Does moonlight increase predation risk? Meta-analysis reveals divergent responses of nocturnal mammals to lunar cycles.
about
Euarchontan Opsin Variation Brings New Focus to Primate OriginsEstimating Lion Abundance using N-mixture Models for Social Species.White-tailed deer vigilance: the influence of social and environmental factors.Effect of an invasive plant and moonlight on rodent foraging behavior in a coastal dune ecosystem.Mammalian ranges are experiencing erosion of natural darkness.Behavioral Timing without Clockwork: Photoperiod-Dependent Trade-Off between Predation Hazard and Energy Balance in an Arctic Ungulate.Geographic Variation in Daily Temporal Activity Patterns of a Neotropical Marsupial (Gracilinanus agilis)When perception reflects reality: Non-native grass invasion alters small mammal risk landscapes and survival.Cascading effects of predation risk determine how marine predators become terrestrial prey on an oceanic island.Does fear beget fear? Risk-mediated habitat selection triggers predator avoidance at lower trophic levels.Blind free-living kiwi offer a unique window into the ecology and evolution of vertebrate vision.A 'dynamic' landscape of fear: prey responses to spatiotemporal variations in predation risk across the lunar cycle.How does environment influence fighting? The effects of tidal flow on resource value and fighting costs in sea anemones.Cathemerality in a small, folivorous primate: proximate control of diel activity in Hapalemur meridionalisA game of cat-and-mouse: microhabitat influences rodent foraging in recently burnt but not long unburnt shrublandsPredator avoidance and dietary fibre predict diurnality in the cathemeral folivore Hapalemur meridionalisLion proximity, not moon phase, affects the nocturnal movement behaviour of zebra and wildebeestMechanisms of coexistence in diverse herbivore-carnivore assemblages: demographic, temporal and spatial heterogeneities affecting prey vulnerabilityVisual ecology of true lemurs suggests a cathemeral origin for the primate cone opsin polymorphismDodging the moon: The moon effect on activity allocation of prey in the presence of predatorsAerial-hawking bats adjust their use of space to the lunar cycleHunter or hunted? Perceptions of risk and reward in a small mesopredator
P2860
Q28603363-DD8A711C-FE1D-4C13-BCA0-CD1E557F6346Q30826644-FC16033F-3561-466A-A8AF-811FAAFB7D91Q35112133-D5EC3C0F-922B-45CB-998C-BE8061FC27E2Q35560720-C9394754-9071-4EB5-9E5A-85F64AB4A85EQ35686391-5C2FD704-4C03-4368-8095-AB71473C17CBQ36135309-C85B32A1-2C36-4800-B53F-410EA83E7406Q36239362-112B5B54-A418-48A7-92F9-A994103CF5A5Q37706785-294226AB-7247-4697-9700-0F83CEA1FBA8Q38408003-4E52CA03-BC93-4716-A7E2-5C989F80BADBQ38668759-B383C6FF-B871-4FF8-AB12-A9DA19A69830Q41711645-5EE302DE-8306-41C3-9E81-E9F522C78C94Q46307904-C4A84FD7-32FA-4C49-A1A9-8ADBC1614BB5Q48030106-D4BF74B8-3E7F-4AC4-964C-4D4F0A4A5146Q56050800-F5B762A8-B0C8-4B61-8818-D3CF83E0CBEDQ56603198-26261406-680A-4341-AB14-4F2C43C38C58Q57004778-F4F8647C-BE5C-4BFF-96B3-5DEC263BFB14Q57245767-F42AE3CE-1990-4339-9624-41AD903279A7Q57245776-86EF97BF-6C6F-4103-997E-2C4D079AA144Q57735617-BC4703A4-88BD-452F-80EA-82E8B486486CQ58793178-2A156D29-CE9A-4DAF-96BD-DE18267EECE4Q58803136-2AD6072C-346C-4390-A364-23D6075CE544Q59162154-07C4A6EF-B578-469C-98DC-D2E5872A3703
P2860
Does moonlight increase predation risk? Meta-analysis reveals divergent responses of nocturnal mammals to lunar cycles.
description
2013 nî lūn-bûn
@nan
2013年の論文
@ja
2013年論文
@yue
2013年論文
@zh-hant
2013年論文
@zh-hk
2013年論文
@zh-mo
2013年論文
@zh-tw
2013年论文
@wuu
2013年论文
@zh
2013年论文
@zh-cn
name
Does moonlight increase predat ...... urnal mammals to lunar cycles.
@en
type
label
Does moonlight increase predat ...... urnal mammals to lunar cycles.
@en
prefLabel
Does moonlight increase predat ...... urnal mammals to lunar cycles.
@en
P2860
P356
P1476
Does moonlight increase predat ...... turnal mammals to lunar cycles
@en
P2093
Laura R Prugh
P2860
P304
P356
10.1111/1365-2656.12148
P577
2013-10-21T00:00:00Z