Journal
CURRENT BIOLOGY
Volume 32, Issue 7, Pages 1664-+Publisher
CELL PRESS
DOI: 10.1016/j.cub.2022.03.027
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Funding
- Swiss National Science Foundation [31003A_149956]
- Seaworld Research & Rescue Foundation (SWRRFI) Australia
- National Geographic Society
- A.H. Schultz Stiftung
- Claraz-Schenkung, Julius-Klaus Stiftung
- W.V. Scott Charitable Trust
- Australian Research Council [A19701144, DP0346313]
- National Science Foundation [1316800, BNS 8601475]
- Eppley Foundation for Research
- Ann & Gordon Getty Foundation
- Francis V.R. Seebie Charitable Trust
- US National Institutes of Health Fellowship
- Fulbright Fellowship
- Rackham pre-doctoral Grant
- University of Michigan
- University of Zurich
- Swiss National Science Foundation (SNF) [31003A_149956] Funding Source: Swiss National Science Foundation (SNF)
- Australian Research Council [DP0346313] Funding Source: Australian Research Council
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Understanding the factors that determine differential reproductive success is crucial in evolutionary biology. Social relationships, particularly in males, play a significant role in fitness and reproductive opportunities. A study on unrelated male bottlenose dolphins in Shark Bay, Australia revealed that well-integrated males with more homogeneous social bonds achieved higher paternities. This highlights the adaptive value of social bonds in polyadic cooperation among unrelated males.
Understanding determinants of differential reproductive success is at the core of evolutionary biology because of its connection to fitness. Early work has linked variation in reproductive success to differences in age,(1) rank,(2) or size,(3)'(4) as well as habitat characteristics. 5 More recently, studies in group-living taxa have revealed that social relationships also have measurable effects on fitness.(6-8) The influence of social bonds on fitness is particularly interesting in males who compete over reproductive opportunities. In Shark Bay, Western Australia, groups of 4-14 unrelated male bottlenose dolphins cooperate in second-order alliances to compete with rival alliances over access to females.(9-12) Nested within second-order alliances, pairs or trios of males, which can vary in composition, form first-order alliances to herd estrus females. Using 30 years of behavioral data, we examined how individual social factors, such as first-order alliance stability, social connectivity, and variation in social bond strength within second-order alliances, affect male fitness. Analyzing the reproductive careers of 85 males belonging to 10 second-order alliances, we found that the number of paternities a male achieved was positively correlated with his cumulative social bond strength but negatively correlated with his variation in bond strength. Thus, well-integrated males with more homogeneous social bonds to second-order allies obtained most paternities. Our findings provide novel insights into the fitness benefits of polyadic cooperation among unrelated males and highlight the adaptive value of social bonds in this context.
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