Albert, E., Orujov, E., Madumarov, M. M., Bayat, M., Temewei, A. G. and Sediqi, A. N. (2021). A perspective of herbicide-resistant weeds and management options: A Review. Research on Crops 22 : 737-46.
Barbercheck, M. E. and Wallace, J. (2021). Weed-insect interactions in annual cropping systems. Ann. Entomol. Soc. Am. 114 : 276-91.
Churi, P., Bhagwat, T., Manoj, P., Pal, A., Kunte, K. and Hiremath, S. (2022). Nectar plant, Calotropis gigantea. In : Butterflies of India, v. 3.28., Kunte, K., Sondhi, S. and Roy, P. (eds.). Indian Foundation for Butterflies. http://www.ifoundbutterflies. org/nectar-plants/318/Calotropis-gigantea.
De-Thabrew, W. V. (2014). A Manual of Water Plants. Author House, Bloomington, Indiana. pp. 290.
Devi, M. R., Madhavan, S., Baskaran, A. and Thangaratham, T. (2015). Ethno-medicinal aspects of weeds from paddy field in Thiruvarur district, Tamil Nadu, India. World J. Pharm. Res. 4 : 1909-20.
Elanchezhyan, K., Sathyan, T. and Manikandan, K. R. (2020). Butterflies : Amazing and fascinating insects. Biotica Res. Today 2 : 57-59.
EPPO (2021). EPPO Global database. In : EPPO Global database, Paris, France : EPPO. Retrived from https://gd.eppo.int/.
Fazal, H. and Muhammad, I. (2015). Ecology of weeds in wheat crops of Kalash valley, district Chitral, Hindukush Range, Pakistan. Pak. J. Weed Sci. Res. 21 : 425-33.
Freitas, J., Braun, D. V., Tonini, L., Serpa-Filho, A. and Alves-Araújo, A. (2019). A new herbivory report from South-eastern Brazil : Aristolochia hypoglauca Kuhlm (Piperales : Aristolochiaceae) as a host plant for Battus polydamas (Linnaeus, 1758) (Lepidoptera : Papilionidae). Entomol. News. 128 : 336-41.
Gunathilagaraj, K., Perumal, T. N. A, Jayaram, K. and Kumar, M. G. (1998). Some South Indian Butterflies. Nilgiri Wildlife and Environment Association. pp. 253.
Hari, T. (2020). Butterfly Diversity of Amrita Vishwa Vidyapeetham, Coimbatore, Tamil Nadu, India. J. Bombay Nat. Hist. Soc. 117 : 66-78.
Hill, G. M., Kawahara, A. Y., Daniels, J. C., Bateman, C. C. and Scheffers, B. R. (2021). Climate change effects on animal ecology : Butterflies and moths as a case study. Biol. Rev. 96 : 2113-26.
Hinz, H. L., Winston, R. L. and Schwarzländer, M. (2019). How safe is weed biological control? A global review of direct non-target attack. Q. Rev. Biol. 94 : 1-27.
Kanagaraj, B. and Kathirvelu, C. (2014). Diversity of butterflies in coastal belt of Cuddalore district, Tamil Nadu, India. Paper presented to UGC Sponsored National seminar on “Integrated approaches for sustainable Agriculture”, organized by Dept. of Agronomy, Annamalai University, during 27th March 2014. pp. 170.
Kanimozhi, C., Ramesh, V., Pathania, P. and Rameshkumar, A. (2020). Butterflies diversity (Lepidoptera : Papilionoidea) in agro-ecosystems of Tiruchirappalli district of Tamil Nadu, India. Uttar Pradesh J. Zoo. 41 : 15-35.
Karmakar, T., Nitin, R., Sarkar, V., Baidya, S., Mazumder, S., Chandrasekharan, V. K. and Kunte, K. (2018). Early stages and larval host plants of some north-eastern Indian butterflies. J. Threat. Taxa. 10 : 11780-799.
Kehimkar, I. (2016). BNHS Field Guides, Butterflies of India. Bombay Natural History Society. pp. 800.
Kiran, G. G. R. and Rao, A. S. (2013). Survey of weed flora in transplanted rice in Krishna agroclimatic zone of Andhra Pradesh, India. Pak. J. Weed Sci. Res. 19 : 45-51.
Lalonde, S., McCune, J. L., Rivest, S. A. and Kharouba, H. M. (2022). Decline in common milkweed along roadsides around Ottawa, Canada. Écoscience 29 : 25-37.
Macharia, I., Backhouse, D., Wu, S. B. and Ateka, E. M. (2016). Weed species in tomato production and their role as alternate hosts of tomato spotted wilt virus and its vector, Frankliniella occidentalis. Ann. Appl. Biol. 169 : 224-35.
Mahbubur, R. A. H. M. (2013). A checklist of common angiosperm weeds of Rajshahi district, Bangladesh. Int. Invent. J. Agric. Soil Sci. 1 : 1-6.
Mukherjee, S. S. and Hossain, A. (2020). Role of morphological variables of the visitor butterfly species in relation to their foraging behaviour on Lantana camara : Implication for conservation. Acta Ecol. Sin. 42 : 143-48.
Naidu, V. S. G. R. (2012). Hand Book on Weed Identification. Directorate of Weed Science Research, Jabalpur, India. pp. 354.
Safian, S. (2020). Development and early stages of Mylothris rhodope (Fabricius, 1775) (Lepidoptera : Pieridae). Metamorphosis 31 : 99-103.
Tahira, J. J. and Khan, S. N. (2017). Diversity of weed flora in onion fields of Punjab, Pakistan. Pak. J. Weed Sci. Res. 23 : 245-53.
Uludag, A., Uremis, I. and Arslan, M. (2018). Biological weed control. In : Non-chemical weed control, Khawar, J. and Bhagirath, S. C. (eds.). Academic Press. pp. 115-32.
Vanangamudi, K., Bhaskaran, M., Balavidhya, S. and Arthanari, P. M. (2013). Weed Seed Biology. Scientific Publishers.
Viliani, L., Bonelli, S., Vercelli, M., Roy, D. B. and Riva, F. (2022). Does a short Pollard walk transect capture butterfly and bee diversity? A test to inform pollinator monitoring and community science initiatives. Insect Conserv. Divers. pp. 1-10.
WSSA (2017). WSSA position statement on biological control of weeds. http://wssa.Net/wssa/weed/biologicalcontrol/ (accessed 23.01.22).
Zhao, N., Ze, S., Liu, N., Hu, L., Ji, M., Li, Q. and Yang, B. (2021). Exogenous phytohormone application and transcriptome analysis of Mikania micrantha provides insights for a potential control strategy. Genomics 113 : 964-75.
Barbercheck, M. E. and Wallace, J. (2021). Weed-insect interactions in annual cropping systems. Ann. Entomol. Soc. Am. 114 : 276-91.
Churi, P., Bhagwat, T., Manoj, P., Pal, A., Kunte, K. and Hiremath, S. (2022). Nectar plant, Calotropis gigantea. In : Butterflies of India, v. 3.28., Kunte, K., Sondhi, S. and Roy, P. (eds.). Indian Foundation for Butterflies. http://www.ifoundbutterflies. org/nectar-plants/318/Calotropis-gigantea.
De-Thabrew, W. V. (2014). A Manual of Water Plants. Author House, Bloomington, Indiana. pp. 290.
Devi, M. R., Madhavan, S., Baskaran, A. and Thangaratham, T. (2015). Ethno-medicinal aspects of weeds from paddy field in Thiruvarur district, Tamil Nadu, India. World J. Pharm. Res. 4 : 1909-20.
Elanchezhyan, K., Sathyan, T. and Manikandan, K. R. (2020). Butterflies : Amazing and fascinating insects. Biotica Res. Today 2 : 57-59.
EPPO (2021). EPPO Global database. In : EPPO Global database, Paris, France : EPPO. Retrived from https://gd.eppo.int/.
Fazal, H. and Muhammad, I. (2015). Ecology of weeds in wheat crops of Kalash valley, district Chitral, Hindukush Range, Pakistan. Pak. J. Weed Sci. Res. 21 : 425-33.
Freitas, J., Braun, D. V., Tonini, L., Serpa-Filho, A. and Alves-Araújo, A. (2019). A new herbivory report from South-eastern Brazil : Aristolochia hypoglauca Kuhlm (Piperales : Aristolochiaceae) as a host plant for Battus polydamas (Linnaeus, 1758) (Lepidoptera : Papilionidae). Entomol. News. 128 : 336-41.
Gunathilagaraj, K., Perumal, T. N. A, Jayaram, K. and Kumar, M. G. (1998). Some South Indian Butterflies. Nilgiri Wildlife and Environment Association. pp. 253.
Hari, T. (2020). Butterfly Diversity of Amrita Vishwa Vidyapeetham, Coimbatore, Tamil Nadu, India. J. Bombay Nat. Hist. Soc. 117 : 66-78.
Hill, G. M., Kawahara, A. Y., Daniels, J. C., Bateman, C. C. and Scheffers, B. R. (2021). Climate change effects on animal ecology : Butterflies and moths as a case study. Biol. Rev. 96 : 2113-26.
Hinz, H. L., Winston, R. L. and Schwarzländer, M. (2019). How safe is weed biological control? A global review of direct non-target attack. Q. Rev. Biol. 94 : 1-27.
Kanagaraj, B. and Kathirvelu, C. (2014). Diversity of butterflies in coastal belt of Cuddalore district, Tamil Nadu, India. Paper presented to UGC Sponsored National seminar on “Integrated approaches for sustainable Agriculture”, organized by Dept. of Agronomy, Annamalai University, during 27th March 2014. pp. 170.
Kanimozhi, C., Ramesh, V., Pathania, P. and Rameshkumar, A. (2020). Butterflies diversity (Lepidoptera : Papilionoidea) in agro-ecosystems of Tiruchirappalli district of Tamil Nadu, India. Uttar Pradesh J. Zoo. 41 : 15-35.
Karmakar, T., Nitin, R., Sarkar, V., Baidya, S., Mazumder, S., Chandrasekharan, V. K. and Kunte, K. (2018). Early stages and larval host plants of some north-eastern Indian butterflies. J. Threat. Taxa. 10 : 11780-799.
Kehimkar, I. (2016). BNHS Field Guides, Butterflies of India. Bombay Natural History Society. pp. 800.
Kiran, G. G. R. and Rao, A. S. (2013). Survey of weed flora in transplanted rice in Krishna agroclimatic zone of Andhra Pradesh, India. Pak. J. Weed Sci. Res. 19 : 45-51.
Lalonde, S., McCune, J. L., Rivest, S. A. and Kharouba, H. M. (2022). Decline in common milkweed along roadsides around Ottawa, Canada. Écoscience 29 : 25-37.
Macharia, I., Backhouse, D., Wu, S. B. and Ateka, E. M. (2016). Weed species in tomato production and their role as alternate hosts of tomato spotted wilt virus and its vector, Frankliniella occidentalis. Ann. Appl. Biol. 169 : 224-35.
Mahbubur, R. A. H. M. (2013). A checklist of common angiosperm weeds of Rajshahi district, Bangladesh. Int. Invent. J. Agric. Soil Sci. 1 : 1-6.
Mukherjee, S. S. and Hossain, A. (2020). Role of morphological variables of the visitor butterfly species in relation to their foraging behaviour on Lantana camara : Implication for conservation. Acta Ecol. Sin. 42 : 143-48.
Naidu, V. S. G. R. (2012). Hand Book on Weed Identification. Directorate of Weed Science Research, Jabalpur, India. pp. 354.
Safian, S. (2020). Development and early stages of Mylothris rhodope (Fabricius, 1775) (Lepidoptera : Pieridae). Metamorphosis 31 : 99-103.
Tahira, J. J. and Khan, S. N. (2017). Diversity of weed flora in onion fields of Punjab, Pakistan. Pak. J. Weed Sci. Res. 23 : 245-53.
Uludag, A., Uremis, I. and Arslan, M. (2018). Biological weed control. In : Non-chemical weed control, Khawar, J. and Bhagirath, S. C. (eds.). Academic Press. pp. 115-32.
Vanangamudi, K., Bhaskaran, M., Balavidhya, S. and Arthanari, P. M. (2013). Weed Seed Biology. Scientific Publishers.
Viliani, L., Bonelli, S., Vercelli, M., Roy, D. B. and Riva, F. (2022). Does a short Pollard walk transect capture butterfly and bee diversity? A test to inform pollinator monitoring and community science initiatives. Insect Conserv. Divers. pp. 1-10.
WSSA (2017). WSSA position statement on biological control of weeds. http://wssa.Net/wssa/weed/biologicalcontrol/ (accessed 23.01.22).
Zhao, N., Ze, S., Liu, N., Hu, L., Ji, M., Li, Q. and Yang, B. (2021). Exogenous phytohormone application and transcriptome analysis of Mikania micrantha provides insights for a potential control strategy. Genomics 113 : 964-75.