The Influence of Interspecific Competition and Other Factors on the Distribution of the Barnacle Chthamalus Stellatus
about
A "shallow phylogeny" of shallow barnacles (chthamalus)Metamorphosis in the cirripede crustacean Balanus amphitriteCompetitive interactions between invasive Nile tilapia and native fish: the potential for altered trophic exchange and modification of food websSemidiurnal temperature changes caused by tidal front movements in the warm season in seabed habitats on the georges bank northern margin and their ecological implications.Effects of habitat-forming species richness, evenness, identity, and abundance on benthic intertidal community establishment and productivityThe niche, biogeography and species interactionsHard clam walking: Active horizontal locomotion of adult Mercenaria mercenaria at the sediment surface and behavioral suppression after extensive sampling.Variable mating behaviors and the maintenance of tropical biodiversity.Invertebrates, ecosystem services and climate change.Biotic interactions mediate the expansion of black mangrove (Avicennia germinans) into salt marshes under climate change.How will biotic interactions influence climate change-induced range shifts?Predicting free-space occupancy on novel artificial structures by an invasive intertidal barnacle using a removal experiment.Excess of mutational jackpot events in expanding populations revealed by spatial Luria-Delbrück experiments.Predicting potential responses to future climate in an alpine ungulate: interspecific interactions exceed climate effects.Can conservation biologists rely on established community structure rules to manage novel systems? ... Not in salt marshes.Predicting competitive shifts and responses to climate change based on latitudinal distributions of species assemblages.Differential effects of climate and species interactions on range limits at a hybrid zone: potential direct and indirect impacts of climate change.Competing species in a changing climate: effects of recruitment disturbances on two interacting barnacle species.Competition and facilitation may lead to asymmetric range shift dynamics with climate change.Character displacement: in situ evolution of novel phenotypes or sorting of pre-existing variation?Comparative ecology of North Atlantic shores: do differences in players matter for process?Climate and recruitment of rocky shore intertidal invertebrates in the eastern North Atlantic.Relative effects of environment and direct species interactions on the population growth rate of an exotic ascidian.Diversification of sympatric broadcast-spawning limpets (Cellana spp.) within the Hawaiian archipelago.Climate determines upper, but not lower, altitudinal range limits of Pacific Northwest conifers.Variation in community structure across vertical intertidal stress gradients: how does it compare with horizontal variation at different scales?Long-term dynamics of biotic and abiotic resistance to exotic species invasion in restored vernal pool plant communities.Recruitment facilitation can promote coexistence and buffer population growth in metacommunities.Gridded meteorological data as a resource for mechanistic macroecology in coastal environments.Ecology. Communities under climate change.More than a meal… integrating non-feeding interactions into food webs.Why do species co-occur? A test of alternative hypotheses describing abiotic differences in sympatry versus allopatry using spadefoot toads.Interactions between multiple recruitment drivers: post-settlement predation mortality and flow-mediated recruitment.Meta-ecosystem engineering: nutrient fluxes reveal intraspecific and interspecific feedbacks in fragmented mussel beds.Is regional species diversity bounded or unbounded?Positive and negative effects of habitat-forming algae on survival, growth and intra-specific competition of limpets.Intergametophytic selfing and microgeographic genetic structure shape populations of the intertidal red seaweed Chondrus crispus.Ecological and physiological controls of species composition in green macroalgal blooms.When should species richness be energy limited, and how would we know?Aggression and food resource competition between sympatric hermit crab species
P2860
Q21143779-63495E5E-0C34-4E2C-A5E7-D8B4AE17446CQ27302539-B82597C7-D9FC-4E1E-AA47-BAB61E43F728Q27315096-6603D47C-6E5F-466B-9F49-E045841554FFQ27317067-88615D9B-20C9-40F9-A087-A3DFDA4F0BCEQ27340381-85A5C14C-63C5-4C09-85E9-C0C950DD4256Q28742890-9AC1CE63-D4D9-4901-AEB4-3BC065682B26Q30252997-77821A5C-A63F-442B-8449-22B553334480Q30279238-27BE6AAB-6C28-4FB3-A859-A53E3D5C381DQ30580409-F8F538D2-A810-4027-9C05-5F99F4F0835CQ30615614-55FFED53-D6EB-41CD-B25A-8B63B1BAA62FQ30656649-F54965F2-17BD-47A7-B693-4232AE72410FQ30666194-F0125DCF-BABC-4E8D-8806-C36B2D04D48EQ30820685-5D90EA75-3C59-4044-BCF6-0ED9853CE0EDQ30832918-5D277DF3-CB6D-473B-A406-210B4B582859Q30860075-A27AE273-17D8-49E5-8D93-E38A11A63E58Q30984648-A583BC99-F097-4DE0-85F5-A6D12960A632Q31030554-06237578-DEF7-4624-AA58-F2D19D906542Q31040262-A0FDBFFA-984A-4847-B246-76AA1D270D68Q31159632-B2EB5319-A398-4F35-B91F-C7430C9FAC3DQ33274246-1336C4F4-924F-4857-81B6-D943B21F1CF4Q33394664-E74120DA-DA53-41F2-B9E5-1EB84F09F2C4Q33394677-5441EAD6-2C19-4614-9441-BD93DC5A49E4Q33827418-35820D5A-4F78-40F3-A796-E66E335F0E3AQ33868014-7C1A31C5-2EFF-4C81-A931-032FCF503171Q33973885-843E08AD-A879-4B42-9AA4-57D5B103014BQ34009816-D1D5B74E-4880-47B2-8777-09C3E63EF4BEQ34027623-30C799F9-D03C-4095-9551-EA4DEF34D266Q34043721-800C9376-1BC8-4D74-ACED-AC2D4EFA1B3CQ34071989-D9882CA9-94CA-484E-9EC5-E71B87D69F5DQ34083621-DFC9BA8B-9C4D-4464-AD66-22F3411D48CDQ34152934-99343AB0-B90E-4A5B-8AF6-BACA8BDC7299Q34221200-E53EBB1B-CB15-49F7-9858-821905B24D6FQ34228569-92DA2B87-5769-40A4-B22E-C4B20BE28A6BQ34280246-37652757-99DC-42F5-8E7A-B7B0941B2E7DQ34408848-E35E641E-0719-41A4-BE54-96CDAE526DC3Q34516974-61B54F06-F689-4AAC-BD46-7611C8961AABQ34537986-54F008BF-2376-49F3-9459-65E6697C8D22Q34785761-13C12058-476C-4693-B97B-65DE70DA6793Q35083845-73E08345-FFD3-4CCB-A30B-F79907632DB6Q35121906-8291E883-915C-417D-AEB0-143DAAB34733
P2860
The Influence of Interspecific Competition and Other Factors on the Distribution of the Barnacle Chthamalus Stellatus
description
1961 nî lūn-bûn
@nan
1961 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
1961 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
1961年の論文
@ja
1961年論文
@yue
1961年論文
@zh-hant
1961年論文
@zh-hk
1961年論文
@zh-mo
1961年論文
@zh-tw
1961年论文
@wuu
name
The Influence of Interspecific ...... Barnacle Chthamalus Stellatus
@ast
The Influence of Interspecific ...... Barnacle Chthamalus Stellatus
@en
type
label
The Influence of Interspecific ...... Barnacle Chthamalus Stellatus
@ast
The Influence of Interspecific ...... Barnacle Chthamalus Stellatus
@en
prefLabel
The Influence of Interspecific ...... Barnacle Chthamalus Stellatus
@ast
The Influence of Interspecific ...... Barnacle Chthamalus Stellatus
@en
P3181
P356
P1433
P1476
The Influence of Interspecific ...... Barnacle Chthamalus Stellatus
@en
P2093
Joseph H. Connell
P304
P3181
P356
10.2307/1933500
P407
P577
1961-10-01T00:00:00Z