Let your enemy do the work: within-host interactions between two fungal parasites of leaf-cutting ants
about
Density-dependence and within-host competition in a semelparous parasite of leaf-cutting antsDisease resistance in a weaver ant, Polyrhachis dives, and the role of antibiotic-producing glandsThe expression and evolution of virulence in multiple infections: the role of specificity, relative virulence and relative doseDiet quality determines interspecific parasite interactions in host populations.When subterranean termites challenge the rules of fungal epizootics.Virulence of mixed fungal infections in honey bee broodGill monogenean communities (Platyhelminthes, Monogenea, Dactylogyridae) of butterflyfishes from tropical Indo-West Pacific Islands.Effect of multiple parasitic infections on the tolerance to pollutant contamination.The fundamental role of competition in the ecology and evolution of mutualisms.Differential impacts of shared parasites on fitness components among competing hosts.Superinfection and the coevolution of parasite virulence and host recovery.Dual effects of Metarhizium spp. and Clonostachys rosea against an insect and a seed-borne pathogen in wheat.Genetic diversity, virulence and fitness evolution in an obligate fungal parasite of bees.Order of inoculation affects the success of co-invading entomopathogenic fungi.Emergent fungal entomopathogen does not alter density dependence in a viral competitor.Antagonistic competition moderates virulence in Bacillus thuringiensis.Social heterosis and the maintenance of genetic diversity.Ants avoid superinfections by performing risk-adjusted sanitary care.Genetic caste polymorphism and the evolution of polyandry in Atta leaf-cutting ants.Parasite and host assemblages: embracing the reality will improve our knowledge of parasite transmission and virulence.Prior residency does not always pay off--co-infections in Daphnia.Antimicrobial defense shows an abrupt evolutionary transition in the fungus-growing ants.Reduced biological control and enhanced chemical pest management in the evolution of fungus farming in ants.Apparent synergy among defense mechanisms in subterranean termites (Rhinotermitidae) against epizootic events: limits and potential for biological control.Preliminary in vitro insights into the use of natural fungal pathogens of leaf-cutting ants as biocontrol agents.Resource competition between two fungal parasites in subterranean termites.Host heterogeneity is a determinant of competitive exclusion or coexistence in genetically diverse malaria infections.Camponotusfloridanus Ants Incur a Trade-Off between Phenotypic Development and Pathogen Susceptibility from Their Mutualistic Endosymbiont Blochmannia.Within-Host Competition between Two Entomopathogenic Fungi and a Granulovirus in Diatraea saccharalis (Lepidoptera: Crambidae).Differential gene expression inAcromyrmexleaf-cutting ants after challenges with two fungal pathogens
P2860
Q24801174-A1527D95-C83A-431C-B0CC-04632B5B61A9Q29012282-8EFA3EB5-5D5B-4FF6-9B74-3531C1B5A8F7Q31116567-0CD67FC6-7B6C-4552-86CA-F6347BBA3991Q34165020-17DB770D-FE2A-40E5-9D5E-FF3B10711D13Q34217990-ABD2ACDC-4836-4B39-B672-11CE81242093Q36061693-52E46E02-0D67-4600-B894-4A5F0ABE7D06Q36116494-C2C9FF3D-EE3F-4232-93FC-E6631E146304Q36119989-81FE24FB-6624-4CB6-8E5B-0D79FE8EC33DQ38009862-2C1E826E-A0D1-4CFE-8ADD-F058AA9817FFQ40142334-83CB1E29-4C73-4416-9F58-CC85EF2EC4E4Q41008474-E70F682D-3282-44E3-AB2B-7059578D4220Q41134630-EBBF10EF-CA8B-498B-A37A-9D69A3D7E53EQ41656671-3C4AAFBD-A3BE-431C-BB5A-6C5DC58527A3Q42007223-199F4F8E-0CD9-4947-A75E-22D85F7EFEA1Q42007317-14AA39DB-05F9-4E74-AE37-01640842DECBQ42016983-935A9564-3AF5-411A-A18C-A0D42A6DA91EQ46971485-1C02A87E-3522-4A81-9FF5-85E3C4EDE1BBQ49790341-2696BDC9-7D48-48E1-9814-90673684AE2CQ51596220-F13FBBE6-36AC-4496-AF49-900D43C3ABC0Q51624618-7A9EDCAA-80CA-4F81-833A-2FFAF32B7FF4Q51631397-58C06AF6-E23D-4EB9-9263-AB57AD9A70CDQ52688496-0F059D63-F73D-4BBB-991C-17FAF2DD8ED2Q52696859-1C5E9369-AE74-486A-8A64-D13445BCD8FEQ52709656-BA5F56B5-EB25-47C4-9BCE-EECC32C0F800Q52724207-B53377C7-7B6F-4194-856E-EEEAB09AF015Q52745155-6C68DF8B-4D72-4323-94CB-88AB268ECECFQ53889330-6E090B8B-54E0-48F8-9482-EF7D89A9E82DQ55408144-90078D15-19A9-4E5B-B634-3A153C0EC7E0Q55514541-675C93DD-697A-49C5-AE92-B427CB4CC2F2Q59117464-703BD027-C176-440C-8CD1-4F34E09D4313
P2860
Let your enemy do the work: within-host interactions between two fungal parasites of leaf-cutting ants
description
im Februar 2004 veröffentlichter wissenschaftlicher Artikel
@de
scientific article published on 01 February 2004
@en
wetenschappelijk artikel
@nl
наукова стаття, опублікована в лютому 2004
@uk
name
Let your enemy do the work: wi ...... parasites of leaf-cutting ants
@en
Let your enemy do the work: wi ...... parasites of leaf-cutting ants
@nl
type
label
Let your enemy do the work: wi ...... parasites of leaf-cutting ants
@en
Let your enemy do the work: wi ...... parasites of leaf-cutting ants
@nl
prefLabel
Let your enemy do the work: wi ...... parasites of leaf-cutting ants
@en
Let your enemy do the work: wi ...... parasites of leaf-cutting ants
@nl
P2860
P356
P1476
Let your enemy do the work: wi ...... parasites of leaf-cutting ants
@en
P2093
W O H Hughes
P2860
P304
P356
10.1098/RSBL.2003.0115
P407
P433
P478
271 Suppl 3
P577
2004-02-01T00:00:00Z