human | Q5 |
P1556 | zbMATH author ID | slabbekoorn.hans |
P735 | given name | Hans | Q632842 |
Hans | Q632842 | ||
P6104 | maintained by WikiProject | WikiProject Mathematics | Q8487137 |
P106 | occupation | researcher | Q1650915 |
P21 | sex or gender | male | Q6581097 |
Q56002866 | A behavioural mechanism explaining noise-dependent frequency use in urban birdsong |
Q30052890 | A noisy spring: the impact of globally rising underwater sound levels on fish |
Q56002874 | Acoustic Communication in Noise |
Q86815369 | Aiming for Progress in Understanding Underwater Noise Impact on Fish: Complementary Need for Indoor and Outdoor Studies |
Q92764185 | Aircraft sound exposure leads to song frequency decline and elevated aggression in wild chiffchaffs |
Q51624659 | Asymmetric response patterns to subspecies-specific song differences in allopatry and parapatry in the gray-breasted wood-wren. |
Q63199433 | Azorean rock-pool blennies produce size-dependent calls in a courtship context |
Q56267824 | BIRDSONG AND SOUND TRANSMISSION: THE BENEFITSOF REVERBERATIONS |
Q86016534 | Behavioral and physiological indicators of stress coping styles in larval zebrafish |
Q30417251 | Behavioral changes in response to sound exposure and no spatial avoidance of noisy conditions in captive zebrafish |
Q39898247 | Behavioural ecology: noise annoys at community level. |
Q60937571 | Biological clock function is linked to proactive and reactive personality types |
Q28765057 | Bird song, ecology and speciation |
Q40039652 | Birds and anthropogenic noise: singing higher may matter |
Q36929050 | Birdsong and anthropogenic noise: implications and applications for conservation |
Q58486891 | Birdsong tuned to the environment: green hylia song varies with elevation, tree cover, and noise |
Q83327308 | Cichlid courtship acoustics: signals and noise influence reproductive behavior |
Q34586528 | Cities change the songs of birds |
Q42448153 | Covariation between behaviour and physiology indicators of coping style in zebrafish (Danio rerio). |
Q59480917 | Distinct song parts of the endemic marsh grassbird of China vary with latitude and climate among migratory and sedentary populations |
Q93161601 | Diving apart together: call propagation in diving long-finned pilot whales |
Q34214956 | Ecology: Birds sing at a higher pitch in urban noise |
Q58547945 | Effects of broadband sound exposure on the interaction between foraging crab and shrimp - A field study |
Q102050680 | Effects of seismic airgun playbacks on swimming patterns and behavioural states of Atlantic cod in a net pen |
Q33299003 | Evolutionary consequences of human disturbance in a rainforest bird species from Central Africa |
Q39470054 | Habitat-dependent ambient noise: consistent spectral profiles in two African forest types |
Q39470063 | Habitat-dependent song divergence in the little greenbul: an analysis of environmental selection pressures on acoustic signals |
Q28749201 | Habitat-related birdsong divergence: a multi-level study on the influence of territory density and ambient noise in European blackbirds |
Q46633054 | Impact of Anthropogenic Noise on Aquatic Animals: From Single Species to Community-Level Effects |
Q83327285 | Importance of underwater sounds for migration of fish and aquatic mammals |
Q54905953 | Learning to cope: vocal adjustment to urban noise is correlated with prior experience in black-capped chickadees. |
Q30470175 | Low-frequency songs lose their potency in noisy urban conditions |
Q30486782 | Male territorial vocalizations and responses are decoupled in an avian hybrid zone |
Q46633046 | Mapping Underwater Sound in the Dutch Part of the North Sea. |
Q56267827 | Negative impact of traffic noise on avian reproductive success |
Q40270797 | Noise Impact on European Sea Bass Behavior: Temporal Structure Matters |
Q90590540 | Noise pollution |
Q44388112 | On the maintenance of bird song dialects. |
Q92891506 | Particle motion and sound pressure in fish tanks: A behavioural exploration of acoustic sensitivity in the zebrafish |
Q30386922 | Pollution going multimodal: the complex impact of the human-altered sensory environment on animal perception and performance. |
Q96430114 | Population-level effects of acoustic disturbance in Atlantic cod: a size-structured analysis based on energy budgets |
Q30449036 | Predicting bird song from space |
Q90475726 | Profound effects of glucocorticoid resistance on anxiety-related behavior in zebrafish adults but not in larvae |
Q46575892 | Reply to Eens et al.: Urban noise can alter sexual selection on bird song. |
Q46582047 | Son et lumière: Sound and light effects on spatial distribution and swimming behavior in captive zebrafish. |
Q60233902 | Song divergence and male dispersal among bird populations: a spatially explicit model testing the role of vocal learning |
Q51627943 | Song divergence by sensory drive in Amazonian birds. |
Q92050899 | Source specific sound mapping: Spatial, temporal and spectral distribution of sound in the Dutch North Sea |
Q46280232 | Spatial avoidance to experimental increase of intermittent and continuous sound in two captive harbour porpoises. |
Q30357795 | Territorial black-capped chickadee males respond faster to high- than to low-frequency songs in experimentally elevated noise conditions. |
Q38869098 | Testing alternative hypotheses for evolutionary diversification in an African songbird: rainforest refugia versus ecological gradients. |
Q83327364 | The complexity of noise impact assessments: from birdsong to fish behavior |
Q88361360 | The role of singing style in song adjustments to fluctuating sound conditions: A comparative study on Mexican birds |
Q96124090 | The role of the Glucocorticoid Receptor in the Regulation of Diel Rhythmicity |
Q40239493 | Timing vocal behavior: lack of temporal overlap avoidance to fluctuating noise levels in singing Eurasian wrens |
Q52836733 | Timing vocal behaviour: experimental evidence for song overlap avoidance in Eurasian wrens. |
Q46255690 | Vocal foragers and silent crowds: context-dependent vocal variation in Northeast Atlantic long-finned pilot whales |
Q34556678 | Why longer song elements are easier to detect: threshold level-duration functions in the Great Tit and comparison with human data. |