Our ecological studies on large varanid lizards in a remote region of tropical Australia reveal a direct benefit to collaboration with local indigenous people. Although they worked together, in pairs, western scientists and indigenous rangers found lizards with different behavioral phenotypes (“personalities”). The resultant broader sampling of the lizard population enabled us to detect positive effects of a conservation management intervention. Those effects would not have been evident from the subset of animals collected by western scientists, and hence, involvement by researchers from both cultures critically affected our conclusions and paved the way for large‐scale deployment of a novel conservation initiative in Northern Australia.
Protection of passive regrowth, or secondary vegetation, offers the potential to cost-effectively alleviate biodiversity declines caused by deforestation. This potential often goes unrealised because the habitat value of regrowth is generally considered marginal. However, the habitat value of regrowth varies among taxa. Disturbed subtropical woodland landscapes provide large-scale passive restoration opportunities. Subtropical woodlands are also rich in reptile diversity. We addressed the question: 'What is the habitat value of subtropical regrowth woodlands for reptile communities?' We identified five commonly-observed models of regrowth habitat value and then surveyed reptile communities in 43 cleared, regrowth and remnant Acaciaand Eucalyptus-dominated woodland sites in subtropical Queensland, Australia. Reptile species richness, diversity, dominance and community composition followed the "regrowth = remnant" model of high regrowth value, where the habitat values of regrowth and remnant woodlands were similar, and higher than that of cleared land. Unexpectedly, the proportion of juveniles was highest in cleared sites and lower in both regrowth and remnant sites. Our findings challenge the view that the habitat value of regrowth is limited. Consistency in findings between contrasting woodland types suggest that our results may apply in other similarly disturbed woodlands. We conclude that although remnant woodlands are irreplaceable, regrowth woodlands provide valuable habitat for reptile communities and the protection of such regrowth should be a high priority in disturbed subtropical woodland systems.
Context: Fauna distributions are assessed using discrete (binary and mosaic) or continuous conceptualisations of the landscape. The value of the information derived from these analyses depends on the relevance of the landscape representation (or model) used to the landscape and fauna of interest. Discrete representations dominate analyses of landscape context in disturbed and regenerating landscapes; however within-patch variation suggests that continuous representations may help explain the distribution of fauna in such landscapes. Objectives: We tested the relevance of binary, mosaic, and continuous conceptualisations of landscape context to reptiles in regenerating dryland landscapes. Methods: For each of thirteen reptile groups, we compared the fit of models consisting of one landscape composition and one landscape heterogeneity variable for each of six landscape representations (2 x binary, 2 x mosaic, and 2 x continuous), at three buffer distances. We used Akaike weights to assess the relative support for each model. Maps were created from Landsat satellite images. Results: Reptiles varied in their response to landscape context; however, the binary landscape representation with classes 'intact/disturbed' was best supported overall. Species richness was best described by a binary landscape representation with classes 'wooded/clear', whereas reptile abundance was best described by a mosaic landscape representation with classes defined by vegetation type. Five out of ten reptile species responded strongly to a single landscape representation, with the most relevant representation and conceptualisation varying among species. Conclusions: Our findings support the use of multiple landscape conceptualisations and representations during analyses of landscape context for fauna in regenerating landscapes.
The presumption that organisms benefit from thermal acclimation has been widely debated in the literature. The ability to thermally acclimate to offset temperature effects on physiological function is prevalent in ectotherms that are unable to thermoregulate year-round to maintain performance. In this study we examined the physiological and behavioural consequences of long-term exposure to different water temperatures in the aquatic snake Acrochordus arafurae. We hypothesised that long dives would benefit this species by reducing the likelihood of avian predation. To achieve longer dives at high temperatures, we predicted that thermal acclimation of A. arafurae would reduce metabolic rate and increase use of aquatic respiration. Acrochordus arafurae were held at 24 or 32°C for 3 months before dive duration and physiological factors were assessed (at both 24 and 32°C). Although filesnakes demonstrated thermal acclimation of metabolic rate, use of aquatic respiration was thermally independent and did not acclimate. Mean dive duration did not differ between the acclimation groups at either temperature; however, warm-acclimated animals increased maximum and modal dive duration, demonstrating a longer dive duration capacity. Our study established that A. arafurae is capable of thermal acclimation and this confers a benefit to the diving abilities of this snake.
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