50 Book of Physiology

↵ Axnér E, Gustavsson T, Ström Holst B (2008) Estradiol measurement after GnRH-stimulation as a method to diagnose the presence of ovaries in the female domestic cat. Theriogenology 70: 186–191. CrossRefMedlineWeb of ScienceGoogle Scholar
↵ Bailey TN, Bangs EE, Portner MF, Malley JC, McAvinchey RJ (1986) An apparent overexploited lynx population on the Kenai Peninsula Alaska. J Wildlife Manage 50: 279–290. CrossRefWeb of ScienceGoogle Scholar
↵ Boyce MS, Vernier PR, Nielsen SE, Schmiegelow FKA (2002) Evaluating resource selection functions. Ecol Model 157: 281–300. CrossRefWeb of ScienceGoogle Scholar
↵ Brand CJ, Keith LB, Fischer CA (1976) Lynx responses to changing snowshoe hare densities in central Alberta. J Wildlife Manage 40: 416–428. CrossRefWeb of ScienceGoogle Scholar
↵ Brearley G, McAlpine C, Bell S, Bradley A (2012) Influence of urban edges on stress in an arboreal mammal: a case study of squirrel gliders in southeast Queensland, Australia. Landscape Ecol 27: 1407–1419. CrossRefWeb of ScienceGoogle Scholar
↵ Brown JL (2006) Comparative endocrinology of domestic and nondomestic felids. Theriogenology 66: 25–36. CrossRefMedlineWeb of ScienceGoogle Scholar
↵ Brown JL (2011) Female reproductive cycles of wild female felids. Anim Reprod Sci 124: 155–162. CrossRefMedlineGoogle Scholar
↵ Brown JL, Wildt DE (1997) Assessing reproductive status in wild felids by noninvasive faecal steroid monitoring. Int Zoo Yearbook 35: 173–191. CrossRefGoogle Scholar
↵ Brown JL, Terio KA, Graham LH (1996) Fecal androgen metabolite analysis for noninvasive monitoring of testicular steroidogenic activity in felids. Zoo Biol 15: 425–434. CrossRefWeb of ScienceGoogle Scholar
↵ Brown JL, Goodrowe KL, Simmons LG, Armstrong DL, Wildt DE (1998) Evaluation of pituitary–gonadal response to GnRH, and adrenal status, in the leopard (Panthera pardus japonensis) and the tiger (Panthera tigris). J Reprod Fertil 82: 227–236. Google Scholar
↵ Bryan HM, Darimont CT, Paquet PC, Wynne-Edwards KE, Smits JEG (2013) Stress and reproductive hormones in grizzly bears reflect nutritional benefits and social consequences of a salmon foraging niche. PLoS ONE 8: e80537. CrossRefMedlineGoogle Scholar
↵ Buchanan KL, Goldsmith AR (2004) Noninvasive endocrine data for behavioural studies: the importance of validation. Anim Behav 67: 183–185. CrossRefWeb of ScienceGoogle Scholar
↵ Conforti VA, Bateman HL, Schnook MW, Newsom J, Lyons LA, Grahn RA, Deddens JA, Swanson WF (2013) Laparoscopic oviductal artificial insemination improves pregnancy success in exogenous gondatropin-treated domestic cats as a model for endangered felids. Biol Reprod 89: 1–9. FREE Full Text
↵ Dehnhard M, Fanson K, Frank A, Naidenko SV, Vargas A, Jewgenow K (2010) Comparative metabolism of gestagens and estrogens in the four lynx species, the Eurasian (Lynx lynx), the Iberian (L. pardinus), the Canada lynx (L. canadensis) and the bobcat (L. rufus). Gen Comp Endocrinol 167: 287–296. CrossRefMedlineGoogle Scholar
Environment Canada (2014) Climate, Monthly Climate Summaries. http://climate.weather.gc.ca/prods_servs/cdn_climate_summary_e.html (15 March 2014, date last accessed).
↵ Fanson KV, Wielebnowski NC, Shenk TM, Jakubas WJ, Squires JR, Lucas JR (2010a) Patterns of testicular activity in captive and wild Canada lynx (Lynx canadensis). Gen Comp Endocrinol 169: 210–216. CrossRefMedlineGoogle Scholar
↵ Fanson KV, Wielebnowski NC, Shenk TM, Vashon JH, Squires JR, Lucas JR (2010b) Patterns of ovarian and luteal activity in captive and wild Canada lynx (Lynx canadensis). Gen Comp Endocrinol 169: 217–224. CrossRefMedlineGoogle Scholar
↵ Fanson KV, Wielebnowski NC, Shenk TM, Lucas JR (2011) Comparative patterns of adrenal activity in captive and wild Canada lynx (Lynx canadensis). J Comp Physiol B 181: 1–9. CrossRefMedlineWeb of ScienceGoogle Scholar
↵ Genaro G, Moraes W, Silva JC, Adania CH, Franci CR (2007) Plasma hormones in neotropical and domestic cats undergoing routine manipulations. Can J Vet Res 75: 216–221. Google Scholar
↵ Gleixner A, Meyer HHD (1997) Detection of estradiol and testosterone in hair of cattle by HPLC/EIA. Fresenius J Anal Chem 357: 1198–1201. CrossRefWeb of ScienceGoogle Scholar
↵ Gow T, Rieder S, Van Uum SM, Koren G (2010) An assessment of cortisol analysis of hair and its clinical applications. Forensic Sci Int 196: 32–37. CrossRefMedlineWeb of ScienceGoogle Scholar
↵ Graham LH, Goodrowe KL, Raeside JI, Liptrap RM (1995) Non-invasive monitoring of ovarian function in several felid species be measurement of fecal estradiol-17β and progestins. Zoo Biol 14: 223–237. CrossRefWeb of ScienceGoogle Scholar
↵ Greiner M, Pfeiffer D, Smith RD (2000) Principles and practical application of the receiver-operating characteristics analysis for diagnostic tests. Prev Vet Med 45: 23–41. CrossRefMedlineWeb of ScienceGoogle Scholar
↵ Hoenig JM, Heisey DM (2001) The abuse of power: the pervasive fallacy of power calculations for data analysis. Am Stat 55: 19–24. CrossRefWeb of ScienceGoogle Scholar
↵ Johnston SD, Root MV, Olson PNS (1996) Ovarian and testicular function in the domestic cat: clinical management of spontaneous reproductive disease. Anim Reprod Sci 42: 261–274. CrossRefGoogle Scholar
↵ Koren L, Mokady O, Geffen E (2006) Elevated testosterone levels and social ranks in female rock hyrax. Horm Behav 49: 470–477. CrossRefMedlineWeb of ScienceGoogle Scholar
↵ Krebs CJ, Kielland K, Bryant J, O'Donoghue M, Doyle F, McIntyre C, DiFolco D, Berg N, Carriere S, Boonstra R, et al. (2013) Synchrony in the snowshoe hare (Lepus americanus) cycle in northwestern North America, 1970–2012. Can J Zool 91: 562–572. CrossRefWeb of ScienceGoogle Scholar
↵ Kummrow MS, Gilman C, Mackie P, Smith DA, Mastromonaco G (2011) Noninvasive analysis of fecal reproductive hormone metabolits in female veiled chameleons (Chamaeleo calyptratus) by enzyme immunoassay. Zoo Biol 30: 95–115. MedlineWeb of ScienceGoogle Scholar
↵ MacBeth BJ, Cattet MRL, Stenhouse GB, Gibeau ML, Janz DM (2010) Hair cortisol concentrations as a noninvasive measure of long-term stress in free-ranging grizzly bears (Ursus arctos): considerations with implications for other wildlife. Can J Zool 88: 935–949. CrossRefWeb of ScienceGoogle Scholar
↵ Nowell K, Jackson P (1996) Wild Cats: Status Survey and Conservation Action Plan. IUCN Cat Specialist Group. IUCN, Gland, Switzerland. Google Scholar
↵ Ortega J, Franco M, Adams BA, Ralls K, Maldonado JE (2004) A reliable, non-invasive method for sex determination in the endangered San Joaquin kit fox (Vulpes macrotis mutica) and other canids. Conserv Genet 5: 715–718. CrossRefGoogle Scholar
↵ Palme R (2005) Measuring fecal steroids: guidelines for practical application. Ann NY Acad Sci 1046: 75–80. CrossRefMedlineWeb of ScienceGoogle Scholar
↵ Poole KG (2003) A review of the Canada lynx, Lynx canadensis, in Canada. Can Field Nat 117: 360–376. Web of ScienceGoogle Scholar
↵ Quinn NWS, Gardner JF (1984) Relationship of age and sex to lynx pelt characteristics. J Wildlife Manage 48: 953–956. CrossRefWeb of ScienceGoogle Scholar
↵ Quinn NWS, Gardner JF (1987) Lynx. In M Novak, J Baker, ME Obbard, B Mallock, eds, Wild Furbearer Management and Conservation in North America. Ontario Ministry of Natural Resources, Peterborough, ON, Canada, ppp 682–694. Google Scholar
R Core Team and contributors worldwide (2013) Package ‘stats’: anova.power.test. Version 3.0.2. R Foundation for Statistical Computing, Vienna, Austria.
↵ Robin X, Turck N, Hainard A, Lisacek Tiberti N, Sanchez JC, Muller M (2012) Package ‘pROC’: Display and analyze ROC curves. Version 1.5.4. BMC Bioinformatics 12: 77. Google Scholar
↵ Rolland RM, Hunt KE, Kraus SD, Wasser SK (2005) Assessing reproductive states of right whales (Eubalaena glacialis) using fecal hormone metabolites. Gen Comp Endocrinol 142: 308–317. CrossRefMedlineGoogle Scholar
↵ Row JR, Gomez C, Koen EL, Bowman J, Murray DL, Wilson PJ (2012) Dispersal promotes high gene flow among Canada lynx populations across mainland North America. Conserv Genet 13: 1259–1268. CrossRefGoogle Scholar
↵ Russel E, Koren G, Rieder M, Van Uum S (2011) Hair cortisol as a biological marker of chronic stress: current states, future directions and unanswered questions. Psychoneuroendocrinology 37: 589–601. MedlineWeb of ScienceGoogle Scholar
↵ Sheriff MJ, Dantzer B, Delehanty B, Palme R, Boonstra R (2011) Measuring stress in wildlife: techniques for quantifying glucocorticoids. Oecologia 166: 869–887. CrossRefMedlineWeb of ScienceGoogle Scholar
↵ Slough BG (1996) Estimating population age ratio with pelt-length data. Wildlife Soc Bull 24: 495–499. Web of ScienceGoogle Scholar
↵ Stalder T, Kirschbaum C (2012) Analysis of cortisol in hair – state of the art and future directions. Brain Behav Immun 26: 1019–1029. CrossRefMedlineGoogle Scholar
↵ Stewart RA, Pelican KM, Brown JL, Wildt DE, Ottinger MA, Howard JG (2010) Oral progestin induces rapid, reversible suppression of ovarian activity in the cat. Gen Comp Endocrinol 166: 409–416. CrossRefMedlineGoogle Scholar
↵ Swanson WF, Roth TL, Brown JL, Wildt DE (1995) Relationship of circulating steroid hormones, luteal luteinizing hormone receptor and progesterone concentration, and embryonic mortality during early embryogenesis in the domestic cat. Biol Reprod 53: 1022–1029. Abstract
Swets JA (2000) Measuring the accuracy of diagnostic systems. Science 240: 1285–1293. Google Scholar
↵ Terwissen CV, Mastromonaco GF, Murray DL (2013) Influence of adrenocorticotrophin hormone challenge and external factors (age, sex, and body region) on hair cortisol concentration in Canada lynx (Lynx canadensis). Gen Comp Endocrinol 194: 162–167. CrossRefMedlineGoogle Scholar
↵ Verhage HG, Beamer NB, Brenner RM (1976) Plasma levels of estradiol and progesterone in the cat during polyestrus, pregnancy and pseudopregnancy. Biol Reprod 14: 579–585. Abstract
↵ Wasser SK, Hunt KE (2005) Noninvasive measures of reproductive function and disturbance in the barred owl, great horned owl, and northern spotted owl. Ann NY Acad Sci 1046: 109–137. CrossRefMedlineWeb of ScienceGoogle Scholar
↵ Woods JG, Paetkau D, Lewis D, McLellan BN, Proctor M, Strobeck C (1999) Genetic tagging of free-ranging black and brown bears. Wildlife Soc Bull 27: 616–627. Web of ScienceGoogle Scholar
↵ Yang ZH, Lan J, Meng YJ, Wan XJ, Han DW (1998) A preliminary study of steroid reproductive hormones in human hair. J Steroid Biochem Mol Biol 67: 447–450. CrossRefMedlineGoogle Scholar
↵ Zigouris J, Dawson FN, Bowman J, Gillett RM, Schaefer JA, Kyle CJ (2012) Genetic isolation of wolverine (Gulo gulo) populations at the eastern periphery of their North American distribution. Conserv Genet 13: 1543–1559.

0 Comments:

Post a Comment