Estimating Cape hare occupancy and abundance in southern Tunisia using spotlighting data

References

• Akaike H. 1973. Information theory and an extension of the maximum likelihood principle. In: Petrov BN, Csáki F (eds), Second International Symposium on Information Theory, Tsahkadsor, Armenia, USSR, 2–8 September 1971. Budapest: Akademiai Kiado. pp 267–281.
   Google Scholar
• Barea-Azcón JM, Virgós E, Ballesteros-Duperón E, Moleón M, Chirosa M. 2007. Surveying carnivores at large spatial scales: a comparison of four broad-applied methods. Biodiversity and Conservation 16: 1213–1230. doi: 10.1007/s10531-006-9114-x
   Web of Science ®Google Scholar
• Baumont R, Dulphy JP, Sauvant D, Meschy F, Aufrere J, Peyraud JL. 2007. Valeur alimentaire des fourrages et des matières premières: tables et prévision. In: Alimentation des bovins, ovins et caprins: besoins des animaux, valeurs des aliments: Tables INRA. [Versailles]: Éditions Quae. pp 149–179 [in French].
   Google Scholar
• Boitani L, Corsi F, de Biase A, d’Inzillo Caranza I, Ravagli M, Reggiani G, Sinibaldi I, Trapanese P. 1999. A databank for the conservation and management of the African mammals. Rome: Istituto di ecologia applicata.
   Google Scholar
• Burnham KP, Anderson DR. 2002. Model selection and multimodel inference: a practical information-theoretic approach. New York: Springer-Verlag.
   Google Scholar
• Burt DM. 2014. Factors influencing snowshoe hare (Lepus americanus) in Michigan. MSc thesis, Michigan State University, USA.
   Google Scholar
• Chaieb M, Zaafouri MS. 2000. L’élevage extensif, facteur écologique primordial de la transformation physionomique du cortège floristique en milieu steppique tunisien. Options Méditerranéennes 39(A): 217–222.
   Google Scholar
• Chammem M. 2011. Biodiversité animale, répartition et dynamique spatiales des taxons rares à valeur cynégétique: cas de la Gazelle dorcas ‘Gazella dorcas’ et de l’Outarde houbara ‘Chlamydotis undulata’ dans les zones arides tunisiennes. PhD thesis, University of Tunis, Elmanar, Tunisia [in French].
   Google Scholar
• Chammem M, Selmi S, Nouira S, Khorchani T. 2008. Factors affecting the distribution of dorcas gazelle. Journal of Zoology 275: 146–152. doi: 10.1111/j.1469-7998.2008.00421.x
   Web of Science ®Google Scholar
• Chapin FS III, Zavaleta ES, Eviner VT, Naylor RL, Vitousek PM, Reynolds HL, Hooper DU, Lavorel S, Sala OE, Hobbie SE, Mack MC, Díaz S. 2000. Consequences of changing biodiversity. Nature 405: 234–242. doi: 10.1038/35012241
   PubMed Web of Science ®Google Scholar
• Daget P, Poissonnet J. 1971. Une méthode d’analyse phytologique des prairies. Critères d’application. Annales Agronomiques: 22(1): 5–41.
   Google Scholar
• Flux JEC, Angermann R. 1990. The hares and jackrabbits. In: Chapman JA, Flux JEC (eds), Rabbits, hares and pikas: status survey and conservation action plan. Gland: International Union for Conservation of Nature and Natural Resources. pp 61–94.
   Google Scholar
• Gabler KI, Laundre JW, Heady LT. 2000. Predicting the suitability of habitat in southeast Idaho for pygmy rabbits. Journal of Wildlife Management 64: 759–764. doi: 10.2307/3802746
   Web of Science ®Google Scholar
• Gantchoff MG, Belant JL. 2015. Anthropogenic and environmental effects on invasive mammal distribution in northern Patagonia, Argentina. Mammalian Biology 80: 54–58. doi: 10.1016/j.mambio.2014.10.001
   Web of Science ®Google Scholar
• Gaston KJ, Blackburn TM, Greenwood JD, Gregory RD, Quinn RM, Lawton JH. 2000. Abundance-occupancy relationships. Journal of Applied Ecology 37: 39–59. doi: 10.1046/j.1365-2664.2000.00485.x
   Web of Science ®Google Scholar
• Hall-Aspland S, Sweeney O, Tosh D, Preston P, Montgomery WI, McDonald RA. 2006. Northern Ireland Irish hare survey 2006. Quercus Project QU06-03. Belfast: Environment and Heritage Service, Northern Ireland.
   Google Scholar
• Hartley SA. 1998. Positive relationship between local abundance and regional occupancy is almost inevitable (but not all positive relationships are the same). Journal of Animal Ecology 67: 992–994. doi: 10.1046/j.1365-2656.1998.6760992.x
   PubMed Web of Science ®Google Scholar
• Heady LT, Laundré JW. 2005. Habitat use patterns within the home range of pygmy rabbits (Brachylagus idahoensis) in southeastern Idaho. Western North American Naturalist 65: 490–500.
   Web of Science ®Google Scholar
• Hochachka WM, Martin K, Doyle F, Krebs CJ. 2000. Monitoring vertebrate populations using observational data. Canadian Journal of Zoology 78: 521–529. doi: 10.1139/z99-246
   Web of Science ®Google Scholar
• Inglis IR. 1976. Agonistic behaviour of breeding Pink-footed geese with reference to Ryder’s hypothesis. Wildfowl 27: 95–99.
   Google Scholar
• IUCN (International Union for Conservation of Nature and Natural Resources). 2017. The IUCN Red List of Threatened Species. Version 2017-2. Available at http://www.iucnredlist.org.
   Google Scholar
• Jennings N, Smith RK, Hackländer K, Harris S, White PCL. 2006. Variation in demography, condition and dietary quality of hares Lepus europaeus from high-density and low-density populations. Wildlife Biology 12: 179–189. doi: 10.2981/0909-6396(2006)12[179:VIDCAD]2.0.CO;2
   Web of Science ®Google Scholar
• Kamieniarz R, Voigt U, Panek M, Strauss E, Niewęgłowski H. 2013. The effect of land scape structure on the distribution of brown hare Lepus europaeus in farmlands of Germany and Poland. Acta Theriologica 58: 39–46. doi: 10.1007/s13364-012-0091-z
   Google Scholar
• Krebs CJ, Boonstra R, Nams V, O’donoghue M, Hodges, KE, Boutin S. 2001. Estimating snowshoe hare population from pellet plots: a further evaluation. Canadian Journal of Zoology 79: 1–4. doi: 10.1139/z00-177
   Web of Science ®Google Scholar
• Langbein J, Hutchings MR, Harris S, Stoate C, Tapper SC, Wray S. 1999. Techniques for assessing the abundance of brown hares Lepus europaeus. Mammal Revue 29: 93–116. doi: 10.1046/j.1365-2907.1999.00040.x
   Web of Science ®Google Scholar
• Larrucea ES, Brussard PF. 2008. Habitat selection and current distribution of the pygmy rabbit in Nevada and California, USA. Journal of Mammalogy 89: 691–699. doi: 10.1644/07-MAMM-A-199R.1
   Web of Science ®Google Scholar
• Leach K, Kelly R, Cameron A, Montgomery WI, Reid N. 2015. Expertly validated models and phylogenetically controlled analysis suggests responses to climate change are related to species traits in the order Lagomorpha. PLoS ONE 10: e0122267. doi: 10.1371/journal.pone.0122267
   Web of Science ®Google Scholar
• MacKenzie DI, Nichols JD, Lachman GB, Droege S, Royle JA, Langtimm CA. 2002. Estimating site occupancy rates when detection probabilities are less than one. Ecology 83: 2248–2255. doi: 10.1890/0012-9658(2002)083[2248:ESORWD]2.0.CO;2
   Web of Science ®Google Scholar
• MacKenzie DI, Nichols JD, Sutton N, Kawanishi K., Bailey LL. 2005. Improving inferences in population studies of rare species that are detected imperfectly. Ecology 86: 1101–1113. doi: 10.1890/04-1060
   Web of Science ®Google Scholar
• MacKenzie DI, Royle JA. 2005. Designing efficient occupancy studies: general advice and tips on allocation of survey effort. Journal of Applied Ecology 42: 1105–1114. doi: 10.1111/j.1365-2664.2005.01098.x
   Web of Science ®Google Scholar
• Nouira S, Blanc CHP. 1994. Biodiversité et biogéographie des reptiles du sud tunisien. Biogeographica 69(3): 89–104.
   Google Scholar
• Noumi Z, Touzard B, Michalet R, Chaieb M. 2010. The effects of browsing on the structure of Acacia tortilis (Forssk.) Hayne ssp. raddiana (Savi) Brenan along a gradient of water availability in arid zones of Tunisia. Journal of Arid Environments 74: 625–631. doi: 10.1016/j.jaridenv.2009.11.007
   Web of Science ®Google Scholar
• Nowak RM. 1999. Walker’s mammals of the world. London: John Hopkins Press.
   Google Scholar
• Panek M, Kamieniarz R. 1999. Relationships between density of brown hare Lepus europaeus and landscape structure in Poland in the years 1981–1995. Acta Theriologica 44: 67–75. doi: 10.4098/AT.arch.99-7
   Google Scholar
• Panek M, Kamieniarz R, Bresiński W. 2006. The effect of experimental removal of red foxes Vulpes vulpes on spring density of brown hares Lepus europaeus in western Poland. Acta Theriologica 51: 187–193. doi: 10.1007/BF03192670
   Google Scholar
• Parrott D, Prickett A, Pietravalle S, Thomas R, Etherington TR, Fletcher M. 2012. Estimates of regional population densities of badger Meles meles, fox Vulpes vulpes and hare Lepus europaeus using walked distance sampling. European Journal of Wildlife Research 58: 23–33. doi: 10.1007/s10344-011-0536-8
   Web of Science ®Google Scholar
• Petrovan SO, Ward AI, Wheeler P. 2011. Detectability counts when assessing populations for biodiversity Targets. PLoS ONE 6: e24206. doi: 10.1371/journal.pone.0024206
   PubMed Web of Science ®Google Scholar
• Ralls K, Eberhardt LL. 1997. Assessment of abundance of San Joaquin kit foxes by spotlight surveys. Journal of Mammalogy 78: 65–73. doi: 10.2307/1382639
   Web of Science ®Google Scholar
• Reichlin T, Klansek E, Hackländer K. 2006. Diet selection by hares (Lepus europaeus) in arable land and its implications for habitat management. European Journal of Wildlife Research 52: 109–118. doi: 10.1007/s10344-005-0013-3
   Web of Science ®Google Scholar
• Reid N, Sweeney O, Wilson C, Preston SJ, Montgomery WI, McDonald RA. 2007. Developments in hare survey methodology - as applied to the NI Irish hare survey 2007. Quercus Project QU07-01. Belfast: Northern Ireland Environment Agency.
   Google Scholar
• Rogers IM, Gorman ML. 1995. The population dynamics of small mammals living in set aside and surrounding semi-natural and cropland. Journal of Zoology 236: 451–456. doi: 10.1111/j.1469-7998.1995.tb02724.x
   Web of Science ®Google Scholar
• Royle JA, Nichols JD. 2003. Estimating abundance from repeated presence absence data or point counts. Ecology 84: 777–790. doi: 10.1890/0012-9658(2003)084[0777:EAFRPA]2.0.CO;2
   Web of Science ®Google Scholar
• Schmidt NM, Asferg T, Forchhammer MC. 2004. Long-term patterns in European brown hare population dynamics in Denmark: effects of agriculture, predation and climate. BMC Ecology 4: 15. doi: 10.1186/1472-6785-4-15
   PubMedGoogle Scholar
• Schoenenberger A. 1992. Parcs nationaux de Jbil et Sidi Toui, périmètre d’Oum Echchiah. Mission phyto-écologie et inventaires floristiques. Données sur les espèces rares et menacées du sud. Germany: Projets GTZ.
   Google Scholar
• Scott DM, Waite S, Maddox TM, Freer RA, Dunstone N. 2005. The validity and precision of spotlighting for surveying desert mammal communities. Journal of Arid Environments 61: 589–601. doi: 10.1016/j.jaridenv.2004.09.008
   Web of Science ®Google Scholar
• Smith RK, Jennings NV, Harris SA. 2005. Quantitative analysis of the abundance and demography of European hares Lepus europaeus in relation to habitat type, intensity of agriculture and climate. Mammal Revue 35: 1–24. doi: 10.1111/j.1365-2907.2005.00057.x
   Web of Science ®Google Scholar
• Tapper SC, Barnes RFW. 1986. Influence of farming practice on the ecology of the brown hare (Lepus europaeus). Journal of Applied Ecology 23: 39–52. doi: 10.2307/2403079
   Web of Science ®Google Scholar
• Theau J, Ferron J. 2001. Effects of climatic parameters on seasonal and daily activity patterns of semi-free snowshoe hares Lepus americanus. Canadian Field Naturalist 115: 43–51.
   Web of Science ®Google Scholar
• Thorn M, Green M, Bateman PW, Elissa Z, Cameron EZ, Richard W, Scott DM. 2010. Comparative efficacy of sign surveys, spotlighting and audio playbacks in a landscape-scale carnivore survey. South African Journal of Wildlife Research 40: 77–86. doi: 10.3957/056.040.0113
   Google Scholar
• Thulin CJ. 2003. The distribution of mountain hares Lepus timidus in Europe: a challenge from brown hares L. europaeus. Mammal Revue 33: 29–42. doi: 10.1046/j.1365-2907.2003.00008.x
   Web of Science ®Google Scholar
• Tizzani P, Menzano A, Meneguz PG. 2013. Methodological problems related to spotlight count as a census technique for Lepus europaeus in an alpine environment. Acta Theriologica 59: 271–276. doi: 10.1007/s13364-013-0157-6
   Google Scholar
• Tuyttens FAM, Long B, Fawcett T, Skinner A, Brown JA, Cheeseman CL, Roddam AW, Macdonald DW. 2001. Estimating group size and population density of Eurasian badgers Meles meles by quantifying latrine use. Journal of Applied Ecology 38: 1114–1121. doi: 10.1046/j.1365-2664.2001.00665.x
   Web of Science ®Google Scholar
• Weber JM, Aubry S, Lachat N, Meia JS, Mermod C, Paratte A. 1991. Fluctuations and behaviour of foxes determined by nightlighting. Preliminary results. Acta Theriologica 36: 285–291. doi: 10.4098/AT.arch.91-29
   Google Scholar
• Williams NM, Minckley RL, Silveira FA. 2001. Variation in native bee faunas and its implications for detecting community changes. Conservation Ecology 5: 7. doi: 10.5751/ES-00259-050107
   Google Scholar
• Wincentz T. 2009. Identifying causes for population decline of the brown hare (Lepus europaeus) in agricultural landscapes in Denmark. PhD thesis, University of Copenhagen, Denmark.
   Google Scholar
• Wintle BA, McCarthy MA, Volinsky CT, Kavanagh RP. 2003. The use of Bayesian model averaging to better represent uncertainty in ecological models. Conservation Biology 17: 1579–1590. doi: 10.1111/j.1523-1739.2003.00614.x
   Web of Science ®Google Scholar
• Witmer GW. 2005. Wildlife population monitoring: some practical considerations. Wildlife Research 32: 259–263. doi: 10.1071/WR04003
   Web of Science ®Google Scholar