Your search keyword '"Bergstrom DM"' showing total 33 results

1. Evaluating models for predicting microclimates across sparsely vegetated and topographically diverse ecosystems

Author

Baker, DJ, Dickson, CR, Bergstrom, DM, Whinam, J, Maclean, IMD, and McGeoch, Melodie

Subjects

Uncategorized

Abstract

Aim: Microclimate information is often crucial for understanding ecological patterns and processes, including under climate change, but is typically absent from ecological and biogeographic studies owing to difficulties in obtaining microclimate data. Recent advances in microclimate modelling, however, suggest that microclimate conditions can now be predicted anywhere at any time using hybrid physically and empirically based models. Here, we test these methods across a sparsely vegetated and topographically diverse sub-Antarctic island ecosystem (Macquarie Island). Innovation: Microclimate predictions were generated at a height of 4 cm above the surface on a 100 �� 100 m elevation grid across the island for the snow-free season (Oct���Mar), with models driven by either climate reanalysis data (CRA) or CRA data augmented with meteorological observations from the island's automatic weather station (AWS+CRA). These models were compared with predictions from a simple lapse rate model (LR), where an elevational adjustment was applied to hourly temperature measurements from the AWS. Prediction errors tended to be lower for AWS+CRA-driven models, particularly when compared to the CRA-driven models. The AWS+CRA and LR models had similar prediction errors averaged across the season for Tmin and Tmean, but prediction errors for Tmax were much smaller for the former. The within-site correlation between observed and predicted daily Tmean was on average >0.8 in all months for AWS+CRA predictions and >0.7 in all months for LR predictions, but consistently lower for CRA predictions. Main conclusions: Prediction of microclimate conditions at ecologically relevant spatial and temporal scales is now possible using hybrid models, and these often provide added value over lapse rate models, particularly for daily extremes and when driven by in situ meteorological observations. These advances will help add the microclimate dimension to ecological and biogeographic studies and aid delivery of climate change-resilient conservation planning in climate change-exposed ecosystems.

Published

2021

2. Combating ecosystem collapse from the tropics to the Antarctic

Author

Bergstrom, DM, Wienecke, BC, van den Hoff, J, Hughes, L, Lindenmayer, DB, Ainsworth, TD, Baker, CM, Bland, L, Bowman, DMJS, Brooks, ST, Canadell, JG, Constable, AJ, Dafforn, KA, Depledge, MH, Dickson, CR, Duke, NC, Helmstedt, KJ, Holz, A, Johnson, CR, McGeoch, MA, Melbourne-Thomas, J, Morgain, R, Nicholson, E, Prober, SM, Raymond, B, Ritchie, EG, Robinson, SA, Ruthrof, KX, Setterfield, SA, Sgro, CM, Stark, JS, Travers, T, Trebilco, R, Ward, DFL, Wardle, GM, Williams, KJ, Zylstra, PJ, Shaw, JD, Bergstrom, DM, Wienecke, BC, van den Hoff, J, Hughes, L, Lindenmayer, DB, Ainsworth, TD, Baker, CM, Bland, L, Bowman, DMJS, Brooks, ST, Canadell, JG, Constable, AJ, Dafforn, KA, Depledge, MH, Dickson, CR, Duke, NC, Helmstedt, KJ, Holz, A, Johnson, CR, McGeoch, MA, Melbourne-Thomas, J, Morgain, R, Nicholson, E, Prober, SM, Raymond, B, Ritchie, EG, Robinson, SA, Ruthrof, KX, Setterfield, SA, Sgro, CM, Stark, JS, Travers, T, Trebilco, R, Ward, DFL, Wardle, GM, Williams, KJ, Zylstra, PJ, and Shaw, JD

Abstract

Globally, collapse of ecosystems-potentially irreversible change to ecosystem structure, composition and function-imperils biodiversity, human health and well-being. We examine the current state and recent trajectories of 19 ecosystems, spanning 58° of latitude across 7.7 M km2 , from Australia's coral reefs to terrestrial Antarctica. Pressures from global climate change and regional human impacts, occurring as chronic 'presses' and/or acute 'pulses', drive ecosystem collapse. Ecosystem responses to 5-17 pressures were categorised as four collapse profiles-abrupt, smooth, stepped and fluctuating. The manifestation of widespread ecosystem collapse is a stark warning of the necessity to take action. We present a three-step assessment and management framework (3As Pathway Awareness, Anticipation and Action) to aid strategic and effective mitigation to alleviate further degradation to help secure our future.

Published

2021

3. Widespread dieback in a foundation species on a sub-Antarctic World Heritage Island: Fine-scale patterns and likely drivers

Author

Dickson, CR, Baker, DJ, Bergstrom, DM, Brookes, RH, Whinam, J, McGeoch, MA, Dickson, CR, Baker, DJ, Bergstrom, DM, Brookes, RH, Whinam, J, and McGeoch, MA

Abstract

Under anthropogenic climate change, emerging diseases and pathogens are increasingly prevalent in high latitude and altitude regions that were previously protected by cold winter temperatures. Ongoing island-wide dieback of a foundation species, the cushion plant Azorella macquariensis, on World Heritage listed Macquarie Island provides the first sub-Antarctic example. To better understand the island-wide progression of cushion dieback and its drivers, we established and quantified plant condition classes and measured microclimate across 62 sites. We then tested whether the drivers of cushion dieback were associated with (i) water stress: represented by vapour pressure deficit, wind exposure and gravel content, (ii) pathogen virulence: using freezing days and extreme humidity as empirically supported surrogates, or (iii) both. There was a strong north-south progression in cushion condition, with dieback most active in the centre of the island and advanced in the north. Dieback was most extensive at sites with fewer freezing days and high humidity. Natural southern refugia were explained by the significantly colder temperatures, associated with a north-south temperature gradient. It is expected that under current climate change trajectories, where Macquarie is likely to continue to become warmer and wetter, cushion dieback will remain pervasive, expanding most slowly in the south and potentially outpacing recovery. We emphasise the need for increased awareness to prevent the establishment of pathogens into and across the landscapes of newly susceptible high latitude and altitude regions. Areas of high conservation significance need to be prioritised for management, to prevent further landscape-scale change under current climate trajectories.

Published

2021

4. Spatial variation in the ongoing and widespread decline of a keystone plant species

Author

Dickson, CR, Baker, DJ, Bergstrom, DM, Bricher, PK, Brookes, RH, Raymond, B, Selkirk, PM, Shaw, JD, Terauds, A, Whinam, J, McGeoch, MA, Dickson, CR, Baker, DJ, Bergstrom, DM, Bricher, PK, Brookes, RH, Raymond, B, Selkirk, PM, Shaw, JD, Terauds, A, Whinam, J, and McGeoch, MA

Abstract

Extensive dieback in dominant plant species in response to climate change is increasingly common. Climatic conditions and related variables, such as evapotranspiration, vary in response to topographical complexity. This complexity plays an important role in the provision of climate refugia. In 2008/2009, an island‐wide dieback event of the keystone cushion plant Azorella macquariensis Orchard (Apiaceae) occurred on sub‐Antarctic Macquarie Island. This signalled the start of a potential regime shift, suggested to be driven by increasing vapour pressure deficit. Eight years later, we quantified cover and dieback across the range of putative microclimates to which the species is exposed, with the aim of explaining dieback patterns. We test for the influence of evapotranspiration using a suite of topographic proxies and other variables as proposed drivers of change. We found higher cover and lower dieback towards the south of the island. The high spatial variation in A. macquariensis populations was best explained by latitude, likely a proxy for macroscale climate gradients and geology. Dieback was best explained by A. macquariensis cover and latitude, increasing with cover and towards the north of the island. The effect sizes of terrain variables that influence evapotranspiration rates were small. Island‐wide dieback remains conspicuous. Comparison between a subset of sites and historical data revealed a reduction of cover in the north and central regions of the island, and a shift south in the most active areas of dieback. Dieback remained comparatively low in the south. The presence of seedlings was independent of dieback. This study provides an empirical baseline for spatial variation in the cover and condition of A. macquariensis, both key variables for monitoring condition and ‘cover‐debt’ in this critically endangered endemic plant species. These findings have broader implications for understanding the responses of fellfield ecosystems and other Azorella species

Published

2019

5. Impacts of recent climate change on terrestrial flora and fauna: Some emerging Australian examples

Author

Hoffmann, AA, Rymer, PD, Byrne, M, Ruthrof, KX, Whinam, J, McGeoch, M, Bergstrom, DM, Guerin, GR, Sparrow, B, Joseph, L, Hill, SJ, Andrew, NR, Camac, J, Bell, N, Riegler, M, Gardner, JL, Williams, SE, Hoffmann, AA, Rymer, PD, Byrne, M, Ruthrof, KX, Whinam, J, McGeoch, M, Bergstrom, DM, Guerin, GR, Sparrow, B, Joseph, L, Hill, SJ, Andrew, NR, Camac, J, Bell, N, Riegler, M, Gardner, JL, and Williams, SE

Abstract

The effects of anthropogenic climate change on biodiversity are well known for some high‐profile Australian marine systems, including coral bleaching and kelp forest devastation. Less well‐published are the impacts of climate change being observed in terrestrial ecosystems, although ecological models have predicted substantial changes are likely. Detecting and attributing terrestrial changes to anthropogenic factors is difficult due to the ecological importance of extreme conditions, the noisy nature of short‐term data collected with limited resources, and complexities introduced by biotic interactions. Here, we provide a suite of case studies that have considered possible impacts of anthropogenic climate change on Australian terrestrial systems. Our intention is to provide a diverse collection of stories illustrating how Australian flora and fauna are likely responding to direct and indirect effects of anthropogenic climate change. We aim to raise awareness rather than be comprehensive. We include case studies covering canopy dieback in forests, compositional shifts in vegetation, positive feedbacks between climate, vegetation and disturbance regimes, local extinctions in plants, size changes in birds, phenological shifts in reproduction and shifting biotic interactions that threaten communities and endangered species. Some of these changes are direct and clear cut, others are indirect and less clearly connected to climate change; however, all are important in providing insights into the future state of terrestrial ecosystems. We also highlight some of the management issues relevant to conserving terrestrial communities and ecosystems in the face of anthropogenic climate change.

Published

2019

6. Human impacts on sub-Antarctic terrestrial environments

Author

Bergstrom, DM, primary and Selkirk, PM, additional

Published

2007

7. The potential role of ammonia as a signal molecule for procellariiform seabirds

Author

Nevitt, GA, primary, Bergstrom, DM, additional, and Bonadonna, F, additional

Published

2006

8. Terrestrial vegetation and environments on Heard Island

Author

Bergstrom, DM, primary and Selkirk, PM, additional

Published

2000

9. Restricted plant species on sub-Antarctic Macquarie and Heard Islands

Author

Bergstrom, DM, Turner, PAM, Scott, JJ, Copson, G, Shaw, JD, Bergstrom, DM, Turner, PAM, Scott, JJ, Copson, G, and Shaw, JD

Abstract

The recent distributional history of two Macquarie Island vascular plant species, Carex trifida, Poa litorosa, and the Heard Island vascular plant, Ranunculus crassipes is examined. C. trifida is known from only one small population on the north west coast of Macquarie Island. Four populations of P. litorosa were first recorded in the 1980s; we believe however, that it was first observed, but misidentified in the 1950s. R. crassipes was first discovered on Heard Island in the late 1980s. We argue that all three species are indigenous and arrived on their respective islands within the last 200 years by natural processes, most likely from warmer neighbouring islands, where these species have more extensive distributions. There have been small-scale changes in distribution of all species, mainly expansion. Further expansion of all three species is expected as a response to warming climate. Feral rabbit grazing is having a confounding negative influence on populations of P.litosa.

10. A rapid field sampling method for vegetation terrain modelling and satellite image classification.

Author

Bricher, PK, Lucieer, A, Bergstrom, DM, Kirkpatrick, JB, Bricher, PK, Lucieer, A, Bergstrom, DM, and Kirkpatrick, JB

Abstract

Terrain analysis of vegetation distribution and satellite image classification generally require training data from numerous field sites. On remote subantarctic islands, where access is difficult and the opportunities for aerial photography are limited by cost and weather conditions, such data are often hard to acquire. There is an urgent need for highly accurate fine resolution mapping of Macquarie Island, one of Australia's two subantarctic territories. Vegetation patterns on the 12 785 ha island are changing rapidly, largely due to grazing by rabbits. The Australian and Tasmanian Governments have committed $25 million to eradicating all introduced vertebrates from the island. In order to assess the success of this program in restoring vegetation communities, baseline data is required across the island's extent and at a sufficiently fine resolution to capture changes in community distribution.

11. Restricted plant species on sub-Antarctic Macquarie and Heard Islands

Author

Bergstrom, DM, Turner, PAM, Scott, JJ, Copson, G, Shaw, JD, Bergstrom, DM, Turner, PAM, Scott, JJ, Copson, G, and Shaw, JD

Abstract

The recent distributional history of two Macquarie Island vascular plant species, Carex trifida, Poa litorosa, and the Heard Island vascular plant, Ranunculus crassipes is examined. C. trifida is known from only one small population on the north west coast of Macquarie Island. Four populations of P. litorosa were first recorded in the 1980s; we believe however, that it was first observed, but misidentified in the 1950s. R. crassipes was first discovered on Heard Island in the late 1980s. We argue that all three species are indigenous and arrived on their respective islands within the last 200 years by natural processes, most likely from warmer neighbouring islands, where these species have more extensive distributions. There have been small-scale changes in distribution of all species, mainly expansion. Further expansion of all three species is expected as a response to warming climate. Feral rabbit grazing is having a confounding negative influence on populations of P.litosa.

12. Restricted plant species on sub-Antarctic Macquarie and Heard Islands

Author

Bergstrom, DM, Turner, PAM, Scott, JJ, Copson, G, Shaw, JD, Bergstrom, DM, Turner, PAM, Scott, JJ, Copson, G, and Shaw, JD

Abstract

The recent distributional history of two Macquarie Island vascular plant species, Carex trifida, Poa litorosa, and the Heard Island vascular plant, Ranunculus crassipes is examined. C. trifida is known from only one small population on the north west coast of Macquarie Island. Four populations of P. litorosa were first recorded in the 1980s; we believe however, that it was first observed, but misidentified in the 1950s. R. crassipes was first discovered on Heard Island in the late 1980s. We argue that all three species are indigenous and arrived on their respective islands within the last 200 years by natural processes, most likely from warmer neighbouring islands, where these species have more extensive distributions. There have been small-scale changes in distribution of all species, mainly expansion. Further expansion of all three species is expected as a response to warming climate. Feral rabbit grazing is having a confounding negative influence on populations of P.litosa.

13. Restricted plant species on sub-Antarctic Macquarie and Heard Islands

Author

Bergstrom, DM, Turner, PAM, Scott, JJ, Copson, G, Shaw, JD, Bergstrom, DM, Turner, PAM, Scott, JJ, Copson, G, and Shaw, JD

Abstract

The recent distributional history of two Macquarie Island vascular plant species, Carex trifida, Poa litorosa, and the Heard Island vascular plant, Ranunculus crassipes is examined. C. trifida is known from only one small population on the north west coast of Macquarie Island. Four populations of P. litorosa were first recorded in the 1980s; we believe however, that it was first observed, but misidentified in the 1950s. R. crassipes was first discovered on Heard Island in the late 1980s. We argue that all three species are indigenous and arrived on their respective islands within the last 200 years by natural processes, most likely from warmer neighbouring islands, where these species have more extensive distributions. There have been small-scale changes in distribution of all species, mainly expansion. Further expansion of all three species is expected as a response to warming climate. Feral rabbit grazing is having a confounding negative influence on populations of P.litosa.

14. Ridge top peats and paleolake deposits on Macquarie Island

Author

Selkirk, DR, primary, Selkirk, PM, additional, Bergstrom, DM, additional, and Adamson, DA, additional

Published

1988

15. Systematic conservation planning for Antarctic research stations.

Author

Brooks ST, Jabour J, Hughes KA, Morgan F, Convey P, Polymeropoulos ET, and Bergstrom DM

Subjects

Humans, Antarctic Regions, Human Activities, Anthropogenic Effects, Conservation of Natural Resources, Biodiversity

Abstract

The small ice-free areas of Antarctica are essential locations for both biodiversity and scientific research but are subject to considerable and expanding human impacts, resulting primarily from station-based research and support activities, and local tourism. Awareness by operators of the need to conserve natural values in and around station and visitor site footprints exists, but the cumulative nature of impacts often results in reactive rather than proactive management. With human activity spread across many isolated pockets of ice-free ground, the pathway to the greatest reduction of human impacts within this natural reserve is through better management of these areas, which are impacted the most. Using a case study of Australia's Casey Station, we found significant natural values persist within the immediate proximity (<10 m) of long-term station infrastructure, but encroachment by physical disturbance results in ongoing pressures. Active planning to better conserve such values would provide a direct opportunity to enhance protection of Antarctica's environment. Here we introduce an approach to systematic conservation planning, tailored to Antarctic research stations, to help managers improve the conservation of values surrounding their activity locations. Use of this approach provides a potential mechanism to balance the need for scientific access to the continent with international obligations to protect its environment. It may also facilitate the development of subordinate conservation tools, including management plans and natural capital accounting. By proactively minimising and containing their station footprints, national programs can also independently demonstrate their commitment to protecting Antarctica's environment., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2024

16. Threat management priorities for conserving Antarctic biodiversity.

Author

Lee JR, Terauds A, Carwardine J, Shaw JD, Fuller RA, Possingham HP, Chown SL, Convey P, Gilbert N, Hughes KA, McIvor E, Robinson SA, Ropert-Coudert Y, Bergstrom DM, Biersma EM, Christian C, Cowan DA, Frenot Y, Jenouvrier S, Kelley L, Lee MJ, Lynch HJ, Njåstad B, Quesada A, Roura RM, Shaw EA, Stanwell-Smith D, Tsujimoto M, Wall DH, Wilmotte A, and Chadès I

Subjects

Animals, Humans, Antarctic Regions, Biodiversity, Introduced Species, Climate Change, Ecosystem, Conservation of Natural Resources, Spheniscidae

Abstract

Antarctic terrestrial biodiversity faces multiple threats, from invasive species to climate change. Yet no large-scale assessments of threat management strategies exist. Applying a structured participatory approach, we demonstrate that existing conservation efforts are insufficient in a changing world, estimating that 65% (at best 37%, at worst 97%) of native terrestrial taxa and land-associated seabirds are likely to decline by 2100 under current trajectories. Emperor penguins are identified as the most vulnerable taxon, followed by other seabirds and dry soil nematodes. We find that implementing 10 key threat management strategies in parallel, at an estimated present-day equivalent annual cost of US$23 million, could benefit up to 84% of Antarctic taxa. Climate change is identified as the most pervasive threat to Antarctic biodiversity and influencing global policy to effectively limit climate change is the most beneficial conservation strategy. However, minimising impacts of human activities and improved planning and management of new infrastructure projects are cost-effective and will help to minimise regional threats. Simultaneous global and regional efforts are critical to secure Antarctic biodiversity for future generations., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2022 Lee et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2022

17. Islands in the ice: Potential impacts of habitat transformation on Antarctic biodiversity.

Author

Lee JR, Waterman MJ, Shaw JD, Bergstrom DM, Lynch HJ, Wall DH, and Robinson SA

Subjects

Antarctic Regions, Biota, Climate Change, Wind, Biodiversity, Ecosystem

Abstract

Antarctic biodiversity faces an unknown future with a changing climate. Most terrestrial biota is restricted to limited patches of ice-free land in a sea of ice, where they are adapted to the continent's extreme cold and wind and exploit microhabitats of suitable conditions. As temperatures rise, ice-free areas are predicted to expand, more rapidly in some areas than others. There is high uncertainty as to how species' distributions, physiology, abundance, and survivorship will be affected as their habitats transform. Here we use current knowledge to propose hypotheses that ice-free area expansion (i) will increase habitat availability, though the quality of habitat will vary; (ii) will increase structural connectivity, although not necessarily increase opportunities for species establishment; (iii) combined with milder climates will increase likelihood of non-native species establishment, but may also lengthen activity windows for all species; and (iv) will benefit some species and not others, possibly resulting in increased homogeneity of biodiversity. We anticipate considerable spatial, temporal, and taxonomic variation in species responses, and a heightened need for interdisciplinary research to understand the factors associated with ecosystem resilience under future scenarios. Such research will help identify at-risk species or vulnerable localities and is crucial for informing environmental management and policymaking into the future., (© 2022 The Authors. Global Change Biology published by John Wiley & Sons Ltd.)

Published

2022

18. Maintaining Antarctica's isolation from non-native species.

Author

Bergstrom DM

Subjects

Antarctic Regions, Climate Change, Human Activities, Humans, Biodiversity, Introduced Species

Abstract

Antarctica's isolation has been breached by various non-native species, including microbes, a grass, and some invertebrates. As yet, no marine species have reportedly established populations. With increasing effects of climate change and human activity, continued concerted action is needed to keep Antarctica protected from the impacts of non-native species establishment., Competing Interests: Declaration of interests No interests to declare., (Crown Copyright © 2021. Published by Elsevier Ltd. All rights reserved.)

Published

2022

19. Combating ecosystem collapse from the tropics to the Antarctic.

Author

Bergstrom DM, Wienecke BC, van den Hoff J, Hughes L, Lindenmayer DB, Ainsworth TD, Baker CM, Bland L, Bowman DMJS, Brooks ST, Canadell JG, Constable AJ, Dafforn KA, Depledge MH, Dickson CR, Duke NC, Helmstedt KJ, Holz A, Johnson CR, McGeoch MA, Melbourne-Thomas J, Morgain R, Nicholson E, Prober SM, Raymond B, Ritchie EG, Robinson SA, Ruthrof KX, Setterfield SA, Sgrò CM, Stark JS, Travers T, Trebilco R, Ward DFL, Wardle GM, Williams KJ, Zylstra PJ, and Shaw JD

Subjects

Antarctic Regions, Biodiversity, Climate Change, Humans, Coral Reefs, Ecosystem

Abstract

Globally, collapse of ecosystems-potentially irreversible change to ecosystem structure, composition and function-imperils biodiversity, human health and well-being. We examine the current state and recent trajectories of 19 ecosystems, spanning 58° of latitude across 7.7 M km 2 , from Australia's coral reefs to terrestrial Antarctica. Pressures from global climate change and regional human impacts, occurring as chronic 'presses' and/or acute 'pulses', drive ecosystem collapse. Ecosystem responses to 5-17 pressures were categorised as four collapse profiles-abrupt, smooth, stepped and fluctuating. The manifestation of widespread ecosystem collapse is a stark warning of the necessity to take action. We present a three-step assessment and management framework (3As Pathway Awareness, Anticipation and Action) to aid strategic and effective mitigation to alleviate further degradation to help secure our future., (© 2021 John Wiley & Sons Ltd.)

Published

2021

20. The 2019/2020 summer of Antarctic heatwaves.

Author

Robinson SA, Klekociuk AR, King DH, Pizarro Rojas M, Zúñiga GE, and Bergstrom DM

Subjects

Antarctic Regions, Freezing, Seasons, Temperature, Hot Temperature

Abstract

This summer, a heatwave across Antarctica saw temperatures soar above average. Temperatures above zero are especially significant because they accelerate ice melt. Casey Station had its highest temperature ever, reaching a maximum of 9.2°C and minimum of 2.5°C. The highest temperature in Antarctica was 20.75°C on 9 February. Here we discuss the biological implications of such extreme events., (© 2020 John Wiley & Sons Ltd.)

Published

2020

21. An analysis of environmental incidents for a national Antarctic program.

Author

Brooks ST, Jabour J, Sharman AJ, and Bergstrom DM

Subjects

Antarctic Regions, Australia, Climate, Ecosystem, Hazardous Substances, Environmental Pollutants, Human Activities

Abstract

Research stations in Antarctica are concentrated on scarce ice-free habitats. Operating these stations in the harsh Antarctic climate provides many challenges, including the need to handle bulk fuel and cargo increasing the risk of environmental incidents. We examined 195 reports of environmental incidents from the Australian Antarctic Program, spanning six years, to investigate the impacts and pathways of contemporary environmental incidents. Fuel and chemical spills were most common, followed by biosecurity incursions. The majority of reports were assessed as having insignificant actual impacts. Either the incidents were small, or active, rapid response and mitigation procedures minimised impact. During the period only one spill report (4000 l) was assessed as a 'high' impact. This is despite over 13 million litres of diesel utilised. The majority of incidents occurred within the existing station footprints. The pathways leading to the incidents varied, with technical causes predominately leading to spills, and procedural failures leading to biosecurity incursions. The large number of reports with inconsequential impacts suggest an effective environmental management system with a good culture of reporting environmental incidents. Our findings suggest that the key to continual improvement in an ongoing environmental management system is to learn from incidences and take action to prevent them occurring again, with an end-goal of minimising the residual risk as much as possible., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

22. Ecosystem shift after a hot event.

Author

Bergstrom DM

Subjects

Ecosystem, Hot Temperature

Published

2017

23. Global thermal niche models of two European grasses show high invasion risks in Antarctica.

Author

Pertierra LR, Aragón P, Shaw JD, Bergstrom DM, Terauds A, and Olalla-Tárraga MÁ

Subjects

Antarctic Regions, Ecology, Forecasting, Humans, Seasons, Temperature, Introduced Species, Poaceae growth & development

Abstract

The two non-native grasses that have established long-term populations in Antarctica (Poa pratensis and Poa annua) were studied from a global multidimensional thermal niche perspective to address the biological invasion risk to Antarctica. These two species exhibit contrasting introduction histories and reproductive strategies and represent two referential case studies of biological invasion processes. We used a multistep process with a range of species distribution modelling techniques (ecological niche factor analysis, multidimensional envelopes, distance/entropy algorithms) together with a suite of thermoclimatic variables, to characterize the potential ranges of these species. Their native bioclimatic thermal envelopes in Eurasia, together with the different naturalized populations across continents, were compared next. The potential niche of P. pratensis was wider at the cold extremes; however, P. annua life history attributes enable it to be a more successful colonizer. We observe that particularly cold summers are a key aspect of the unique Antarctic environment. In consequence, ruderals such as P. annua can quickly expand under such harsh conditions, whereas the more stress-tolerant P. pratensis endures and persist through steady growth. Compiled data on human pressure at the Antarctic Peninsula allowed us to provide site-specific biosecurity risk indicators. We conclude that several areas across the region are vulnerable to invasions from these and other similar species. This can only be visualized in species distribution models (SDMs) when accounting for founder populations that reveal nonanalogous conditions. Results reinforce the need for strict management practices to minimize introductions. Furthermore, our novel set of temperature-based bioclimatic GIS layers for ice-free terrestrial Antarctica provide a mechanism for regional and global species distribution models to be built for other potentially invasive species., (© 2017 John Wiley & Sons Ltd.)

Published

2017

24. Easy Come, Easy Go: Capillary Forces Enable Rapid Refilling of Embolized Primary Xylem Vessels.

Author

Rolland V, Bergstrom DM, Lenné T, Bryant G, Chen H, Wolfe J, Holbrook NM, Stanton DE, and Ball MC

Subjects

Apiaceae anatomy & histology, Apiaceae ultrastructure, Biological Transport physiology, Caryophyllaceae anatomy & histology, Caryophyllaceae ultrastructure, Cell Wall physiology, Cell Wall ultrastructure, Cryoelectron Microscopy, Hydrodynamics, Microscopy, Confocal, Microscopy, Electron, Scanning, Plant Roots anatomy & histology, Plant Roots physiology, Plant Roots ultrastructure, Plant Shoots anatomy & histology, Plant Shoots physiology, Plant Shoots ultrastructure, Plant Stems anatomy & histology, Plant Stems physiology, Plant Stems ultrastructure, Species Specificity, Xylem anatomy & histology, Xylem ultrastructure, Apiaceae physiology, Caryophyllaceae physiology, Water metabolism, Xylem physiology

Abstract

Protoxylem plays an important role in the hydraulic function of vascular systems of both herbaceous and woody plants, but relatively little is known about the processes underlying the maintenance of protoxylem function in long-lived tissues. In this study, embolism repair was investigated in relation to xylem structure in two cushion plant species, Azorella macquariensis and Colobanthus muscoides, in which vascular water transport depends on protoxylem. Their protoxylem vessels consisted of a primary wall with helical thickenings that effectively formed a pit channel, with the primary wall being the pit channel membrane. Stem protoxylem was organized such that the pit channel membranes connected vessels with paratracheal parenchyma or other protoxylem vessels and were not exposed directly to air spaces. Embolism was experimentally induced in excised vascular tissue and detached shoots by exposing them briefly to air. When water was resupplied, embolized vessels refilled within tens of seconds (excised tissue) to a few minutes (detached shoots) with water sourced from either adjacent parenchyma or water-filled vessels. Refilling occurred in two phases: (1) water refilled xylem pit channels, simplifying bubble shape to a rod with two menisci; and (2) the bubble contracted as the resorption front advanced, dissolving air along the way. Physical properties of the protoxylem vessels (namely pit channel membrane porosity, hydrophilic walls, vessel dimensions, and helical thickenings) promoted rapid refilling of embolized conduits independent of root pressure. These results have implications for the maintenance of vascular function in both herbaceous and woody species, because protoxylem plays a major role in the hydraulic systems of leaves, elongating stems, and roots., (© 2015 American Society of Plant Biologists. All Rights Reserved.)

Published

2015

25. Temperature responses of photosynthesis and respiration in a sub-Antarctic megaherb from Heard Island.

Author

Schortemeyer M, Evans JR, Bruhn D, Bergstrom DM, and Ball MC

Abstract

Understanding the response of sub-Antarctic plants to a warming climate requires an understanding of the relationship of carbon gain and loss to temperature. In a field study on Heard Island, we investigated the responses of photosynthesis and respiration of the sub-Antarctic megaherb Pringlea antiscorbutica R. Br. to temperature. This was done by instantaneously manipulating leaf temperature in a gas exchange cuvette on plants adapted to natural temperature variation along an altitudinal gradient. There was little altitudinal variation in the temperature response of photosynthesis. Photosynthesis was much less responsive to temperature than electron transport, suggesting that Rubisco activity was generally the rate-limiting process. The temperature response of leaf respiration rates was greater in cold-grown (high altitude) plants compared with warm-grown (low altitude) plants. This thermal acclimation would enable plants to maintain a positive carbon budget over a greater temperature range.

Published

2015

26. Mapping sub-antarctic cushion plants using random forests to combine very high resolution satellite imagery and terrain modelling.

Author

Bricher PK, Lucieer A, Shaw J, Terauds A, and Bergstrom DM

Subjects

Antarctic Regions, Ecosystem, Environment, Islands, Seasons, Environmental Monitoring methods, Geographic Mapping, Plants classification, Satellite Imagery methods, Trees classification

Abstract

Monitoring changes in the distribution and density of plant species often requires accurate and high-resolution baseline maps of those species. Detecting such change at the landscape scale is often problematic, particularly in remote areas. We examine a new technique to improve accuracy and objectivity in mapping vegetation, combining species distribution modelling and satellite image classification on a remote sub-Antarctic island. In this study, we combine spectral data from very high resolution WorldView-2 satellite imagery and terrain variables from a high resolution digital elevation model to improve mapping accuracy, in both pixel- and object-based classifications. Random forest classification was used to explore the effectiveness of these approaches on mapping the distribution of the critically endangered cushion plant Azorella macquariensis Orchard (Apiaceae) on sub-Antarctic Macquarie Island. Both pixel- and object-based classifications of the distribution of Azorella achieved very high overall validation accuracies (91.6-96.3%, κ = 0.849-0.924). Both two-class and three-class classifications were able to accurately and consistently identify the areas where Azorella was absent, indicating that these maps provide a suitable baseline for monitoring expected change in the distribution of the cushion plants. Detecting such change is critical given the threats this species is currently facing under altering environmental conditions. The method presented here has applications to monitoring a range of species, particularly in remote and isolated environments.

Published

2013

27. Conservation. Challenges to the future conservation of the Antarctic.

Author

Chown SL, Lee JE, Hughes KA, Barnes J, Barrett PJ, Bergstrom DM, Convey P, Cowan DA, Crosbie K, Dyer G, Frenot Y, Grant SM, Herr D, Kennicutt MC 2nd, Lamers M, Murray A, Possingham HP, Reid K, Riddle MJ, Ryan PG, Sanson L, Shaw JD, Sparrow MD, Summerhayes C, Terauds A, and Wall DH

Subjects

Animals, Antarctic Regions, Climate Change, Forecasting, Human Activities, Humans, Public Policy, Travel, Conservation of Natural Resources trends, Ecosystem

Published

2012

28. Continent-wide risk assessment for the establishment of nonindigenous species in Antarctica.

Author

Chown SL, Huiskes AH, Gremmen NJ, Lee JE, Terauds A, Crosbie K, Frenot Y, Hughes KA, Imura S, Kiefer K, Lebouvier M, Raymond B, Tsujimoto M, Ware C, Van de Vijver B, and Bergstrom DM

Subjects

Antarctic Regions, Humans, Plant Vascular Bundle physiology, Risk Assessment, Seeds physiology, Species Specificity, Temperature, Introduced Species

Abstract

Invasive alien species are among the primary causes of biodiversity change globally, with the risks thereof broadly understood for most regions of the world. They are similarly thought to be among the most significant conservation threats to Antarctica, especially as climate change proceeds in the region. However, no comprehensive, continent-wide evaluation of the risks to Antarctica posed by such species has been undertaken. Here we do so by sampling, identifying, and mapping the vascular plant propagules carried by all categories of visitors to Antarctica during the International Polar Year's first season (2007-2008) and assessing propagule establishment likelihood based on their identity and origins and on spatial variation in Antarctica's climate. For an evaluation of the situation in 2100, we use modeled climates based on the Intergovernmental Panel on Climate Change's Special Report on Emissions Scenarios Scenario A1B [Nakićenović N, Swart R, eds (2000) Special Report on Emissions Scenarios: A Special Report of Working Group III of the Intergovernmental Panel on Climate Change (Cambridge University Press, Cambridge, UK)]. Visitors carrying seeds average 9.5 seeds per person, although as vectors, scientists carry greater propagule loads than tourists. Annual tourist numbers (∼33,054) are higher than those of scientists (∼7,085), thus tempering these differences in propagule load. Alien species establishment is currently most likely for the Western Antarctic Peninsula. Recent founder populations of several alien species in this area corroborate these findings. With climate change, risks will grow in the Antarctic Peninsula, Ross Sea, and East Antarctic coastal regions. Our evidence-based assessment demonstrates which parts of Antarctica are at growing risk from alien species that may become invasive and provides the means to mitigate this threat now and into the future as the continent's climate changes.

Published

2012

29. Spatial scale and species identity influence the indigenous-alien diversity relationship in springtails.

Author

Terauds A, Chown SL, and Bergstrom DM

Subjects

Animals, Insecta physiology, Models, Biological, Pacific Islands, Species Specificity, Biodiversity, Insecta classification, Introduced Species

Abstract

Although theory underlying the invasion paradox, or the change in the relationship between the richness of alien and indigenous species from negative to positive with increasing spatial scale, is well developed and much empirical work on the subject has been undertaken, most of the latter has concerned plants and to a lesser extent marine invertebrates. Here we therefore examine the extent to which the relationships between indigenous and alien species richness change from the local metacommunity to the interaction neighborhood scales, and the influences of abundance, species identity, and environmental favorability thereon, in springtails, a significant component of the soil fauna. Using a suite of modeling techniques, including generalized least squares and geographically weighted regressions to account for spatial autocorrelation or nonstationarity of the data, we show that the abundance and species richness of both indigenous and alien species at the metacommunity scale respond strongly to declining environmental favorability, represented here by altitude. Consequently, alien and indigenous diversity covary positively at this scale. By contrast, relationships are more complex at the interaction neighborhood scale, with the relationship among alien species richness and/or density and the density of indigenous species varying between habitats, being negative in some, but positive in others. Additional analyses demonstrated a strong influence of species identity, with negative relationships identified at the interaction neighborhood scale involving alien hypogastrurid springtails, a group known from elsewhere to have negative effects on indigenous species in areas where they have been introduced. By contrast, diversity relationships were positive with the other alien species. These results are consistent with both theory and previous empirical findings for other taxa, that interactions among indigenous and alien species change substantially with spatial scale and that environmental favorability may play a key role in explaining the larger scale patterns. However, they also suggest that the interactions may be affected by the identity of the species concerned, especially at the interaction neighborhood scale.

Published

2011

30. Biological invasions in the Antarctic: extent, impacts and implications.

Author

Frenot Y, Chown SL, Whinam J, Selkirk PM, Convey P, Skotnicki M, and Bergstrom DM

Subjects

Animals, Animals, Wild, Antarctic Regions, Climate, Humans, Plant Development, Population Density, Population Dynamics, Biodiversity, Ecosystem

Abstract

Alien microbes, fungi, plants and animals occur on most of the sub-Antarctic islands and some parts of the Antarctic continent. These have arrived over approximately the last two centuries, coincident with human activity in the region. Introduction routes have varied, but are largely associated with movement of people and cargo in connection with industrial, national scientific program and tourist operations. The large majority of aliens are European in origin. They have both direct and indirect impacts on the functioning of species-poor Antarctic ecosystems, in particular including substantial loss of local biodiversity and changes to ecosystem processes. With rapid climate change occurring in some parts of Antarctica, elevated numbers of introductions and enhanced success of colonization by aliens are likely, with consequent increases in impacts on ecosystems. Mitigation measures that will substantially reduce the risk of introductions to Antarctica and the sub-Antarctic must focus on reducing propagule loads on humans, and their food, cargo, and transport vessels.

Published

2005

31. 15 N natural abundance of fossil peat reflects the influence of animal-derived nitrogen on vegetation.

Author

Bergstrom DM, Stewart GR, Selkirk PM, and Schmidt S

Abstract

δ 15 N signatures of fossil peat were used to interpret past ecosystem processes on tectonically active subantarctic Macquarie Island. By comparing past vegetation reconstructed from the fossil record with present-day vegetation analogues, our evidence strongly suggests that changes in the δ 15 N signatures of fossil peat at this location reflect mainly past changes in the proportion of plant nitrogen derived from animal sources. Associated with uplift above sea level over the past 8,500 years, fossil records in two peat deposits on the island chronicle a change from coastal vegetation with fur and elephant seal disturbance to the existing inland herbfield. Coupled with this change are synchronous changes in the δ 15 N signatures of peat layers. At two sites 15 N-enriched peat δ 15 N signatures of up to +17‰ were associated with a high abundance of pollen of the nitrophile Callitriche antarctica (Callitrichaceae). At one site fossil seal hair was also associated with enriched peat δ 15 N. Less 15 N enriched δ 15 N signatures (e.g. -1.9‰ to +3.9‰) were measured in peat layers which lacked animal associated C. antarctica and Acaena spp. Interpretation of a third peat profile indicates continual occupation of a ridge site by burrowing petrels for most of the Holocene. We suggest that 15 N signatures of fossil peat remained relatively stable with time once deposited, providing a significant new tool for interpreting the palaeoecology.

Published

2002

32. Life at the front: history, ecology and change on southern ocean islands.

Author

Bergstrom DM and Chown SL

Abstract

Terrestrial ecosystems of southern ocean islands have enjoyed renewed attention recently owing to the discovery that their climates are changing dramatically. This has led to an enhanced understanding of the biogeography of this region, and an increased awareness that these ecosystems provide unrivalled opportunities for investigating the impacts of environmental change on interactions between invasive and indigenous species. Recent studies have revealed increases in the abundance of established alien species and in the strength of their negative impacts on local biota, especially through indirect interactions. Also, increases in island temperature and human visitor frequency are likely to result in increasing numbers of successful alien colonization events.

Published

1999

33. Subantarctic Macquarie Island - a model ecosystem for studying animal-derived nitrogen sources using 15 N natural abundance.

Author

Erskine PD, Bergstrom DM, Schmidt S, Stewart GR, Tweedie CE, and Shaw JD

Abstract

Plants collected from diverse sites on subantarctic Macquarie Island varied by up to 30‰ in their leaf δ 15 N values. 15 N natural abundance of plants, soils, animal excrement and atmospheric ammonia suggest that the majority of nitrogen utilised by plants growing in the vicinity of animal colonies or burrows is animal-derived. Plants growing near scavengers and animal higher in the food chain had highly enriched δ 15 N values (mean = 12.9‰), reflecting the highly enriched signature of these animals' excrement, while plants growing near nesting penguins and albatross, which have an intermediate food chain position, had less enriched δ 15 N values (>6‰). Vegetation in areas affected by rabbits had lower δ 15 N values (mean = 1.2‰), while the highly depleted δ 15 N values (below -5‰) of plants at upland plateau sites inland of penguin colonies, suggested that a portion of their nitrogen is derived from ammonia (mean 15 N =-10‰) lost during the degradation of penguin guano. Vegetation in a remote area had δ 15 N values near -2‰. These results contrast with arctic and subarctic studies that attribute large variations in plant 15 N values to nitrogen partitioning in nitrogen-limited environments. Here, plant 15 N reflects the 15 N of the likely nitrogen sources utilised by plants.

Published

1998