Transition rates between specialization and generalization in phytophagous insects.
about
New contributions to the molecular systematics and the evolution of host-plant associations in the genus Chrysolina (Coleoptera, Chrysomelidae, Chrysomelinae)Coevolution of exploiter specialization and victim mimicry can be cyclic and saltationalDiversity begets diversity: host expansions and the diversification of plant-feeding insectsSpecialization and generalization in the diversification of phytophagous insects: tests of the musical chairs and oscillation hypothesesDelayed colonisation of Acacia by thrips and the timing of host-conservatism and behavioural specialisationPhylogenetic correlates of extinction risk in mammals: species in older lineages are not at greater riskTracking niche variation over millennial timescales in sympatric killer whale lineagesSpecial plant species determines diet breadth of phytophagous insects: a study on host plant expansion of the host-specialized Aphis gossypii GloverDefensive traits exhibit an evolutionary trade-off and drive diversification in ants.Large-scale evolutionary patterns of host plant associations in the Lepidoptera.To speciate, or not to speciate? Resource heterogeneity, the subjectivity of similarity, and the macroevolutionary consequences of niche-width shifts in plant-feeding insects.Current constraints and future directions in estimating coextinction.Adaptive radiation and ecological diversification of Sulawesi's ancient lake shrimps.Evolutionary constraint and ecological consequences.The relationship between diet breadth and geographic range size in the butterfly subfamily Nymphalinae--a study of global scale.Deep phylogeographical structure and parallel host range evolution in the leaf beetle Agelasa nigriceps.Multi level ecological fitting: indirect life cycles are not a barrier to host switching and invasion.Diet specialization in a generalist population: the case of breeding great tits Parus major in the Mediterranean area.Host and habitat specialization of avian malaria in AfricaClimate-Driven Reshuffling of Species and Genes: Potential Conservation Roles for Species Translocations and Recombinant Hybrid Genotypes.Multilocus phylogeny and ecological differentiation of the "Eupelmus urozonus species group" (Hymenoptera, Eupelmidae) in the West-Palaearctic.What Can Phages Tell Us about Host-Pathogen Coevolution?Artificial neural networks in models of specialization, guild evolution and sympatric speciation.Hybridization between two cestode species and its consequences for intermediate host range.Revisiting the evolution of ecological specialization, with emphasis on insect-plant interactions.Host plant utilization, host range oscillations and diversification in nymphalid butterflies: a phylogenetic investigation.A trade-off between quantity and quality of offspring in haematophagous ectoparasites: the effect of the level of specialization.Polyphagy on unpredictable resources does not exclude host specialization: insects feeding on mushrooms.Tropical insect diversity: evidence of greater host specialization in seed-feeding weevils.Evolution of stenophagy in spiders (Araneae): evidence based on the comparative analysis of spider diets.Do plant-eating insect lineages pass through phases of host-use generalism during speciation and host switching? Phylogenetic evidence.The effect of host plants on genotype variability in fitness and honeydew composition of Aphis fabae.Genomic evidence that resource-based trade-offs limit host-range expansion in a seed beetle.Hybridization leads to host-use divergence in a polyphagous butterfly sibling species pair.Patterns of host plant utilization and diversification in the brush-footed butterflies.Ecological and genetic factors influencing the transition between host-use strategies in sympatric Heliconius butterflies.Genetic differentiation across North America in the generalist moth Heliothis virescens and the specialist H. subflexa.The evolutionary ecology of generalization: among-year variation in host plant use and offspring survival in a butterfly.The influence of early adult experience and larval food restriction on responses toward nonhost plants in moths.What determines host range in parasitoids? An analysis of a tachinid parasitoid community.
P2860
Q22674997-E7A8E055-A803-4F03-9945-D83FAA164F46Q24653157-84AADCBB-8097-47AC-8896-3AB74F6062B0Q25257582-EB658D80-626D-4CFF-95CF-56C012111B56Q28653264-2FA83BB7-946C-4E72-B602-9C05D5009337Q28661383-D3A77A2E-63AB-4D65-923F-399548AE0805Q28677892-34807B65-8400-4805-81B9-E317DFE1269BQ28681356-903FE76F-9B7E-4C3D-8C1D-38893E0569FAQ28709218-3BC50077-183D-4DD0-B36A-7F78BE02970FQ31142932-C3D72596-1F51-4880-A165-EF2C9EB859E0Q33515406-D804B53F-77B6-4DC2-A7F2-BA6F3F9190FFQ33517806-5D431E02-CD67-40B3-90DA-BBB39740F10BQ33523366-D0B8B7F2-840B-42D9-B65D-A35E8C1585C3Q33586472-D5B7E97E-7229-4744-B979-C9B383EF6199Q33640676-D9994FD0-154F-42FB-9833-635793E0A790Q33796709-0CB1AF43-9A5F-46C3-A04C-29ADD3BE61EFQ35049815-DA116105-D3AC-49EF-8504-E2B9F0837B89Q35579039-95913BAC-88B7-4551-A129-8F90D00D67E0Q35633983-AAC1E52A-7A14-4B9B-89C7-A5B060EBB833Q35658896-3D8249D6-E25C-4954-BC47-FA400FC88BE8Q35805127-3AA3877B-34A3-4A4C-85E5-0E1EB3434058Q35896958-8DD7095A-1612-48AF-8A37-98689A9B60E8Q36424693-CBF8340B-CC1C-4C68-BB42-91051C7CCF5DQ36571330-6DF366DD-C257-4B16-A28C-652A1845DFB9Q36646891-4F1EB229-65CF-442C-84E5-47D47BC3E2D1Q38024099-39A04CEC-55F2-489C-95D4-315B166D5FF0Q38174169-570F209C-1FA2-4E5E-9CE8-0B7B9B9F7E57Q39134252-DBD5DAE3-1236-46CD-A66D-06802BC64F85Q39177817-D9FC83EE-BD63-4F39-BE43-A59C3DD98EFFQ39346568-2A19E8A8-4DAE-422A-91C2-4851CE9E5A4DQ39346904-2B1055D8-A297-4425-A21A-8B4A1E72F9EAQ39400589-C761321E-967E-46EF-8426-51E4384E3235Q39735468-7C9D20D0-8F37-4359-AC2D-ED5AF0626BA8Q39808252-C5345C03-E078-4B90-A306-E70393A1F454Q40033656-A5F00FD0-28AF-4655-80E5-529F8737DDC5Q41642523-C3E515E2-2DA3-4CF1-B990-A8EB54675552Q42007021-2E85B29B-3840-40E8-8B46-FF2E75A577E1Q42017098-1D0C8823-1FC0-4CED-9D90-D6E2E53F200BQ42022196-99CE61D2-97EB-4E81-A724-5D19B8597A29Q42032885-C7E43D60-40A9-45A6-80E2-9DC6D4BE3DC9Q42048425-C69E9F4D-041B-4599-AAF4-703DB29185FC
P2860
Transition rates between specialization and generalization in phytophagous insects.
description
2002 nî lūn-bûn
@nan
2002年の論文
@ja
2002年学术文章
@wuu
2002年学术文章
@zh
2002年学术文章
@zh-cn
2002年学术文章
@zh-hans
2002年学术文章
@zh-my
2002年学术文章
@zh-sg
2002年學術文章
@yue
2002年學術文章
@zh-hant
name
Transition rates between specialization and generalization in phytophagous insects.
@en
Transition rates between specialization and generalization in phytophagous insects.
@nl
type
label
Transition rates between specialization and generalization in phytophagous insects.
@en
Transition rates between specialization and generalization in phytophagous insects.
@nl
prefLabel
Transition rates between specialization and generalization in phytophagous insects.
@en
Transition rates between specialization and generalization in phytophagous insects.
@nl
P2860
P1433
P1476
Transition rates between specialization and generalization in phytophagous insects.
@en
P2093
P2860
P304
P356
10.1111/J.0014-3820.2002.TB01482.X
P577
2002-08-01T00:00:00Z