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4. Temporal dynamics in the composition of bird communities along a gradient of farmland restoration.

Author

Haslem, Angie, Clarke, Rohan H., Maisey, Alex C., Stewart, Alistair, Radford, James Q., and Bennett, Andrew F.

Subjects
BIRD communities, REMNANT vegetation, BIRD populations, BIOTIC communities, REVEGETATION, BIRD surveys
Abstract

Revegetation plantings are a key activity in farmland restoration and are commonly assumed to support biotic communities that, with time, replicate those of reference habitats. Restoration outcomes, however, can be highly variable and difficult to predict; hence there is value in quantifying restoration success to improve future efforts. We test the expectation that, over time, revegetation will restore bird communities to match those in reference habitats; and assess whether specific planting attributes enhance restoration success. We surveyed birds in 255 sites in south-east Australia, arranged along a restoration gradient encompassing three habitat types: unrestored farmland (paddocks), revegetation plantings (comprising a chronosequence up to 52 years old) and reference habitats (remnant native vegetation). Surveys were undertaken in 2006/2007 and again in 2019, with data used to compare bird assemblages between habitat types. We also determined whether, in the intervening 12 years, bird communities in revegetation had shifted toward reference habitats on the restoration gradient. Our results showed that each habitat contained a unique bird community and that, over time, assemblages in revegetation diverged away from those in unrestored farmland and converged toward those in reference habitats. Two planting attributes influenced this transition: the bird assemblages of revegetation were more likely to have diverged away from those of unrestored farmland (with scattered mature trees) 12 years later if they were located in areas with more surrounding tree cover, and were mostly ungrazed by livestock (compared with grazed plantings). Our results highlight three key ways in which revegetation contributes to farmland restoration: (1) by supporting richer and more diverse bird assemblages than unrestored farmland, (2) by enhancing beta diversity in rural landscapes through the addition of a unique bird community, and (3) by shifting bird assemblages toward those found in reference habitats over time. However, revegetation plantings did not replicate reference habitats by ~40-50 years in our region, and complete convergence may take centuries. These findings have implications for environmental offset programs and mean that effective conservation in farmland environments depends on the retention and protection of natural and seminatural habitats as a parallel management strategy to complement restoration. [ABSTRACT FROM AUTHOR]

Published
2024
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11. Citizen science and community action provide insights on a threatened species: nest box use by the brush-tailed phascogale (Phascogale tapoatafa.

Author

Lawton, Jessica A., Holland, Greg J., Timewell, Chris, Bannon, Asha, Mellick, Elizabeth, and Bennett, Andrew F.

Abstract

Context. Landscape management and restoration in rural environments is frequently driven by community groups, who often use ‘flagship’ species to generate broader engagement. In southeastern Australia, installation of nest boxes for hollow-dependent fauna is undertaken by many groups. Monitoring the outcomes of such projects offers opportunities for citizen science. Aims. The aim of the present study was to report on a community-led project to install and monitor nest boxes to enhance the conservation of a threatened species, the brush-tailed phascogale (Phascogale tapoatafa), and to investigate the extent of nest box use, factors influencing use, changes in use through time, and the effectiveness of nest boxes as a monitoring tool. Methods. A community group installed 450 nest boxes across 150 sites to monitor and provide habitat for the brush-tailed phascogale. Of these, 102 sites were stratified in relation to: (1) geographic sub-region; (2) forest patch size; and (3) topographic position. Nest boxes were inspected five times over 8 years. We modelled factors influencing nest box use at the tree, site, and landscape level. We compared nest box data with data from camera traps at 50 sites to assess their value as a monitoring tool. Key results. In any given survey, up to 6% of nest boxes had individuals present and up to 22% had evidence of use by the brush-tailed phascogale. There was greater use of nest boxes when installed on ‘stringybark’ type trees than ‘box’ and ‘gum-barked’ species. Nest box use was greater for sites on forest slopes than in gullies, and use varied between years. Surveys using remote cameras were more effective at detecting phascogales than monitoring nest boxes. Conclusions. Nest box monitoring can provide insights into the distribution and habitat requirements of hollow-dependent species, and engage the community in citizen science. Elements that enhance community-led monitoring include scientific input to project design, collecting data in a consistent manner, allocating sufficient time for data curation, engaging people invested in project outcomes, maintaining good relationships with stakeholders, and sharing data for analysis. Implications. Collaboration between scientists and community groups can be of benefit to both parties. However, to maximise scientific and conservation outcomes there must be effective engagement and adequate resourcing for project coordination. [ABSTRACT FROM AUTHOR]

Published
2022
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12. Restoration promotes recovery of woodland birds in agricultural environments: A comparison of 'revegetation' and 'remnant' landscapes.

Author

Bennett, Andrew F., Holland, Greg J., Haslem, Angie, Stewart, Alistair, Radford, James Q., and Clarke, Rohan H.

Subjects
*REMNANT vegetation, *FOREST birds, *REVEGETATION, *WILDLIFE conservation, *HABITATS, *LANDSCAPES, *TREE growth, *NATIVE plants
Abstract

Ecological restoration in rural environments is a global challenge for the 21st century. Restoration measures—such as agri‐environment activities, woodlots, natural regeneration and conservation plantings—collectively alter landscape structure with the aim of restoring conservation values that are characteristic of natural ecosystems. We tested the landscape‐scale benefits of restoration for woodland birds, species of conservation concern in southern Australia, by assessing the richness and composition of avian communities in rural landscapes along a gradient in habitat restoration, benchmarked against landscapes with comparable extent of native vegetation.We selected 43 landscapes (each 8 km2) in Victoria, Australia, representing: (a) a trajectory of decline in the extent of remnant native wooded vegetation ('remnant' landscapes), (b) a trajectory of gain in planted vegetation ('revegetation' landscapes) and (c) a similar gradient comprising a mix of remnants and planted vegetation ('mixed' landscapes). In each landscape, repeat surveys of birds were undertaken at 12 sites, stratified in relation to land cover.Species richness of all terrestrial and woodland birds showed similar positive responses to total wooded cover in each landscape type, but woodland birds had reduced richness in 'revegetation' relative to 'remnant' and 'mixed' landscapes. Across all landscapes, key factors influencing richness were the extent of wooded cover and proportion comprised of plantings, scattered trees in farmland and mean annual rainfall. The composition of woodland bird assemblages differed between 'remnant' and 'revegetation' landscapes with predictable differences associated with foraging traits.Synthesis and applications. Restoration plantings stimulate recolonisation of otherwise‐depleted landscapes, effectively reversing a decline in woodland birds. Key insights include: (a) benchmarking 'revegetation' against 'remnant' landscapes provides a valuable means to quantify restoration outcomes at the landscape scale; (b) time‐lags in vegetation maturation contribute to a trajectory of recovery that differs from a trajectory of decline, in both richness and composition of the avifauna; (c) scattered trees have a critical role for avifaunal conservation in farm landscapes; (d) restoration plantings are most effective in 'mixed' landscapes, where complementary resources from remnant and planted vegetation are juxtaposed; and (e) restoration plantings on individual farms contribute to landscape‐scale biodiversity gains while also having socio‐ecological and production benefits. [ABSTRACT FROM AUTHOR]

Published
2022
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13. What determines the distribution of a threatened species, the brush‐tailed phascogale Phascogale tapoatafa (Marsupialia: Dasyuridae), in a highly modified region?

Author

Lawton, Jessica A., Holland, Greg J., and Bennett, Andrew F.

Subjects
ENDANGERED species, SPECIES distribution, MARSUPIALS, TROPICAL dry forests, BIRDHOUSES, EUCALYPTUS, HABITATS
Abstract

Identifying factors that affect species' distributions in highly modified landscapes, especially threatened species, is a key issue for conservation worldwide. Three types of factors commonly are considered important: the extent and pattern of suitable habitat at a landscape scale; the availability of key resources at a local scale; and interactions with other species. The brush‐tailed phascogale (Phascogale tapoatafa) has undergone range contractions and regional extinctions in Australia and falls within the critical weight range of mammal species with high risk of decline. Yet, in some regions, it persists despite marked habitat loss and disturbance. We investigated the distribution of the brush‐tailed phascogale in a highly modified region in central Victoria where it is a 'flagship' for community conservation. At 50 sites, stratified geographically and in relation to topography and surrounding forest cover, we carried out surveys using remotely sensed cameras (in parallel with nest box inspections). We used an occupancy modelling framework and information‐theoretic approach to analyse factors influencing detectability and occupancy. The brush‐tailed phascogale was widespread, recorded at 84% (42/50) of sites. The environmental space occupied by sites with camera records matched that of nest boxes containing established nests of this species. Detection probability was influenced by survey effort and site‐level measures of habitat quality (logs, litter, topographic position) likely reflecting population abundance. Dry forested slopes were favoured compared with gullies. The study area, with its dry forests of rough‐barked eucalypts, is a stronghold for this species. The broad distribution of the brush‐tailed phascogale in this highly modified region can be attributed to retention of ˜36% regional forest cover and a relatively high level of structural and functional connectivity. In such modified landscapes, complementary actions by land managers to sustain remaining large tracts of forest and also a mosaic of wooded vegetation across the rural landscape will help such species to persist. [ABSTRACT FROM AUTHOR]

Published
2021
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14. Local management or wider context: What determines the value of farm revegetation plantings for birds?

Author

Haslem, Angie, Clarke, Rohan H., Holland, Greg J., Radford, James Q., Stewart, Alistair, and Bennett, Andrew F.

Subjects
REVEGETATION, PLANT diversity, DEAD trees, GROUND vegetation cover, FOREST birds, PLANT conservation
Abstract

1. Small-scale revegetation plantings on farms are common to restoration efforts in agricultural regions worldwide. Such plantings provide habitat for diverse faunal groups. A key question concerns the degree to which their value for biodiversity is influenced by the features of individual plantings, which can be controlled by local land managers, or by broader-scale drivers in the wider landscape. 2. We developed a conceptual model of factors of potential influence on birds in revegetation plantings at different spatial scales. To test this model, we surveyed native birds in 133 plantings in south-eastern Australia. Regression models were used to compare the effect of 'habitat- ', 'patch- ', 'farm-' and 'landscape-' scale variables on species richness (of woodland and open country birds) and the occurrence of individual species in plantings. We further tested whether the influence of variables representing local actions was swamped by larger-scale variables. 3. Birds that occupied plantings were influenced by variables at all scales. Woodland birds were consistently richer and more likely to use older plantings (patch scale) with higher floristic richness (habitat scale), and surrounded by more wooded vegetation (at patch, farm and landscape scales). Open country species responded positively to the density of live trees (habitat scale) and the presence of large remnant tree/s (patch scale) in plantings. 4. Variables representing local management actions generally maintained a strong influence on birds in plantings irrespective of the influence of broader drivers. Few relationships between bird species and planting attributes were contingent on features of the surrounding landscape; those that were suggested woodland birds are more responsive to local actions when broad-scale vegetation cover is greater. 5. Synthesis and applications. Land managers can enhance the conservation value of plantings by (a) planting a greater diversity of trees and shrubs and (b) locating revegetation near other vegetation or around mature remnant tree/s. These actions will measurably increase the value of plantings for birds, irrespective of larger-scale drivers. Nonetheless, the important role of increased vegetation cover across broader agricultural landscapes emphasises that the collective efforts of individuals and larger initiatives are critical for conservation. [ABSTRACT FROM AUTHOR]

Published
2021
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16. Prescribed burning reduces the abundance of den sites for a hollow-using mammal in a dry forest ecosystem.

Author

Flanagan-Moodie, Anna K., Holland, Greg J., Clarke, Michael F., and Bennett, Andrew F.

Subjects
PRESCRIBED burning, PARTURITION grounds, TROPICAL dry forests, MARSUPIALS, EUCALYPTUS
Abstract

Highlights • Individuals of the small marsupial, Antechinus flavipes, use multiple den sites. • Habitat structures used most frequently for dens (large trees, logs) are rare. • A single prescribed burn of low coverage (40–50%) removed 31% of known dens. • The loss of hollows in trees and logs may also affect other hollow-using species. • We recommend retaining patches of long-unburned forest to ensure suitable habitat. Abstract Prescribed burning is used in fire-prone environments worldwide to reduce fuel loads and the severity and spread of future wildfires. Forest habitat structures, such as large trees, dead trees and logs are highly flammable, yet also are essential for animal species that require hollows (cavities) as den sites for shelter and reproduction. We examined the effects of experimental prescribed burns on the use of den sites by a small marsupial, the yellow-footed antechinus Antechinus flavipes , in south-eastern Australia. Specifically, we radio-tracked individual A. flavipes to identify forest habitat structures preferred as den sites and recorded the fate of known den sites following patchy prescribed burns. We found that large living trees and dead trees were used as den sites disproportionately to their relative abundance in the forest. While all marked individuals of A. flavipes survived the immediate impacts of patchy prescribed burns, almost a third (16/52) of den sites identified before burning were lost, including 17% of trees (4/23) and 48% of logs (10/21). The vulnerability of den sites to prescribed burns can be attributed to the decay-dependent effect of fire on both trees and logs, whereby, the amount of damage from fire is related to the structure’s pre-fire condition (i.e. whether dead or alive, amount of decay). Large trees and large logs are scarce in this dry forest ecosystem and their replacement is likely to take a century or more due to the slow growth rates of trees. The ecological impacts of prescribed burning on habitat structures used by A. flavipes and other hollow-using species can be moderated by: (1) carrying out patchy, rather than complete burns; (2) ensuring the inter-fire interval is sufficient to allow time for replenishment of resources; and (3) planning at a regional scale to maintain an appropriate spatial pattern of post-fire age-classes, including areas retained as long-unburned (e.g. >50 years) in which resources such as deep litter, large logs and dead trees can accumulate. [ABSTRACT FROM AUTHOR]

Published
2018
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17. Identifying wildlife corridors for the restoration of regional habitat connectivity: A multispecies approach and comparison of resistance surfaces.

Author

Liu, Canran, Newell, Graeme, White, Matt, and Bennett, Andrew F.

Subjects
HABITATS, CORRIDORS (Ecology), BIODIVERSITY, ANIMAL species, ANIMAL diversity
Abstract

Many large-scale connectivity initiatives have been proposed around the world with the aim of maintaining or restoring connectivity to offset the impacts on biodiversity of habitat loss and fragmentation. Frequently, these are based on the requirements of a single focal species of concern, but there is growing attention to identifying connectivity requirements for multi-species assemblages. A number of methods for modelling connectivity have been developed; likewise, different approaches have been used to construct resistance surfaces, the basic input data for connectivity analyses. In this study we modelled connectivity for a multi-species group of vertebrates representative of heavily fragmented forests in north-central Victoria, Australia. For each species, we used least-cost modelling and compared two alternate resistance surfaces, based on species distribution models and on expert opinion, respectively. We integrated the connectivity results across individual species to obtain a multi-species connectivity map for the region. A resistance surface based on expert assessment of the relative use of land-cover classes by the target species was more informative than one based on species distribution models. The former resulted in pathways more strongly aligned with existing patches and strips of native vegetation. In this region, pathways aligned with streams and their associated riparian vegetation have relatively high ecological potential and feasibility to contribute to regional connectivity for the assemblage of forest vertebrates. [ABSTRACT FROM AUTHOR]

Published
2018
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18. The effect of prescribed burning on plant rarity in a temperate forest.

Author

Patykowski, John, Holland, Greg J., Dell, Matt, Wevill, Tricia, Callister, Kate, Bennett, Andrew F., and Gibson, Maria

Subjects
PLANT species, TEMPERATE forests, PLANT diversity, FLORISTIC quality assessment, WILDFIRES
Abstract

Abstract: Rare species can play important functional roles, but human‐induced changes to disturbance regimes, such as fire, can inadvertently affect these species. We examined the influence of prescribed burns on the recruitment and diversity of plant species within a temperate forest in southeastern Australia, with a focus on species that were rare prior to burning. Floristic composition was compared among plots in landscapes before and after treatment with prescribed burns differing in the extent of area burnt and season of burn (before–after, control‐impact design). Floristic surveys were conducted before burns, at the end of a decade of drought, and 3 years postburn. We quantified the effect of prescribed burns on species grouped by their frequency within the landscape before burning (common, less common, and rare) and their life‐form attributes (woody perennials, perennial herbs or geophytes, and annual herbs). Burn treatment influenced the response of rare species. In spring‐burn plots, the recruitment of rare annual herbs was promoted, differentiating this treatment from both autumn‐burn and unburnt plots. In autumn‐burn plots, richness of rare species increased across all life‐form groups, although composition remained statistically similar to control plots. Richness of rare woody perennials increased in control plots. For all other life‐form and frequency groups, the floristic composition of landscapes changed between survey years, but there was no effect of burn treatment, suggesting a likely effect of rainfall on species recruitment. A prescribed burn can increase the occurrence of rare species in a landscape, but burn characteristics can affect the promotion of different life‐form groups and thus affect functional diversity. Drought‐breaking rain likely had an overarching effect on floristic composition during our study, highlighting that weather can play a greater role in influencing recruitment and diversity in plant communities than a prescribed burn. [ABSTRACT FROM AUTHOR]

Published
2018
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19. Prescribed burning consumes key forest structural components: implications for landscape heterogeneity.

Author

Holland, Greg J., Clarke, Michael F., and Bennett, Andrew F.

Subjects
PRESCRIBED burning, ECOLOGICAL heterogeneity, FOREST management, LANDSCAPE protection, HABITATS, VEGETATION & climate
Abstract

Prescribed burning to achieve management objectives is a common practice in fire-prone regions worldwide. Structural components of habitat that are combustible and slow to develop are particularly susceptible to change associated with prescribed burning. We used an experimental, 'whole-landscape' approach to investigate the effect of differing patterns of prescribed burning on key habitat components (logs, stumps, dead trees, litter cover, litter depth, and understorey vegetation). Twenty-two landscapes (each ~100 ha) were selected in a dry forest ecosystem in southeast Australia. Experimental burns were conducted in 16 landscapes (stratified by burn extent) while six served as untreated controls. We measured habitat components prior to and after burning. Landscape burn extent ranged from 22% to 89% across the 16 burn treatments. With the exception of dead standing trees (no change), all measures of habitat components declined as a consequence of burning. The degree of loss increased as the extent to which a landscape was burned also increased. Prescribed burning had complex effects on the spatial heterogeneity (beta diversity) of structural components within landscapes. Landscapes that were more heterogeneous pre-fire were homogenized by burning, while those that were more homogenous pre-fire tended to display greater differentiation post-burning. Thus, the notion that patch mosaic burning enhances heterogeneity at the landscape-scale depends on prior conditions. These findings have important management implications. Where prescribed burns must be undertaken, effects on important resources can be moderated via control of burn characteristics (e.g., burn extent). Longer-term impacts of prescribed burning will be strongly influenced by the return interval, given the slow rate at which some structural components accumulate (decades to centuries). Management of habitat structural components is important given the critical role they play in (1) provision of habitat resources for diverse organisms, (2) retention of moisture and nutrients in otherwise dry, low-productivity systems, and (3) carbon storage. [ABSTRACT FROM AUTHOR]

Published
2017
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20. Fire regimes and environmental gradients shape vertebrate and plant distributions in temperate eucalypt forests.

Author

Kelly, Luke T., Haslem, Angie, Holland, Greg J., Leonard, Steven W. J., MacHunter, Josephine, Bassett, Michelle, Bennett, Andrew F., Bruce, Matthew J., Chia, Evelyn K., Christie, Fiona J., Clarke, Michael F., Di Stefano, Julian, Loyn, Richard, McCarthy, Michael A., Pung, Alina, Robinson, Natasha, Sitters, Holly, Swan, Matthew, and York, Alan

Abstract

Fire is a global driver of ecosystem structure, function, and change. Problems common to fire scientists and managers worldwide include a limited knowledge of how multiple taxonomic groups within a given ecosystem respond to recurrent fires, and how interactions between fire regimes and environmental gradients influence biodiversity. We tested six hypotheses relating to fire regimes and environmental gradients in forest ecosystems using data on birds (493 sites), mammals (175 sites), and vascular plants (615 sites) systematically collected in dry eucalypt forests in southeastern Australia. We addressed each of these hypotheses by fitting species distribution models which differed in the environmental variables used, the spatial extent of the data, or the type of response data. We found (1) as predicted, fire interacted with environmental gradients and shaped species distributions, but there was substantial variation between species; (2) multiple characteristics of fire regimes influenced the distribution of forest species; (3) common to vertebrates and plants was a strong influence of temperature and rainfall gradients, but contrary to predictions, inter‐fire interval was the most influential component of the fire regime on both taxonomic groups; (4) mixed support for the hypothesis that fire would be a stronger influence on species occurrence at a smaller spatial extent; only for vertebrates did scale have an effect in the direction expected; (5) as predicted, vertebrates closely associated with direct measures of habitat structure were those most strongly influenced by fire regimes; and (6) the modeled fire responses for birds were sensitive to the use of either presence–absence or abundance data. These results underscore the important insights that can be gained by modeling how fire regimes, not just fire events, influence biota in forests. Our work highlights the need for management of fire regimes to be complemented by an understanding of the underlying environmental gradients and key elements of habitat structure that influence resource availability for plants and animals. We have demonstrated that there are general patterns in biotic responses to fire regimes and environmental gradients, but landscape management must continue to carefully consider species, scale, and the quality of biodiversity data to achieve biodiversity conservation in fire‐prone forests. [ABSTRACT FROM AUTHOR]

Published
2017
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21. How expert are 'experts'? Comparing expert predictions and empirical data on the use of farmland restoration sites by birds.

Author

Bennett, Andrew F., Haslem, Angie, White, Matthew, Hollings, Tracey, and Thomson, James R.

Subjects
*BIRDING sites, *FORECASTING, *BODY size
Abstract

Expert knowledge is widely used to assist decision-making in conservation, typically where information is lacking or involves complex interacting factors. While there is growing attention to effective elicitation of knowledge, empirical testing of the accuracy of predictions by experts is rare. We tested the accuracy of expert predictions of the occurrence of bird species at restored sites in farmland by comparing predictions with empirical data and with random assemblages of species. Generally, there was a positive relationship between the averaged expert prediction of likelihood of occurrence and the observed frequency of occurrence for individual species, though accuracy varied between species. Bias in predictions was related to habitat-use and body size: experts tended to over-estimate the likelihood of common, open-country species occurring at sites and underestimate small, woodland species. For bird assemblages, the collective predictions of experts differed significantly from observed assemblages but performed better than random selection of species. Notably, however, predictions of species occurrence and of assemblages at sites varied markedly between individual experts. Expert knowledge will continue to have a valuable role in decision support, but quantifying the nature of biases in predictions and how they contribute to uncertainty is essential. Limitations in expert prediction can be countered by treating them as a guide rather than source of truth; and combining the judgements from multiple experts will help reduce the variation among individuals. While capitalising on the wealth of knowledge held by experts, conservation science and management must be underpinned by sound empirical evidence. [ABSTRACT FROM AUTHOR]

Published
2023
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22. Do multiple fires interact to affect vegetation structure in temperate eucalypt forests?

Author

Haslem, Angie, Leonard, Steve W. J., Bruce, Matthew J., Christie, Fiona, Holland, Greg J., Kelly, Luke T., MacHunter, Josephine, Bennett, Andrew F., Clarke, Michael F., and York, Alan

Subjects
EUCALYPTUS, FOREST management, EMPIRICAL research, FOREST canopies, FOREST ecology, FOREST fire ecology
Abstract

Fire plays an important role in structuring vegetation in fire-prone regions worldwide. Progress has been made towards documenting the effects of individual fire events and fire regimes on vegetation structure; less is known of how different fire history attributes (e.g., time since fire, fire frequency) interact to affect vegetation. Using the temperate eucalypt foothill forests of southeastern Australia as a case study system, we examine two hypotheses about such interactions: (1) post-fire vegetation succession (e.g., time-since-fire effects) is influenced by other fire regime attributes and (2) the severity of the most recent fire overrides the effect of preceding fires on vegetation structure. Empirical data on vegetation structure were collected from 540 sites distributed across central and eastern Victoria, Australia. Linear mixed models were used to examine these hypotheses and determine the relative influence of fire and environmental attributes on vegetation structure. Fire history measures, particularly time since fire, affected several vegetation attributes including ground and canopy strata; others such as low and sub-canopy vegetation were more strongly influenced by environmental characteristics like rainfall. There was little support for the hypothesis that post-fire succession is influenced by fire history attributes other than time since fire; only canopy regeneration was influenced by another variable (fire type, representing severity). Our capacity to detect an overriding effect of the severity of the most recent fire was limited by a consistently weak effect of preceding fires on vegetation structure. Overall, results suggest the primary way that fire affects vegetation structure in foothill forests is via attributes of the most recent fire, both its severity and time since its occurrence; other attributes of fire regimes (e.g., fire interval, frequency) have less influence. The strong effect of environmental drivers, such as rainfall and topography, on many structural features show that foothill forest vegetation is also influenced by factors outside human control. While fire is amenable to human management, results suggest that at broad scales, structural attributes of these forests are relatively resilient to the effects of current fire regimes. Nonetheless, the potential for more frequent severe fires at short intervals, associated with a changing climate and/or fire management, warrant further consideration. [ABSTRACT FROM AUTHOR]

Published
2016
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23. At the Crossroads: Does the Configuration of Roadside Vegetation Affect Woodland Bird Communities in Rural Landscapes?

Author

Hall, Mark, Nimmo, Dale, and Bennett, Andrew F.

Subjects
ROADSIDE plants, FOREST birds, LANDSCAPES, HEDGES (Plants), PLANT habitats, ANIMAL species
Abstract

In agricultural regions worldwide, linear networks of vegetation such as hedges, fencerows and live fences provide habitat for plant and animal species in heavily modified landscapes. In Australia, networks of remnant native vegetation along roadsides are a distinctive feature of many rural landscapes. Here, we investigated the richness and composition of woodland-dependent bird communities in networks of eucalypt woodland vegetation along roadsides, in an agricultural region in which >80% of native woodland and forest vegetation has been cleared. We stratified sites in a) cross sections and b) linear strips of roadside vegetation, to test the influence on woodland birds of site location and configuration in the linear network (the ‘intersection effect’). We also examined the influence of tree size at the site, the amount of wooded vegetation surrounding the site, and the abundance of an aggressive native species, the noisy miner Manorina melanocephala. Birds were surveyed at 26 pairs of sites (cross section or linear strip) on four occasions. A total of 66 species was recorded, including 35 woodland species. The richness of woodland bird species was influenced by site configuration, with more species present at cross sections, particularly those with larger trees (>30 cm diameter). However, the strongest influence on species richness was the relative abundance of the noisy miner. The richness of woodland birds at sites where noisy miners were abundant was ~20% of that where miners were absent. These results recognise the value of networks of roadside vegetation as habitat for woodland birds in depleted agricultural landscapes; but highlight that this value is not realised for much of this vast vegetation network because of the dominance of the noisy miner. Nevertheless, roadside vegetation is particularly important where the configuration of networks create nodes that facilitate movement. Globally, the protection, conservation and restoration of such linear networks has an important influence on the persistence of biota within human-dominated landscapes. [ABSTRACT FROM AUTHOR]

Published
2016
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24. Historical Maps from Modern Images: Using Remote Sensing to Model and Map Century-Long Vegetation Change in a Fire-Prone Region.

Author

Callister, Kate E., Griffioen, Peter A., Avitabile, Sarah C., Haslem, Angie, Kelly, Luke T., Kenny, Sally A., Nimmo, Dale G., Farnsworth, Lisa M., Taylor, Rick S., Watson, Simon J., Bennett, Andrew F., and Clarke, Michael F.

Subjects
REMOTE sensing, HISTORICAL maps, LAND management, LANDSCAPES, WILDFIRES
Abstract

Understanding the age structure of vegetation is important for effective land management, especially in fire-prone landscapes where the effects of fire can persist for decades and centuries. In many parts of the world, such information is limited due to an inability to map disturbance histories before the availability of satellite images (~1972). Here, we describe a method for creating a spatial model of the age structure of canopy species that established pre-1972. We built predictive neural network models based on remotely sensed data and ecological field survey data. These models determined the relationship between sites of known fire age and remotely sensed data. The predictive model was applied across a 104,000 km2 study region in semi-arid Australia to create a spatial model of vegetation age structure, which is primarily the result of stand-replacing fires which occurred before 1972. An assessment of the predictive capacity of the model using independent validation data showed a significant correlation (rs = 0.64) between predicted and known age at test sites. Application of the model provides valuable insights into the distribution of vegetation age-classes and fire history in the study region. This is a relatively straightforward method which uses widely available data sources that can be applied in other regions to predict age-class distribution beyond the limits imposed by satellite imagery. [ABSTRACT FROM AUTHOR]

Published
2016
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25. Effects of the fire regime on mammal occurrence after wildfire: Site effects vs landscape context in fire-prone forests.

Author

Chia, Evelyn K., Bassett, Michelle, Leonard, Steve W.J., Holland, Greg J., Ritchie, Euan G., Clarke, Michael F., and Bennett, Andrew F.

Subjects
FORESTS & forestry, WILDFIRES, ENVIRONMENTAL impact analysis, MAMMALS, ECOSYSTEMS, FOREST ecology
Abstract

Wildfires have major impacts on ecosystems globally. Fire regimes (including fire frequency, intensity, season and type of fire) influence the status of species by altering habitat suitability at the site scale, and by creating heterogeneity at the landscape scale. The relative effects of site and landscape-scale fire attributes on animal species are rarely examined together. Such knowledge is important, given that fire regimes are sensitive to changing land management practices; and that fires are predicted to become larger and more frequent in some regions as a result of climate change. Here, we tested the relative influence of elements of the fire regime (fire severity, fire history) at the site-scale, and the landscape context (extent of surrounding unburnt forest, fire heterogeneity) on the occurrence of native terrestrial mammals after severe wildfire in south-eastern Australia. We conducted surveys by using automatically triggered, infrared cameras at 80 sites in fire-prone eucalypt forests, 2–3 years post-wildfire. Thirteen native mammal species were recorded, eight of which were detected with sufficient frequency for analysis. Most species were widespread (35–90% of sites) and recorded in all fire severity classes. Fire effects at the site-level were more influential than landscape context effects arising from heterogeneity in the fire regime (e.g. extent of surrounding unburnt forest). Fire severity was the most influential of the fire-regime elements investigated, but it affected different species in different ways. This study highlights three main points relevant to conservation of terrestrial mammals after wildfire. First, spatial variation in fire severity associated with wildfire (ranging from unburned to severely burned stands) is an important contributor to the post-fire status of species. Second, post-fire environmental conditions are significant: here, rapid regeneration of vegetation following drought-breaking rains greatly influenced the suitability of post-fire habitats. Third, it is valuable to consider the effects of the fire regime at multiple scales, including both the site (forest stand) and its landscape context. Insights from short-term surveys, such as this, will be enhanced by complementary longitudinal studies, especially where they encompass environmental variation through the post-fire succession. [ABSTRACT FROM AUTHOR]

Published
2016
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26. Landscape properties mediate the homogenization of bird assemblages during climatic extremes.

Author

Haslem, Angie, Nimmo, Dale G., Radford, James Q., and Bennett, Andrew F.

Subjects
CLIMATE extremes, CLIMATIC normals, CLIMATOLOGY, LANDSCAPES, FOREST birds
Abstract

Extreme weather events, such as drought, have marked impacts on biotic communities. In many regions, a predicted increase in occurrence of such events will be imposed on landscapes already heavily modified by human land use. There is an urgency, therefore, to understand the way in which the effects of such events may be exacerbated, or moderated, by different patterns of landscape change. We used empirical data on woodland-dependent birds in southeast Australia, collected during and after a severe drought, to document temporal change in the composition of bird assemblages in 24 landscapes (each 100 km2) representing a gradient in the cover of native wooded vegetation (from 60% to <2%). We examined (a) whether drought caused region-wide homogenization of the composition of landscape bird assemblages, and (b) whether landscape properties influenced the way assemblages changed in response to drought. To quantify change, we used pairwise indices of assemblage dissimilarity, partitioned into components that represented change in the richness of assemblages and change in the identity of constituent species (turnover). There was widespread loss of woodland birds in response to drought, with only partial recovery following drought-breaking rains. Region-wide, the composition of landscape assemblages became more different over time, primarily caused by turnover-related differentiation. The response of bird assemblages to drought varied between landscapes and was strongly associated with landscape properties. The extent of wooded vegetation had the greatest influence on assemblage change: landscapes with more native vegetation had more stable bird assemblages over time. However, for the component processes of richness-and turnover-related compositional change, measures of landscape productivity had a stronger effect. For example, landscapes with more riparian vegetation maintained more stable assemblages in terms of richness. These results emphasize the importance of the total extent of native vegetation, both overall cover and that occurring in productive parts of the landscape, for maintaining bird communities whose composition is resistant to severe drought. While extreme climatic events cannot be prevented, their effects can be ameliorated by managing the pattern of native vegetation in anthropogenic landscapes, with associated benefits for maintaining ecological processes and human well-being. [ABSTRACT FROM AUTHOR]

Published
2015
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27. Refuges for birds in fire-prone landscapes: The influence of fire severity and fire history on the distribution of forest birds.

Author

Robinson, Natasha M., Leonard, Steven W.J., Bennett, Andrew F., and Clarke, Michael F.

Subjects
BIRD refuges, FOREST fires, FOREST birds, BIRD habitats, CHEMICAL composition of plants, BIRD classification
Abstract

Highlights: [•] We investigated the importance to birds of unburnt patches within a mega-fire. [•] We compared differences due to severity and time-since-fire prior to the mega-fire. [•] Unburnt patches had high richness, and a distinct composition. [•] Prior fire history was less relevant to avifauna in severely burnt sites. [•] Recent planned burns may contribute to refuge habitat if subsequent fire is avoided. [ABSTRACT FROM AUTHOR]

Published
2014
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28. Riparian vegetation has disproportionate benefits for landscape-scale conservation of woodland birds in highly modified environments.

Author

Bennett, Andrew F., Nimmo, Dale G., Radford, James Q., and Wilson, J.

Subjects
*RIPARIAN plants, *BIRD conservation, *FARMS, *BIODIVERSITY, *RIPARIAN areas, *FOREST birds, *AQUATIC ecology
Abstract

Identifying landscape patterns that allow native fauna to coexist with human land use is a global challenge. Riparian vegetation often persists in anthropogenic environments as strips of natural or semi-natural vegetation that provide habitat for many terrestrial species. Its relative contribution to landscape-scale conservation is likely to change as environments become increasingly modified. We used a 'whole of landscape' approach to test the hypothesis that riparian vegetation offers disproportionate benefits, relative to non-riparian vegetation, for the conservation of woodland birds in highly modified agricultural landscapes., We selected 24 landscapes, each 100 km2, along a gradient of landscape change represented by decreasing cover of native vegetation (from 60% to <2%), in an agricultural region in SE Australia. Bird species were systematically surveyed at three riparian and seven non-riparian sites in wooded vegetation in each landscape., Riparian sites supported a greater richness of woodland-dependent species, a group of conservation concern, than did non-riparian sites. The composition of assemblages also differed between site types., At the landscape scale, the pooled richness of bird assemblages at riparian and non-riparian sites, respectively, decreased with overall loss of tree cover despite constant sampling effort. Within landscapes, the β-diversity of woodland species among non-riparian sites increased (composition became less similar) as landscape tree cover declined. In contrast, riparian assemblages were relatively stable with no change in β-diversity. Importantly, as landscape tree cover declined, the proportion of woodland species uniquely present at riparian sites increased and made a greater contribution to overall landscape diversity., Synthesis and applications. Landscape-scale richness of woodland species declines as landscape tree cover is lost. In highly depleted landscapes, riparian vegetation retains a relatively rich, stable assemblage compared with that in heterogeneous remnants of non-riparian vegetation and consequently contributes disproportionately to landscape-scale diversity. These observations, together with the diverse benefits of riparian vegetation for aquatic ecosystems, mean that protection and restoration of riparian vegetation is a high priority in anthropogenic environments. Importantly, such actions are directly amenable to individual land managers, and the benefits will accumulate to enhance the persistence and conservation of species at landscape and regional scales. [ABSTRACT FROM AUTHOR]

Published
2014
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29. Determinants of the occurrence of unburnt forest patches: Potential biotic refuges within a large, intense wildfire in south-eastern Australia.

Author

Leonard, Steven W.J., Bennett, Andrew F., and Clarke, Michael F.

Subjects
BURNING of land, WILDLIFE refuges, CLIMATE change, WILDFIRES, LANDSCAPES, FOREST ecology
Abstract

Highlights: [•] Unburnt patches within wildfire boundaries are potential biotic refuges. [•] Within a eucalypt forest wildfire, unburnt patches comprised 1% of the landscape. [•] Most patches arose due to microclimate, but some resulted from prior burning. [•] The refuge quality of a patch is influenced by the mechanism of its occurrence. [•] In variable landscapes potential refuges will occur without management intervention. [ABSTRACT FROM AUTHOR]

Published
2014
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30. Predicting the century-long post-fire responses of reptiles.

Author

Nimmo, Dale. G., Kelly, Luke T., Spence-Bailey, Lisa M., Watson, Simon J., Haslem, Angie, White, John G., Clarke, Mike F., and Bennett, Andrew F.

Subjects
FIRE ecology, REPTILE ecology, HABITATS, ARID regions biodiversity, BIOTIC communities
Abstract

ABSTRACT Aim We examined the century-long post-fire responses of reptiles to (1) determine the time-scales over which fauna - fire relationships occur, (2) assess the capacity of a conceptual model to predict faunal response to fire, and (3) investigate the degree to which models of fauna - fire relationships can predict species occurrence and are transferable across space. Location A 104,000 km2 area in the semi-arid Murray Mallee region of south-eastern Australia. Methods We surveyed reptiles at 280 sites across a century-long post-fire chronosequence. We developed generalized additive mixed models (GAMMs) of the relationship between time since fire and the occurrence of 17 species in two subregions, and compared modelled responses with predictions derived from the conceptual model. The predictive capacity of GAMMs was then assessed (1) within the subregion the model was developed and (2) when transferred into a novel subregion. Results Eleven species displayed a significant relationship with time-since-fire, with changes in species probability of occurrence continuing up to 100 years post-fire. Predictions of the timing of species post-fire peak in occurrence were accurate for 9 of 13 species models for which a significant fire response was detected, but little success was achieved in predicting the shape of a species' response. GAMMs predicted species occurrence more accurately when applied within the subregion in which they were developed than when transferred into a novel subregion, primarily due to some species responding to fire more strongly in one part of their geographic range. Main conclusions Fire influences the occurrence of reptiles in semi-arid ecosystems over century-long time frames. Habitat-use conceptual models have value in predicting the peak occurrence of species following fire, particularly for species with distributions strongly shaped by fire. Species relationships with fire can differ across their geographic range, probably associated with variation in climatic influences on post-fire succession and the consequent provision of habitat resources. [ABSTRACT FROM AUTHOR]

Published
2012
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31. A framework for mapping vegetation over broad spatial extents: A technique to aid land management across jurisdictional boundaries.

Author

Haslem, Angie, Callister, Kate E., Avitabile, Sarah C., Griffioen, Peter A., Kelly, Luke T., Nimmo, Dale G., Spence-Bailey, Lisa M., Taylor, Rick S., Watson, Simon J., Brown, Lauren, Bennett, Andrew F., and Clarke, Michael F.

Subjects
VEGETATION classification, ARID regions biodiversity, ECOSYSTEM management, EUCALYPTUS, LIFE zones, REMOTE sensing, PHYTOGEOGRAPHICAL mapping
Abstract

Abstract: Mismatches in boundaries between natural ecosystems and land governance units often complicate an ecosystem approach to management and conservation. For example, information used to guide management, such as vegetation maps, may not be available or consistent across entire ecosystems. This study was undertaken within a single biogeographic region (the Murray Mallee) spanning three Australian states. Existing vegetation maps could not be used as vegetation classifications differed between states. Our aim was to describe and map ‘tree mallee’ vegetation consistently across a 104000km2 area of this region. Hierarchical cluster analyses, incorporating floristic data from 713 sites, were employed to identify distinct vegetation types. Neural network classification models were used to map these vegetation types across the region, with additional data from 634 validation sites providing a measure of map accuracy. Four distinct vegetation types were recognised: Triodia Mallee, Heathy Mallee, Chenopod Mallee and Shrubby Mallee. Neural network models predicted the occurrence of three of them with 79% accuracy. Validation results identified that map accuracy was 67% (kappa=0.42) when using independent data. The framework employed provides a simple approach to describing and mapping vegetation consistently across broad spatial extents. Specific outcomes include: (1) a system of vegetation classification suitable for use across this biogeographic region; (2) a consistent vegetation map to inform land-use planning and biodiversity management at local and regional scales; and (3) a quantification of map accuracy using independent data. This approach is applicable to other regions facing similar challenges associated with integrating vegetation data across jurisdictional boundaries. [ABSTRACT FROM AUTHOR]

Published
2010
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32. Collapse of an avifauna: climate change appears to exacerbate habitat loss and degradation.

Author

Mac Nally, Ralph, Bennett, Andrew F., Thomson, James R., Radford, James Q., Unmack, Guy, Horrocks, Gregory, and Vesk, Peter A.

Subjects
*BIRD surveys, *BREEDING, *EUCALYPTUS, *NECTARIVORES, *CLIMATE change, *DROUGHTS, *LANDSCAPES, *FORESTS & forestry
Abstract

Aim We characterized changes in reporting rates and abundances of bird species over a period of severe rainfall deficiency and increasing average temperatures. We also measured flowering in eucalypts, which support large numbers of nectarivores characteristic of the region. Location A 30,000-km2 region of northern Victoria, Australia, consisting of limited amounts of remnant native woodlands embedded in largely agricultural landscapes. Methods There were three sets of monitoring studies, pitched at regional (survey programmes in 1995–97, 2004–05 and 2006–08), landscape (2002–03 and 2006–07) and site (1997–2008 continuously) scales. Bird survey techniques used a standard 2-ha, 20-min count method. We used Bayesian analyses of reporting rates to document statistically changes in the avifauna through time at each spatial scale. Results Bird populations in the largest remnants of native vegetation (up to 40,000 ha), some of which have been declared as national parks in the past decade, experienced similar declines to those in heavily cleared landscapes. All categories of birds (guilds based on foraging substrate, diet, nest site; relative mobility; geographical distributions) were affected similarly. We detected virtually no bird breeding in the latest survey periods. Eucalypt flowering has declined significantly over the past 12 years of drought. Main conclusions Declines in the largest woodland remnants commensurate with those in cleared landscapes suggest that reserve systems may not be relied upon to sustain species under climate change. We attribute population declines to low breeding success due to reduced food. Resilience of bird populations in this woodland system might be increased by active management to enhance habitat quality in existing vegetation and restoration of woodland in the more fertile parts of landscapes. [ABSTRACT FROM AUTHOR]

Published
2009
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33. Countryside elements and the conservation of birds in agricultural environments

Author

Haslem, Angie and Bennett, Andrew F.

Subjects
*GEOGRAPHICAL distribution of birds, *HABITAT conservation, *FOREST birds, *GRASSLAND birds, *WILDLIFE habitat improvement, *LAND capability for wildlife, *HABITATS
Abstract

Throughout the world, many native species inhabit agricultural landscapes. While natural habitats will form the cornerstone of conservation efforts in production-oriented environments, the success of these efforts will be enhanced by a greater understanding of the potential contribution of the increasingly modified countryside (‘matrix’) elements in these landscapes. Here, we investigate the relative occurrence of birds in some landscape elements (i.e. land-uses, vegetation types) common to agricultural environments around the world. Twenty-seven study mosaics (1km×1km in size), selected to incorporate variation in the cover of native vegetation and the richness of different landscape elements, were sampled in Gippsland, south-eastern Australia. Birds were surveyed in five main types of elements: native vegetation, linear vegetation, plantation, scattered trees and pasture. The greatest number of species was recorded in native vegetation, the most important element for the majority of birds in Australian agricultural landscapes. Nevertheless, most countryside elements had value for many species; particularly structurally complex elements. Ordination analyses (based on presence/absence data for 81 species) showed that the composition of bird communities differed between elements. The number of mosaics in which ‘all species’ and ‘woodland species’ were recorded was positively related to the breadth of elements they used; thus species using a greater number of elements occurred more frequently in the study region. Correlation analyses identified that the richness of woodland species (those of increased conservation concern in Australia) in different elements was influenced by features of the mosaic in which they occurred. Notably, the richness of woodland bird species recorded in scattered trees and pasture increased with local native vegetation cover. Key implications for conservation in Australian agricultural environments include: (1) native vegetation is vital for the persistence of birds in these landscapes, and thus is the primary element on which conservation efforts in agricultural landscapes depend; (2) countryside elements can enhance the conservation value of agricultural landscapes by (a) increasing structural complexity in largely cleared areas and (b) increasing the heterogeneity of the entire landscape; and (3) patches of different elements cannot be managed in isolation from their surroundings, as landscape properties affect the richness of bird assemblages in different elements. [Copyright &y& Elsevier]

Published
2008
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34. Quantifying the landscape-scale recovery of bird communities over time in response to on-farm restoration plantings.

Author

Haslem, Angie, Maisey, Alex C., Clarke, Rohan H., Stewart, Alistair, Radford, James Q., and Bennett, Andrew F.

Subjects
*BIRD breeding, *REMNANT vegetation, *BIRD communities, *BIRD populations, *HABITATS, *FOREST birds, *SPECIES diversity, *AGRICULTURE
Abstract

Restoring wooded vegetation to cleared agricultural landscapes is a global priority. Restoration is a dynamic, long-term process: individual plantings take years to develop specific resources, and the extent and pattern of plantings change through time. A rarely-tested assumption is that, over time, the biota of restored landscapes will converge towards that of unmodified landscapes. To test this, we compared temporal changes in bird communities in agricultural landscapes in which wooded vegetation was dominated either by planted or remnant native vegetation. In 2007 and 2019, we sampled birds within 23 landscapes (each 8 km2) representing gradients in cover (∼1–19 %) of remnant vegetation (n = 9 'remnant' landscapes) and planted vegetation (n = 14 'restored' landscapes). In 2007, remnant landscapes supported ∼20 % more woodland bird species than restored landscapes but by 2019 richness was similar. There was a strong, positive relationship between species richness and wooded vegetation cover in both landscape types; however, for a given vegetation cover, species richness was higher in remnant landscapes only in 2007. Community composition showed increasing convergence over time, but remnant and restored landscapes supported distinct bird communities in both 2007 and 2019. Our results highlight that: 1) restoring vegetation to agricultural landscapes can reverse the loss of bird species accompanying vegetation clearing, but recovery takes time; 2) landscape-scale restoration will benefit from 'succession planning'; 3) retaining remnant habitats is crucial because their resources are difficult to replicate with restoration; 4) plantings provide complementary resources and so restored landscapes containing remnant habitats will benefit biodiversity beyond those with only replantings. [ABSTRACT FROM AUTHOR]

Published
2023
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35. Time-since-fire and inter-fire interval influence hollow availability for fauna in a fire-prone system

Author

Haslem, Angie, Avitabile, Sarah C., Taylor, Rick S., Kelly, Luke T., Watson, Simon J., Nimmo, Dale G., Kenny, Sally A., Callister, Kate E., Spence-Bailey, Lisa M., Bennett, Andrew F., and Clarke, Michael F.

Subjects
*BIOAVAILABILITY, *HABITATS, *ANIMAL species, *PROBABILITY theory, *NATURAL resources, *FOREST fire management, *ENVIRONMENTAL sciences
Abstract

Abstract: Tree hollows are a critical, yet potentially limiting habitat resource for many animal species. Fire influences hollow availability, and the associated indirect effects on fauna can threaten the persistence of hollow-dependent species in fire-prone systems. We investigated the influence of two temporal aspects of fire regimes (time-since-fire, inter-fire interval) on hollow occurrence in a semi-arid, fire-prone region in south-eastern Australia. Empirical data on the characteristics of hollow-bearing eucalypt stems and fire-history attributes were compiled for 581 study sites. Mixed models were used to examine the relative influence of time-since-fire and inter-fire interval on hollow occurrence. Time-since-fire and inter-fire interval both affected the probability of hollow occurrence, but in different ways. Time-since-fire influenced the occurrence of hollows in live and dead stems. As time-since-fire increased, so too did the probability of live and dead stems containing hollows. Live stems did not provide hollows before 40years post-fire, while the probability of dead stems containing hollows peaked at 50–60years. Inter-fire interval influenced the availability of hollows in dead stems. Longer inter-fire intervals resulted in an increased density of dead hollow-bearing stems. In this region, hollow-dependent fauna will benefit from increased fire-free periods, both in terms of individual fire events and the intervals between repeated fires. These results highlight the complex way in which fire affects the availability of faunal habitat resources, and the extended time periods over which such influences operate. Understanding the effects of fire regimes on slow-developing habitat resources over long time-frames is imperative for sound ecological fire management. [Copyright &y& Elsevier]

Published
2012
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36. Conservation cornerstones: Capitalising on the endeavours of long-term monitoring projects

Author

Holland, Greg J., Alexander, Jerry S.A., Johnson, Peter, Arnold, Andrew H., Halley, Merril, and Bennett, Andrew F.

Subjects
*ENVIRONMENTAL monitoring, *BIOTIC communities, *BIODIVERSITY conservation, *CARNIVOROUS marsupials, *PHASCOGALE tapoatafa, *CLIMATE change, *WILDLIFE conservation, *CASE studies
Abstract

Abstract: Ecological monitoring is widely used to measure change through time in ecosystems. The current extinction crisis has resulted in a wealth of monitoring programs focussed on tracking the status of threatened species, and the perceived importance of monitoring has seen it become the cornerstone of many biodiversity conservation programs. However, many monitoring programs fail to produce useful outcomes due to inherent flaws. Here we use a monitoring program from south-eastern Australia as a case study to illustrate the potential of such endeavours. The threatened carnivorous marsupial, the brush-tailed phascogale (Phascogale tapoatafa), has been monitored at various locations between 2000 and 2010. We present strong evidence for a decline in relative abundance during this period, and also describe relationships with environmental variables. These results provide insights likely to be valuable in guiding future management of the species. In the absence of the monitoring program, informed management would not be possible. While early detection of population declines is important, knowledge of the processes driving such declines is required for effective intervention. We argue that monitoring programs will be most effective as a tool for enhanced conservation management if they test specific hypotheses relating to changes in population trajectories. Greater emphasis should be placed on rigorous statistical analysis of monitoring datasets in order to capitalise on the resources devoted to monitoring activities. Many datasets are likely to exist for which careful analysis of results would have benefits for determining management directions. [Copyright &y& Elsevier]

Published
2012
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