Ecological genetics of an induced plant defense against herbivores: additive genetic variance and costs of phenotypic plasticity.
about
Phenotypic Plasticity and Selection: Nonexclusive Mechanisms of AdaptationEvolution of phenotypic plasticity: patterns of plasticity and the emergence of ecotypesPlant behaviour and communicationPhenotypic plasticity opposes species invasions by altering fitness surface.Prickly poppies can get pricklier: ontogenetic patterns in the induction of physical defense traitsGenetic and environmental contributions to variation and population divergence in a broad-spectrum foliar defence of Eucalyptus tricarpa.Natural variation in herbivore-induced volatiles in Arabidopsis thaliana.Above- and belowground herbivory jointly impact defense and seed dispersal traits in Taraxacum officinale.Parental influences on pathogen resistance in brown trout embryos and effects of outcrossing within a river networkExplaining intraspecific diversity in plant secondary metabolites in an ecological context.Toward a population genetic framework of developmental evolution: the costs, limits, and consequences of phenotypic plasticityMidgut serine proteases and alternative host plant utilization in Pieris brassicae L.Allocation Costs Associated with Induced Defense in Phaeocystis globosa (Prymnesiophyceae): the Effects of Nutrient AvailabilityConstraints on the evolution of adaptive phenotypic plasticity in plants.Epigenetic programming of stress responses through variations in maternal care.Induced defences alter the strength and direction of natural selection on reproductive traits in common milkweed.Epigenetic variation in plant responses to defence hormones.Analysis of plant leaf metabolites reveals no common response to insect herbivory by Pieris rapae in three related host-plant speciesPhenotypic plasticity, costs of phenotypes, and costs of plasticity: toward an integrative view.Tests of adaptation: functional studies of pollen removal and estimates of natural selection on anther position in wild radish.Plant behavioural ecology: dynamic plasticity in secondary metabolites.The importance of aboveground-belowground interactions on the evolution and maintenance of variation in plant defense traits.Plants on early alert: glandular trichomes as sensors for insect herbivores.Here today, gone tomorrow: Short-term retention of pesticide-induced tolerance in amphibians.Epigenetic variation creates potential for evolution of plant phenotypic plasticity.Herbaceous plant species invading natural areas tend to have stronger adaptive root foraging than other naturalized species.Constitutive and herbivore-inducible glucosinolate concentrations in oilseed rape (Brassica napus) leaves are not affected by Bt Cry1Ac insertion but change under elevated atmospheric CO2 and O3.Role of trichomes in defense against herbivores: comparison of herbivore response to woolly and hairless trichome mutants in tomato (Solanum lycopersicum).Silencing jasmonate signalling and jasmonate-mediated defences reveals different survival strategies between two Nicotiana attenuata accessions.Genetics, phosphorus availability, and herbivore-derived induction as sources of phenotypic variation of leaf volatile terpenes in a pine species.MHC class I expression dependent on bacterial infection and parental factors in whitefish embryos (Salmonidae).Risk-induced hatching timing shows low heritability and evolves independently of spontaneous hatching in red-eyed treefrogs.Genotype, age, tissue, and environment regulate the structural outcome of glucosinolate activation.Genetic variation in defense chemistry in wild cabbages affects herbivores and their endoparasitoids.Brassica villosa, a system for studying non-glandular trichomes and genes in the Brassicas.Evidence of an evolutionary hourglass pattern in herbivory-induced transcriptomic responses.The evolution of cooperation by negotiation in a noisy world.An optimal defense strategy for phenolic glycoside production in Populus trichocarpa--isotope labeling demonstrates secondary metabolite production in growing leaves.The fitness costs of developmental canalization and plasticity.Genetic variation in pathogen-induced early hatching of toad embryos.
P2860
Q26744590-4048B7FC-4E2B-4773-8BB0-5E4548447C8EQ28239150-4C179E63-4515-45B0-8D41-0CC819B2F2CEQ28275788-081C78BC-46F4-4137-9CA2-4359B00BC72FQ33262246-6E22F469-73CD-4280-9049-7D937C4385A2Q33573481-0961687F-7180-4CCE-A3CB-C8D6CF48B468Q33811470-2FB4A999-8FB2-42DE-8DC3-AC823314ED8BQ33941100-ACCF6938-A9EE-455D-BA31-EA5A446B4CB8Q34462474-92675E61-C58D-4855-8587-AFF0C441AFD4Q34603871-44D79045-CB60-4077-B1C5-CD78A5776885Q35015487-68AC4817-044D-4C3F-B671-BDA679DB1FA3Q35152339-91934B3E-7D72-42D0-9F19-A979D7767B67Q35233674-DA14E16E-6D9A-40FA-95BB-EE85CA6A74B2Q35682102-307F797E-1164-4DED-9595-1696835EB7BBQ36067530-C962BC0C-B51C-4435-B239-9209105786BEQ36092264-595894F7-3237-4DEE-AC2B-52CE9C84E4A8Q36263534-BC7999D2-D064-46D6-8AFF-E7B9EEF7E9CDQ36371726-3C38FA34-BBB8-4FB0-968F-D97C6F94CB29Q37179845-94972FB6-9033-42BD-B6EA-81CB5EAB0454Q37193336-00CEC5E4-0718-4E79-9D1F-AC6D764927E1Q37241105-C1418464-B3D9-4638-B54E-B5E00BBC459DQ37330578-D064F517-37F5-466D-A6EB-D865E4DCC7D0Q37347725-5FC82814-169C-45BE-BA92-B43331C38829Q38434328-394B7958-6655-4DB2-8379-DD257548A99EQ39010946-4A394CB4-9F7A-4AA5-AA23-CBCDD149765CQ39628147-8C4F6C73-18FF-498A-AF83-C14587132840Q39974113-E20D0445-614C-4701-928B-7A687C65286AQ40166438-186EFF64-8412-44A2-A571-DB0D44A529C3Q42013286-D6154944-AFB7-4611-845B-5E484922EEB4Q42028409-B9902300-4226-4D16-AF5F-82B0F5002024Q42039916-65F0DD3D-D3DD-4CA0-AE01-84A360DEC4CCQ44290055-2A46F890-D6E2-4BD2-B7A6-E22520B43D15Q44485229-F3FF063A-3D56-460D-B824-88C828A0C908Q45965119-1104DD1B-DEC4-4CD0-89C0-8E11DA92B01EQ46511213-4DB74B7E-E62F-4F75-8965-13130ED46822Q46894006-1F179D10-0004-4167-A8D6-62A6C28CC320Q47207603-47DC0CA4-0949-4B9D-8713-160DC8647B7BQ50107399-0B3714A1-980F-4686-8A49-7969826DF74EQ51741241-50776ADC-0D5D-40B7-A0C7-D98D6934F4F1Q51940367-8F0C0078-2549-4555-AEFC-B7497D6E8964Q51962944-9184216D-4483-497A-86B2-2B3B03A17F44
P2860
Ecological genetics of an induced plant defense against herbivores: additive genetic variance and costs of phenotypic plasticity.
description
2002 nî lūn-bûn
@nan
2002年の論文
@ja
2002年論文
@yue
2002年論文
@zh-hant
2002年論文
@zh-hk
2002年論文
@zh-mo
2002年論文
@zh-tw
2002年论文
@wuu
2002年论文
@zh
2002年论文
@zh-cn
name
Ecological genetics of an indu ...... osts of phenotypic plasticity.
@en
Ecological genetics of an indu ...... osts of phenotypic plasticity.
@nl
type
label
Ecological genetics of an indu ...... osts of phenotypic plasticity.
@en
Ecological genetics of an indu ...... osts of phenotypic plasticity.
@nl
prefLabel
Ecological genetics of an indu ...... osts of phenotypic plasticity.
@en
Ecological genetics of an indu ...... osts of phenotypic plasticity.
@nl
P2093
P2860
P1433
P1476
Ecological genetics of an indu ...... osts of phenotypic plasticity.
@en
P2093
Anurag A Agrawal
Jeffrey K Conner
Marc T J Johnson
Roger Wallsgrove
P2860
P304
P356
10.1111/J.0014-3820.2002.TB00145.X
P577
2002-11-01T00:00:00Z