PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników

Czasopismo

2007 | 52 | 2 |

Tytuł artykułu

Effects of resource availability on the use of space by the mouse opossum Marmosops paulensis [Didelphidae] in a montane Atlantic forest area in Southeastern Brazil

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
Food supply is an important determinant of animal movements. In the present study we tested the occurrence of an inverse relationship between daily movements ofMarmosops paulensis (Tate, 1931) and their food supply. This species is a member of the family Didelphidae, occurring in areas of high elevation in the Brazilian Atlantic Forest.M. paulensis moved mostly over the ground, although the understory was also used. Mean daily range ofM. paulensis estimated through spool-and-line device was about 0.40 ha; no differences were noted between body sizes and sexes. As expected, there was an inverse relationship between daily movements and food supply. This relationship resulted from the clumped distribution of fruits, particularlyPiper rather than the sparser distribution of arthropods.

Wydawca

-

Czasopismo

Rocznik

Tom

52

Numer

2

Opis fizyczny

p.197-204,fig.,ref.

Twórcy

autor
  • Universidade Estadual de Campinas, 13083-970, Campinas, SP, Brazil
autor

Bibliografia

  • Abramsky Z. and Tracy C. R. 1980. Relation between home range size and regulation of population size inMicrotus ochrogaster. Oikos 34: 347–355.
  • Attuquayefio D. K., Gorman M. L. and Wolton R. J. 1986. Home range sizes in the wood mouseApodemus sylvaticus: Habitat, sex and seasonal differences. Journal of Zoology, London 210: 45–53.
  • Barnum S. A., Manville C. J., Tester J. R. and Carmen W. J. 1992. Path selection byPeromyscus leucopus in the presence and absence of vegetative cover. Journal of Mammalogy 73: 797–801.
  • Cáceres N. and Monteiro-Filho E. L. A. 2001. Food habits, home range and activity ofDidelphis aurita (Mammalia: Marsupialia) in a forest fragment of southern Brazil. Studies on Neotropical Fauna and Environment 36: 85–92.
  • Cunha A. A. and Vieira M. V. 2002. Support diameter, incline, and vertical movements of four didelphid marsupials in the Atlantic Forest of Brazil. Journal of Zoology, London 258: 419–426.
  • Fisher D. O. and Owens I. P. 2000. Female home range size and the evolution of social organization in macropod marsupials. Journal of Animal Ecology 69: 1083–1098.
  • Fleming T. H. 1981. Fecundity, fruiting pattern and seed dispersal inPiper amalago (Piperaceae), a bat-dispersed tropical shrub. Oecologia 51: 42–46.
  • Gaulin S. C. J. and Fitzgerald R. W. 1988. Home-range size as a predictor of mating systems inMicrotus. Journal of Mammalogy 69: 311–319.
  • Gehrt S. D. and E. K. Fritzell 1998. Resource distribution, female home range dispersion and male spatial interactions: groups structure in a solitary carnivore. Animal Behaviour 55: 1211–1227.
  • Harestad A. S. and Bunnell F. L. 1979. Home range and body weight — a reevaluation. Ecology 60: 389–402.
  • Julien-Laferriére D. 1995. Use of space by the wooly opossumCaluromys philander (Marsupialia: Didelphidae) in French Guiana. Canadian Journal of Zoology 73: 1280–1289.
  • Leiner N. O. 2005. [Diet and reproductive ecology ofMarmosops paulensis (Didelphimorphia: Didelphidae) in an Atlantic forest area, southeastern Săo Paulo]. MSc thesis, Universidade Estadual de Campinas, Campinas: 1–107. [In Portuguese with chapters in English]
  • Leiner N. O. and Silva W. R. (in press). Seasonal variation in the diet of the Brazilian slender opossum (Marmosops paulensis) in a montane Atlantic forest area, southeastern Brazil. Journal of Mammalogy.
  • Loretto D. and Vieira M. V. 2005. The effects of reproductive and climatic seasons in movements in the black-eared opossum (Didelphis aurita Wied-Neuwied 1826). Journal of Mammalogy 83: 287–293.
  • Lurz P. W. W., Garson P. J. and Wauters L. A. 2000. Effects of temporal and spatial variations in food supply on the space and habitat use of red squirrels (Sciurus vulgaris L.). Journal of Zoology, London 251: 167–178.
  • Kie J. G., Baldwin J. A. and Evans C. J. 1996. CALHOME: a program for estimating animal home ranges. Wildlife Society Bulletin 24: 342–344.
  • Martins E. G. 2004. [Population ecology and home range of the opossumGracilinanus microtarsus (Marsupialia: Didelphidae) in a Cerradăo area in Américo Brasiliense, Săo Paulo]. MSc thesis, Universidade Estadual de Campinas, Campinas: 1–84. [In Portuguese]
  • McLoughlin P. D., Ferguson S. H. and Messier F. 2000. Intraspecific variation in home range overlap with habitat quality: a comparison among brown bear populations. Evolutionary Ecology 14: 39–60.
  • Moura M. C., Caparelli A., Freitas S. R. and Vieira M. V. 2005. Scale-dependent habitat selection in three didelphid marsupials using the spool-and-line technique in the Atlantic forest of Brazil. Journal of Tropical Ecology 21: 337–342.
  • Mustrangi M. and Patton J. L. 1997. Phylogeography and systematics of the slender mouse opossum,Marmosops (Marsupialia: Didelphidae). University of California Publications in Zoology 130: 1–86.
  • Ostfeld R. S. 1990. The ecology of territoriality in small mammals. Trends in Ecology and Evolution 5: 411–414.
  • Pires A. S. and Fernandez F. A. S. 1999. Use of space by the marsupialMicoureus demerarae in small Atlantic forest fragments in south-eastern Brazil. Journal of Tropical Ecology 15: 279–290.
  • Quental T. B., Fernandez F. A. S., Dias A. T. C. and Rocha F. S. 2001. Population dynamics of the marsupialMicoureus demerarae in small fragments of Atlantic Coastal Forest in Brazil. Journal of Tropical Ecology 17: 339–352.
  • Spencer S. R., Cameron G. N. and Swihart R. K. 1990. Operationally defining home range: temporal dependence exhibited by hispid cotton rats. Ecology 71: 1817–1822.
  • STATISTICA 6.0. 2001. STATISTICA (data analysis software system), version 6.0. Statsoft Inc., Tulsa, Oklahoma.
  • Sunquist M. E., Austad S. N. and Sunquist F. 1987. Movement patterns and home range in the common opossum (Didelphis marsupialis). Mammalia 68: 173–176.
  • Tufto J., Andersen R. and Linnell J. 1996. Habitat use and ecological correlates of home range size in a small cervid: the roe deer. Journal of Animal Ecology 65: 715–724.
  • Tribe C. J. 1990. Dental age classes inMarmosa incana and other didelphoids. Journal of Mammalogy 71: 566–569.
  • Voss R. S., Tarifa T. and Yensen E. 2004. An introduction toMarmosops (Marsupialia: Didelphidae), with a description from a new species from Bolivia and notes on the taxonomy and distribution of other Bolivian forms. American Museum Novitates 3466: 1–40.
  • Zar J. H. 1999. Biostatical analysis. 3rd edition. Prentice Hall, Inc., Upper Saddle River, New Jersey: 1–929.

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

bwmeta1.element.agro-article-758bfd28-61f7-4d7e-9dc8-30fbfbf8db25
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.