141 results on '"Nafus, Melia G."'
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2. Habitat use by female desert tortoises suggests tradeoffs between resource use and risk avoidance
3. Automated Aerial Baiting for Invasive Brown Treesnake Control: System Overview and Program Status
4. Brown Treesnake Mortality After Aerial Application of Toxic Baits
5. Invasive brown treesnakes (Boiga irregularis) move short distances and have small activity areas in a high prey environment
6. Individual heterogeneity influences the effects of translocation on urban dispersal of an invasive reptile
7. Adaptive resource management: Achieving functional eradication of invasive snakes to benefit avian conservation
8. Estimating Detection Probability for Burmese Pythons with Few Detections and Zero Recaptures
9. Evidence for an Established Population of Tegu Lizards ( Salvator merianae ) in Southeastern Georgia, USA
10. Gape‐limited invasive predator frequently kills avian prey that are too large to swallow.
11. Limitations of invasive snake control tools in the context of a new invasion on an island with abundant prey
12. Habitat selection by juvenile Mojave Desert tortoises
13. Delimiting road-effect zones for threatened species: implications for mitigation fencing
14. Hiding in plain sight: a study on camouflage and habitat selection in a slow-moving desert herbivore
15. Cues from a common predator cause survival-linked behavioral adjustments in Mojave Desert tortoises (Gopherus agassizii)
16. Habitat drives dispersal and survival of translocated juvenile desert tortoises
17. Limitations of invasive snake control tools in the context of a new invasion on an island with abundant prey.
18. Pilot study for invasive brown treesnake baiting in residential areas.
19. Supplementary material 6 from: Currylow AF, Falk BG, Yackel Adams AA, Romagosa CM, Josimovich JM, Rochford MR, Cherkiss MS, Nafus MG, Hart KM, Mazzotti FJ, Snow RW, Reed RN (2022) Size distribution and reproductive phenology of the invasive Burmese python (Python molurus bivittatus) in the Greater Everglades Ecosystem, Florida, USA. NeoBiota 78: 129-158. https://doi.org/10.3897/neobiota.78.93788
20. Supplementary material 4 from: Currylow AF, Falk BG, Yackel Adams AA, Romagosa CM, Josimovich JM, Rochford MR, Cherkiss MS, Nafus MG, Hart KM, Mazzotti FJ, Snow RW, Reed RN (2022) Size distribution and reproductive phenology of the invasive Burmese python (Python molurus bivittatus) in the Greater Everglades Ecosystem, Florida, USA. NeoBiota 78: 129-158. https://doi.org/10.3897/neobiota.78.93788
21. Supplementary material 2 from: Currylow AF, Falk BG, Yackel Adams AA, Romagosa CM, Josimovich JM, Rochford MR, Cherkiss MS, Nafus MG, Hart KM, Mazzotti FJ, Snow RW, Reed RN (2022) Size distribution and reproductive phenology of the invasive Burmese python (Python molurus bivittatus) in the Greater Everglades Ecosystem, Florida, USA. NeoBiota 78: 129-158. https://doi.org/10.3897/neobiota.78.93788
22. Supplementary material 3 from: Currylow AF, Falk BG, Yackel Adams AA, Romagosa CM, Josimovich JM, Rochford MR, Cherkiss MS, Nafus MG, Hart KM, Mazzotti FJ, Snow RW, Reed RN (2022) Size distribution and reproductive phenology of the invasive Burmese python (Python molurus bivittatus) in the Greater Everglades Ecosystem, Florida, USA. NeoBiota 78: 129-158. https://doi.org/10.3897/neobiota.78.93788
23. Supplementary material 1 from: Currylow AF, Falk BG, Yackel Adams AA, Romagosa CM, Josimovich JM, Rochford MR, Cherkiss MS, Nafus MG, Hart KM, Mazzotti FJ, Snow RW, Reed RN (2022) Size distribution and reproductive phenology of the invasive Burmese python (Python molurus bivittatus) in the Greater Everglades Ecosystem, Florida, USA. NeoBiota 78: 129-158. https://doi.org/10.3897/neobiota.78.93788
24. Supplementary material 5 from: Currylow AF, Falk BG, Yackel Adams AA, Romagosa CM, Josimovich JM, Rochford MR, Cherkiss MS, Nafus MG, Hart KM, Mazzotti FJ, Snow RW, Reed RN (2022) Size distribution and reproductive phenology of the invasive Burmese python (Python molurus bivittatus) in the Greater Everglades Ecosystem, Florida, USA. NeoBiota 78: 129-158. https://doi.org/10.3897/neobiota.78.93788
25. Size distribution and reproductive phenology of the invasive Burmese python (Python molurus bivittatus) in the Greater Everglades Ecosystem, Florida, USA
26. Indeterminate Growth in Desert Tortoises
27. Cancer Stem Cells in Solid Tumors
28. Prostate Stem Cells and Cancer in Animals
29. Chew-cards can accurately index invasive rat densities in Mariana Island forests
30. Supplementary material 2 from: Hanslowe EB, Yackel Adams AA, Nafus MG, Page DA, Bradke DR, Erickson FT, Bailey LL (2022) Chew-cards can accurately index invasive rat densities in Mariana Island forests. NeoBiota 74: 29-56. https://doi.org/10.3897/neobiota.74.80242
31. Supplementary material 1 from: Hanslowe EB, Yackel Adams AA, Nafus MG, Page DA, Bradke DR, Erickson FT, Bailey LL (2022) Chew-cards can accurately index invasive rat densities in Mariana Island forests. NeoBiota 74: 29-56. https://doi.org/10.3897/neobiota.74.80242
32. Additional file 4 of Individual heterogeneity influences the effects of translocation on urban dispersal of an invasive reptile
33. Additional file 1 of Individual heterogeneity influences the effects of translocation on urban dispersal of an invasive reptile
34. Additional file 2 of Individual heterogeneity influences the effects of translocation on urban dispersal of an invasive reptile
35. Demographic response of brown treesnakes to extended population suppression
36. Female persistence during toxicant treatment predicts survival probability of offspring in invasive brown treesnakes (Boiga irregularis)
37. Foraging behavior in a generalist snake (brown treesnake, Boiga irregularis) with implications for avian reintroduction and recovery
38. Size distribution and reproductive phenology of the invasive Burmese python (Python molurus bivittatus) in the Greater Everglades Ecosystem, Florida, USA.
39. Using Enclosed Y-Mazes to Assess Chemosensory Behavior in Reptiles
40. Chew-cards can accurately index invasive rat densities in Mariana Island forests.
41. Cancer Stem Cells in Solid Tumors
42. Landscape dominance of introduced herpetofauna on an oceanic island
43. Behavior, size, and body condition predict susceptibility to management and reflect post-treatment frequency shifts in an invasive snake
44. Use of visual surveys and radiotelemetry reveals sources of detection bias for a cryptic snake at low densities
45. Demographic response of brown treesnakes to extended population suppression.
46. Can we prove that an undetected species is absent? Evaluating whether brown treesnakes are established on the island of Saipan using surveillance and expert opinion.
47. Surface material and snout-vent length predict vertical scaling ability in brown treesnakes: an evaluation of multispecies barriers for invasive species control on Guam.
48. Evaluating lethal toxicant doses for the largest individuals of an invasive vertebrate predator with indeterminate growth.
49. Contact rates with nesting birds before and after invasive snake removal: estimating the effects of trap-based control
50. Supplementary material 1 from: Yackel Adams AA, Nafus MG, Klug PE, Lardner B, Mazurek MJ, Savidge JA, Reed RN (2019) Contact rates with nesting birds before and after invasive snake removal: estimating the effects of trap-based control. NeoBiota 49: 1-17. https://doi.org/10.3897/neobiota.49.35592
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