about
"The Environment is Everything That Isn't Me": Molecular Mechanisms and Evolutionary Dynamics of Insect Clocks in Variable Surroundings.Persistence, entrainment, and function of circadian rhythms in polar vertebratesNocturnal to Diurnal Switches with Spontaneous Suppression of Wheel-Running Behavior in a Subterranean RodentThe secret life of ground squirrels: accelerometry reveals sex-dependent plasticity in above-ground activityNonvisual Opsins and the Regulation of Peripheral Clocks by Light and Hormones.News feature: A matter of timing.Drosophila circadian rhythms in seminatural environments: Summer afternoon component is not an artifact and requires TrpA1 channels.Behavioral Timing without Clockwork: Photoperiod-Dependent Trade-Off between Predation Hazard and Energy Balance in an Arctic Ungulate.Time-Specific Fear Acts as a Non-Photic Entraining Stimulus of Circadian Rhythms in Rats.Influence of temperature on daily locomotor activity in the crab Uca pugilator.Potent social synchronization can override photic entrainment of circadian rhythmsDifferential Phasing between Circadian Clocks in the Brain and Peripheral Organs in Humans.Warming Up Your Tick-Tock: Temperature-Dependent Regulation of Circadian Clocks.Drought-induced starvation of aardvarks in the Kalahari: an indirect effect of climate change.Principles for circadian orchestration of metabolic pathwaysCircadian and Metabolic Effects of Light: Implications in Weight Homeostasis and Health.Chronobiology of interspecific interactions in a changing world.Two sides of a coin: ecological and chronobiological perspectives of timing in the wild.Home alone: a systematic review and meta-analysis on the effects of individual housing on body weight, food intake and visceral fat mass in rodents.Circadian Entrainment to the Natural Light-Dark Cycle across Seasons and the Weekend.The two-process model of sleep regulation: a reappraisal.Biological rhythms: Human sleep before the industrial era.Neural Mechanisms of Circadian Regulation of Natural and Drug Reward.Ultradian feeding in mice not only affects the peripheral clock in the liver, but also the master clock in the brain.Mice under Caloric Restriction Self-Impose a Temporal Restriction of Food Intake as Revealed by an Automated Feeder System.Flexible clock systems: adjusting the temporal programme.Artificial light at night shifts daily activity patterns but not the internal clock in the great tit (Parus major).The Cost of Activity during the Rest Phase: Animal Models and Theoretical Perspectives.Modelling mammalian energetics: the heterothermy problemThe effect of ambient temperature on locomotor activity patterns in reproductive and non-reproductive female Damaraland mole-rats
P2860
Q26770426-23676B07-32CD-4B01-97D2-85A9250668C0Q27010399-85B978A8-EC71-4C94-8768-523E792907FBQ27313321-D6901339-25A7-4EE6-BF26-CF3DBA901B49Q28598144-B01FD146-FDF9-4399-AA33-DC6A33C45D58Q34485011-9D1D9B63-77D8-4D85-8428-DB1B15B0E761Q35157089-BB37FE1B-B442-4C2E-811C-0F93D56BC886Q35865640-277C5C20-5E8A-4798-AA5B-EDFD112F1D6CQ36135309-0BF8E8ED-CE8B-4BF1-8594-23677EE03042Q36164254-525D3EF2-6996-4D6A-B40B-B4659E792D88Q36356519-4372C945-5BC3-4915-BA8D-048EFAAE41CAQ36933084-D3FB7972-C349-49C6-A6E9-3976402E4774Q37408958-B4EFC52B-616C-4A62-BF64-54E88E4BA3A3Q38381813-183EED3E-2205-4B7C-A3DB-C38E126D574AQ38654943-73ECA3F5-686F-4910-B4A1-8D0CD9121C3FQ38979910-A144D39C-1BBF-4D07-BFA2-544F1F4FF1D0Q43922826-FD2EE2B8-A759-4D02-9E8F-3DEEDE15BCBBQ46290316-1013F518-AA9A-43A3-8E13-177BDD081295Q46290329-7710FC05-0CED-45D9-B4C4-6C23D8EEB600Q47559375-6376910E-1B11-485D-87EB-5CDBD07D2060Q47766780-4F3789ED-AC42-4FFE-AD69-CD51CF220081Q47899463-A4259E4E-5E65-46B5-AED8-848E8347D1E4Q47919263-71EFFDB2-E259-4477-8ED7-C88534D95111Q48189294-3D1A9785-5490-46EB-93F2-A0D77D8EE981Q48495910-2A94833C-B2D0-4F04-9C16-E19510F35DDEQ50197401-402028F6-11E6-445C-BE8C-2F4B9B1A8897Q50468271-9C987023-B7D6-4021-84F7-03373A851CFFQ51144164-961F7B73-776E-4BB5-BAAD-88DA3BC0C362Q52689985-F5058D85-95FE-4B87-A5BA-D1867003EE19Q58653343-CB126676-CDB9-48F7-89FD-F685C113EA9AQ59211100-FF7F84BE-451D-402B-822F-5F900DBAFFA0
P2860
description
2014 nî lūn-bûn
@nan
2014 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2014 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2014年の論文
@ja
2014年論文
@yue
2014年論文
@zh-hant
2014年論文
@zh-hk
2014年論文
@zh-mo
2014年論文
@zh-tw
2014年论文
@wuu
name
Cold and hunger induce diurnality in a nocturnal mammal
@ast
Cold and hunger induce diurnality in a nocturnal mammal
@en
type
label
Cold and hunger induce diurnality in a nocturnal mammal
@ast
Cold and hunger induce diurnality in a nocturnal mammal
@en
prefLabel
Cold and hunger induce diurnality in a nocturnal mammal
@ast
Cold and hunger induce diurnality in a nocturnal mammal
@en
P2093
P2860
P356
P1476
Cold and hunger induce diurnality in a nocturnal mammal
@en
P2093
Jenke A Gorter
Michael T Sellix
Roelof A Hut
Serge Daan
Sjaak J Riede
Vincent van der Vinne
Violetta Pilorz
Willem G Eijer
P2860
P304
15256-15260
P356
10.1073/PNAS.1413135111
P407
P577
2014-10-06T00:00:00Z