TY - JOUR
T1 - The Sarasota Dolphin Whistle Database
T2 - a unique long-term resource for understanding dolphin communication
AU - Sayigh, Laela
AU - Janik, Vincent M.
AU - Jensen, Frantz
AU - Scott, Michael D.
AU - Tyack, Peter Lloyd
AU - Wells, Randall
N1 - Funding: Funding for data collection and analysis over the years has been provided by the National Science Foundation, The Royal Society of London, Dolphin Quest, Adelaide M. and Charles B. Link Foundation, Marine Mammal Commission, National Oceanic and Atmospheric Administration, Earthwatch Institute, Protect Wild Dolphins Fund of the Harbor Branch Oceanographic Institute, Grossman Family Foundation, WHOI Ocean Life Institute, Vulcan Machine Learning Center for Impact, and the Allen Institute for Artificial Intelligence. Current support for PT’s involvement is provided by the Office of Naval Research Grants N00014-18-1-2062 and N00014-20-1-2709 through a subaward from Carnegie Mellon University. Current support for LS’s involvement is provided by the Adelaide M. & Charles B. Link Foundation and Dolphin Quest.
PY - 2022/8/4
Y1 - 2022/8/4
N2 - Common bottlenose dolphins (Tursiops truncatus) produce
individually distinctive signature whistles that are learned early in
life and that help animals recognize and maintain contact with
conspecifics. Signature whistles are the predominant whistle type
produced when animals are isolated from conspecifics. Health assessments
of dolphins in Sarasota, Florida (USA) provide a unique opportunity to
record signature whistles, as dolphins are briefly separated from
conspecifics. Recordings were first made in the mid 1970’s, and then
nearly annually since 1984. The Sarasota Dolphin Whistle Database (SDWD)
now contains 926 recording sessions of 293 individual dolphins, most of
known age, sex, and matrilineal relatedness. The longest time span over
which an individual has been recorded is 43 years, and 85 individuals
have been recorded over a decade or more. Here we describe insights
about signature whistle structure revealed by this unique and expansive
dataset. Signature whistles of different dolphins show great variety in
their fundamental frequency contours. Signature whistle types (with
‘whistle type’ defined as all whistles visually categorized as sharing a
particular frequency modulation pattern) can consist of a single
stereotyped element, or loop (single-loop whistles), or of multiple
stereotyped loops with or without gaps (multi-loop whistles). Multi-loop
signature whistle types can also show extensive variation in both
number and contour of loops. In addition, fundamental frequency contours
of all signature whistle types can be truncated (deletions) or
embellished (additions), and other features are also occasionally
incorporated. However, even with these variable features, signature
whistle types tend to be highly stereotyped and easily distinguishable
due to the extensive variability in contours among individuals. In an
effort to quantify this individual distinctiveness, and to compare it to
other species, we calculated Beecher’s Information Statistic and found
it to be higher than for any other animal signal studied so far. Thus,
signature whistles have an unusually high capacity to convey information
on individual identity. We briefly review the large range of research
projects that the SDWD has enabled thus far, and look ahead to its
potential to answer a broad suite of questions about dolphin
communication.
AB - Common bottlenose dolphins (Tursiops truncatus) produce
individually distinctive signature whistles that are learned early in
life and that help animals recognize and maintain contact with
conspecifics. Signature whistles are the predominant whistle type
produced when animals are isolated from conspecifics. Health assessments
of dolphins in Sarasota, Florida (USA) provide a unique opportunity to
record signature whistles, as dolphins are briefly separated from
conspecifics. Recordings were first made in the mid 1970’s, and then
nearly annually since 1984. The Sarasota Dolphin Whistle Database (SDWD)
now contains 926 recording sessions of 293 individual dolphins, most of
known age, sex, and matrilineal relatedness. The longest time span over
which an individual has been recorded is 43 years, and 85 individuals
have been recorded over a decade or more. Here we describe insights
about signature whistle structure revealed by this unique and expansive
dataset. Signature whistles of different dolphins show great variety in
their fundamental frequency contours. Signature whistle types (with
‘whistle type’ defined as all whistles visually categorized as sharing a
particular frequency modulation pattern) can consist of a single
stereotyped element, or loop (single-loop whistles), or of multiple
stereotyped loops with or without gaps (multi-loop whistles). Multi-loop
signature whistle types can also show extensive variation in both
number and contour of loops. In addition, fundamental frequency contours
of all signature whistle types can be truncated (deletions) or
embellished (additions), and other features are also occasionally
incorporated. However, even with these variable features, signature
whistle types tend to be highly stereotyped and easily distinguishable
due to the extensive variability in contours among individuals. In an
effort to quantify this individual distinctiveness, and to compare it to
other species, we calculated Beecher’s Information Statistic and found
it to be higher than for any other animal signal studied so far. Thus,
signature whistles have an unusually high capacity to convey information
on individual identity. We briefly review the large range of research
projects that the SDWD has enabled thus far, and look ahead to its
potential to answer a broad suite of questions about dolphin
communication.
KW - Signature whistle
KW - Communication
KW - Cognition
KW - Database
KW - Individual identity
U2 - 10.3389/fmars.2022.923046
DO - 10.3389/fmars.2022.923046
M3 - Article
SN - 2296-7745
VL - 9
JO - Frontiers in Marine Science
JF - Frontiers in Marine Science
M1 - 923046
ER -