From Sender to Receiver: Propagation and Environmental Effects on Acoustic Signals
about
Sequential Filtering Processes Shape Feature Detection in Crickets: A Framework for Song Pattern Recognition.Contextual flexibility in the vocal repertoire of an Amazon parrot.Old Lineage on an Old Island: Pixibinthus, a New Cricket Genus Endemic to New Caledonia Shed Light on Gryllid Diversification in a Hotspot of BiodiversitySelective phonotaxis of female crickets under natural outdoor conditions.Sound amplification by means of a horn-like roosting structure in Spix's disc-winged batTen unanswered questions in multimodal communication.Roaring high and low: composition and possible functions of the Iberian stag's vocal repertoire.Is sociality required for the evolution of communicative complexity? Evidence weighed against alternative hypotheses in diverse taxonomic groups.Linking amphibian call structure to the environment: the interplay between phenotypic flexibility and individual attributes.Geographical differentiation, acoustic adaptation and species boundaries in mainland citril finches and insular Corsican finches, superspecies Carduelis [citrinella]Does size matter? Examining the drivers of mammalian vocalizationsCalling at the highway: The spatiotemporal constraint of road noise on Pacific chorus frog communicationBioacoustics for species management: two case studies with a Hawaiian forest birdContrasting Propagation of Natural Calls of Two Anuran Species from the South American Temperate Forest.Characterizing Vocal Repertoires--Hard vs. Soft Classification Approaches.A temporal basis for Weber's law in value perception.Useless hearing in male Emblemasoma auditrix (Diptera, Sarcophagidae)--a case of intralocus sexual conflict during evolution of a complex sense organ?The importance of ambient sound level to characterise anuran habitat.Changing resonator geometry to boost sound power decouples size and song frequency in a small insectEvolution of novel signal traits in the absence of female preferences in Neoconocephalus katydids (Orthoptera, Tettigoniidae).Psychophysics in insect hearing.Habitat selection, acoustic adaptation, and the evolution of reproductive isolation.Booming far: the long-range vocal strategy of a lekking bird.Eastern Bluebirds Alter their Song in Response to Anthropogenic Changes in the Acoustic Environment.How the environment shapes animal signals: a test of the acoustic adaptation hypothesis in frogs.Functional morphology of the ear in fossorial rodents, Microtus arvalis and Arvicola terrestris.Songs of two starling species: common traits versus adaptations to the social environment.Auditory lateralization in bushcrickets: a new dichotic paradigm.Phonotaxis to male's calls embedded within a chorus by female gray treefrogs, Hyla versicolor.Dispersive and non-dispersive waves through plants: implications for arthropod vibratory communication.Soundscape Ecology: The Science of Sound in the LandscapeHabitat structure and the evolution of bird song: a meta-analysis of the evidence for the acoustic adaptation hypothesisWhat is soundscape ecology? An introduction and overview of an emerging new scienceInter- and Intraspecific Variation in the Acoustic Habitats of Three Marmot Species
P2860
Q26768586-F606AAAC-D335-4B33-A9B0-66234773A04CQ28597167-0FDCCEE6-DEFE-4411-A7E5-88B81278CEE7Q28601664-088FBBB9-83B1-4171-86B8-45E4E947D018Q28658843-E0BA4417-7636-41EC-A1ED-80AC19BE771AQ28661947-5A502A20-C3C2-4B8F-B856-794CF9AD6E36Q28682087-5526B831-113A-4D72-8F3C-AA50E94669F4Q28704812-F000A503-8294-4C1B-845B-712DA83E422DQ28728874-CBA0AB25-5E74-43AD-B279-685EDCD6F6C5Q28740956-0CD78A39-9C25-4CB5-A9DE-3F8B38F89A1AQ30040631-551B4788-2F13-45A9-99AE-FB50CFBB2098Q30361136-C883AF2B-D644-4C44-B7DA-4F8FBB8C5B2DQ30365925-C7306306-39EA-4F67-B03F-E0E7EACC0728Q30396225-35BE2FF2-D350-449E-B41F-6DC180BBA819Q30405278-D62C45E5-A21D-4264-885F-C35028980922Q30412586-96D28E43-0359-4375-88E5-53044EBDBA0FQ30427517-1BAFA4A3-B5C6-46AF-9C47-29EF5CB84312Q30443791-3D12772B-277E-44BE-993A-D9C9F2C1CBB3Q30447460-21EA42BA-6B5F-4910-ABAF-AC3D05760DE9Q30460470-04EB733A-E7C7-468C-A2F1-9F937D020B48Q30479854-29370D3C-4586-4CB8-BF1E-B78BAE2C90B5Q35836100-D1368C65-A44D-4E1B-86EE-3BF058E6B673Q39343088-EFACC161-C46C-4F68-9876-914ADE343477Q41580724-3609A1C7-C548-4979-81B5-376D5946B340Q45979409-1EC2F0AF-FB93-4F50-915B-010132EDDD9BQ46259116-7F5C2728-9A0C-41D9-A152-1F61BA3E8BC0Q50477270-1E250F75-4B30-4D1B-8296-E769E78F8E70Q50500775-B6D93E2A-4EC0-49B1-A9C3-83DC0BE28E0CQ51302665-6CCB62D1-C401-44AA-93C5-06F877186E30Q51557601-DFF09C65-5543-4853-8E34-3A73B2914D8DQ52676568-FCD7CED0-1B9F-4F38-82BA-84F16CCF1B29Q55954553-62D5A39B-E090-49D2-B471-F6978B25D101Q56267822-903EC203-744F-4DF9-A1F2-D310763112D8Q56751322-EFEF6F40-C06D-4655-9823-15ACFA779586Q58487103-3391AF89-9E3D-43E2-A274-031816D07323
P2860
From Sender to Receiver: Propagation and Environmental Effects on Acoustic Signals
description
wetenschappelijk artikel
@nl
наукова стаття, опублікована в грудні 1994
@uk
name
From Sender to Receiver: Propagation and Environmental Effects on Acoustic Signals
@en
From Sender to Receiver: Propagation and Environmental Effects on Acoustic Signals
@nl
type
label
From Sender to Receiver: Propagation and Environmental Effects on Acoustic Signals
@en
From Sender to Receiver: Propagation and Environmental Effects on Acoustic Signals
@nl
prefLabel
From Sender to Receiver: Propagation and Environmental Effects on Acoustic Signals
@en
From Sender to Receiver: Propagation and Environmental Effects on Acoustic Signals
@nl
P356
P1433
P1476
From Sender to Receiver: Propagation and Environmental Effects on Acoustic Signals
@en
P2093
T. G. FORREST
P304
P356
10.1093/ICB/34.6.644
P577
1994-12-01T00:00:00Z