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1. Variation of annual apparent survival and detection rates with age, year and individual identity in male Weddell seals ( Leptonychotes weddellii ) from long‐term mark‐recapture data

   https://doi.org/10.1002/1438-390X.12036  

   Brusa, Jamie_L; Rotella, Jay_J; Garrott, Robert_A; Paterson, J_Terrill; Link, William_A (December 2019, Population Ecology)

   Abstract Exploring age‐ and sex‐specific survival rates provides insight regarding population behavior and life‐history trait evolution. However, our understanding of how age‐specific patterns of survival, including actuarial senescence, compare between the sexes remains inadequate. Using 36 years of mark‐recapture data for 7,516 male Weddell seals (Leptonychotes weddellii) born in Erebus Bay, Antarctica, we estimated age‐specific annual survival rates using a hierarchical model for mark‐recapture data in a Bayesian framework. Our male survival estimates were moderate for pups and yearlings, highest for 2‐year‐olds, and gradually declined with age thereafter such that the oldest animals observed had the lowest rates of any age. Reports of senescence in other wildlife populations of species with similar longevity occurred at older ages than those presented here. When compared to recently published estimates for reproductive Weddell seal females, we found that peak survival rates were similar (males: 0.94, 95% CI = 0.92–0.96; females: 0.92, 95% CI = 0.93–0.95), but survival rates at older ages were lower in males. Age‐specific male Weddell seal survival rates varied across years and individuals, with greater variation occurring across years. Similar studies on a broad range of species are needed to contextualize these results for a better understanding of the variation in senescence patterns between the sexes of the same species, but our study adds information for a marine mammal species to a research topic dominated by avian and ungulate species. 

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2. Reproductive state-dependent cell turnover in the inner ear of the plainfin midshipman fish ( Porichthys notatus )

   https://doi.org/10.1242/jeb.250239  

   Jasper, Coty W; Molano, Olivia; Fearington, Forrest; Sisneros, Joseph A; Coffin, Allison B (March 2025, Journal of Experimental Biology)

   ABSTRACT Plainfin midshipman fish (Porichthys notatus) exhibit seasonal auditory plasticity that enhances their reproductive success. During the summer, type I male midshipman acoustically court females and both the males and females exhibit increased auditory sensitivity during this period. The enhanced auditory sensitivity is associated with increased density of sensory hair cells in the saccule but not the utricle, suggesting that different mechanisms underlie physiological plasticity in distinct inner ear regions. To better understand how shifts in hair cell number occur within auditory tissues, we examined cell turnover across breeding states and sexes in midshipman fish. We found that reproductive type I males exhibited less saccular cell proliferation than non-reproductive males without a change in cell death, indicating a net loss of saccular cells during the breeding season. By contrast, saccular cell proliferation increased in summer females, with no seasonal changes in other inner ear epithelia. Collectively, our data reveal that multiple mechanisms are likely to contribute to seasonal auditory plasticity within a single species, potentially within the ear of an individual animal. 

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3. Social and demographic correlates of male androgen levels in wild white‐faced capuchin monkeys ( Cebus capucinus )

   https://doi.org/10.1002/ajp.22653  

   Schaebs, Franka S.; Perry, Susan E.; Cohen, Don; Mundry, Roger; Deschner, Tobias (April 2017, American Journal of Primatology)

   The Challenge Hypothesis, designed originally to explain the patterning of competitive behavior and androgen levels in seasonally breeding birds, predicts that males will increase their androgen levels in order to become more competitive in reproductive contexts. Here we test predictions derived from the Challenge Hypothesis in white‐faced capuchin monkeys (Cebus capucinus), a species that has somewhat seasonal reproduction. We analyzed demographic and hormonal data collected over a 5.25‐year period, from 18 males in nine social groups living in or near Lomas Barbudal Biological Reserve, Costa Rica. Alpha males had higher androgen levels than subordinates. Contrary to our predictions, neither the number of breeding‐age males nor the number of potentially fertile females was obviously associated with androgen levels. Furthermore, male androgen levels were not significantly linked to social stability, as measured by stability of male group membership or recency of change in the alpha male position. Androgen levels changed seasonally, but not in a manner that had an obvious relationship to predictions from the Challenge Hypothesis: levels were generally at their lowest near the beginning of the conception season, but instead of peaking when reproductive opportunities were greatest, they were at their highest near the end of the conception season or shortly thereafter. This lack of correspondence to the timing of conceptions suggests that there may be ecological factors not yet identified that influence ifA levels. We expected that the presence of offspring who were young enough to be vulnerable to infanticide during an alpha male takeover might influence androgen levels, at least in the alpha male, but this variable did not significantly impact results. 

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4. The elusive sex: satellite tracking contributions to male sea turtle spatial ecology

   https://doi.org/10.3354/esr01417  

   Fuentes, Mariana_M_P B; Beal, Martin; Patricio, Ana R (July 2025, Endangered Species Research)

   Satellite tracking has revolutionized our understanding of the behavior and ecology of sea turtles. However, most satellite tracking of sea turtles has been performed on breeding females, leaving knowledge gaps with regard to males. To inform future studies, we examined the peer-reviewed literature to summarize the contribution that satellite tracking has made to the spatial ecology of male turtles and describe how the published research varies across time, species, life stages, seasonal cycle phases, regions, and research topics. We systematically reviewed 61 publications reporting tracking of male sea turtles across 6 species. Loggerheads emerged as the most studied species, featuring in 49% of the publications, with green turtles and loggerheads having the highest number of tracked males. The North Atlantic was the most represented region (39% of publications), followed by the Mediterranean (29%). Most tracking of males has been undertaken at foraging areas (77%), often providing information on home range residency. This is followed by migration publications (44%), which have revealed differences among populations and between sexes, with the breeding period being the least studied. We highlight differences in the spatial ecology of males and females (e.g. residency in breeding areas and migration distance) and identified unanswered research questions about male sea turtles. To overcome the lack of knowledge about this important demographic group, efforts should be undertaken to increase the sample size and geographic coverage of tracked males, with special focus on flatback and Kemp’s ridleys, as well as studies in the Indian and Pacific Oceans. 

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5. Scraping Network Analysis: A Method to Explore Complex White-tailed Deer Mating Systems

   Hearst, Scoty; Streeter, Sharron; Justin Hannah, Justin; Taylor, George; Shepherd, Sylmia; Winn, Bryce; Mao, Jinghe (January 2021, Southeastern naturalist)

   Applegate, Roger (Ed.)

   Abstract - Odocoileus virginianus (White-tailed Deer) are social animals that thrive in rural and urban settings. Scraping behavior is an olfactory reproductive communication used by White-tailed Deer to establish breeding networks. Male scraping is a complex scent-marking behavior which advertises sociosexual status and location to potential females as well as to competing males. Female scraping behavior is thought to be an estrus signal alerting males during times of optimal fertility. This study describes a new method to examine White-tailed Deer mating systems using social network analyses of scraping behavior using an urban population of White-tailed Deer as a model. First, we validated the scraping behavior at our study site in Tougaloo, MS, during the 2019–2020 breeding season. Using remote monitoring, we continuously documented scraping behaviors over 8 different scrape-site locations and found similar behavioral, temporal, and spatial patterns in our urban breeding network as reported in rural and captive deer studies. Next, we describe methods detailing how social network analyses can reveal sociality, dominance, importance, and social structure within male scraping networks. Using centrality measures, we were able to rank dominant male influencers, anticipate social conflict among rivals, and made predictions regarding the spread of communicable diseases through a male scraping network. We also detail network analyses combining both male and female scraping behavior to reveal a glimpse into the complexity of breeding networks. Using network measures, we were able to rank males based on competitiveness and female preference. Lastly, we generated a theoretical breeding network to explore female sociability, competitiveness, preference, and mate choice. Taken together, this work describes a new method using scraping network analysis to investigate the complexity of White-tailed Deer breeding networks. This work also demonstrates the future applications of this method for predicting the spread of communicable diseases and for predicting mate selection within White-tailed Deer mating systems. 

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