Species-specific distribution of two sympatric Maculinea butterflies across different meadow edges
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Als TD, Vila R, Kandul NP, Nash DR, Yen SH, Hsu YF, Mignault AA, Boomsma JJ, Pierce NE (2004) The evolution of alternative parasitic life histories in large blue butterflies. Nature 432:386–390
Anton C, Musche M, Hula V, Settele J (2005) Which factors determine the population density of the predatory butterfly Maculinea nausithous. In: Settele J, Kühn E, Thomas JA (eds) Studies on the ecology and conservation of butterflies in europe. Vol 2. Species ecology along a European gradient: Maculinea butterflies as a model. Pensoft, Sofia, pp 57–59
Anton C, Musche M, Hula V, Settele J (2008) Myrmica host-ants limit the density of the ant-predatory large blue Maculinea nausithous. J Insect Conserv (in press). doi: 10.1007/s10841-007-9091-8
Báldi A (1999) Microclimate and vegetation edge effects in a reedbed in Hungary. Biodivers Conserv 8:1697–1706
Báldi A, Kisbenedek T (1999) Species-specific distribution of reed-nesting passerine birds across reed-bed edges: effects of spatial scale and edge type. Acta Zool Acad Sci H 45:97–114
Batáry P, Örvössy N, Kőrösi Á, Vályi Nagy M, Peregovits L (2007) Microhabitat preferences of Maculinea teleius (Lepidoptera: Lycaenidae) in a mosaic landscape. Eur J Entomol 104:731–736
Bergman K-O (1999) Habitat utilization by Lopinga achine (Nymphalidae: Satyrinae) larvae and ovipositing females: implications for conservation. Biol Conserv 88:69–74
Bourn NAD, Thomas JA (1993) The ecology and conservation of the brown argus butterfly Aricia agestis in Britain. Biol Conserv 63:67–74
Conradt L, Roper TJ (2006) Nonrandom movement behavior at habitat boundaries in two butterfly species: implications for dispersal. Ecology 87:125–132
Dauber J, Wolters V (2004) Edge effects on ant community structure and species richness in an agricultural landscape. Biodivers Conserv 13:901–915
Debinski DM, Holt RD (2000) A survey and overview of habitat fragmentation experiments. Conserv Biol 14:342–355
DeVries PJ, Murray D, Lande R (1997) Species diversity in vertical, horizontal, and temporal dimensions of a fruit-feeding butterfly community in an Ecuadorian rainforest. Biol J Linn Soc 62: 343–364
Duelli P, Studer M, Marchand I, Jakob S (1990) Population movements of arthropods between natural and cultivated areas. Biol Conserv 54:193–207
Elmes GW, Thomas JA, Wardlaw JC, Hochberg ME, Clarke RT, Simcox DJ (1998) The ecology of Myrmica ants in relation to the conservation of Maculinea butterflies. J Insect Conserv 2:67–78
Faraway JJ (2006) Extending the linear model with R: generalized linear, mixed effects and nonparametric regression models. Chapman Hall, Boca Raton
Figurny E, Woyciechowski M (1998) Flowerhead selection for oviposition by females of the sympatric butterfly species Maculinea teleius and M nausithous (Lepidoptera: Lycenidae). Entomol Gen 23:215–222
Foley JA, DeFries R, Asner GP, Barford C, Bonan G, Carpenter SR, Chapin FS, Coe MT, Daily GC, Gibbs HK, Helkowski JH, Holloway T, Howard EA, Kucharik CJ, Monfreda C, Patz JA, Prentice IC, Ramankutty N, Snyder PK (2005) Global consequences of land use. Science 309:570–574
Glinka U, Settele J (2005) The effect of ant communities and spatial pattern for Maculinea nausithous. In: Settele J, Kühn E, Thomas JA (eds) Studies on the ecology and conservation of butterflies in Europe. Vol 2. Species ecology along a European gradient: Maculinea butterflies as a model. Pensoft, Sofia, p 72
Ide J-Y (2002) Mating behaviour and light conditions cause seasonal changes in the dispersal pattern of the satyrine butterfly Lethe diana. Ecol Entomol 27:33–40
Johst K, Drechsler M, Thomas JA, Settele J (2006) Influence of mowing on the persistence of two large blue butterfly species. J Appl Ecol 43:333–342
Jose S, Gillespie AR, George SJ, Kumar BM (1996) Vegetation responses along edge-to-interior gradients in a high altitude tropical forest in peninsular India. Forest Ecol Manage 87:51–62
Kitahara M (2004) Butterfly community composition and conservation in and around a primary woodland of Mount Fuji, central Japan. Biodivers Conserv 13:917–942
Kőrösi Á (2005) Habitat-use of wetland Maculinea species—a case study. In: Settele J, Kühn E, Thomas JA (eds) Studies on the ecology and conservation of butterflies in Europe. Vol 2. Species ecology along a European gradient: Maculinea butterflies as a model. Pensoft, Sofia, p 132
Krauss J, Steffan-Dewenter I, Tscharntke T (2003) How does landscape context contribute to effects of habitat fragmentation on diversity and population density of butterflies? J Biogeogr 30:889–900
Kuefler D, Haddad NM (2006) Local versus landscape determinants of butterfly movement behaviors. Ecography 29:549–560
Kühn E, Gwillym S, Thomas J , Settele J (2005) Bibliography on Maculinea ecology and related topics (state: September 2005). In: Settele J, Kühn E, Thomas JA (eds) Studies on the ecology and conservation of butterflies in Europe. Vol 2. Species ecology along a European gradient: Maculinea butterflies as a model. Pensoft, Sofia, pp 259–283
Kunin WE (1998) Biodiversity at the edge: a test of the importance of spatial ‘‘mass effects’’ in the Rothamsted Park Grass experiments. Proc Natl Acad Sci USA 95:207–212
Loritz H, Settele J (2005) Changing a butterfly’s landscape. persistence of the Dusky Large Blue in managed grasslands. In: Settele J, Kühn E, Thomas JA (eds) Studies on the ecology and conservation of butterflies in Europe. Vol 2. Species ecology along a European gradient: Maculinea butterflies as a model. Pensoft, Sofia, pp 221–224
Magura T, Ködöböcz V. (2007) Carabid assemblages in fragmented sandy grasslands. Agric Ecosyst Environ 199: 396–400
Matlack GR (1993) Microenvironment variation within and among forest edge sites in the Eastern United States. Biol Conserv 66:185–194
Meek B, Loxton D, Sparks T, Pywell R, Pickett H, Nowakowski M (2002) The effect of arable field margin composition on invertebrate biodiversity. Biol Conserv 106:259–271
Meffe GK, Carroll CR (1994) Principles of conservation biology. Sinauer Associates, Sunderland
Murcia C (1995) Edge effects in fragmented forests: implications for conservation. Trends Ecol Evol 10:58–62
Nowicki P, Pępkowska A, Kudłek J, Skórka P, Witek M, Woyciechowski M (2005a) Landscape scale research in butterfly population ecology. Maculinea case study. In: Settele J, Kühn E, Thomas JA (eds) Studies on the ecology and conservation of butterflies in Europe. Vol 2. Species ecology along a European gradient: Maculinea butterflies as a model. Pensoft, Sofia, pp 140–143
Nowicki P, Witek M, Skórka P, Settele J, Woyciechowski M (2005b) Population ecology of the endangered butterflies Maculinea teleius and M nausithous and the implications for conservation. Popul Ecol 47:193–202
Nowicki P, Pępkowska A, Kudłek J, Skórka P, Witek M, Settele J, Woyciechowski M (2007) From metapopulation theory to conservation recommendations: lessons from spatial occurrence and abundance patterns of Maculinea butterflies. Biol Conserv 140: 119–129
R Development Core Team (2005) R: a language and environment for statistical computing. Foundation for Statistical Computing, Vienna. http://www.R-project.org
Ries L, Debinski DM (2001) Butterfly responses to habitat edges in the highly fragmented prairies of Central Iowa. J Anim Ecol 70:840–852
Ross JA, Matter SF, Roland J (2005) Edge avoidance and movement of the butterfly Parnassius smintheus in matrix and non-matrix habitats. Landsc Ecol 20:127–135
Saunders DA, Hobbs RJ, Margules CR (1991) Biological consequences of ecosystem fragmentation: a review. Conserv Biol 5:18–32
Schtickzelle N, Baguette M (2003) Behavioural responses to habitat patch boundaries restrict dispersal and generate emigration-patch area relationships in fragmented landscapes. J Anim Ecol 72:533–545
Schultz CB, Crone EE (2001) Edge-mediated dispersal behavior in a prairie butterfly. Ecology 82:1879–1892
Standovár T, Primack RB (2001) A természetvédelmi biológia alapjai (Principles of conservation biology). Nemzeti Tankönyvkiadó, Budapest
Tartally A, Csősz S (2004) Data on the ant hosts of the Maculinea butterflies (Lepidoptera: Lycenidae) of Hungary. Természetvédelmi Közlemények 11:309–317
Tartally A, Varga Z (2005) Host-ant specificity of Maculinea species in Hungary, connections with parasitoids and host plants. In: Settele J, Kühn E, Thomas JA (eds) Studies on the ecology and conservation of butterflies in Europe. Vol 2. Species ecology along a European gradient: Maculinea butterflies as a model. Pensoft, Sofia, pp 94–98
Thomas JA (1984) The behaviour and habitat requirement of Maculinea nausithous (the Dusky Large Blue Butterfly) and M teleius (the Scarce Large Blue) in France. Biol Conserv 28:325–347
Thomas JA (1991) Relationship between butterflies and ants. In: Dennis RLH (ed) Ecology of butterflies in Britain. Oxford Scientific Publications, Oxford, pp 149–154
Thomas JA, Elmes GW (1998) Higher productivity at the cost of increased host-specificity when Maculinea butterfly larvae exploit ant colonies through trophallaxis rather than by predation. Ecol Entomol 23:454–464
Thomas JA, Elmes GW (2001) Food-plant niche selection rather than the presence of ant nests explains oviposition patterns in the myrmecophilous butterfly genus Maculinea. Proc R Soc Lond B Biol 268:471–477
Thomas JA, Elmes GW, Wardlaw JC, Woyciechowski M (1989) Host specificity among Maculinea butterflies in Myrmica ant nests. Oecologia 79:452–457
Thomas JA, Clarke RT, Elmes GW, Hochberg ME (1998) Population dynamics in the genus Maculinea (Lepidoptera: Lycenidae). In: Dempster JP, McLean IFG (eds) Insect populations. Chapman & Hall, London, pp 261–290
Tscharntke T, Steffan-Dewenter I, Kruess A, Thies C (2002) Characteristics of insect populations on habitat fragments: a mini review. Ecol Res 17:229–239
Urbina-Cardona JN, Olivares-Pérez M, Reynoso VH (2006) Herpetofauna diversity and microenvironment correlates across a pasture-edge-interior ecotone in tropical rainforest fragments in the Los Tuxtlas Biosphere Reserve of Veracruz, Mexico. Biol Conserv 132:61–75
Van Swaay CAM, Warren MS (1999) Red data book of European butterflies (Rhopalocera). Nature and environment series no. 99. Council of Europe, Strasbourg