Arun PR 2003 Butterflies of Siruvani forests of Western Ghats with notes on their seasonality. Zoos’ Print J. 18 1003–1006

Article  Google Scholar 

Barrow L and Parr CL 2008 A preliminary investigation of temporal patterns in semiarid ant communities: Variation with habitat type. Austral Ecol. 33 653–662

Article  Google Scholar 

Beaumont LJ and Hughes L 2002 Potential changes in the distributions of latitudinally restricted Australian butterfly species in response to climate change. Global Change Biol. 8 954–971

Article  Google Scholar 

Bhakare M and Ogale H 2018 A guide to the butterflies of Western Ghats (India): Includes butterflies of Kerala, Tamilnadu, Karnataka, Goa, Maharashtra, and Gujarat states (Milind Bhakare; privately published)

Bhaumik V and Kunte K 2018 Female butterflies modulate investment in reproduction and flight in response to monsoon-driven migrations. Oikos 127 285–296

Article  Google Scholar 

Bhaumik V and Kunte K 2020 Dispersal and migration have contrasting effects on butterfly flight morphology and reproduction. Biol. Lett. 16 20200393

Article  Google Scholar 

Bonebrake TC, Ponisio LC, Boggs CL and Ehrlich PR 2010 More than just indicators: A review of tropical butterfly ecology and conservation. Biol. Conserv. 143 1831–1841

Article  Google Scholar 

Brakefield PM 1987 Tropical dry and wet season polyphenism in the butterfly Melanitis leda (Satyrinae): Phenotypic plasticity and climatic correlates. Biol. J. Linn. Soc. 31 175–191

Article  Google Scholar 

Brakefield PM and Larsen TB 1984 The evolutionary significance of dry and wet season forms in some tropical butterflies. Biol. J. Linn. Soc. 22 1–12

Article  Google Scholar 

Brakefield PM, Pijpe J and Zwaan BJ 2007 Developmental plasticity and acclimation both contribute to adaptive responses to alternating seasons of plenty and of stress in Bicyclus butterflies. J. Biosci. 32 465–475

Article  Google Scholar 

Brown Jr KS 1991. Conservation of neotropical environments: Insects as indicators; in The conservation of insects and their habitats (eds) Collins NM and Thomas JA (London Academic Press) pp 349–404

Chandekar SK, Nimbalkar RK and Kuvalekar AA 2014 The seasonal patterns in the abundance of butterflies, their biotopes and nectar food plants from Maval Thahsil, Pune district, Maharastra, India. Int. J. Plant Anim. Environ. Sci. 4 50–64

Google Scholar 

Checa MF, Levy E, Rodriguez J and Willmott K 2019 Rainfall as a significant contributing factor to butterfly seasonality along a climatic gradient in the neotropics. BioRxiv 630947v1

Cohn JP 2008 Citizen science: Can volunteers do real research? BioScience 58 192–197

Article  Google Scholar 

De Cáceres M, Legendre P and Moretti M 2010 Improving indicator species analysis by combining groups of sites. Oikos 119 1674–1684

Article  Google Scholar 

Dilts TE, Steele MO, Engler JD, et al. 2019 Host plants and climate structure habitat associations of the western Monarch butterfly. Front. Ecol. Evol. 7 188

Article  Google Scholar 

Finkbeiner SD, Salazar PA, Nogales S, et al. 2018 Frequency dependence shapes the adaptive landscape of imperfect Batesian mimicry. Proc. R. Soc. Biol. Sci. 285 20172786

Article  Google Scholar 

Gadgil Μ 1996 Documenting diversity: An experiment. Curr. Sci. 70 36–44

Google Scholar 

Gezon ZJ, Lindborg RJ, Savage A and Daniels JC 2018 Drifting phenologies cause reduced seasonality of butterflies in response to increasing temperatures. Insects 9 174

Article  Google Scholar 

Giriraj A, Irfan-Ullah M, Murthy MS and Beierkuhnlein C 2008 Modelling spatial and temporal forest cover change patterns (1973–2020): A case study from south Western Ghats (India). Sensors 8 6132–6153

Article  Google Scholar 

Greenacre M and Primicerio R 2013 Multivariate analysis of ecological data (Fundación BBVA)

Grøtan V, Lande R, Engen S, Sæther B-E and DeVries PJ 2012 Seasonal cycles of species diversity and similarity in a tropical butterfly community. J. Anim. Ecol. 81 714–723

Article  Google Scholar 

Guedes RNC, Zanuncio TV, Zanuncio JC and Medeiros AGB 2000 Species richness and fluctuation of defoliator Lepidoptera populations in Brazilian plantations of Eucalyptus grandis as affected by plant age and weather factors. Forest Ecol. Manag. 137 179–184

Article  Google Scholar 

Hamer KC, Hill JK, Mustaffa N, et al. 2005 Temporal variation in abundance and diversity of butterflies in Bornean rain forest: Opposite impacts of logging recorded in different seasons. J. Trop. Ecol. 21 417–425

Article  Google Scholar 

Hayes L, Mann DJ, Monastyrskii AL and Lewis OT 2009 Rapid assessments of tropical dung beetle and butterfly assemblages: Contrasting trends along a forest disturbance gradient. Insect Conserv. Div. 2 194–203

Article  Google Scholar 

Jha CS, Dutt CBS and Bawa KS 2000 Deforestation and land use changes in Western Ghats, India. Curr. Sci. 79 231–238

Google Scholar 

Jitendra 2019 Western Ghats at risk: Deforestation data drives home point again. Down to Earth (10 May 2019) (https://www.downtoearth.org.in/news/forests/western-ghats-at-risk-deforestation-data-drives-home-point-again-64470)

Kadlec T, Tropek R and Konvicka M 2012 Timed surveys and transect walks as comparable methods for monitoring butterflies in small plots. J. Insect Conserv. 16 275–280

Article  Google Scholar 

Kato Y and Handa H 1992 Seasonal polyphenism in a subtropical population of Eurema hecabe (Lepidoptera, Pieridae). Jap. J. Entomol. 60 305–318

Google Scholar 

Kehimkar I 2008 The book of Indian butterflies (Bombay Natural History Society, Oxford University Press: Mumbai)

Konvicka M, Maradova M, Benes J, et al. 2003 Uphill shifts in distribution of butterflies in the Czech Republic: effects of changing climate detected on a regional scale. Global Ecol. Biogeogr. 12 403–410

Article  Google Scholar 

Kunte K 1997 Seasonal patterns in butterfly abundance and species diversity in four tropical habitats in northern Western Ghats. J. Biosci. 22 593–603

Article  Google Scholar 

Kunte K 2000 India, a lifescape: Butterflies of peninsular India (Universities Press: Hyderabad)

Kunte K, Basu DN and Kumar GG 2019 Taxonomy, systematics, and biology of Indian butterflies in the 21st century; in Indian insects (London CRC Press) pp 275–304

Kunte K, Sondhi S and Roy P 2021 Butterflies of India, v. 3.11. (Indian Foundation for Butterflies) (https://www.ifoundbutterflies.org/)

Legendre P and Gallagher ED 2001 Ecologically meaningful transformations for ordination of species data. Oecologia 129 271–280

Article  Google Scholar 

Lindenmayer DB and Likens GE 2018. Effective ecological monitoring (CSIRO publishing: Australia)

Magurran AE 1988 Ecological diversity and its measurement (Princeton University Press: Princeton, NJ)

Mayekar HV and Kodandaramaiah U 2017 Pupal colour plasticity in a tropical butterfly, Mycalesis mineus (Nymphalidae: Satyrinae). PLoS One 12 e0171482

Article  Google Scholar 

Midgley GF, Hannah L, Millar D, Rutherford MC and Powrie LW 2002 Assessing the vulnerability of species richness to anthropogenic climate change in a biodiversity hotspot. Global Ecol. Biogeogr. 11 445–451

Article  Google Scholar 

Mitchell N, Triska M, Liberatore A, et al. 2017 Benefits and challenges of incorporating citizen science into university education. PLoS One 12 e0186285

Article  Google Scholar 

Mohandas TV and Remadevi OK 2019 Species diversity and distribution of butterflies in Kudremukh national park and Mookambika and Someshwara wildlife sanctuaries in central Western Ghats of Karnataka. Ann. Entomol. 37 113–125

Google Scholar 

Molina-Martínez A, León-Cortés JL, Regan HM, et al. 2016 Changes in butterfly distributions and species assemblages on a Neotropical mountain range in response to global warming and anthropogenic land use. Divers. Distrib. 22 1085–1098

Article  Google Scholar 

Molleman F, Kop A, Brakefield PM, DeVries PJ and Zwaan BJ 2006 Vertical and temporal patterns of biodiversity of fruit-feeding butterflies in a tropical forest in Uganda. Biodiv. Conserv. 15 107–121

Article  Google Scholar 

Montgomery RA, Rice KE, Stefanski A, et al. 2020 Phenological responses of temperate and boreal trees to warming depend on ambient spring temperatures, leaf habit, and geographic range. Proc. Natl. Acad. Sci. USA 117 10397–10405

Article  Google Scholar 

Naik D, Bhat SSG, Ghate SD, Mustak MS and Rao RSP 2021 Ecological interactions: Patterns of host utilization by tropical butterflies. BioRxiv 474530 (doi:https://doi.org/10.1101/2021.12.30.474530)

Naik D, Rao RSP, Kunte K and Mustak MS 2022 Ecological monitoring and indicator taxa: Butterfly communities in heterogeneous landscapes of the Western Ghats and Malabar coast, India. J. Insect Conserv. 26 doi:https://doi.org/10.1007/s10841-022-00368-5

Navarro-Cano JA, Karlsson B, Posledovich D, et al. 2015 Climate change, phenology, and butterfly host plant utilization. Ambio 44 78–88

Article  Google Scholar 

New TR 1997 Are lepidoptera an effective ‘umbrella group’ for biodiversity conservation? J. Insect Conserv. 1 5–12

Article  Google Scholar 

Nitin R, Balakrishnan VC, Churi PV, et al. 2018 Larval host plants of the butterflies of the Western Ghats, India. J. Threat. Taxa. 10 11495–11550

Article  Google Scholar 

Niyogi D, Kishtawal C, Tripathi S and Govindaraju RS 2010 Observational evidence that agricultural intensification and land use change may be reducing the Indian summer monsoon rainfall. Water Resour. Res. 46 W03533

Article  Google Scholar 

Padhye AD, Dahanukar N, Paingankar M, Deshpande M and Deshpande D 2006 Season and landscape-wise distribution of butterflies in Tamhini, northern Western Ghats, India. Zoos’ Print J. 21 2175–2181

Article  Google Scholar 

Padhye AD, Shelke S and Dahanukar N 2012 Distribution and composition of butterfly species along the latitudinal and habitat gradients of the Western Ghats of India. Check List. 8 1196–1215

Article  Google Scholar 

Parmesan C, Ryrholm N, Stefanescu C, et al. 1999 Poleward shifts in geographical ranges of butterfly species associated with regional warming. Nature 399 579–583

Article  Google Scholar 

Pateman RM, Hill JK, Roy DB, et al. 2012 Temperature-dependent alterations in host use drive rapid range expansion in a butterfly. Science 336 1028–1030

Article  Google Scholar 

Paul M and Sultana A 2020 Studies on butterfly (Insecta: Lepidoptera) diversity across different urban landscapes of Delhi, India. Curr. Sci. 118 819–827

Article  Google Scholar 

Pollard E 1977 A method for assessing changes in the abundance of butterflies. Biol. Conserv. 12 115–134

Article  Google Scholar 

Pozo C, Luis-Martínez A, Llorente-Bousquets J, et al. 2008 Seasonality and phenology of the butterflies (Lepidoptera: Papilionoidea and Hesperioidea) of Mexico’s Calakmul region. Florida Entomol. 91 407–422

Article  Google Scholar 

Prudic KL, McFarland KP, Oliver JC, et al. 2017 eButterfly: Leveraging massive online citizen science for butterfly conservation. Insects 8 53

Article  Google Scholar 

Purvis A and Hector A 2000 Getting the measure of biodiversity. Nature 40 212–219

Article  Google Scholar 

Rao RSP and Girish MKS 2007 Road kills: Assessing insect casualties using flagship taxon. Curr. Sci. 92 830–837

Rákosy L and Schmitt T 2011 Are butterflies and moths suitable ecological indicator systems for restoration measures of semi-natural calcareous grassland habitats? Ecol. Indic. 11 1040–1045

Article  Google Scholar 

Revathy VS and Mathew G 2013 Seasonality of Rhopalocera (Lepidoptera) species in the butterfly garden at Nilambur in Kerala, southern India. Colemania 35 1–9

Google Scholar 

Ribeiro DB and Freitas AVL 2011 Large-sized insects show stronger seasonality than small-sized ones: A case study of fruit-feeding butterflies. Biol. J. Linn. Soc. 104 820–827