A Macroevolutionary Perspective on Multiple Sexual Traits in the Phasianidae (Galliformes)

Traits involved in sexual signaling are ubiquitous among animals. Although a single trait appears sufficient to convey information, many sexually dimorphic species exhibit multiple sexual signals, which may be costly to signalers and receivers. Given that one signal may be enough, there are many microevolutionary hypotheses to explain the evolution of multiple signals. Here we extend these hypotheses to a macroevolutionary scale and compare those predictions to the patterns of gains and losses of sexual dimorphism in pheasants and partridges. Among nine dimorphic characters, including six intersexual signals and three indicators of competitive ability, all exhibited both gains and losses of dimorphism within the group. Although theories of intersexual selection emphasize gain and elaboration, those six characters exhibited greater rates of loss than gain; in contrast, the competitive traits showed a slight bias towards gains. The available models, when examined in a macroevolutionary framework, did not yield unique predictions, making it difficult to distinguish among them. Even with this limitation, when the predictions of these alternative models were compared with the heterogeneous patterns of evolution of dimorphism in phasianids, it is clear that many different selective processes have been involved in the evolution of sexual signals in this group

A simple measure with complex determinants: investigation of the correlates of self-rated health in older men and women from three continents

Self-rated health is commonly employed in research studies that seek to assess the health status of older individuals. Perceptions of health are, however, influenced by individual and societal level factors that may differ within and between countries. This study investigates levels of self-rated health (SRH) and correlates of SRH among older adults in Australia, United States of America (USA), Japan and South Korea. We conclude that when examining correlates of SRH, the similarities are greater than the differences between countries. There are however differences in levels of SRH which are not fully accounted for by the health correlates. Broad generalizations about styles of responding are not helpful for understanding these differences, which appear to be country- and possibly cohort-specific. When using SRH to characterize the health status of older people, it is important to consider earlier life experiences of cohorts as well as national and individual factors in later life. Further research is required to understand the complex societal influences on perceptions of health.The Australian data on which this research is based were drawn from several Australian longitudinal studies including: the Australian Longitudinal Study of Ageing (ALSA), the Australian Longitudinal Study of Women’s Health (ALSWH) and the Personality And Total Health Through Life Study (PATH). These studies were pooled and harmonized for the Dynamic Analyses to Optimize Ageing (DYNOPTA) project. DYNOPTA was funded by a National Health and Medical Research Council (NHMRC) grant (# 410215)

Impact of CD4 and CD8 dynamics and viral rebounds on loss of virological control in HIV controllers

Objective: HIV controllers (HICs) spontaneously maintain HIV viral replication at low level without antiretroviral therapy (ART), a small number of whom will eventually lose this ability to control HIV viremia. The objective was to identify factors associated with loss of virological control. Methods: HICs were identified in COHERE on the basis of \ue2\u89\ua55 consecutive viral loads (VL) \ue2\u89\ua4500 copies/mL over \ue2\u89\ua51 year whilst ART-naive, with the last VL \ue2\u89\ua4500 copies/mL measured \ue2\u89\ua55 years after HIV diagnosis. Loss of virological control was defined as 2 consecutive VL >2000 copies/mL. Duration of HIV control was described using cumulative incidence method, considering loss of virological control, ART initiation and death during virological control as competing outcomes. Factors associated with loss of virological control were identified using Cox models. CD4 and CD8 dynamics were described using mixed-effect linear models. Results: We identified 1067 HICs; 86 lost virological control, 293 initiated ART, and 13 died during virological control. Six years after confirmation of HIC status, the probability of losing virological control, initiating ART and dying were 13%, 37%, and 2%. Current lower CD4/CD8 ratio and a history of transient viral rebounds were associated with an increased risk of losing virological control. CD4 declined and CD8 increased before loss of virological control, and before viral rebounds. Discussion: Expansion of CD8 and decline of CD4 during HIV control may result from repeated low-level viremia. Our findings suggest that in addition to superinfection, other mechanisms, such as low grade viral replication, can lead to loss of virological control in HICs

New genetic loci link adipose and insulin biology to body fat distribution.

Body fat distribution is a heritable trait and a well-established predictor of adverse metabolic outcomes, independent of overall adiposity. To increase our understanding of the genetic basis of body fat distribution and its molecular links to cardiometabolic traits, here we conduct genome-wide association meta-analyses of traits related to waist and hip circumferences in up to 224,459 individuals. We identify 49 loci (33 new) associated with waist-to-hip ratio adjusted for body mass index (BMI), and an additional 19 loci newly associated with related waist and hip circumference measures (P < 5 × 10(-8)). In total, 20 of the 49 waist-to-hip ratio adjusted for BMI loci show significant sexual dimorphism, 19 of which display a stronger effect in women. The identified loci were enriched for genes expressed in adipose tissue and for putative regulatory elements in adipocytes. Pathway analyses implicated adipogenesis, angiogenesis, transcriptional regulation and insulin resistance as processes affecting fat distribution, providing insight into potential pathophysiological mechanisms

When should males lek? Insights from a dynamic state variable model

A central focus in the study of lek evolution is to understand the clustering of male mating territories. Lekking males typically defend small clumped territories and experience intense competition associated with dense aggregations. We used dynamic state variable modeling to evaluate three alternative selective pressures proposed to explain the evolution of lekking. These are female mating bias for large clusters, reduction in predation risk in large clusters, and male harassment of estrous females. We modeled male mating decisions during a single breeding season using a lekking ungulate as a model system. Males could choose from eight alternative tactics that included a nonreproductive tactic, territorial tactics ranging from low to high clustering, and the option to join a mixed-sex herd. The model predicted a state- and time-dependent strategy that maximizes mating success over the course of the season. We then simulated a population of 100 males that used the optimal strategy and calculated the proportion of the population that adopted each tactic. Our model generated unique predictions for the three selective pressures we considered. Female mating bias, when nonlinearly related to cluster size, had the greatest potential to generate large clusters of territorial males, whereas predation risk and harassment of females typically did not promote male clustering. More generally, our model highlights the conditions that will favor lekking. Lek-like clustering was consistently produced when the benefits in clustering increased in specific nonlinear ways. Our model thus emphasizes clarifying the shapes of relationships between potential selective factors and the size of territory clusters. Copyright 2003.dynamic optimization; female preference; lek evolution; predation risk; sexual harassment

Have your cake and eat it too: male sand gobies show more parental care in the presence of female partners

Traditionally, male parental effort and mate attraction effort are expected to be in conflict as they compete for the same resource budget. However, the quality of care provided by the male may be of a direct benefit to females and may provide an important mate choice cue. In a laboratory experiment, we examined how males modified their parental behavior with respect to mating opportunity by allowing male sand gobies to mate with a single female either in a big or small nest (a constraint on future mating potential). We then exposed half of these males to the visual stimulus from additional females and recorded male egg fanning and nest building (two components of care), courtship behavior, and reproductive success through out the brood cycle. We found that males fanned longer and more frequently and did more nest construction in the presence of females and in big nests. Males guarding large nests courted females more than did males guarding small nests. All males consumed eggs during the brood cycle, but complete clutch cannibalism was most frequent when males were guarding small nests in the absence of females. The pattern of filial cannibalism that we observed suggests that males prematurely terminated care when their reproductive potential was low, that is, when there was little nest space for additional mating and no mates present. We found no support for a trade-off between mate attraction and parental care. Indeed, taken together our results suggest that males may use parental care as a courtship strategy and that males who invest in mate attraction also have higher parental effort. Copyright 2004.courtship; filial cannibalism; males; mate attraction; parental behavior; sand gobies

Data from: Cut your losses: self-amputation of injured limbs increases survival

Autotomy, self-induced limb loss, is an extreme trait observed throughout the animal kingdom; lizards drop their tails, crickets release their legs, and crabs drop their claws. These repeated evolutionary origins suggest that autotomy is adaptive. Yet, we do not have a firm understanding of the selective pressures that promote and maintain this extreme trait. Although multiple adaptive hypotheses exist, research has generally focused on autotomy’s adaptive value as a form of predator escape. However, autotomy could also be selected to reduce the cost of an injured limb, which we investigate here. Previously, this alternative hypothesis has been challenging to directly test because when an injury occurs on an autotomizable limb, that limb is almost always dropped (i.e., autotomy is behaviorally fixed within populations). Recently, however, we have identified a species, Narnia femorata (Insecta: Hemiptera: Coreidae), where some individuals autotomize limbs in response to injury, but some do not. This natural variation allowed us to investigate both the survival costs of retaining an injured limb and the benefits of autotomizing it. In this study, we find a positive association between autotomizing injured limbs and survival, thereby quantifying a new and likely widespread benefit of autotomy—reducing the cost of injury

HABITAT DEGRADATION AND SETTLEMENT BEHAVIOR: EFFECTS ON FISH SETTLEMENT, SURVIVAL, AND RECRUITMENT.

Abstract As coral reefs change in their composition, the dynamics of organisms that depend on them will likely also be affected. Traditionally, marine ecologists have recognized that settlement of fishes (and invertebrates) is tremendously variable in space and time, and changes in coral communities might therefore be expected to operate through effects on settlement. However, recent work demonstrates that density-dependent survival also varies spatially, with high quality sites offering greater recruitment than low quality sites at comparable settler densities. Furthermore, variation in settlement may often be correlated with site quality. As a result, understanding the response of fish populations to changes in coral communities requires that we understand how site quality and settlement interact through larval behavior. Here, we explore the implications of declines in site quality (e.g., due to the loss of coral habitat) and larval behavior. Specifically, we explore effects of larval site selection (and its dependency on site quality) and larval redirection (the extent to which larvae that would have settled at degraded sites can go on to settle elsewhere). We use data from the sixbar wrasse (Thalassoma hardwicke) system in Mo&apos;orea, French Polynesia. We show that under some patterns of larval behavior, settlement, recruitment and survival can actually increase as habitat loss increases. These counter-intuitive results have important implications for informing monitoring studies of reef fish. The results also suggest the need for understanding the relationship between settlement rates and site quality, and for quantifying the extent of larval redirection. Keywords reef fish, cryptic density dependence, habitat quality, larval redirection, settlement preference