Behavioral Ecology of Cetaceans in the Southern California Bight

A behavioral ecology perspective on cetaceans in the Southern California Bight (SCB) can contribute to science-based adaptive management in the context of expanding anthropogenic activities. Objectives were to (1) identify behaviors associated with habitat resource selection, (2) evaluate species differences related to body size, group size, and group cohesion, and (3) determine temporal behavioral patterns. Cetacean aerial surveys (87,735 km) were conducted in 2008-2013 in all months except December. Locations and behavioral data were recorded for blue whales (Balaenoptera musculus), fin whales (B. physalus), gray whales (Eschrichtius robustus), Risso’s dolphins (Grampus griseus), common bottlenose dolphins (bottlenose; Tursiops truncatus), and common dolphins (Delphinus delphis and D. capensis). Response variables (occurrence, behavioral state, group size, group cohesion) were analyzed relative to the explanatory variables calf presence, bottom depth, shore distance, slope, aspect, time of day, Julian day, season. Resource Selection Function (RSF) modeling predicted probability of habitat use relative to resource availability and behavioral state by contrasting environmental characteristics at locations of cetaceans and randomly selected points (n=35,167). During medium/fast travel, relative probability of habitat use by fin whales was highest in deep and eastern waters (p<0.05) of the San Nicolas and San Diego basins. Risso’s dolphins selectively (p<0.05) used nearshore waters more than expected relative to availability, especially San Clemente Island, and habitat use differed by behavioral state (rest/slow travel, medium/fast travel; p<0.05). Bottlenose dolphins selectively used (p<0.05) nearshore shallow waters more frequently than available, particularly near Santa Catalina Island. Behaviors varied by species, not solely by body size. Larger whales (blue, fin) and dolphins (Risso’s, bottlenose) occurred in smaller, less cohesive groups and were more likely to occur alone. Species-specific group size was larger with calf presence; cohesion was higher during peak reproductive seasons (calving/mating). Time of day influenced behavioral state in nocturnal-feeding Risso’s and common dolphins, which were less cohesive and more inactive (mill/rest/slow travel) near midday. Spatiotemporal variation in cetacean distribution may reflect short-term changes in reproductive condition, resource availability, and anti-predator behavior. Applications of this behavioral ecology perspective are discussed relative to management opportunities within the framework of protecting areas, endangered species, and species-specific sensitive time periods

An Unusual Reaction and Other Observations of Sperm Whales Near Fixed-Wing Aircraft

Reported behavioral reactions by sperm whales to aircraft are sparse, highly variable, and largely anecdotal as summarized below. Observers since the whaling era began have noted that sperm whales tend to be skittish (Whitehead 2003). When documented, sperm whale reactions to both planes and helicopters range from no reaction (Clarke 1956, Gambell 1968, Green et al. 1992) to reactions such as increased surface intervals and dramatic behavioral changes (Clarke 1956, Fritts et al. 1983, Mullin et al. 1991, Würsig et al. 1998, Richter et al. 2003, 2006). Given the lack of supporting data for either case, it is important that these types of data are collected and consolidated into a cohesive document. Therefore, the specific objectives of our paper are to report our visual observations of sperm whale reactions to straight-line aircraft fly-bys (i.e., passes), to report a unique observation of a recognized “stress behavioral reaction” exhibited by sperm whales during an overhead circling by small fixed-wing aircraft, and to provide a summary review of published related studies

Seal Occurrence and Habitat Use during Summer in Petermann Fjord, Northwestern Greenland

Ice-associated seals are considered especially susceptible and are potentially the first to modify distribution and habitat use in response to physical changes associated with the changing climate. Petermann Glacier, part of a unique ice-tongue fjord environment in a rarely studied region of northwestern Greenland, lost substantial sections of its ice tongue during major 2010 and 2012 calving events. As a result, changes in seal habitat may have occurred. Seal occurrence and distribution data were collected in Petermann Fjord and adjacent Nares Strait region over 27 days (2 to 28 August) during the multidisciplinary scientific Petermann 2015 Expedition on the icebreaker Oden. During 239.4 hours of dedicated observation effort, a total of 312 individuals were recorded, representing four species: bearded seal (Erignathus barbatus), hooded seal (Crystophora cristata), harp seal (Pagophilus groenlandicus), and ringed seal (Pusa hispida). Ringed seals were recorded significantly more than the other species (χ2 = 347.4, df = 3, p &lt; 0.001, n = 307). We found significant differences between species in haul-out (resting on ice) behavior (χ2 = 133.1, df = 3, p &lt; 0.001, n = 307). Bearded seals were more frequently hauled out (73.1% n = 49), whereas ringed seals were almost exclusively in water (93.9%, n = 200). Differences in average depth and ice coverage where species occurred were also significant: harp seals and bearded seals were found in deeper water and areas of greater ice coverage (harp seals: 663 ± 366 m and 65 ± 14% ice cover; bearded seals: 598 ± 259 m and 50 ± 21% ice cover), while hooded seals and ringed seals were found in shallower water with lower ice coverage (hooded seals: 490 ± 163 m and 38 ± 19% ice cover; ringed seals: 496 ± 235 m, and 21 ± 20% ice cover). Our study provides an initial look at how High Arctic seals use the rapidly changing Petermann Fjord and how physical variables influence their distribution in one of the few remaining ice-tongue fjord environments.Les phoques associés aux glaces sont considérés comme très susceptibles et sont potentiellement les premiers à modifier la répartition de leur population et la façon dont ils utilisent leur habitat en réponse aux changements physiques découlant des changements climatiques. Le glacier Petermann fait partie d’une langue glaciaire de fjord unique dans une région rarement étudiée du nord-ouest du Groenland. De gros blocs de glace se sont détachés du glacier Petermann pendant le vêlage de 2010 à 2012. Par conséquent, l’habitat des phoques aurait pu être modifié. Pendant 27 jours (du 2 au 28 août), des données sur la présence et la répartition des phoques ont été recueillies au fjord Petermann et dans la région adjacente du détroit de Nares dans le cadre de l’expédition scientifique multidisciplinaire Petermann 2015 sur le brise-glace Oden. Au cours de 239,4 heures d’observation soutenue, la présence d’un total de 312 phoques représentant quatre espèces a été notée : le phoque barbu (Erignathus barbatus), le phoque à capuchon (Crystophora cristata), le phoque du Groenland (Pagophilus groenlandicus) et le phoque annelé (Pusa hispida). La présence de phoques annelés est considérablement plus importante que celle des autres espèces (χ2 = 347,4, ddl = 3, p &lt; 0,001, n = 307). Nous avons constaté une différence significative dans les comportements d’échouerie (repos sur la glace) des phoques selon les espèces (χ2 = 133,11, ddl = 3, p &lt; 0,001, n = 307). Les phoques barbus étaient plus souvent hors de l’eau (73,1 %, n = 49), tandis que les phoques annelés se trouvaient presque exclusivement dans l’eau (93,9 %, n = 200). Des différences significatives en ce qui a trait à la présence des espèces selon la profondeur et la couverture glaciaire ont été notées. Les phoques du Groenland et les phoques barbus fréquentent les profondeurs d’eau moyennes (663 ± 366 m et 598 ± 259 m, respectivement) et les régions où la couverture de glace correspond à la moyenne supérieure (65 ± 14 % et 50 ± 21 %, respectivement), tandis que les phoques à capuchon et les phoques annelés fréquentent les eaux moins profondes (490 ± 163 m et 496 ± 235 m, respectivement) et les régions où la couverture de glace correspond à la moyenne inférieure (38 ± 19 % et 21 ± 20, respectivement). Notre étude présente un premier aperçu de la façon dont les phoques de l’Extrême-Arctique utilisent le fjord Petermann en évolution rapide et de l’influence des variables physiques sur leur répartition dans l’une des rares langues glaciaires de fjord restantes

Polar Bear (Ursus maritimus) Behavior near Icebreaker Operations in the Chukchi Sea, 1991

Increasing interactions of polar bears (Ursus maritimus) with human activity, combined with impacts of climate change, are of critical concern for the conservation of the species. Our study quantifies and describes initial reactions and behaviors of polar bears observed from an icebreaker during summer 1991 at two exploratory drilling sites (near sites drilled in 2015) located in the Chukchi Sea 175 km and 312 km west of Barrow, Alaska. Polar bear behavior was described using continuous sampling of six predetermined focal group behavior states (walking, running, swimming, resting, feeding or foraging, unknown) and six behavioral reaction events (no reaction, walking away, running away, approaching, vigilance [i.e., watching], unknown). Forty-six bears in 34 groups were monitored from the Robert LeMeur (an Arctic Class 3 icebreaker) for periods of five minutes to 16.1 hours. Significantly more bear groups reacted to icebreaker presence (79%) than not (21%), but no relationship was found between their reactions and distance to or activity of the icebreaker. Reactions were generally brief; vigilance was the most commonly observed reaction, followed by walking or running away for short (&lt; 5 minutes) periods and distances (&lt; 500 m). Eleven percent of bear groups approached the vessel. No significant difference was found between reactions when cubs were present and those when cubs were absent. Despite the limited sample sizes, these findings are relevant to assessing potential impacts of resource development and shipping activities on polar bears, especially given the sparsity of such information in the face of growing human activity in the Arctic offshore areas. Overall, climate change is leading to longer and more extensive open-water seasons in the Arctic and therefore to increasing marine traffic—more vessels (including icebreakers) for a longer time each year over a wider area. Les interactions de plus en plus grandes entre les ours polaires (Ursus maritimus) et l’activité humaine, alliées aux incidences du changement climatique, constituent une préoccupation critique en matière de conservation de l’espèce. Notre étude permet de quantifier et de décrire les réactions et les comportements initiaux des ours polaires observés à partir d’un brise-glace à l’été 1991 à deux sites de forage d’exploration (près de chantiers forés en 2015) dans la mer des Tchouktches, à 175 km et à 312 km à l’ouest de Barrow, en Alaska. Le comportement des ours polaires a été décrit en recourant à l’échantillonnage en continu de six états de comportement prédéterminés pour le groupe ciblé (marcher, courir, nager, se reposer, manger ou chercher de la nourriture et comportement inconnu) et de six réactions comportementales aux événements (aucune réaction, s’en aller à la marche, s’en aller à la course, s’approcher, faire preuve de vigilance [c’est-à-dire observer], réaction inconnue). Quarante-six ours faisant partie de 34 groupes ont été surveillés à partir du Robert LeMeur (un brise-glace de l’Arctique de classe 3) pendant des périodes allant de cinq minutes à 16,1 heures. Fait important, plus de groupes d’ours ont réagi à la présence du brise-glace (79 %) que pas réagi (21 %), mais aucune relation n’a pu être établie entre leurs réactions et la distance ou l’activité du brise-glace. De manière générale, les réactions étaient brèves. La vigilance était la réaction la plus souvent observée, suivie du fait de s’en aller en marchant ou de s’en aller à la course pendant de courtes (&lt; 5 minutes) périodes et distances (&lt; 500 m). Onze pour cent des groupes d’ours se sont approchés du vaisseau. Aucune différence importante n’a été relevée entre les réactions, qu’il y ait des oursons ou non. Malgré la taille restreinte des échantillons, ces constatations ont de la pertinence dans l’évaluation des incidences potentielles des activités de mise en valeur et de transport des ressources sur les ours polaires, surtout compte tenu de la rareté de telles données à la lumière de l’activité humaine croissante dans les zones extracôtières de l’Arctique. Dans l’ensemble, le changement climatique mène à des saisons navigables plus longues et plus étendues dans l’Arctique. Par conséquent, le trafic maritime s’accentue en ce sens qu’il y a plus de vaisseaux (brise-glace y compris) pendant de plus longues périodes chaque année, sur de plus grandes surfaces

Southeastern Pacific humpback whales (Megaptera novaeangliae) and their breeding grounds : distribution and habitat preference of singers and social groups off the coast of Ecuador

The study was supported by a Rufford Small Grant, ECG. is currently funded by a Royal Society Newton International Fellowship; part of this work was completed while ECG was funded by a National Research Council (National Academy of Sciences) Postdoctoral Fellowship at the National Marine Mammal Laboratory, AFSC, NMFS, NOAA.Understanding the distribution, habitat preference and social structure of highly migratory species at important life history stages (e.g., breeding and calving) is essential for conservation efforts. We investigated the spatial distribution and habitat preference of humpback whale social groups and singers, in relation to depth categories (50 m) and substrate type (muddy and mixed) on a coastal southeastern Pacific breeding ground. One hundred and forty-three acoustic stations and 304 visual sightings were made at the breeding ground off the coast of Esmeraldas, Ecuador. Spatial autocorrelation analysis suggested singers were not randomly distributed, and Neu’s method and Monte Carlo simulations indicated that singers frequented depths of <20 m and mixed substrate. Singletons, and groups with a calf displayed a preference for shallower waters (0–20 m), while pairs and groups with a calf primarily inhabited mixed bottom substrates. In contrast, competitive groups showed no clear habitat preference and exhibited social segregation from other whales. Understanding the habitat preference and distribution of humpback whales on breeding and calving grounds vulnerable to anthropogenic disturbance provides important baseline information that should be incorporated into conservation efforts at a regional scale.PostprintPeer reviewe

Abundance, behavior, and movement patterns of western gray whales in relation to a 3-D seismic survey, Northeast Sakhalin Island, Russia

A geophysical seismic survey was conducted in the summer of 2001 off the northeastern coast of Sakhalin Island, Russia. The area of seismic exploration was immediately adjacent to the Piltun feeding grounds of the endangered western gray whale (Eschrichtius robustus). This study investigates relative abundance, behavior, and movement patterns of gray whales in relation to occurrence and proximity to the seismic survey by employing scan sampling, focal follow, and theodolite tracking methodologies. These data were analyzed in relation to temporal, environmental, and seismic related variables to evaluate potential disturbance reactions of gray whales to the seismic survey. The relative numbers of whales and pods recorded from five shore-based stations were not significantly different during periods when seismic surveys were occurring compared to periods when no seismic surveys were occurring and to the post-seismic period. Univariate analyses indicated no significant statistical correlation between seismic survey variables and any of the eleven movement and behavior variables. Multiple regression analyses indicated that, after accounting for temporal and environmental variables, 6 of 11 movement and behavior variables (linearity, acceleration, mean direction, blows per surfacing, and surface-dive blow rate) were not significantly associated with seismic survey variables, and 5 of 11 variables (leg speed, reorientation rate, distance-from-shore, blow interval, and dive time) were significantly associated with seismic survey variables. In summary, after accounting for environmental variables, no correlation was found between seismic survey variables and the linearity of whale movements, changes in whale swimming speed between theodolite fixes, mean direction of whale movement, mean number of whale exhalations per minute at the surface, mean time at the surface, and mean number of exhalations per minute during a whales surface-to-dive cycle. In contrast, at higher received sound energy exposure levels, whales traveled faster, changed directions of movement less, were recorded further from shore, and stayed under water longer between respirations

Between a Rock and a Hard Place: Habitat Selection in Female-Calf Humpback Whale (Megaptera novaeangliae) Pairs on the Hawaiian Breeding Grounds

The Au'au Channel between the islands of Maui and Lanai, Hawaii comprises critical breeding habitat for humpback whales (Megaptera novaeangliae) of the Central North Pacific stock. However, like many regions where marine mega-fauna gather, these waters are also the focus of a flourishing local eco-tourism and whale watching industry. Our aim was to establish current trends in habitat preference in female-calf humpback whale pairs within this region, focusing specifically on the busy, eastern portions of the channel. We used an equally-spaced zigzag transect survey design, compiled our results in a GIS model to identify spatial trends and calculated Neu's Indices to quantify levels of habitat use. Our study revealed that while mysticete female-calf pairs on breeding grounds typically favor shallow, inshore waters, female-calf pairs in the Au'au Channel avoided shallow waters (<20 m) and regions within 2 km of the shoreline. Preferred regions for female-calf pairs comprised water depths between 40–60 m, regions of rugged bottom topography and regions that lay between 4 and 6 km from a small boat harbor (Lahaina Harbor) that fell within the study area. In contrast to other humpback whale breeding grounds, there was only minimal evidence of typical patterns of stratification or segregation according to group composition. A review of habitat use by maternal females across Hawaiian waters indicates that maternal habitat choice varies between localities within the Hawaiian Islands, suggesting that maternal females alter their use of habitat according to locally varying pressures. This ability to respond to varying environments may be the key that allows wildlife species to persist in regions where human activity and critical habitat overlap

Habitat preferences by individual humpback whale mothers in the Hawaiian breeding grounds vary with the age and size of their calves

We investigated whether calf age and calf size influence habitat choice by humpback whale motherecalf pairs in their breeding grounds. During 1997e2008, we conducted focal follows of motherecalf pairs in Hawaiian waters. Tail-fluke identification photographs and calf lengths (measured through video-grammetry) were obtained. Water depth and sea-bed terrain type were derived from GPS data. Identification photographs were matched so that the habitat choices could be established within breeding seasons. Across 72 motherecalf pairs resighted over various intervals within a breeding season, magnitude of depth change between initial and final sightings increased significantly with resighting interval. There was a significant increase from initial depth to final depth for relatively long resighting intervals (27e51 days), but no significant difference for relatively short resighting intervals (2e26 days). Although there was no preference for sea-bed terrain type by motherecalf pairs at their initial sighting, there was a preference for rugged terrain at their final resighting. A resource selection model indicated that the relative probability of a location being used by a motherecalf pair increased (as a function of water depth and rugged sea-bed terrain type) from initial to final sighting; a finding supported by subsequent tests of habitat preference versus availability. For 96 measured calves, calf length and water depth were positively correlated, even when ordinal day of measurement was controlled for statistically; a finding confirmed by a general linear model that simultaneously investigated the relationship between water depth, sea-bed terrain type, number of escorts, ordinal day and calf size. Thus, both calf age and size influence habitat choice by motherecalf pairs in their breeding grounds. The movement of mothers and their maturing calves into deeper waters where they favour rugged sea-bed terrain appears to be part of a suite of behavioural changes during the pre-migratory phase of residency in the breeding grounds

Fin Whale Sighting North of Kaua'i, Hawai'i

A rare fin whale (Balaenoptera physalus) sighting occurred on 26 February 1994 during an aerial survey of waters north of the Hawaiian island of Kaua'i. The sighting occurred ca. 24 nm north of Makaha Point, at 220 31.5' N, 1590 44.5' W. The fin whale was accompanied by an adult humpback whale (Megaptera novaeangliae) during the entire 25 min of observation. Fin whales are not unknown in Hawaiian waters, but the most recent confirmed sighting on record for Hawaiian waters was 16 February 1979