Habitat loss and degradation, and their interaction with other threats, are driving declines in animal populations worldwide. One potential approach for mitigating these threats is to create artificial habitat structures as substitutes for lost or degraded natural structures. Here, we provide – to the best of our knowledge – the first general definition of artificial habitat structures and synthesize important considerations for their effective use. We show that such structures represent a versatile conservation tool that has been trialed in a variety of contexts globally, albeit with varying degrees of success. The design of these structures must be well informed by the drivers of natural habitat selection, and their use should be part of an experimental framework to enable evaluation and refinement. We highlight possible ecological risks associated with the use of artificial habitat structures and urge that they not be exploited as inappropriate biodiversity offsets or for greenwashing. Looking forward, cross‐disciplinary collaborations will facilitate the development of sophisticated and effective structures to assist animal conservation in this era of rapid global change.
In many countries, more resources are required for the conservation of threatened species than are made available. Australia, the home to many unique mammalian species, has been identified as one of the top seven countries worldwide with the highest biodiversity loss and lowest amount of funding dedicated to conservation. Conservation action is generally determined by what we perceive to be the most significant conservation problems; therefore, identifying potential biases in research effort is crucial for prioritising research actions for effective conservation outcomes. We reviewed the published literature on the koala Phascolarctos cinereus, a vulnerable arboreal marsupial. Our aim was to assess and quantify research efforts (number of publications) and research coverage (diversity of subject areas) of koala‐related research. We then focused on the research effort of threats to identify primary threats and fields requiring further research. Using a combination of key words, journal name, study title, and methods, we reviewed and categorised 714 publications to identify the focus of research efforts. We investigated subject area, geographic and temporal publication patterns, and the extent to which primary threats have been addressed. We found a trend of increasing number of publications with a diversification of threat‐based studies, and identified both geographic and subject bias in research effort. Geographic bias in the volume of research indicates that the level of koala research between regions may be a response to the species’ distribution, status and impact of threats. Research areas ‘anatomy and physiology’ and ‘threats’ received comparatively more research attention than other areas. We found a research bias between threats, with ‘disease’ representing a high percentage of all threat‐based publications. Areas that have been identified but are receiving little research attention include habitat selection and use, along with the effects of habitat loss, fragmentation, and degradation.
Lowland Leadbeater’s possums are on a trajectory to extinction, with fewer than 40 individuals surviving in the wild. Quantification of the vegetation characteristics of their occupied habitat is urgently needed to inform strategies to conserve this genetically distinct population. We surveyed the canopy and midstorey vegetation at all remaining (nine) occupied territories and eleven abandoned territories in lowland swamp forest at the Yellingbo Nature Conservation Reserve. For each territory we quantified canopy and midstorey stem density, basal area (total and live) and vegetation condition (percentage live basal area, tree crown vigour and plant area index) within a 50-m radius of known den locations. The canopy at all locations was dominated by mountain swamp gum (Eucalyptus camphora), with most occupied sites supporting dense midstorey dominated by paperbarks, either Melaleuca squarrosa or Melaleuca ericifolia. Occupied territories had higher stem densities and better vegetation condition than abandoned territories. Stem density alone was able to predict occupancy vis-à-vis abandoned sites with a high (80%) degree of accuracy. Lowland Leadbeater’s possums occupy swamp forests characterised by high stem density, particularly in the midstorey, structural complexity and healthy vegetation. These findings can help guide habitat restoration and translocation projects currently underway to expand the area of lowland habitat for this critically endangered species.
Effective environmental legislation that mitigates threats and strengthens protection are critical in arresting the decline of global biodiversity. We used the national listing of an Australian marsupial, the greater glider (Petauroides spp.), vulnerable to extinction under the Environment Protection and Biodiversity Conservation Act 1999 (EPBC), as a case study to evaluate the effectiveness of legislation for protecting threatened species habitat. We quantified the extent of greater glider habitat destroyed (or extensively modified) due to deforestation and logging in Queensland and New South Wales (NSW), and logging in Victoria, 2 years before (2014–2016) and after (2016–2018) EPBC listing. We quantified the extent of greater glider habitat that burned in the 2019–2020 wildfires. Destruction of habitat increased in NSW and Queensland after the species was listed as vulnerable (NSW: 7602 ha/annum c.f. 7945 ha/annum; Qld: 1501 ha/annum c.f. 5919 ha/annum). In Victoria, the amount of habitat logged remained relatively consistent pre- and post-listing (4916.5 ha logged pre-listing c.f. 4758.5 ha logged post-listing). Australia-wide, we estimate that 29% of greater glider habitat burned in the 2019–2020 wildfires. Fire severity was severe or extreme in 37% of greater glider habitat that burnt, suggesting that few gliders would persist in these areas. We demonstrate that since EPBC listing, greater glider habitat destruction and population decline has continued as a result of human activities, both directly (i.e. deforestation and logging) and indirectly (i.e. severe wildfire facilitated by human-induced climate change). We recommend that state and federal protections should be strengthened urgently to better conserve threatened species and the environment.
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