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Journal articles on the topic 'Lampides boeticus'

Author: Grafiati
Published: 4 June 2021
Last updated: 10 February 2022

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1

Miah, Md Kowser, Sajeda Akand, Nousheen Parven, and MA Bashar. "Developmental stages of Lampides boeticus (Lepidoptera : Lycaenidae) and their association with the host plant Lupinus nanus (Fabaceae)." Dhaka University Journal of Biological Sciences 24, no. 1 (January 15, 2015): 43–52. http://dx.doi.org/10.3329/dujbs.v24i1.46307.

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Developmental stages in the life cycle of lycaenid butterfly, Lampides boeticus (Lepidoptera : Lycaenidae) and their association with the host plant (Lupinus nanus) (Fabaceae) were examined both in the laboratory under 29 ± 3ºC temperature with RH 78 ± 2% and field conditions. The oviposition behaviour, incubation and larval‐pupal period of the butterfly and its association with L. nanus were studied. The host plant association and duration of developmental stages were given importance. Duration of life cycle (egg to adult) was 19 ‐ 21 days. Eggs, four larval instars and pupal stages were distinct. Lampides boeticus was found deeply associated with L. nanus to complete its life cycle. This association with host plant was characterized and evidenced by the use of host leaves, flowers, buds and seeds ( pods) both in the larval (11 ‐ 13 days) and pupal (4 ‐ 6 days) stages. The incubation period, different larval instars and pupal stage were found to be associated deeply with the phenological phases of the host plant. Dhaka Univ. J. Biol. Sci. 24(1): 43-52, 2015 (January)
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2

Vineetha, V., B. Ramesha, K. M. Sreekumar, Madhu Subramanian, and T. Santhosh Kumar. "Eco-friendly management of the pod borers Maruca vitrata (Fabricius) and Lampides boeticus (L.) of yard long bean under field conditions." ENTOMON 45, no. 4 (December 31, 2020): 259–64. http://dx.doi.org/10.33307/entomon.v45i4.569.

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Investigations on management of pod borers [Maruca vitrata (Fabricius), Lampides boeticus (L.)] of yard long bean (Vigna unguiculata subsp. sesquipedalis (L.) Verdcourt) under field conditions revealed that Spinosad 45 SC followed by Bt formulation 2× 108 cfu/ml and Beauveria bassiana @ 107 spores/ml of water were the most effective treatments in preventing pod borer infestation as well as controlling number of pod borer larvae.
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3

Moorthy, P. N. Krishna, and K. Srinivasan. "Distribution and larval behaviour of Lampides boeticus in vegetable lablab." International Journal of Tropical Insect Science 10, no. 04 (August 1989): 491–96. http://dx.doi.org/10.1017/s1742758400021524.

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4

Manisha, Tarun Verma, Gulshan Kumar, and Roshan Lal. "Biology of blue butterfly lampides boeticus (L.) on field pea." Indian Journal of Entomology 82, no. 4 (2020): 830–32. http://dx.doi.org/10.5958/0974-8172.2020.00152.2.

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5

Okamoto, Takashi. "Toxicity of insecticides to pea blue, Lampides boeticus (Linnaeus), on peas." Annual Report of The Kansai Plant Protection Society 60 (May 31, 2018): 65–69. http://dx.doi.org/10.4165/kapps.60.65.

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6

P. Sontakke, Pritin. "Life Cycle of the Pulse Blue Butterfly, Lampides boeticus (Linnaeus) (Lepidoptera: Lycaenidae) on Cowpea." International Journal of Current Microbiology and Applied Sciences 7, no. 2 (February 10, 2018): 2377–81. http://dx.doi.org/10.20546/ijcmas.2018.702.290.

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7

Lohman, David J., Djunijanti Peggie, Naomi E. Pierce, and Rudolf Meier. "Phylogeography and genetic diversity of a widespread Old World butterfly, Lampides boeticus (Lepidoptera: Lycaenidae)." BMC Evolutionary Biology 8, no. 1 (2008): 301. http://dx.doi.org/10.1186/1471-2148-8-301.

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8

Obregón, R., S. de Haro, D. Jordano, and J. Fernández Haeger. "Lampides Boeticus (Lepidoptera: Lycaenidae) Preys on Cocoons of its Own Specific Parasitoid Cotesia Specularis (Hymenoptera: Braconidae)." Journal of Insect Behavior 25, no. 5 (February 2, 2012): 514–17. http://dx.doi.org/10.1007/s10905-012-9318-8.

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9

Kosterin, O. E. "Occasional photographic records of butterflies (Lepidoptera, Papilionoidea) in Cambodia. 1. The coastal Cardamom foothills (SW Cambodia), 2010-2018." Acta Biologica Sibirica 5, no. 1 (February 19, 2019): 84–105. http://dx.doi.org/10.14258/abs.v5.i1.5196.

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Results are presented of occasional photographic records of butterflies (Lepidoptera, Papilionoidea) made along with studies on the Odonata fauna in 63 localities of four coastal provinces of SW Cambodia (Koh Kong, Preah Sihanouk, Kampot and Kep) in 2010-2018. In total, 151 identified and 15 provisionally identified species are listed; 39 identified species (Troides helena, Graphium agetes, Prioneris philomone, Abisara echerias, Arhopala abseus, A. aedias, A. aida, A. alitaeus, A. atosia, A. avatha, A. bazaloides, A. elopura, Cigaritis lohita, Sinthusa nasaka, Lampides boeticus, Udara selma, Zizeera karsandra, Danaus affinis, Euploea phaenareta, Parantica agleoides, Cyrestis themire, Euthalia malaccana, E. phemius, Discophora timora, Lethe mekara, Badamia exclamationis, Burara harisa, Odina decorata, Tagiades menaka, Ancistroides nigrita, Gangara lebadea, Halpe zola, Hyrtaotis adrastus, Lotongus calathus, Matapa aria, M. sasivarna, Pirdana hyela, Suastus minutus, Thoressa masoni) and 8 provisionally identified species (Poritia cf. erycinoides, Nacaduba cf. pavana, ?Cephrenes acalle, Erionota cf. torus, Halpe cf. hauxvillei, Notocrypta cf. clavata, Potanthus cf. subochraceus, ?Polytremis lubricans) are for the first time reported for Cambodia. These, as well as some other provisionally identified and unidentified species are illustrated. The only not so expected record is a Sondaic species Arhopala athada.
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10

HONDA, Hiroshi, Tetsuro SHINODA, and Yoshiharu MATSUMOTO. "Oviposition and larval feeding habits of the pea blue, Lampides boeticus L. (Lepidoptera:lycaenidae) on the lablab bean, Dolichos lablab L." Japanese journal of applied entomology and zoology 29, no. 1 (1985): 26–30. http://dx.doi.org/10.1303/jjaez.29.26.

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11

Palem, Harinath. "Eco Biology and Life Cycle of the Pea Blue Butterfly, Lampides boeticus (Linnaeus) (Lepidoptera: Rhopalocera: Lycaenidae) from Southern Andhra Pradesh, India." South Asian Journal of Life Sciences 3, no. 1 (2015): 14–21. http://dx.doi.org/10.14737/journal.sajls/2015/3.1.14.21.

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12

Chaguthi, Gyanu, and Urmila Dyola. "Insect Visitors of White Clover (Trifolium Repens L) and Their Relation With Environmental Variables in the Premises of Bhaktapur Multiple Campus, Nepal." Journal of Institute of Science and Technology 22, no. 2 (April 9, 2018): 86–91. http://dx.doi.org/10.3126/jist.v22i2.19598.

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White clover plant, Trifolium repens L. one of the important forage crop, entirely depends on insects for its pollination. The research aims to study diversity and relative abundance of insect visitors of white clover and their relation with environmental variables in open ground of Bhaktapur Multiple Campus. Quadrate sampling method was used to explore diversity of insect visitors. Observations of the insects were conducted at morning (09:00 AM to 10:00 AM), noon (12:00 PM to 01:00 PM) and afternoon (3 PM to 4 PM) each day during study period. There were 3472 individuals of insect collected that belong to 20 species in three orders: Hymenoptera (69%), Lepidoptera (27%) and Diptera (4%). Number of individuals of visitors were comparatively higher at noon (1426) than in morning (1256) and lower in afternoon (790 individuals). Number of species found in morning and noon were same (20 species) whereas number of species found in evening was less (16 species). Apis cerana and Lampides boeticus are the most dominant species belonging to orders Hymenoptera and Lepidoptera respectively. The relation of diversity with environmental variables was correlated by using Multivariate analysis test. The test showed significant effect of light intensity, humidity, temperature and the latter one was the most influential factor on the composition of species. Journal of Institute of Science and TechnologyVolume 22, Issue 2, January 2018 Page: 86-91
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13

Singh, Ram Subhag, Paras Nath, and Akhilesh Kumar. "Effect of biorational approaches for the management of blue butterfly (Lampides boeticusL.) in Pigeonpea." Agricultural Science Digest - A Research Journal 33, no. 4 (2013): 299. http://dx.doi.org/10.5958/j.0976-0547.33.4.029.

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14

Mishra, Ramya Ranjan, Alok Ranjan Sahu, Sobha Chandra Rath, and Jogeswar Panigrahi. "Genetic linkage mapping of loci conferring resistance to Blue butterfly (Lampides boeticusL.) and Plume moth(Exelastis atomosaWals.) on chromosome 2 (CcLG02) in Pigeonpea." Botany Letters 163, no. 2 (March 15, 2016): 217–30. http://dx.doi.org/10.1080/23818107.2016.1151825.

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15

Kumar, A. Sanjeevi, and N. Muthukrishnan. "In-Vivo and field evaluation of spinetoram 12 SC against Lampides boeticus on pigeonpea." LEGUME RESEARCH - AN INTERNATIONAL JOURNAL, OF (August 30, 2017). http://dx.doi.org/10.18805/lr-3644.

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The young larvae of L. boeticus damage flowers and pods. A new biological insecticide molecule, spinetoram 12 SC was evaluated for acute toxicity on greenhouse environment reared L. boeticus and persistence on pigeonpea pods at laboratory; and effect on L. boeticus on pigeonpea at field conditions during 2012-2013 and 2013-2014. Acute toxicity studies revealed that LC50‘s of spinetoram on third instar larvae after 24, 48 and 72 hours after treatment were 6.71, 2.23 and 1.28 ppm respectively. In persistence studies, spinetoram 12 SC 27 g a.i./ha was upto 11 DAT and 14 DAT for spinetoram 12 SC 36 and 45 g a.i./ha. More than 50 per cent mortality was observed in spinetoram 12 SC at 45 g a.i./ha upto 9 DAT, spinetoram 12 SC at 27 and 36 g a.i./ha, spinosad 45 SC 78 g a.i./ha and emamectin benzoate 5 SG at 11 g a.i./ha upto 7 DAT, monocrotophos 36 SL at 500 g a.i./ha upto 5 DAT, respectively. Results indicated that spinetoram 12 SC was significantly effective at 36 and 45 g a.i./ha when sprayed thrice at 15 days interval and minimized the incidence of L. boeticus on pigeonpea plants and increases the grain yield. All the spinetoram doses did not show any phytotoxic symptoms on pigeonpea plants.
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16

Soundararajan, R. P., and N. Chitra. "Field evaluation of mungbean (Vigna radiata L.) germplasm for resistance against pod borer complex." LEGUME RESEARCH - AN INTERNATIONAL JOURNAL, May 6, 2017. http://dx.doi.org/10.18805/lr.v0i0.7840.

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Field evaluation of 44 mungbean Vigna radiata (L.) germplasm was carried out during kharif and rabi 2012 for screening against resistance to pod borer complex. The population of legume pod borer, Maruca vitrata (Geyer) larva was assessed at flowering stage. The damage in the pods were estimated in the harvested pods for different borer pests viz., M. vitrata, gram pod borer Helicoverpa armigera (Hub.), blue butterfly Lampides boeticus L., pod bug Riptortus sp. Based on cumulative pod damage, Pest Score Index (PSI) was worked out for all the germplasm. The results revealed that population of legume pod borer larva were more during kharif (0.33- 3.75/plant) than rabi (0.13-1.50/plant) season. The damage based scoring, PSI indicated that none of the mungbean germplasm was recorded as resistant. However, five entries were moderately resistant with PSI 3 during kharif. In rabi season two entries were recorded as moderately resistant. Four germplasm viz., KM 2-B, NPM 3-1, VGG 90, VGG 04-016 grouped as moderately resistant in both seasons with consistency in their level of resistance against pod borer complex.
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17

Gehlot, L., and A. K. Prajapat. "Seasonal Incidence of Insect Pests on Mungbean (Vigna radiata) in Correlation with Meteorological data." Agricultural Science Digest - A Research Journal, Of (October 13, 2020). http://dx.doi.org/10.18805/ag.d-5222.

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Background: Mung bean is important pulse crop in India due to its nutritional value. Its grain contains protein, fat, carbohydrate, vitamin and minerals therefore human uses it in various ways in food. Mung bean crop cultivated in kharif, rabi and summer season in India. Various species of insect pests are infested to mung bean crop and cause very harmful effect to crop and farmer. These pests decrease productivity and quality of mung bean. Methods: Field experiment was carried out for the study of seasonal incidence of insect pests on RMG-62 variety of green gram during kharif season 2019. Mung bean was grown on a plot size of 25 m × 25m with 50 cm row to row and 20 cm plant to plant spacing. Randomly selected 20 plants from weekly interval to record population of insect pests. The population of jassid and whitefly was recorded by counting number of pests on 2 upper, 2 middle and 2 lower leaves of a plant whereas population of aphid was recorded by counting number of aphid on 10 cm twig/plant. Result: The mean population of aphid, jassid and whitefly were recorded. Incidence of aphid started during 33th standard week with 0.9 aphid/10cm twig/plant, jassid and whitefly started during 32th standard week with 0.3 jassid/6 leaves/plant and 2.1 whitefly/6 leaves/plant, respectively. Peak mean population of aphid, jassid and whitefly reached during 36th standard week with 10.2 aphid/10cm twig/plant, 10.1 jassid/6 leaves/plant and 14.1 whitefly/6 leaves/plant, respectively. Simultaneously six species of insect pests also infested green gram, these were Mylabris pustulata, Helicoverpa armigera, Trichoplusia ni., Lampides boeticus, Spoladea recurvalis and Diaphania indica. The population of aphid, jassid and whitefly positively correlated with temperature. Population of aphid and whitefly had positive correlation with humidity, whereas jassid population had positive correlation with minimum humidity and negative correlation with maximum and average humidity. All three pests expressed negative correlation with rainfall.
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