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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Adding to nature : can artificial retreats be used to monitor and restore lizard populations?

Lettink, Marieke, n/a January 2008 (has links)
Artificial retreats are increasingly used to sample animal populations and in attempts to boost animal numbers in degraded habitats. Here, I test potential applications of artificial retreats for lizards inhabiting a coastal environment of high conservation value (Kaitorete Spit, New Zealand). I first conducted a pitfall-trapping survey examining the distribution and relative abundance of lizards in duneland, farmland and shrubland habitats, and tested the influence of trap placement on capture rates. Capture rates of the diurnal skinks Oligosoma maccanni (McCann�s skink) and O. nigriplantare polychroma (common skink) were highest in duneland and farmland, respectively, and were most sensitive to the distance separating traps from the nearest cover (the greater the distance, the lower the capture rate). Captures of O. lineoocellatum (spotted skink) and Hoplodactylus maculatus (common gecko) were rare. Secondly, in separate chapters I test the utility of artificial retreats for monitoring: 1) a preference trial examining relative use of three types of artificial retreats by skinks (O. maccanni and O. n. polychroma) and geckos (H. maculatus); 2) a comparison of the effectiveness of artificial retreats relative to pitfall traps for detecting cryptic and primarily nocturnal geckos (H. maculatus) following translocation; and 3) capture-recapture estimation of population parameters (survival and abundance) of H. maculatus. I found that: 1) geckos strongly preferred retreats made of Onduline over corrugated iron and concrete tiles, whereas skinks exhibited no apparent preferences; 2) artificial retreats were more effective than pitfall traps for detecting geckos following translocation; and 3) monthly survival and recapture probabilities of geckos varied with age-class and over time. Estimated survival was unexpectedly low, possibly due to excessive trap spacing. I developed a new capture-recapture model specifically for population size estimation with data from artificial retreats, which gave estimates that were up to 50% greater than those predicted by conventional capture-recapture models. I caution that permanent placement of artificial retreats in long-term studies may be inappropriate for estimation of population parameters due to potential habitat-enhancement effects and/or altered predation risk. Thirdly, I conducted a capture-recapture field experiment, using a replicated Before-After-Control-impact (BACI) design, to test the relative effects of habitat manipulation (artificial retreat addition) and partial predator removal (by fencing) on annual survival of duneland skink (O. maccanni) populations. Survival increased at sites with predator exclosures, but not at control sites or following the addition of artificial retreats, either alone or in combination with a predator exclosure. The magnitude of the increase in survival for the exclosure-only treatment was small, but sufficient to change the trajectory of an apparently stable population into an increasing one, suggesting that the population is limited by predators. Predator control, but not the addition of artificial retreats, is predicted to benefit O. maccanni. To conclude, the Onduline design developed here appears to be particularly useful for sampling cryptic, terrestrial geckos; however, artificial retreats must be used appropriately to avoid bias arising from habitat-enhancing effects and/or altered predation risk. The restoration value of artificial retreats requires further testing on other species and in areas where natural retreat sites are limited.
2

Adding to nature : can artificial retreats be used to monitor and restore lizard populations?

Lettink, Marieke, n/a January 2008 (has links)
Artificial retreats are increasingly used to sample animal populations and in attempts to boost animal numbers in degraded habitats. Here, I test potential applications of artificial retreats for lizards inhabiting a coastal environment of high conservation value (Kaitorete Spit, New Zealand). I first conducted a pitfall-trapping survey examining the distribution and relative abundance of lizards in duneland, farmland and shrubland habitats, and tested the influence of trap placement on capture rates. Capture rates of the diurnal skinks Oligosoma maccanni (McCann�s skink) and O. nigriplantare polychroma (common skink) were highest in duneland and farmland, respectively, and were most sensitive to the distance separating traps from the nearest cover (the greater the distance, the lower the capture rate). Captures of O. lineoocellatum (spotted skink) and Hoplodactylus maculatus (common gecko) were rare. Secondly, in separate chapters I test the utility of artificial retreats for monitoring: 1) a preference trial examining relative use of three types of artificial retreats by skinks (O. maccanni and O. n. polychroma) and geckos (H. maculatus); 2) a comparison of the effectiveness of artificial retreats relative to pitfall traps for detecting cryptic and primarily nocturnal geckos (H. maculatus) following translocation; and 3) capture-recapture estimation of population parameters (survival and abundance) of H. maculatus. I found that: 1) geckos strongly preferred retreats made of Onduline over corrugated iron and concrete tiles, whereas skinks exhibited no apparent preferences; 2) artificial retreats were more effective than pitfall traps for detecting geckos following translocation; and 3) monthly survival and recapture probabilities of geckos varied with age-class and over time. Estimated survival was unexpectedly low, possibly due to excessive trap spacing. I developed a new capture-recapture model specifically for population size estimation with data from artificial retreats, which gave estimates that were up to 50% greater than those predicted by conventional capture-recapture models. I caution that permanent placement of artificial retreats in long-term studies may be inappropriate for estimation of population parameters due to potential habitat-enhancement effects and/or altered predation risk. Thirdly, I conducted a capture-recapture field experiment, using a replicated Before-After-Control-impact (BACI) design, to test the relative effects of habitat manipulation (artificial retreat addition) and partial predator removal (by fencing) on annual survival of duneland skink (O. maccanni) populations. Survival increased at sites with predator exclosures, but not at control sites or following the addition of artificial retreats, either alone or in combination with a predator exclosure. The magnitude of the increase in survival for the exclosure-only treatment was small, but sufficient to change the trajectory of an apparently stable population into an increasing one, suggesting that the population is limited by predators. Predator control, but not the addition of artificial retreats, is predicted to benefit O. maccanni. To conclude, the Onduline design developed here appears to be particularly useful for sampling cryptic, terrestrial geckos; however, artificial retreats must be used appropriately to avoid bias arising from habitat-enhancing effects and/or altered predation risk. The restoration value of artificial retreats requires further testing on other species and in areas where natural retreat sites are limited.
3

An investigation into declining skink populations and their behavioural responses to introduced mammalian predators

Dumont, Christina Terra January 2015 (has links)
New Zealand provides an excellent example of the effect of exotic predators on native reptile populations. Prior to human arrival, reptiles evolved in the absence of mammalian predators but are now sympatric with 11 introduced mammalian predators. New Zealand’s reptile populations have declined over the past millennium because they have few defensive behaviours against this new predator guild. However, relatively few studies have investigated the effects of introduced mammalian predators on skinks. In this thesis, I studied the life history of several skink species and the long-term demographic changes in these species to evaluate population trends. I evaluated the effectiveness of mammalian predator control in the Rotoiti Nature Recovery Project (RNRP) for restoring skink populations and I investigated the potential sub-lethal effects of mammalian predators on skinks. Finally, I tested whether two skink species had developed behaviours to avoid the scent of introduced rats or hedgehogs. I estimated size at sexual maturity, birthing season and habitat preferences for speckled skinks (Oligosoma infrapunctatum) in the Nelson Lakes area. My research shows that skink populations are declining both inside and outside of the RNRP. The largest declines are seen in the rarer species and even within the predator-controlled area of the RNRP the speckled skink is nearing extirpation. In addition, the proportion of female northern grass skinks (O. polychroma) and larger individuals of both sexes has decreased since 1970; suggesting females and larger individuals are more vulnerable to predation. An investigation of three fitness surrogates (body condition, parasite load and prevalence of caudal autotomy) showed that for both northern grass and glossy brown skinks (O. zelandicum), body condition was significantly lower in populations with mammalian predators than without. This has serious conservation implications because it shows that lizard populations may not only be in decline from direct predation, but also additional stresses associated with predation that may lead to reduced reproductive output. Neither parasite load, nor the prevalence of caudal autotomy, appears to be good indicators of fitness for northern grass or glossy brown skinks. I found no evidence of substantial avoidance behaviours in glossy brown and northern grass skinks to either rat or hedgehog odour. Two hypotheses are suggested to explain this. Firstly, there may not have been enough time for these species to evolve avoidance behaviours, and secondly, there may be insufficient selection pressure due to the high efficiency of the alien predators, or because rats and hedgehogs are active foragers and thus scent gives the prey limited information on immediate predation pressure. This lack of evidence for the evolution of antipredator behaviour, in addition to reduced body condition and population decline in areas with mammalian predators present, highlights the importance of intensive mammalian predator control for the continued survival of skink species on mainland New Zealand.

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