LAUSR

Globally, turtles are among the most threatened vertebrate taxa, with over 60% of all species being listed as endangered, threatened, or vulnerable (Turtle Conservation Coalition 2011). Australian freshwater turtles are not immune from this trend, and 44% (11 of 25 taxa) are currently listed as vulnerable or worse at state or federal levels, and/or by the IUCN (Table 1). Recent studies are increasingly reporting declines in Australian turtle species, either as long-term trends (Chessman 2011) driven by a variety of factors including invasive species (Spencer et al. 2016), drought (Bower et al. 2012), and/or habitatmodification (Ferronato et al. 2016;Ocock et al. 2018), or as rapid crashes caused by disease events that remain poorly understood (Spencer et al. 2018). Accordingly, we convened a conference on freshwater turtle conservation in Canberra, ACT, in February 2017 to discuss the threats to Australian turtle populations. We also aimed to establish a dialogue among turtle biologists, indigenous stakeholders, reservemanagers, zoo curators, and interested members of the public, which would facilitate the development and implementation of conservation strategies nationwide. This special issue of Australian Journal of Zoology is the product of that meeting. Turtles typically experience their highest rates of mortality at early life stages due to the vulnerability of both their eggs and nests. Perhaps as a result, much of the research we highlight focussedon thebiologyandconservationof turtle nesting. Petrov et al. (2018b) explored the nesting ecology of the broad-shelled snake-necked turtle (Chelodina expansa), which is listed as endangered in Victoria and vulnerable in South Australia (Table 1). Chelodina expansa exhibited predictable nesting habitat preferences, which could be used to target conservation efforts to protect nests from predators, including foxes (Vulpes vulpes). Similarly, Espinoza et al. (2018) evaluated the ecohydrological rules associated with nesting behaviour in the Mary River turtle (Elusor macrurus), which is listed as endangered in bothQueensland and at the federal level (Table 1). They used these rules to set boundaries for environmental flow management in Queensland to ensure the availability of nesting habitat during the nesting season, and that high flows do not flood E. macrurus nests once eggs have been laid. Rusli and Booth (2018) examined the impact of sand type on the cost of digging that hatchling Brisbane River turtles (Emydura macquarii signata) experienced during nest emergence. Nests constructed in fine sand were less costly to dig through, which may have consequences for hatchling bioenergetics and fitness if the soils of nesting habitat are altered. Along similar lines, Chessman (2018a) found that hatchling eastern long-necked turtles (Chelodina longicollis) experience high rates of imprisonment in nests constructed in hard soils. Delayed emergence by C. longicollis hatchlings may not be adaptive, but may instead be a consequence of nest construction in hard soils that hatchlings struggle to excavate (Chessman 2018a). Together, these studies provide important baseline information for protecting shoreline habitats ideal for turtle nesting. Despite being aquatic, freshwater turtle populations are also vulnerable to road mortality. Santori et al. (2018) used citizenscience data to show thatC. longicollis experiences high rates of road mortality during the nesting season, when females seek nesting sites on land. Near the Murray River, C. longicollis mortality rates are particularly high on divided highways and near populated areas, and are associated with rainfall. BaxterGilbert et al. (2018) turn the potential threat of roads into a useful method for detecting cryptic turtle species, using Canadian turtles as a model system. They report that road surveys are important sampling methods for species and/or locations where other sampling methods may not be feasible. Walking and cycling surveys were especially effective, but driving surveys allowed sampling of larger areas more rapidly. Combining citizen road surveys and geolocation-based apps like TurtleSat (www.turtlesat.org.au) leads to powerful methods for gaining baseline data on cryptic turtle populations throughout Australia. Freshwater turtles are vulnerable to disruptions of freshwater habitat, and the studies presented here illustrate two aspects of habitat modification impacts. Clark et al. (2018) describe how construction of the Wyaralong Dam in south-east Queensland may have impacted the low relative abundances of both Murray River turtles (Emydura macquarii) and common saw-shelled turtles (Myuchelys latisternum). Catch-per-unit-effort of both species is variable across the new reservoir, and varies between dry and wet seasons, so long-term monitoring will be necessary to fully understand the impact the dam has on them. Petrov et al. (2018a) examined how turtle diets varied across wetlands that differ in plant and invertebrate composition in north-central