Abstract
Hesperiidae are claimed to be a group of elusive butterflies that need major effort for sampling, thus being frequently omitted from tropical butterfly surveys. As no studies have associated species richness patterns of butterflies with environmental gradients of high altitudes in Brazil, we surveyed Hesperiidae ensembles in Serra do Mar along elevational transects (900–1,800 m above sea level) on three mountains. Transects were sampled 11–12 times on each mountain to evaluate how local species richness is influenced by mountain region, vegetation type, and elevational zones. Patterns were also analyzed for the subfamilies, and after disregarding species that exhibit hilltopping behavior. Species richness was evaluated by the observed richness, Jacknife2 estimator and Chao 1 estimator standardized by sample coverage. Overall, 155 species were collected, but extrapolation algorithms suggest a regional richness of about 220 species. Species richness was far higher in forest than in early successional vegetation or grassland. Richness decreased with elevation, and was higher on Anhangava mountain compared with the two others. Patterns were similar between observed and extrapolated Jacknife2 richness, but vegetation type and mountain richness became altered using sample coverage standardization. Hilltopping species were more easily detected than species that do not show this behavior; however, their inclusion did neither affect estimated richness nor modify the shape of the species accumulation curve. This is the first contribution to systematically study highland butterflies in southern Brazil where all records above 1,200 m are altitudinal extensions of the known geographical ranges of skipper species in the region.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Ackery PR, De Jong R, Vane-Wright RJ (1999) The butterflies Hedyloidea, Hesperioidea and Papilionoidea. In: Kristensen NP (ed) Band/Volume IV Arthropoda: Insecta. Lepidoptera moths and butterflies: evolution, systematics, and biogeography, Volume 1. In: Fischer M (ed). Handbuch der Zoologie. Handbook of Zoology. Walter de Gruyter, Berlin, pp 263–300
Amorin FW, Ávila RS Jr, Camargo AJA, Vieira AL, Oliveira PE (2009) A hawkmoth crossroads? Species richness, seasonality and biogeographical affinities of Sphingidae in Brazilian Cerrado. J Biogeogr 36:662–674
Axmacher JC, Brehm G, Hemp A, Tünte H, Lyaruu HVM, Müller-Hohenstein K, Fiedler K (2009) Determinants of diversity in afrotropical herbivorous insects (Lepidoptera: Geometridae): plant diversity, vegetation structure or abiotic factors? J Biogeogr 36:337–349
Azevedo AA, Silveira FA, Aguiar CML, Pereira VS (2008) Fauna de abelhas (Hymenoptera, Apoidea) nos campos rupestres da Cadeia do Espinhaço (Minas Gerais e Bahia: Brasil): riqueza de espécies, padrões de distribuição e ameaças para conservação. Megadiversidade 4:126–157
Basset Y, Eastwood R, Sam L, Lohman DJ, Novotny V, Treuer T, Miller SE, Weiblen GD, Pierce NE, Bunyavejchewin S, Sakchoowong W, Kongnoo P, Osorio-Arenas MA (2011) Comparison of rainforest assemblages across three biogeographical regions using standardized protocols. J Res Lepid 44:17–28
Baz A (1987) Abundancia y riqueza de las comunidades forestales de mariposas (Lepidoptera Rhopalocera) y su relación con la altitud en el Sistema Ibérico meridonal. Graellsia 43:179–192
Bouliner T, Nichols JD, Sauer JR, Hines JE, Pollock KH (1998) Estimating species richness: the importance of heterogeneity in species detectability. Ecology 79:1018–1028
Brehm G (2007) Contrasting patterns of vertical stratification in two moth families in a Costa Rican lowland rain forest. Basic App Ecol 8:44–54
Brehm G, Süssenbach D, Fiedler K (2003) Unique elevational diversity patterns of geometrid moths in an Andean Montane forest. Ecography 26:456–466
Brose U, Martinez ND (2004) Estimating the richness of species with variable mobility. Oikos 105:292–300
Brose U, Martinez ND, Williams RJ (2003) Estimating species richness: sensitivity to sample coverage and insensitivity to spatial patterns. Ecology 84:2364–2377
Brown KS Jr (1992) Borboletas da Serra do Japi: Diversidade, hábitats, recursos alimentares e variação temporal. In: Morellato LPC (ed) História natural da Serra do Japi: Ecologia e preservação de uma área florestal no sudeste do Brasil. Unicamp/FAPESP, Campinas, pp 142–187
Brown KS Jr, Freitas AVL (2000a) Atlantic forest butterflies: indicators for landscape conservation. Biotropica 32:934–956
Brown KS Jr, Freitas AVL (2000b) Diversidade de Lepidoptera em Santa Teresa, Espírito Santo. Bol Mus Biol Mello Leitão 11/12:71–118
Caldas A, Robbins RK (2003) Modified Pollard transects for assessing tropical butterfly abundance and diversity. Biol Conserv 110:211–219
Chao A, Jost L (2012) Coverage-based rarefaction: standardizing samples by completeness rather than by size. Ecology 93:2533–2547
Colwell RK (2013) Estimates: statistical estimation of species richness and shared species from samples. Version 9. Available from http://purl.oclc.org/estimates
Colwell RK, Coddington JA (1994) Estimating terrestrial biodiversity throughout extrapolation. Phil Trans R Soc London B 345:101–118
Colwell RK, Lees DC (2000) The mid-domain effect: geometric constraints on the geography of species richness. Trends Ecol Evol 15:70–76
Colwell RK, Mao CX, Chang J (2004) Interpolating, extrapolating and comparing incidence-based species accumulation curves. Ecology 85:2717–2727
Darrault RO, Schlindwein C (2002) Esfingídeos (Lepidoptera, Sphingidae) no Tabuleiro Paraibano, nordeste do Brasil: abundância, riqueza e relação com plantas esfingófilas. Rev Bras Zool 19:429–443
Dennis RLH, Shreeve TG, Isaac NJB, Roy DB, Hardy PB, Fox R, Asher J (2006) The effects of visual appearance on bias in butterfly recording and monitoring. Biol Conserv 128:486–492
DeVries PJ, Austin GT, Martin NH (2009) Estimating species diversity in a guild of Neotropical skippers (Lepidoptera: Hesperiidae) with artificial lures is a sampling problem. Insect Conserv Diver 2:125–134
Dolibaina DR, Mielke OHH, Casagrande MM (2011) Borboletas (Papilionoidea e Hesperioidea) de Guarapuava e arredores, Paraná, Brasil: um inventário com base em 63 anos de registros. Biota Neotrop 11:341–354
Emery EO, Brown KS Jr, Pinheiro CEG (2006) As Borboletas (Lepidoptera: Papilionoidea) do Distrito Federal, Brasil. Rev Bras Entomol 50:85–92
Emmel TC, Austin GT (1990) The tropical rainforest fauna of Rondonia, Brazil: species diversity and conservation. Trop Lepid 1:1–12
Ferro VG, Romanowski HP (2012) Diversity and composition of tiger moths (Lepidoptera: Arctiidae) in an area of Atlantic Forest in southern Brazil: is the fauna more diverse in the grassland or in the forest? Zoologia 29:7–18
Fiedler K, Truxa C (2012) Species richness measures fail in resolving diversity patterns of speciose forest moth assemblages. Biodiv Conserv 21:2499–2508
Fleischman E, Austin GT, Weiss AD (1998) An empirical test of Rapoport’s rule: elevational gradients in montane butterfly communities. Ecology 79:2482–2493
Francini RB, Duarte M, Mielke OHH, Caldas A, Freitas AVL (2011) Butterflies (Lepidoptera, Papilionoidea e Hesperioidea) of the “Baixada Santista” region, coastal São Paulo, Southern Brazil. Rev Bras Entomol 55:55–68
Garcia RJF, Longhi-Wagner HM, Pirani JR, Meirelles ST (2009) A contribution to phylogeography of Brazilian campos: an analysis based on Poaceae. Rev Bras Bot 34:703–713
Gaston KJ (1996) Species richness: measure and measurement. In: Gaston KJ (ed) Biodiversity: a biology by numbers and difference. Blackwell, Oxford, pp 77–113
Gaston KJ (2000) Global patterns of biodiversity. Nature 405:220–227
Giulietti AM, Menezes NL, Pirani JR, Meguro M, Wanderley MGL (1987) Flora da Serra do Cipó, Minas Gerais: caracterização e lista de espécies. Bol Bot Univ São Paulo 9:1–151
Gómez-Nucamendi OL, Jones RW, Morón-Ríos A (1999) The Sphingidae (Heterocera) of the “El Ocote” reserve, Chiapas, Mexico. J Lepid Soc 53:153–158
Gotelli N, Colwell RK (2001) Quantifying biodiversity: procedures and pitfalls in the measurement and comparison of species richness. Ecol Lett 4:379–391
Hawkins BA, Albuquerque FS, Araújo MB, Beck J, Bini LM, Cabrero-Sañudo FJ, Castro-Praga I, Diniz-Filho JAF, Ferrer-Castán D, Field R, Gómez JF, Hortal J, Kerr JT, Kitching IJ, León-Cortés JL, Lobo JM, Montoya D, Moreno JC, Olalla-Tárraga MÁ, Pausas JG, Qian H, Rahbek C, Rodríguez MÁ, Sanders NJ, Williams P (2007) A global evaluation of metabolic theory as an explanation for terrestrial species richness gradients. Ecology 88:1877–1888
Hsieh TC, Ma KH, Chao A (2013) iNEXT online: interpolation and extrapolation (Version 1.0) [Software]. Available from http://chao.stat.nthu.edu.tw/inext/
Iserhard CA, Romanowski HP (2004) Lista de espécies de borboletas (Lepidoptera, Papilionoidea e Hesperioidea) da região do vale do rio Maquiné, Rio Grande do Sul, Brasil. Rev Bras Zool 21:649–662
Lamas G (1994) Butterflies of the Explorer’s Inn Reserve. In: Foster RB, Carr JL, Forsyth AB (eds) The Tambopata-Candamo reserved zone of southeastern Peru: a biological assessment. Rapid Assessment Program Working Papers 6:1–184, pp 62–63, 162–177
Lien VV, Yuan D (2003) The differences of butterfly (Lepidoptera, Papilionoidea) communities in habitats with various degrees of disturbance and altitudes in tropical forests of Vietnam. Biodivers Conserv 12:1099–1111
Maack R (1968) Geografia Física do Estado do Paraná. Universidade Federal do Paraná. Instituto de Biologia e Pesquisa Tecnológica, Curitiba, p 350
Machado AMB, Drummond GM, Paglia AP (2008) Livro vermelho da fauna brasileira ameaçada de extinção. MMA, Fundação Biodiversitas, Brazil, p 1420
Magurran AE (2004) Ecological diversity and its measurement. Blackwell, Oxford, 256p
Mallet-Rodriguez F, Parrini R, Pimentel LMS, Bessa R (2010) Altitudinal distribution of birds in a mountainous region in southeastern Brazil. Zoologia 27:503–522
Marchiori MO, Romanowski HP (2006) Borboletas (Lepidoptera, Papilionoidea e Hesperioidea) do Parque Estadual do Espinilho e entorno, Rio Grande do Sul, Brasil. Rev Bras Zool 24:1029–1037
Martinelli G (2007) Mountain diversity in Brazil. Rev Bras Bot 30:587–597
May RM (1988) How many species on earth? Science 241:1441–1449
Mielke OHH (1968) Contribuição ao estudo faunístico dos “Hesperiidae” brasileiros I. Resultados de uma excursão à Foz do Iguaçú, Paraná, Brasil, com notas taxonômicas (Lepidoptera). Atas Soc Biol Rio de Janeiro 12:73–78
Mielke CGC (1995) Papilionoidea e Hesperioidea (Lepidoptera) de Curitiba e seus arredores, Paraná, Brasil, com notas taxonômicas sobre Hesperiidae. Rev Bras Zool 11:759–776
Mielke OHH (2004) Hesperiidae. In: Lamas G (ed) Checklist: part 4a. Hesperioidea–Papilionoidea. In: Heppner JB (ed) Atlas of Neotropical Lepidoptera. Volume 5A. Association of Tropical Lepidoptera, Gainsville, pp 3–11, 25–86
Mielke OHH (2005) Catalogue of the American Hesperioidea. Vols 1–6. Sociedade Brasileira de Zoologia, Curitiba, p 1536
Mielke OHH, Casagrande MM (1997) Papilionoidea e Hesperioidea (Lepidoptera) do Parque Estadual do Morro do Diabo, Teodoro Sampaio, São Paulo, Brasil. Rev Bras Zool 14:967–1001
Mielke OHH, Emery E, Pinheiro CEG (2008) As borboletas Hesperiidae (Lepidoptera, Hesperioidea) do Distrito Federal, Brasil. Rev Bras Entomol 52:283–288
Mielke OHH, Carneiro E, Casagrande MM (2012a) Hesperiidae (Lepidoptera, Hesperioidea) from Ponta Grossa, Paraná, Brazil: 70 years of records with special reference to faunal composition of Vila Velha State Park. Rev Bras Entomol 56:59–66
Mielke OHH, Carneiro E, Casagrande MM (2012b) Os Hesperiidae (Lepidoptera, Hesperioidea) da RPPN Klagesi, Santo Antônio do Tauá, Pará, Brasil: nova contribuição para o conhecimento da biodiversidade da área de endemismo Belém. Acta Amazon 42:251–258
Nogués-Bravo D, Araújo MB, Romdal T, Rahbeck C (2008) Scale effects and human impact on the elevational species richness gradients. Nature 453:216–220
Orozco S, Muriel SB, Palacio J (2009) Diversidad de lepidópteros diurnos en um área de bosque seco tropical del Occidente Atioqueño. Actual Biol 31:31–41
Palmer MW (1990) The estimation of species richness by extrapolation. Ecology 71:1195–1198
Palmer MW (1991) Estimating species richness: the second order Jacknife reconsidered. Ecology 72:1512–1513
Pinheiro CEG, Malinov IC, Andrade TO, Maravalhas JB, de Andrade MBM, de Deus LPA, Pedrosa LGP, Zanatta GV (2008) As borboletas (Lepidoptera, Papilionoidea) do campus universitário Darcy Ribeiro (Distrito Federal, Brasil). Biota Neotrop 8:139–144
Prieto C, Dahners HW (2006) Eumaeini (Lepidoptera: Lycaenidae) del cerro San Antonio: dinámica de la riqueza y comportamiento de “Hilltopping”. Rev Colomb Entomol 32:179–190
Rahbek C (2005) The role of spatial scale and the perception of large-scale species-richness patterns. Ecol Lett 8:224–239
Robbins RK, Lamas G, Mielke OHH, Harvey DJ, Casagrande MM (1996) Taxonomic composition and ecological structure of the species-rich butterfly community at Pakitza, Parque Nacional del Manu, Perú. In: Wilson DE, Sandoval A (eds) Manu. The Biodiversity of Southeastern Peru. La Biodiversidad del Sureste del Perú. Editorial Horizonte, Lima, pp 217–252
Roderjan CV, Kuniyoshi YS, Galvão F (1992) As regiões fitogeográficas do Paraná. Acta For Bras 1:3–7
Safford HD (2007) Brazilian Paramos IV. Phytogeography of the campos de altitude. J Biogeogr 34:1701–1722
Sanchez-Rodriguez JF, Baz A (1995) The effects of elevation on the butterfly communities of a Mediterranean Mountain, Sierra de Javalambre, Central Spain. J Lepid Soc 49:192–207
Santos EC, Mielke OHH, Casagrande MM (2008) Butterflies inventories in Brazil: the state of art and the priority areas models for research aiming at conservation. Nat Conservação 6:176–198
Shields O (1967) Hilltopping. J Res Lepid 6:69–178
Sparrow HR, Sisk TD, Ehrlich PR, Murphy DD (1994) Techniques and guidelines for monitoring Neotropical butterflies. Conserv Biol 8:800–809
Specht A, Corseuil E (2002) Diversidade de noctuídeos (Lepidoptera, Noctuidae) em Salvador do Sul, Rio Grande do Sul, Brasil. Rev Bras Zool 19:281–298
Spitzer K, Novotny V, Tonner M, Lepŝ J (1993) Habitat preferences, distribution and seasonality of the butterflies (Lepidoptera, Papilionoidea) in a montane tropical rain forest, Vietnam. J Biogeogr 20:109–121
Stattersfield AJ, Crosby MJ, Long AJ, Wege DC (1998) Endemic bird areas of the world: priorities for biodiversity conservation. BirdLife International, Cambridge, p 815
Summerville KS, Crist TO (2005) Temporal patterns of species accumulation in a survey of Lepidoptera in a beech-maple forest. Biodivers Conserv 14:3393–3406
Tews J, Brose U, Grimm V, Tielbörger K, Wichmann MC, Schwager M, Jeltsch F (2004) Animal species diversity driven by habitat heterogeneity/diversity: the importance of keystone structures. J Biogeogr 31:79–92
Tobar DL, Rangel JOC, Andrade MG (2002) Diversidad de mariposas (Lepidoptera: Rhopalocera) en la parte alta de la cuenca del rio El Roble (Quindío-Colombia). Caldasia 24:393–409
Uehara-Prado M, Brown KS Jr, Freitas AVL (2007) Species richness, composition and abundance of fruit-feeding butterflies in the Atlantic Forest: comparisons between a fragmented and a continuous landscape. Global Ecol Biogeogr 16:43–54
Veloso HP, Filho ALRR, Lima JCA (1991) Classificação da vegetação brasileira adaptada a um sistema universal. IBGE, Rio de Janeiro, p 123
Vu LV, Vu CQ (2011) Diversity pattern of butterfly communities (Lepidoptera Papilionoidea) in different habitat types in a tropical rain forest of Southern Vietnam. ISRN Zool 2011:1–8
Wahlberg N, Brower AVZ, Nylin S (2005) Phylogenetic relationships and historical biogeography of tribes and genera in the subfamily Nymphalinae (Lepidoptera: Nymphalidae). Biol J Linn Soc 86:227–251
Warren AD, Ogawa JR, Brower AZ (2008) Phylogenetic relationships of subfamilies and circumscription of tribes in the family Hesperiidae (Lepidoptera, Hesperiidae). Cladistics 24:1–35
Wei SG, Li L, Walther BA, Ye WH, Huang ZL, Cao HL, Lian JY, Wang ZG, Chen YY (2010) Comparative performance of species-richness estimators using data from a subtropical forest tree community. Ecol Res 25:93–101
Willig MR, Kaufman DM, Stevens RD (2003) Latitudinal gradients of biodiversity: pattern, process, scale, and synthesis. Annu Rev Eco Evol Syst 34:273–309
Zikán JF (1928) Die Macro-Lepidoptera des Itatiaya (Südabhang bei Campo-Bello). Ent Rdsch 45:7–8, 10–11, 13–14, 19–20, 22–23, 26, 32, 35–36, 38–39, 46
Zikán JF, Zikán W (1968) Inseto-fauna do Itatiaia e da Mantiqueira. III Lepidoptera. Pesqui Agropecu Bras 3:45–109
Acknowledgments
The authors are thankful for the critical reviews of earlier manuscript versions by Drs. André V. L. Freitas (UNICAMP), Emygdio L. A. M. Filho (UFPR), Gilson R. P. Moreira (UFRGS), and Maurício O. Moura, as well as two anonymous reviewers. IAP provided the permits for insect collecting, Dilson Seriguelli and Sr. Amadeus gently rendered access to study locations. The work was supported by CNPq and CAPES fellowships.
Author information
Authors and Affiliations
Corresponding author
Additional information
Edited by André VL Freitas – UNICAMP
Electronic Supplementary Material
Below is the link to the electronic supplementary material.
ESM 1
(DOC 264 kb)
Rights and permissions
About this article
Cite this article
Carneiro, E., Mielke, O.H.H., Casagrande, M.M. et al. Skipper Richness (Hesperiidae) Along Elevational Gradients in Brazilian Atlantic Forest. Neotrop Entomol 43, 27–38 (2014). https://doi.org/10.1007/s13744-013-0175-8
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s13744-013-0175-8