The final two primary alliances that formed were very unusual since they were all speckled males (alliances 6 and 8). In both pooled periods the mixed sex mean CoA was less than the community average (and close to the
female-female mean CoA) and associations involved every age class combination. In prehurricane years all but three Selleck Roxadustat males and four females had strong mixed sex associations, whereas in posthurricane years only 15 of 23 males and 14 of 24 females had strong mixed sex associations. All other data were similar for both data sets and is presented together. The vast majority of associations were within social clusters, the few that were cross cluster involved Central males with Northern and Southern females. The highest
CoAs were between mothers and speckled offspring, and one association of an uncle and niece (known through documented multigenerational maternal-offspring relationships). The majority of first order alliances did not have equally strong CoAs with females, indicating they were not always together when with females. In some of the alliances, only CFTR activator one male had strong associations with females. The majority of the females involved in strong mixed sex associations were reproductively active (pregnant, with a calf, or both). Of those that were not involved in mixed sex strong associations, only five were of age to be reproductively active. Despite large changes in demography, the basic pattern of social structure characteristics of this community remained consistent with previous long-term analyses, including definitive social clusters (Elliser and Herzing 2012), sex preferences, and overall association patterns (Elliser and Herzing, in press). This is contrary to what has been described for other species, where demographic changes resulted in altered behavior and social structure/grouping (bottlenose dolphins: 上海皓元 Lusseau and Newman 2004; marmosets: Lazaro-Perea et al. 2000; chimpanzees: Lehmann and Boesch 2004;
killer whales: Matkin 2008; bottlenose dolphins: Elliser and Herzing 2011). However, some changes in spotted dolphin social structure were observed after the hurricanes. There was lower social differentiation, younger age of alliance formation and increased overall cohesion within clusters and across age class. This suggests that responses to demographic upheaval differ between populations and/or species, with varying degrees of change in social structure as they adapt to new conditions. One of the most striking results was that despite losing many individuals and an overall decrease in community size, the Northern, Central, and Southern clusters remained discrete (although the Central cluster appeared more closely connected with the Southern cluster prehurricane and then with the Northern cluster posthurricane) and group size remained the same, even though social differentiation within the clusters decreased.