about
Delayed colonisation of Acacia by thrips and the timing of host-conservatism and behavioural specialisationSpecies differences in bumblebee immune response predict developmental success of a parasitoid fly.Transgenic Bt Cotton Does Not Disrupt the Top-Down Forces Regulating the Cotton Aphid in Central China.Egg load dynamics and the risk of egg and time limitation experienced by an aphid parasitoid in the fieldDo biopesticides affect the demographic traits of a parasitoid wasp and its biocontrol services through sublethal effects?Identification of top-down forces regulating cotton aphid population growth in transgenic Bt cotton in central China.Survival to parasitoids in an insect hosting defensive symbionts: a multivariate approach to polymorphic traits affecting host use by its natural enemy.Antagonistic interaction networks are structured independently of latitude and host guild.The impact of plant enemies shows a phylogenetic signal.Assessment of Sublethal and Transgenerational Effects of Pirimicarb on the Wheat Aphids Rhopalosiphum padi and Sitobion avenaeDeterminants of parasitoid communities of willow-galling sawflies: habitat overrides physiology, host plant and space.The Wide Potential Trophic Niche of the Asiatic Fruit Fly Drosophila suzukii: The Key of Its Invasion Success in Temperate Europe?Innate positive chemotaxis to pollen from crops and banker plants in predaceous biological control agents: towards new field lures?The Effects of Aphid Traits on Parasitoid Host Use and Specialist Advantage.Host range and community structure of avian nest parasites in the genus Philornis (Diptera: Muscidae) on the island of Trinidad.Encapsulation and Self-Superparasitism of Pseudapanteles dignus (Muesebeck) (Hymenoptera: Braconidae), a Parasitoid of Tuta absoluta (Meyrick) (Lepidoptera: Gelechiidae).Assessing European egg parasitoids as a mean of controlling the invasive South American tomato pinworm Tuta absolutaCharacterization of the natural enemy community attacking cotton aphid in the Bt cotton ecosystem in Northern China.Adaptive evolution of a generalist parasitoid: implications for the effectiveness of biological control agents.Plant-mediated resource partitioning by coexisting parasitoids.Experimental test of host specificity in a behaviour-modifying trematode.Role of the aphid species and their feeding locations in parasitization behavior of Aphelinus abdominalis, a parasitoid of the lettuce aphid Nasonovia ribisnigri.Species composition and seasonal dynamics of aphid parasitoids and hyperparasitoids in wheat fields in northern ChinaEcological versus phylogenetic determinants of trophic associations in a plant-leafminer-parasitoid food web.Self- and Conspecific Discrimination Between Unparasitized and Parasitized Green Peach Aphid (Hemiptera: Aphididae), by Aphelinus asychis (Hymenoptera: Aphelinidae).Sublethal and hormesis effects of beta-cypermethrin on the biology, life table parameters and reproductive potential of soybean aphid Aphis glycines.Selection by parasitoid females among closely related hosts based on volatiles: Identifying relevant chemical cues.From the Western Palaearctic region to beyond: Tuta absoluta 10 years after invading EuropeFirst exploration of parasitoids of Drosophila suzukii in South Korea as potential classical biological agentsNatural enemies of the South American moth, Tuta absoluta, in Europe, North Africa and Middle East, and their potential use in pest control strategiesAphid parasitoid generalism: development, assessment, and implications for biocontrol
P2860
Q28661383-59429A3B-FB49-4793-A837-1286DE53B5C5Q30300334-23F77A07-F9F6-492F-987C-3DD5BC8503BFQ30380021-511C74C2-7441-41F2-B346-4E6BF516CA6AQ33777836-D9483688-ABA5-4011-8670-65CAA749CD3EQ34038422-A810C84D-D0A0-40D8-8609-094C1B68539CQ34109687-FD90AD33-3CAE-406A-9F41-DA64F9FFAE2DQ34658564-EAD04D00-5FBF-402B-BA8F-31FF0C51688BQ34669760-1DBA2886-8E21-4DB4-8640-BC61F554F2CCQ35500914-52595511-A8B7-4030-947F-42B6CDDE0270Q35677160-E5339104-1430-4FA7-8FEA-9B8B9326F4E3Q35764800-A911F343-4EB6-4C5D-A990-E07FAC0BC94EQ35845446-7085AB4C-85DF-4811-9E27-328CE610D12FQ35909833-A36160CB-32D2-4419-8B88-F2361BD9AEECQ36054046-B0657F7C-E242-4874-85FE-6D550E05EE06Q36054150-9A2053F0-D163-4142-B8D3-7F1D6234DEBEQ36161404-4CEF6BA3-7367-4A4F-8FB3-82EA9433235DQ36353982-1D8DAF0A-45B2-4936-96B5-2784C3CA205EQ36796382-6AE58398-467A-47BC-8431-4AFA5F31D4B3Q37187881-AD58E1FA-4A44-405A-B30F-906B36EE7301Q39606876-2FAD3C2C-421E-4062-A145-304604D6F1F7Q40987516-2AB1B6C4-01FE-4E37-8979-4BF470F09E43Q41561340-AE4B3DBD-763C-4814-AAF9-976DDF7FF1A2Q42630050-19384D4B-AB48-4352-8C50-44893F3AC8BBQ46981130-67AF8E58-DEF2-4993-9A73-8E22B5657E57Q50211352-B75E78CC-08C8-4222-9787-834C302AF471Q50541886-511B1751-A689-48A1-B59B-0B78B4117D2CQ55333907-3B6E6415-D924-4540-8B7B-43636F2E6298Q56332486-79784FEE-4153-437E-AEEB-F2371BF50412Q56387888-B37C5512-2603-4195-B7FF-EC7879968696Q56461814-0CEC8559-A1E2-4F91-AF91-24E5074EE52FQ57257609-3AA1C9BB-0307-425F-AAAC-26F15861B5D9
P2860
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年学术文章
@wuu
2012年学术文章
@zh
2012年学术文章
@zh-cn
2012年学术文章
@zh-hans
2012年学术文章
@zh-my
2012年学术文章
@zh-sg
2012年學術文章
@yue
2012年學術文章
@zh-hant
name
Host phylogeny and specialisation in parasitoids.
@en
Host phylogeny and specialisation in parasitoids.
@nl
type
label
Host phylogeny and specialisation in parasitoids.
@en
Host phylogeny and specialisation in parasitoids.
@nl
prefLabel
Host phylogeny and specialisation in parasitoids.
@en
Host phylogeny and specialisation in parasitoids.
@nl
P2093
P2860
P1433
P1476
Host phylogeny and specialisation in parasitoids.
@en
P2093
Camille J Delebecque
George E Heimpel
Nicolas Desneux
Roger Blahnik
P2860
P304
P356
10.1111/J.1461-0248.2012.01754.X
P407
P577
2012-03-09T00:00:00Z