A meta-analysis of predation risk effects on pollinator behaviour.
about
Selection for predation, not female fecundity, explains sexual size dimorphism in the orchid mantises.Bees eavesdrop upon informative and persistent signal compounds in alarm pheromones.Females are the brighter sex: Differences in external fluorescence across sexes and life stages of a crab spider.Fearful foragers: honey bees tune colony and individual foraging to multi-predator presence and food quality.Competitive impacts of an invasive nectar thief on plant-pollinator mutualisms.Flower-Visiting Butterflies Avoid Predatory Stimuli and Larger Resident Butterflies: Testing in a Butterfly Pavilion.Unravelling the role of allochthonous aquatic resources to food web structure in a tropical riparian forest.Foragers of sympatric Asian honey bee species intercept competitor signals by avoiding benzyl acetate from Apis cerana alarm pheromone.Multitasking in a plant-ant interaction: how does Acacia myrtifolia manage both ants and pollinators?Non-consumptive predator effects shape honey bee foraging and recruitment dancing.Density-mediated indirect effects from active predators and narrow habitat domain prey.Terrestrial vertebrate predators drive the structure and functioning of aquatic food webs.Causes of variation in biotic interaction strength and phenotypic selection along an altitudinal gradient.Indirect effects of mutualism: ant-treehopper associations deter pollinators and reduce reproduction in a tropical shrub.Florivory indirectly decreases the plant reproductive output through changes in pollinator attraction.A heterogeneous landscape does not guarantee high crop pollination.Floral asymmetry and predation risk modify pollinator behavior, but only predation risk decreases plant fitness.Ant–aphid interactions increase ant floral visitation and reduce plant reproduction via decreased pollinator visitationInvasive species management restores a plant-pollinator mutualism in HawaiiCompetition for food in 2 populations of a wild-caught fishEconomic and ecological implications of geographic bias in pollinator ecology in the light of pollinator declines
P2860
Q28591224-00B9DF13-B80A-4655-8590-5B1B0E351CD8Q28833265-70CD5FA9-1273-4446-A00B-537F3E8B6C09Q33632275-4F9CF1A4-9032-4647-B987-2F4A044D46A1Q35010122-2C023298-B3F1-4E63-AE8F-5771A9E7D8D3Q35209290-A072FC5C-B406-4B5B-8B7A-D383B544190CQ36192745-68AD2B46-2C3E-4C78-94E9-FFA5BB4E817FQ39388322-ABA79A0E-DA6F-40C7-8830-FE4DA21F0A0EQ39586716-E9C4187B-1031-4DC6-8297-470F674FD607Q41604511-2CC9AD6B-C871-4AE9-8FFE-319D19F2F29EQ41894433-84BE1F4A-3547-4AF3-8340-23FC2832F933Q46013709-C041F03E-9E66-4DAA-B77C-C4E7CB1982AAQ46373179-F45513D6-F7B3-4C6D-BF45-790892A89A2DQ46924132-F08D1A03-F8FD-43E4-B757-435976C919A8Q48107064-3CC0E866-2723-4711-9BDB-29DBC8D93CDDQ51147865-BDA043D1-FDDC-45AF-9CDB-E4ECC4E1A7AEQ51268046-3F72A660-DE9F-474D-93F5-46C149663F0EQ51307773-F9DEB3C1-36F7-4193-965E-DCEB9C134086Q56433490-8F29F7DB-DB75-4788-B117-B61CE4B4D21DQ56517924-7081E3B7-B72E-40D7-A50C-A494D2F1D47AQ57486057-20180DE9-F663-47A7-A4A5-3C3EE932A3C3Q58814556-2CF20659-E8C8-47DB-8C81-A14C15D21385
P2860
A meta-analysis of predation risk effects on pollinator behaviour.
description
2011 nî lūn-bûn
@nan
2011 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2011 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
name
A meta-analysis of predation risk effects on pollinator behaviour.
@ast
A meta-analysis of predation risk effects on pollinator behaviour.
@en
type
label
A meta-analysis of predation risk effects on pollinator behaviour.
@ast
A meta-analysis of predation risk effects on pollinator behaviour.
@en
prefLabel
A meta-analysis of predation risk effects on pollinator behaviour.
@ast
A meta-analysis of predation risk effects on pollinator behaviour.
@en
P2860
P1433
P1476
A meta-analysis of predation risk effects on pollinator behaviour.
@en
P2093
Pablo A P Antiqueira
P2860
P304
P356
10.1371/JOURNAL.PONE.0020689
P407
P577
2011-06-13T00:00:00Z