The communication space of humpback whale social sounds in vessel noise

Soundscapes with minimal anthropogenic noise sources are key for the survival and effective communication of marine mammals. The Gulf of Tribugá is part of the breeding ground for humpback whale Stock G. Currently, no large-scale infrastructure exists on the Gulf's coastline, making it an area with high biodiversity and little anthropogenic noise. Whale-watching is one of the few human activities that contributes to the soundscape. By Morro Mico, on the southern limit of the Utría Natural National Park, an Ecological Acoustic Recorder (EAR, Oceanwide Science Institute) was deployed in the Gulf to record samples of acoustic activity from October to November 2018. It recorded for 10-min intervals with 20-min lapses for a duty cycle of 33.3%. One of the common peak frequencies of humpback whale song units from these recordings was used as input to an acoustic propagation model using the parabolic equation to simulate the communication space of a humpback whale when zero, one, and two boats are present. GPS positions of theodolite data from various whale watching scenarios in the Gulf were used to inform the models. Model results indicate that humpback whale song communication space could be reduced by as much as 63% in the presence of even one whale-watching boat. The boats traveling through the Gulf are the same as those used in whale-watching, and their engine noise while passing Morro Mico coincided with song structural and temporal changes observed in the acoustic data. Combining in situ data with acoustic models can advance the understanding of the spatio-temporal acoustic reactions of whales when their vocalizations are masked by boat noise. This project serves as an approximation of how humpback whale Stock G may respond to whale-watching vessel noise in the Gulf of Tribugá.

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Acoustically advertising male harbour seals in southeast Alaska do not make biologically relevant acoustic adjustments in the presence of vessel noise

Biology Letters ◽

10.1098/rsbl.2019.0795 ◽

2020 ◽

Vol 16 (4) ◽

pp. 20190795

Author(s):

Leanna P. Matthews ◽

Michelle E. H. Fournet ◽

Christine Gabriele ◽

Holger Klinck ◽

Susan E. Parks

Keyword(s):

Noise Signal ◽

Sound Level ◽

Southeast Alaska ◽

Acoustic Environment ◽

Biologically Relevant ◽

Glacier Bay ◽

Harbour Seals ◽

Glacier Bay National Park ◽

Communication Space ◽

Vessel Noise

Aquatically breeding harbour seal ( Phoca vitulina ) males use underwater vocalizations during the breeding season to establish underwater territories, defend territories against intruder males, and possibly to attract females. Vessel noise overlaps in frequency with these vocalizations and could negatively impact breeding success by limiting communication space. In this study, we investigated whether harbour seals employed anti-masking strategies to maintain communication in the presence of vessel noise in Glacier Bay National Park and Preserve, Alaska. Harbour seals in this location did not sufficiently adjust source levels or acoustic parameters of vocalizations to compensate for acoustic masking. Instead, for every 1 dB increase in ambient noise, signal excess decreased by 0.84 dB, indicating a reduction in communication space when vessels passed. We suggest that harbour seals may already be acoustically advertising at or near a biologically maximal sound level and therefore lack the ability to increase call amplitude to adjust to changes in their acoustic environment. This may have significant implications for this aquatically breeding pinniped, particularly for populations in high noise regions.

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The effect of vessel noise on humpback whale, Megaptera novaeangliae, communication behaviour

Animal Behaviour ◽

10.1016/j.anbehav.2015.10.002 ◽

2016 ◽

Vol 111 ◽

pp. 13-21 ◽

Cited By ~ 26

Author(s):

Rebecca A. Dunlop

Keyword(s):

Humpback Whale ◽

Megaptera Novaeangliae ◽

Communication Behaviour ◽

Vessel Noise

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The communication space of humpback whale social sounds in wind-dominated noise

The Journal of the Acoustical Society of America ◽

10.1121/1.5047744 ◽

2018 ◽

Vol 144 (2) ◽

pp. 540-551 ◽

Cited By ~ 4

Author(s):

Rebecca A. Dunlop

Keyword(s):

Humpback Whale ◽

Communication Space

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Can you hear me? Impacts of underwater noise on communication space of adult, sub-adult and calf contact calls of endangered St. Lawrence belugas (Delphinapterus leucas)

Polar Research ◽

10.33265/polar.v40.5521 ◽

2021 ◽

Vol 40 ◽

Author(s):

Valeria Vergara ◽

Jason Wood ◽

Véronique Lesage ◽

Audra Ames ◽

Marie-Ana Mikus ◽

...

Keyword(s):

Delphinapterus Leucas ◽

Lawrence Estuary ◽

Communication Range ◽

Apparent Source ◽

Communication Space ◽

Noise Measurements ◽

Contact Calls ◽

Acoustic Tags ◽

St Lawrence Estuary ◽

Vessel Noise

Noise and anthropogenic disturbances from vessel traffic are an important threat to the recovery of the endangered St. Lawrence Estuary (SLE) beluga population. The consequences of acoustic masking could be particularly adverse in the case of critical vocalizations that maintain contact between mothers and their dependent but mobile calves. This study models the communication range of adults, sub-adults and newborn beluga contact calls in the presence and absence of vessels in an important summering area for this population. Ambient noise measurements, a composite beluga audiogram and apparent source levels of adult/sub-adult and newborn calls, informed the model. Apparent source levels were estimated from received levels of contact calls produced by four individuals carrying digital acoustic tags in the SLE, Canada, and from received levels of calls recorded from two adults and a newborn calf at an aquarium, at known distances from a calibrated hydrophone. The median communication ranges were over 18 times larger for SLE adult and sub-adult calls than for newborn calls, with a 57 and 53% reduction in range in the presence of vessel noise, respectively. For newborn calls, this results in a median range of 170 m in vessel noise. These first estimates of the communication range of beluga vocalizations with a known function suggest that masking of the quiet calls of newborns by anthropogenic noise could impair mother–calf contact.

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The effects of vessel noise on the communication network of humpback whales

Royal Society Open Science ◽

10.1098/rsos.190967 ◽

2019 ◽

Vol 6 (11) ◽

pp. 190967 ◽

Cited By ~ 1

Author(s):

Rebecca A. Dunlop

Keyword(s):

Communication Network ◽

Social Interactions ◽

Social Behaviour ◽

Separation Distance ◽

Humpback Whales ◽

Social Signals ◽

Wind Noise ◽

Physical Presence ◽

Communication Space ◽

Vessel Noise

Humpback whales rely on acoustic communication to mediate social interactions. The distance to which these social signals propagate from the signaller defines its communication space, and therefore communication network (number of potential receivers). As humpback whales migrate along populated coastlines, they are likely to encounter noise from vessel traffic which will mask their social signals. Since no empirical data exist on baleen whale hearing, the consequences of this are usually assumed, being the modelled reduction in their communication space. Here, the communication space and network of migrating humpback whales was compared in increasing wind-dominated and vessel-dominated noise. Behavioural data on their social interactions were then used to inform these models. In typical wind noise, a signaller's communication space was estimated to extend to 4 km, which agreed with the maximum separation distance between groups that socially interacted. An increase in vessel noise reduced the modelled communication area, along with a significant reduction in group social interactions, probably due to a reduction in their communication network. However, signal masking did not fully explain this change in social behaviour, implying there was also an additional effect of the physical presence of the vessel on signaller and receiver behaviour. Though these observed changes in communication space and social behaviour were likely to be short term and localized, an increase in vessel activity due to tourism and coastal population growth may cause more sustained changes along the humpback whale migration paths.

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