The evolution of alternative parasitic life histories in large blue butterflies.
about
The re-discovered Maculinea rebeli (Hirschke, 1904): Host ant usage, parasitoid and initial food plant around the type locality with taxonomical aspects (Lepidoptera, Lycaenidae)Does the DNA barcoding gap exist? - a case study in blue butterflies (Lepidoptera: Lycaenidae)The evolution of nuclear auxin signallingPhylogeny of Myzostomida (Annelida) and their relationships with echinoderm hostsHost plant use drives genetic differentiation in syntopic populations of Maculinea alconPhylogenetic tests reject Emery's rule in the evolution of social parasitism in yellowjackets and hornets (Hymenoptera: Vespidae, Vespinae)Wolbachia infections mimic cryptic speciation in two parasitic butterfly species, Phengaris teleius and P. nausithous (Lepidoptera: Lycaenidae)Repeated independent evolution of obligate pollination mutualism in the Phyllantheae-Epicephala associationPhylogeny and classification of the Phengaris-Maculinea clade (Lepidoptera: Lycaenidae): total evidence and phylogenetic species conceptsHost-ant specificity of endangered large blue butterflies (Phengaris spp., Lepidoptera: Lycaenidae) in Japan.A cuckoo-like parasitic moth leads African weaver ant colonies to their ruinDevelopment of parasitic Maculinea teleius (Lepidoptera, Lycaenidae) larvae in laboratory nests of four Myrmica ant host species.Spatially and financially explicit population viability analysis of Maculinea alcon in The Netherlands.CR1 clade of non-LTR retrotransposons from Maculinea butterflies (Lepidoptera: Lycaenidae): evidence for recent horizontal transmissionHost ant independent oviposition in the parasitic butterfly Maculinea alcon.Kakusan4 and Aminosan: two programs for comparing nonpartitioned, proportional and separate models for combined molecular phylogenetic analyses of multilocus sequence data.Cuckoos versus hosts in insects and birds: adaptations, counter-adaptations and outcomes.Contrasting genetic structure of rear edge and continuous range populations of a parasitic butterfly infected by Wolbachia.Conflict, cheats and the persistence of symbioses.Top-down network analysis characterizes hidden termite-termite interactions.Partner abundance controls mutualism stability and the pace of morphological change over geologic time.Caterpillar seed predators mediate shifts in selection on flowering phenology in their host plant.The Relationship Between Ants and Lycaeides melissa samuelis (Lepidoptera: Lycaenidae) at Concord Pine Barrens, NH, USA.Comparative study of the morphology of stridulatory organs of the Iberian lycaenid butterfly pupae (Lepidoptera).High host-plant nitrogen content: a prerequisite for the evolution of ant-caterpillar mutualism?Dispersal and gene flow in the rare, parasitic Large Blue butterfly Maculinea arion.Ecology. Insect conservation.Evolutionary biology: butterfly mimics of ants.Host propagation permits extreme local adaptation in a social parasite of ants.Genomics of extreme ecological specialists: multiple convergent evolution but no genetic divergence between ecotypes of Maculinea alcon butterflies.Plant defences against ants provide a pathway to social parasitism in butterflies.Mimetic host shifts in an endangered social parasite of ants.Complete DNA barcode reference library for a country's butterfly fauna reveals high performance for temperate Europe.Establishing criteria for higher-level classification using molecular data: the systematics of Polyommatus blue butterflies (Lepidoptera, Lycaenidae)Incongruence between morphological and molecular markers in the butterfly genus Zizina (Lepidoptera: Lycaenidae) in New ZealandHost ant specificity of large blue butterflies phengaris (maculinea) (lepidoptera: lycaenidae) inhabiting humid grasslands in east-central europeMyrmica sabuleti (Hymenoptera: Formicidae) not necessary for the survival of the population of Phengaris (Maculinea) arion (Lepidoptera: Lycaenidae) in eastern Poland: Lower host-ant specificity or evidence for geographical variation of an endangeredThe ‘generalism’ debate: misinterpreting the term in the empirical literature focusing on dietary breadth in insectsHost ant use of the Alcon blue butterfly at the northern range marginOviposition site selection of the Alcon blue butterfly at the northern range margin
P2860
Q21189459-212A6865-6D1C-43D7-936E-F8DF5BDD7486Q21231986-A3261E7B-6605-46B0-BD77-AA894196C4AAQ21283855-4FC58C87-6EC5-421A-889D-D545D60958A3Q21999495-37F23053-8E09-4B4B-8C65-618CAD03EDB0Q28601027-D9FB712E-8ECC-4BC7-BAF8-17B44FC1534BQ28606852-12FB7A79-988E-4814-AB8D-F2CB480AEED4Q28661737-8FF09C0B-B934-4683-A4A2-71500BB5930DQ28754889-1B412C2C-E5F2-4972-B6DB-A3301A8AE092Q29026535-82730E76-BDB2-4EAF-82C7-12310A692508Q30370182-0553F23E-1B85-4F35-9D71-5E66B69960FCQ30386822-C3E51CC1-512A-49E0-8076-96244CCBFBD1Q30474826-69893BD5-289E-4545-A9A5-739835E578FEQ31066606-4F58E620-3CDB-47C0-98FC-EA256167EC76Q33288656-D6CDDE6A-301A-4734-971A-9BEACFC6B891Q33831460-29FCE4AF-BF7D-4916-A515-7FD0909114BDQ33904603-82968BD0-D3BA-4E8A-B62B-E5C55D8836A2Q34158406-FA4FC69C-D61D-407D-AAAE-AD6F6C0055BCQ34554328-E716064D-61AF-42B6-ACBF-AF2E1F4A3761Q37084909-DD617201-2F03-4B14-A0EC-052210DCD0A3Q37243197-1040B2DE-D81A-4F94-AA2A-C8BFE38E1193Q38877363-D5D6A65B-FBB2-4B06-9AF9-C280AB302A55Q39040915-0E8CD90F-8BA8-48F2-A650-C80078874AB5Q39828737-AD141C14-D926-4F0E-A36A-0D676B54B593Q42005651-C6BF1AAE-DB2E-4730-AB64-7232F79C6FA0Q42012666-9B5FA86D-752F-439C-8759-2E8D1B2E5FC8Q42013314-A8975B23-9877-41E3-ACD0-4913B8BDB515Q42024730-FFD3ED8F-59CE-4074-B241-30377005A2EAQ43522300-B87AFF99-675D-4106-B3DD-EFB1DCC8A09BQ44369165-4C57A207-8A6B-48F8-B46C-60737B3930EBQ46276723-5D195F0F-F86E-4350-B7EB-66FA2DEAC5F7Q51007932-DE06A887-78BC-4305-9C23-A8B2F2E338E3Q51544490-4F21728E-EF23-47AE-A90A-628DF0BEE8F5Q52708272-8F148FB7-6DF1-4B1A-A392-E9AEFCD95C28Q54553071-41D58B1C-8A8E-4523-A207-F40C5C73128CQ54560189-E14E2E5E-7B0B-4509-AF72-C5B01644B9C6Q56288580-80E1B369-38F4-4D47-8FF2-5F0FE6E35F4FQ56288581-63D085CB-A69A-43EF-8CFE-3A02688CE0C3Q57032030-1CBF127D-EC33-4F34-B78F-1559FB7C5EB9Q57247098-24D768D8-4614-43C7-862A-456696B26888Q57247102-AA3AE5C2-1D27-4E48-B5F6-8A5C6E127055
P2860
The evolution of alternative parasitic life histories in large blue butterflies.
description
2004 nî lūn-bûn
@nan
2004 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2004 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
name
The evolution of alternative parasitic life histories in large blue butterflies.
@ast
The evolution of alternative parasitic life histories in large blue butterflies.
@en
The evolution of alternative parasitic life histories in large blue butterflies.
@nl
type
label
The evolution of alternative parasitic life histories in large blue butterflies.
@ast
The evolution of alternative parasitic life histories in large blue butterflies.
@en
The evolution of alternative parasitic life histories in large blue butterflies.
@nl
prefLabel
The evolution of alternative parasitic life histories in large blue butterflies.
@ast
The evolution of alternative parasitic life histories in large blue butterflies.
@en
The evolution of alternative parasitic life histories in large blue butterflies.
@nl
P2093
P2860
P50
P356
P1433
P1476
The evolution of alternative parasitic life histories in large blue butterflies.
@en
P2093
André A. Mignault
David R. Nash
Nikolai P. Kandul
Shen-Horn Yen
Thomas D. Als
Yu-Feng Hsu
P2860
P2888
P304
P356
10.1038/NATURE03020
P407
P577
2004-11-01T00:00:00Z
P5875
P6179
1053133495