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Published September 11, 2018 | Version v1
Dataset Open

Data from: Physiological, morphological, and ecological tradeoffs influence vertical habitat use of deep-diving toothed-whales in the Bahamas

Creators

  • 1. University of California, San Diego
  • 2. Southwest Fisheries Science Center
  • 3. University of St Andrews
  • 4. SR³ SeaLife Response, Rehabilitation, and Research, Mukilteo, Washington, United States of America*
  • 5. Alaska Fisheries Science Center
  • 6. University of Alaska Fairbanks

Description

Dive capacity among toothed whales (suborder: Odontoceti) has been shown to generally increase with body mass in a relationship closely linked to the allometric scaling of metabolic rates. However, two odontocete species tagged in this study, the Blainville's beaked whale Mesoplodon densirostris and the Cuvier's beaked whale Ziphius cavirostris, confounded expectations of a simple allometric relationship, with exceptionally long (mean: 46.1 min & 65.4 min) and deep dives (mean: 1129 m & 1179 m), and comparatively small body masses (med.: 842.9 kg & 1556.7 kg). These two species also exhibited exceptionally long recovery periods between successive deep dives, or inter-deep-dive intervals (M. densirostris: med. 62 min; Z. cavirostris: med. 68 min). We examined competing hypotheses to explain observed patterns of vertical habitat use based on body mass, oxygen binding protein concentrations, and inter-deep-dive intervals in an assemblage of five sympatric toothed whales species in the Bahamas. Hypotheses were evaluated using dive data from satellite tags attached to the two beaked whales (M. densirostris, n = 12; Z. cavirostris, n = 7), as well as melon-headed whales Peponocephala electra (n = 13), short-finned pilot whales Globicephala macrorhynchus (n = 15), and sperm whales Physeter macrocephalus (n = 27). Body mass and myoglobin concentration together explained only 36% of the variance in maximum dive durations. The inclusion of inter-deep-dive intervals, substantially improved model fits (R2 = 0.92). This finding supported a hypothesis that beaked whales extend foraging dives by exceeding aerobic dive limits, with the extension of inter-deep-dive intervals corresponding to metabolism of accumulated lactic acid. This inference points to intriguing tradeoffs between body size, access to prey in different depth strata, and time allocation within dive cycles. These tradeoffs and resulting differences in habitat use have important implications for spatial distribution patterns, and relative vulnerabilities to anthropogenic impacts.

Notes

TAGS
A summary of tagged individuals. The variables DURATION_MAX and IDDI_MED were calculated from the behavior log returned by Argos satellites from SPLASH (Mk10a) transmitter tags produced by Wildlife Computers. The variable MASS_MED was calculated from models of body mass as a function of standard length. The variable MB derived from a variety of literature sources.
ARGOS
Location estimates and time stamps returned by Argos satellites from SPOT5 and SPLASH (Mk10a) tags produced by Wildlife Computers. Location error information derives from Argos Kalman filtering algorithm.
BEHAV
A log of dives and surface intervals returned by Argos satellites from SPLASH (Mk10a) transmitter tags produced by Wildlife Computers. Depths represent the maximum depth recorded on a dive, the duration of which was defined as the interval between successive dry measurements on the wet-dry sensor. Dives that did not exceed 15m was logged as Surface Time.
SERIES
A moderate resolution time series of time-depth recorder (TDR) measurements returned via Argos satellites from SPLASH (Mk10a) transmitter tags produced by Wildlife Computers.
TAT
Histograms representing the proportion of time a tag spent in 12 temperature bins define in 2C increments between 4C and 24C TAT histograms were returned by Argos satellites from SPOT5 tags produced by Wildlife Computers. TAT were collected in 6-hour sampling periods, and sampling periods were programmed to begin at 01:00, 07:00, 13:00, or 21:00 local time, so that the majority (>80%) of sampling of each TAT histogram fell within either daytime or nighttime. TAT histograms that were translated into units of depth using the hydrographic data and interpolation methods detailed in Joyce et al. (2016).
PHYLO_DATA
A table of species used to implement a phylogenetic generalized least squares (PGLS) inter-specific comparative analysis. Aside from the five species tagged in this study maximum dive duration (Tmax) and inter-deep-dive interval (IDDI) as well as body mass (m) and myoglobin concentration ([Mb]) derive from literature-reported values or were extracted from supplemental materials.
Cetacean_Analysis_Import & Processing_0.6
R script importing and processing data files used in the analyses of presented in this paper.
Cetacean_Analysis_Functions_0.4
General functions used in processing and analyzing data presented in this study
Dive_Analysis_Figures_2.4
R script detailing the analyses, figures, tables, and text values presented in the paper.

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Additional details

Related works

Is cited by
10.1371/journal.pone.0185113 (DOI)