on properties where they have resided for at least one year.
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Fuller RA, Jackson MV, Amano T, Choi C-Y, Clemens RS, Hansen BD, Lin D-L, Steven R & Woodworth BK (2021) Collect, connect, upscale: Towards coordinated monitoring of migratory shorebirds in the Asia-Pacific. Australian Zoologist, 41, 205-213.
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Monitoring migratory species can be extremely challenging. For example, millions of migratory shorebirds migrate from breeding grounds in northern China, Mongolia and Russia to East Asia and Australasia each year, traversing more than 20 countries while on migration. Studies within individual nations have identified rapid declines in many species, yet progress toward a fully unified scheme for continuous tracking of population change at the scale of the entire East Asian-Australasian Flyway has been slow. To reflect on lessons learned and consider how further progress might be made, we review some of the factors that have limited the full emergence of shorebird monitoring in the East Asian-Australasian Flyway, including fragmentation among multiple databases, low data readiness, inadequate metadata and gaps in survey coverage. We conclude that while technical solutions for many of these issues do exist, the biggest challenge is to navigate the significant organisational, socio-cultural and resourcing contexts of those people doing the monitoring. Technical solutions alone will not create a cohesive network of people whose local efforts are pooled to create robust flyway-scale monitoring.