Your search keyword '"trade‐off"' showing total 159 results

1. The impact of sterility-mortality tolerance and recovery-transmission trade-offs on host–parasite coevolution.

Author

Singh, Prerna and Best, Alex

Abstract

Understanding the coevolutionary dynamics of hosts and their parasites remains a major focus of much theoretical literature. Despite empirical evidence supporting the presence of sterility-mortality tolerance trade-offs in hosts and recovery-transmission trade-offs in parasites, none of the current models have explored the potential outcomes when both trade-offs are considered within a coevolutionary framework. In this study, we consider a model where the host evolves sterility tolerance at the cost of increased mortality and the parasite evolves higher transmission rate at the cost of increased recovery rate (reduced infection duration), and use adaptive dynamics to predict the coevolutionary outcomes under such trade-off assumptions. We particularly aim to understand how our coevolutionary dynamics compare with single species evolutionary models. We find that evolutionary branching in the host can drive the parasite population to branch, but that cycles in the population dynamics can prevent the coexisting strains from reaching their extremes. We also find that varying crowding does not impact the recovery rate when only the parasite evolves, yet coevolution reduces recovery as crowding intensifies. We conclude by discussing how different host and parasite trade-offs shape coevolutionary outcomes, underscoring the pivotal role of trade-offs in coevolution. [ABSTRACT FROM AUTHOR]

Published

2024

2. Exposure to female olfactory cues hastens reproductive ageing and increases mortality when mating in male mice.

Author

Garratt, Michael, Try, Heather, Neyt, Christine, and Brooks, Robert C.

Abstract

Theories of ageing predict that investment in reproduction will trade-off against survival and later-life reproduction. Recent evidence from invertebrates suggests that just perceiving cues of a potential mate's presence can reduce lifespan, particularly in males, and that activation of neuroendocrine reward pathways associated with mating can alleviate these effects. Whether similar effects occur in vertebrates remains untested. We tested whether exposure to olfactory cues from the opposite sex would influence mortality and reproductive senescence in male mice. We observed that males exposed to female olfactory cues from middle- to old age (from 10 to 24 months of age) showed reduced late-life fertility, irrespective of whether they had also been allowed to mate with females earlier in life. Males that were exposed to female odours in conjunction with mating also showed an increased mortality rate across the exposure period, indicating that olfactory cues from females can increase male mortality in some environments. Our results show that exposure to female odours can influence reproductive ageing and mortality in male mice, highlighting that sensory perception of mates may be an important driver of life-history trade-offs in mammals. [ABSTRACT FROM AUTHOR]

Published

2024

3. Investigating trade-offs between ovary activation and immune protein expression in bumble bee (Bombus impatiens) workers and queens.

Author

McAfee, Alison, Chapman, Abigail, Bao, Grace, Tarpy, David R., and Foster, Leonard J.

Subjects

*BUMBLEBEES, *INSECT societies, *PROTEIN expression, *QUEENS (Insects), *LIFE cycles (Biology), *OVARIES, *IMPATIENS

Abstract

Evidence for a trade-off between reproduction and immunity has manifested in many animal species, including social insects. However, investigations in social insect queens present a conundrum: new gynes of many social hymenopterans, such as bumble bees and ants, must first mate, then transition from being solitary to social as they establish their nests, thus experiencing confounding shifts in environmental conditions. Worker bumble bees offer an opportunity to investigate patterns of immune protein expression associated with ovary activation while minimizing extraneous environmental factors and genetic differences. Here, we use proteomics to interrogate the patterns of immune protein expression of female bumble bees (Bombus impatiens) by (i) sampling queens at different stages of their life cycle, then (ii) by sampling workers with different degrees of ovary activation. Patterns of immune protein expression in the haemolymph of queens are consistent with a reproduction–immunity trade-off, but equivalent samples from workers are not. This brings into question whether queen bumble bees really experience a reproduction–immunity trade-off, or if patterns of immune protein expression may actually be due to the selective pressure of the different environmental conditions they are exposed to during their life cycle. [ABSTRACT FROM AUTHOR]

Published

2024

4. Seed size variation impacts local adaptation and life-history strategies in a perennial grass.

Author

Razzaque, Samsad, Heckman, Robert W., and Juenger, Thomas E.

Subjects

*LIFE history theory, *SEED size, *SWITCHGRASS, *PERENNIALS, *SEEDLINGS, *PANICUM, *GRASSES

Abstract

Seed mass is an ecologically important trait that often differs considerably among ecotypes. Yet, because few studies examine the impacts of seed mass on adult life-history traits, its role in local adaptation is unclear. In this study, using accessions of Panicum hallii that spanned the two major ecotypes, we examined whether covariation between seed mass, seedling and reproductive traits impacts ecotypic divergence and local adaptation. The perennial grass P. hallii has two distinct ecotypes—a large-seeded upland ecotype adapted to xeric environments and a small-seeded lowland ecotype adapted to mesic environments. In the greenhouse, seed mass varied greatly across P. hallii genotypes in a manner consistent with ecotypic divergence. Seed mass covaried significantly with several seedling and reproductive traits. At field sites representing the habitats of the two ecotypes, seed mass had different impacts on seedling and adult recruitment: selection favoured large seeds in upland habitat and small seeds in lowland habitat, which was consistent with local adaptation. By demonstrating the central role of seed mass in ecotypic differences in P. hallii and its importance to seedling and adult recruitment under field conditions, these studies show that early life-history traits can promote local adaptation and potentially explain ecotype formation. [ABSTRACT FROM AUTHOR]

Published

2023

5. Fasting increases investment in soma upon refeeding at the cost of gamete quality in zebrafish.

Author

Ivimey-Cook, Edward R., Murray, David S., de Coriolis, Jean-Charles, Edden, Nathan, Immler, Simone, and Maklakov, Alexei A.

Subjects

*GAMETES, *INTERMITTENT fasting, *EGG quality, *ZEBRA danio, *BRACHYDANIO, *ZEBRA danio embryos, *SPERMATOZOA, *FEMALES, *EGGS

Abstract

Fasting increases lifespan in invertebrates, improves biomarkers of health in vertebrates and is increasingly proposed as a promising route to improve human health. Nevertheless, little is known about how fasted animals use resources upon refeeding, and how such decisions affect putative trade-offs between somatic growth and repair, reproduction and gamete quality. Such fasting-induced trade-offs are based on strong theoretical foundations and have been recently discovered in invertebrates, but the data on vertebrates are lacking. Here, we report that fasted female zebrafish, Danio rerio, increase investment in soma upon refeeding, but it comes at a cost of egg quality. Specifically, an increase in fin regrowth was accompanied by a reduction in 24 h post-fertilization offspring survival. Refed males showed a reduction in sperm velocity and impaired 24 h post-fertilization offspring survival. These findings underscore the necessity of considering the impact on reproduction when assessing evolutionary and biomedical implications of lifespan-extending treatments in females and males and call for careful evaluation of the effects of intermittent fasting on fertilization. [ABSTRACT FROM AUTHOR]

Published

2023

6. Aggressive hosts are undeterred by a cuckoo's hawk mimicry, but probably make good foster parents.

Author

Attwood, Mairenn C., Lund, Jess, Nwaogu, Chima J., Moya, Collins, and Spottiswoode, Claire N.

Subjects

*CUCKOOS, *FOSTER parents, *HAWKS, *BIRD eggs, *BROOD parasites, *ANIMAL clutches, *BROOD parasitism, *COST effectiveness, *BIRDS of prey

Abstract

Parasites face a trade-off if the highest quality hosts are also most resistant to exploitation. For brood parasites, well-defended host nests may be both harder to parasitize and harder to predate, leading to better survival of parasitic chicks. This trade-off could be accentuated if brood-parasitic adaptations to reduce front-line defences of hosts, such as mimicry of hawks by Cuculus cuckoos, do not deter hosts which aggressively mob raptors. Here we investigate the costs and benefits to the African cuckoo (Cuculus gularis) of specializing on a highly aggressive host species, the fork-tailed drongo (Dicrurus adsimilis). Field experiments showed that drongos strongly attacked and mobbed both cuckoo and hawk models, implying that hawk mimicry does not deter front-line defences against African cuckoos. Attacks on cuckoo and hawk models generally declined after the egg stage but attacks on snake models sharply increased, suggesting drongos may treat hawks more like cuckoos than predators. We suggest that the cost to cuckoos of parasitizing an aggressive host may be alleviated by subsequent benefits to their offspring, since drongo nests survived better than nests of other species with similar nesting ecology. These results are indicative of a trade-off between host quality and susceptibility for a brood parasite. [ABSTRACT FROM AUTHOR]

Published

2023

7. Oestradiol reduces female bill colour in a mutually ornamented bird.

Author

Romero-Diaz, Cristina, Silva, Paulo A., Soares, Marta C., Cardoso, Gonçalo C., and Trigo, Sandra

Abstract

Carotenoid-based colour signals can be costly to produce and maintain, and trade-offs between signalling and other fitness traits are expected. In mutually ornamented species, trade-offs with reproduction may be stronger for females than males, because females often dedicate more resources to offspring production, which may lead to plastic investment in colour signals and plastic sexual dichromatism. Oestradiol is a candidate mediator of this trade-off because it regulates reproductive physiology and may also influence the expression of coloration. We tested this hypothesis by giving female common waxbills (Estrilda astrild) either oestradiol (17β-oestradiol) or empty implants during the early breeding season and measured spectral reflectance of carotenoid-based bill coloration weekly for two months. Using a model of avian vision, we found that bill colour in oestradiol-implanted females became less saturated, less red in hue and brighter, compared with control females and with unimplanted males. This resulted in a change in bill sexual dichromatism from imperceptible to perceptible. Results support the hypothesis that female reproductive physiology influences investment in coloration through changes in oestradiol and show a form of female-driven plastic sexual dichromatism. Greater sensitivity of female colour to physiological and/or environmental conditions helps explain why differences in sexual dichromatism among species differing in ecology often evolve owing to changes in female rather than male phenotype. [ABSTRACT FROM AUTHOR]

Published

2022

8. A fast pace-of-life is traded off against a high thermal performance.

Author

Tüzün, Nedim and Stoks, Robby

Subjects

*THERMAL tolerance (Physiology), *LARVAE, *STRUCTURAL equation modeling

Abstract

The integration of life-history, behavioural and physiological traits into a 'pace-of-life syndrome' is a powerful concept in understanding trait variation in nature. Yet, mechanisms maintaining variation in 'pace-of-life' are not well understood. We tested whether decreased thermal performance is an energetic cost of a faster pace-of-life. We characterized the pace-of-life of larvae of the damselfly Ischnura elegans from high-latitude and low-latitude regions when reared at 20°C or 24°C in a common-garden experiment, and estimated thermal performance curves for a set of behavioural, physiological and performance traits. Our results confirm a faster pace-of-life (i.e. faster growth and metabolic rate, more active and bold behaviour) in the low-latitude and in warm-reared larvae, and reveal increased maximum performance, Rmax, but not thermal optimum Topt, in low-latitude larvae. Besides a clear pace-of-life syndrome integration at the individual level, larvae also aligned along a 'cold–hot' axis. Importantly, a faster pace-of-life correlated negatively with a high thermal performance (i.e. higher Topt for swimming speed, metabolic rate, activity and boldness), which was consistent across latitudes and rearing temperatures. This trade-off, potentially driven by the energetically costly maintenance of a fast pace-of-life, may be an alternative mechanism contributing to the maintenance of variation in pace-of-life within populations. [ABSTRACT FROM AUTHOR]

Published

2022

9. Senescence: why and where selection gradients might not decline with age.

Author

Roper, Mark, Capdevila, Pol, and Salguero-Gómez, Roberto

Subjects

*TREE age, *AGE, *SOCIAL interaction, *SOCIAL structure

Abstract

Patterns of ageing across the tree of life are much more diverse than previously thought. Yet, we still do not adequately understand how, why and where across the tree of life a particular pattern of ageing will evolve. An ability to predict ageing patterns requires a firmer understanding of how and why different ecological and evolutionary factors alter the sensitivity of fitness to age-related changes in mortality and reproduction. From this understanding, we can ask why and where selection gradients might not decline with age. Here, we begin by summarizing the recent breadth of literature that is unearthing, empirically and theoretically, the mechanisms that drive variation in patters of senescence. We focus on the relevance of two key parameters, population structure and reproductive value, as key to understanding selection gradients, and therefore senescence. We discuss how growth form, individual trade-offs, stage structure and social interactions may all facilitate differing distributions of these two key parameters than those predicted by classical theory. We argue that these four key aspects can help us understand why patterns of negligible and negative senescence can actually be explained under the same evolutionary framework as classical senescence. [ABSTRACT FROM AUTHOR]

Published

2021

10. The evolution of monogamy is associated with reversals from male to female bias in the survival cost of parasitism.

Author

Wittman, Tyler N. and Cox, Robert M.

Subjects

*INSECT ecology, *POLYGYNY, *FEMALES, *MALES, *SPERM competition, *SPERMATOPHORES, *COST estimates, *PARASITISM

Abstract

The extent to which parasites reduce host survival should depend upon how hosts balance trade-offs between reproduction and survival. For example, parasites are predicted to impose greater survival costs under polygynous or promiscuous mating systems in which competition for mates favours increased reproductive investment, particularly in males. We provide, to our knowledge, the first comparative test of the hypothesis that the mating system of the host is an important determinant of (i) the extent to which parasites reduce survival, and (ii) the extent to which males and females differ in the survival cost of parasitism. Using meta-analysis of 85 published estimates of the survival cost of parasitism from 72 studies of 64 species representing diverse animal lineages, we show that parasites impose a mean 3.5-fold increase in the odds of mortality on their hosts. Although this survival cost does not differ significantly across monogamous, polygynous and promiscuous mating systems, females incur a greater survival cost than males in monogamous species, whereas males incur a greater survival cost than females in polygynous and promiscuous species. Our results support the idea that mating systems shape the relative extent to which males and females invest in reproduction at the expense of defence against parasites. [ABSTRACT FROM AUTHOR]

Published

2021

11. Seasonal resource pulses and the foraging depth of a Southern Ocean top predator.

Author

Beltran, Roxanne S., Kilpatrick, A. Marm, Breed, Greg A., Adachi, Taiki, Takahashi, Akinori, Naito, Yasuhiko, Robinson, Patrick W., Smith Jr, Walker O., Kirkham, Amy L., and Burns, Jennifer M.

Subjects

*TOP predators, *ALGAL blooms, *SEA ice, *PREY availability, *MARINE ecology, *EPHEMERAL streams, *TROPHIC cascades

Abstract

Seasonal resource pulses can have enormous impacts on species interactions. In marine ecosystems, air-breathing predators often drive their prey to deeper waters. However, it is unclear how ephemeral resource pulses such as near-surface phytoplankton blooms alter the vertical trade-off between predation avoidance and resource availability in consumers, and how these changes cascade to the diving behaviour of top predators. We integrated data on Weddell seal diving behaviour, diet stable isotopes, feeding success and mass gain to examine shifts in vertical foraging throughout ice break-out and the resulting phytoplankton bloom each year. We also tested hypotheses about the likely location of phytoplankton bloom origination (advected or produced in situ where seals foraged) based on sea ice break-out phenology and advection rates from several locations within 150 km of the seal colony. In early summer, seals foraged at deeper depths resulting in lower feeding rates and mass gain. As sea ice extent decreased throughout the summer, seals foraged at shallower depths and benefited from more efficient energy intake. Changes in diving depth were not due to seasonal shifts in seal diets or horizontal space use and instead may reflect a change in the vertical distribution of prey. Correspondence between the timing of seal shallowing and the resource pulse was variable from year to year and could not be readily explained by our existing understanding of the ocean and ice dynamics. Phytoplankton advection occurred faster than ice break-out, and seal dive shallowing occurred substantially earlier than local break-out. While there remains much to be learned about the marine ecosystem, it appears that an increase in prey abundance and accessibility via shallower distributions during the resource pulse could synchronize life-history phenology across trophic levels in this high-latitude ecosystem. [ABSTRACT FROM AUTHOR]

Published

2021

12. Anomalous invasion dynamics due to dispersal polymorphism and dispersal–reproduction trade-offs.

Author

Keenan, Vincent A. and Cornell, Stephen J.

Subjects

*BIOLOGICAL invasions, *STRAIN rate, *MATHEMATICAL models, *POPULATION dynamics, *GROWTH rate

Abstract

Dispersal polymorphism and mutation play significant roles during biological invasions, potentially leading to evolution and complex behaviour such as accelerating or decelerating invasion fronts. However, life-history theory predicts that reproductive fitness—another key determinant of invasion dynamics—may be lower for more dispersive strains. Here, we use a mathematical model to show that unexpected invasion dynamics emerge from the combination of heritable dispersal polymorphism, dispersal-fitness tradeoffs, and mutation between strains. We show that the invasion dynamics are determined by the trade-off relationship between dispersal and population growth rates of the constituent strains. We find that invasion dynamics can be ‘anomalous’ (i.e. faster than any of the strains in isolation), but that the ultimate invasion speed is determined by the traits of, at most, two strains. The model is simple but generic, so we expect the predictions to apply to a wide range of ecological, evolutionary, or epidemiological invasions. [ABSTRACT FROM AUTHOR]

Published

2021

13. Solving post-prandial reduction in performance by adaptive regurgitation in a freshwater fish.

Author

Jian Zhao, Yanci Wen, Songming Zhu, Jinyun Ye, Junjie Zhu, Zhangying Ye, and Jordan, Alex

Subjects

*LINEAR velocity, *ANGULAR velocity, *INGESTION, *FRESHWATER fishes, *GASTROINTESTINAL system, *TASK performance

Abstract

Foraging animalsmust balance benefits of food acquisition with costs induced by a post-prandial reduction in performance. Eating to satiation can lead to a reduction in locomotor and escape performance, which increases risk should a threat subsequently arises, but limiting feeding behaviour may bemaladaptive if food intake is unnecessarily reduced in the prediction of threats that do not arise. The efficacy of the trade-off between continued and interrupted feeding therefore relies on information about the future risk, which is imperfect. Here, we find that black carp (Mylopharyngodon piceus) can balance this trade-off using an a posteriori strategy; by eating to satiation but regurgitating already ingested food when a threat arises. While degrees of satiation (DS) equal to or greater than 60% reduce elements of escape performance (turning angle, angular velocity, distancemoved, linear velocity), at 40% DS or lower, performance in these tasks approaches levels comparable to that at 0% satiation. After experiencing a chasing event, we find that fish are able to regurgitate already ingested food, thereby changing the amount of food in their gastrointestinal tract to consistent levels that maintain high escape performance. Remarkably, regurgitation results in degrees of satiation between 40 and 60% DS, regardless of whether they had previously fed to 40, 60 or 100% DS. Using this response, fish are able to maximize food intake, but regurgitate extra food to maintain escape performance when they encounter a threat. This novel strategy may be effective for continual grazers and species with imperfect information about the level of threat in their environment. [ABSTRACT FROM AUTHOR]

Published

2020

14. Fitness outcomes in relation to individual variation in constitutive innate immune function.

Author

Roast, Michael J., Hidalgo Aranzamendi, Nataly, Fan, Marie, Teunissen, Niki, Hall, Matthew D., and Peters, Anne

Subjects

*INVESTMENT policy, *INDIVIDUAL differences, *MAINTENANCE costs, *HAPTOGLOBINS

Abstract

Although crucial for host survival when facing persistent parasite pressure, costly immune functions will inevitably compete for resources with other energetically expensive traits such as reproduction. Optimizing, but not necessarily maximizing, immune function might therefore provide net benefit to overall host fitness. Evidence for associations between fitness and immune function is relatively rare, limiting our potential to understand ultimate fitness costs of immune investment. Here, we assess how measures of constitutive immune function (haptoglobin, natural antibodies, complement activity) relate to subsequent fitness outcomes (survival, reproductive success, dominance acquisition) in a wild passerine (Malurus coronatus). Surprisingly, survival probability was not positively linearly predicted by any immune index. Instead, both low and high values of complement activity (quadratic effect) were associated with higher survival, suggesting that different immune investment strategies might reflect a dynamic disease environment. Positive linear relationships between immune indices and reproductive success suggest that individual heterogeneity overrides potential resource reallocation trade-offs within individuals. Controlling for body condition (size-adjusted body mass) and chronic stress (heterophil-lymphocyte ratio) did not alter our findings in a sample subset with available data. Overall, our results suggest that constitutive immune components have limited net costs for fitness and that variation in immune maintenance relates to individual differences more closely. [ABSTRACT FROM AUTHOR]

Published

2020

15. Development time mediates the effect of larval diet on ageing and mating success of male antler flies in the wild.

Author

Angell, Christopher S., Oudin, Mathieu J., Rode, Nicolas O., Mautz, Brian S., Bonduriansky, Russell, and Rundle, Howard D.

Subjects

*ANTLERS, *DIET, *ENVIRONMENTAL quality, *BODY size, *FLIES, *INSECT rearing

Abstract

High-quality developmental environments often improve individual performance into adulthood, but allocating toward early life traits, such as growth, development rate and reproduction, may lead to trade-offs with late-life performance. It is, therefore, uncertain how a rich developmental environment will affect the ageing process (senescence), particularly in wild insects. To investigate the effects of early life environmental quality on insect life-history traits, including senescence, we reared larval antler flies (Protopiophila litigata) on four diets of varying nutrient concentration, then recorded survival and mating success of adult males released in the wild. Declining diet quality was associated with slower development, but had no effect on other life-history traits once development time was accounted for. Fast-developing males were larger and lived longer, but experienced more rapid senescence in survival and lower average mating rate compared to slow developers. Ultimately, larval diet, development time and body size did not predict lifetime mating success. Thus, a rich environment led to a mixture of apparent benefits and costs, mediated by development time. Our results indicate that 'silver spoon' effects can be complex and that development time mediates the response of adult life-history traits to early life environmental quality. [ABSTRACT FROM AUTHOR]

Published

2020

16. Virulence-mediated infectiousness and activity trade-offs and their impact on transmission potential of influenza patients.

Author

McKay, Brian, Ebell, Mark, Dale, Ariella Perry, Ye Shen, and Handel, Andreas

Subjects

*COMMUNICABLE diseases, *DATA analysis, *INFLUENZA

Abstract

Communicable diseases are often virulent, i.e. they cause morbidity symptoms in those infected. While some symptoms may be transmissionenhancing, other symptoms are likely to reduce transmission potential. For human diseases, the reduction in transmission opportunities is commonly caused by reduced activity. There is limited data regarding the potential impact of virulence on transmission potential. We performed an exploratory data analysis of 324 influenza patients at a university health centre during the 2016/2017 influenza season. We classified symptoms as infectiousnessrelated or morbidity-related and calculated two scores. The scores were used to explore the relationship between infectiousness, morbidity (virulence), and activity level. We found a decrease in the activity level with increasing morbidity scores. There was no consistent pattern between an activity level and an infectiousness score. We also found a positive correlation between morbidity and infectiousness scores. Overall, we find that increasing virulence leads to increased infectiousness and reduced activity, suggesting a trade-off that can impact overall transmission potential. Our findings indicate that a reduction of systemic symptoms may increase host activity without reducing infectiousness. Therefore, interventions should target both systemic- and infectiousness-related symptoms to reduce overall transmission potential. Our findings can also inform simulation models that investigate the impact of different interventions on transmission. [ABSTRACT FROM AUTHOR]

Published

2020

17. Negative associations between parasite avoidance, resistance and tolerance predict host health in salmonid fish populations.

Author

Klemme, Ines, Hyvärinen, Pekka, and Karvonen, Anssi

Subjects

*FISH populations, *SEA trout, *PARASITES, *FISHERIES, *ATLANTIC salmon, *HERBICIDE resistance, *EXERCISE tolerance

Abstract

Genetic variation in defence against parasite infections is fundamental for host–parasite evolution. The overall level of defence of a host individual or population includes mechanisms that reduce parasite exposure (avoidance), establishment (resistance) or pathogenicity (tolerance). However, how these traits operate and evolve in concert is not well understood. Here, we investigated genetic variation in and associations between avoidance, resistance and tolerance in a natural host–parasite system. Replicated populations of Atlantic salmon (Salmo salar) and sea trout (an anadromous form of brown trout, Salmo trutta)were raised under common garden conditions and infected with the eye fluke Diplostomum pseudospathaceum. We demonstrate significant genetic variation in the defence traits across host populations and negative associations between the traits, with the most resistant populations showing the weakest avoidance and the lowest infection tolerance. These results are suggestive of trade-offs between different components of defence and possibly underlie the genetic variation in defence traits observed in the wild. Because the three defence mechanisms affect host–parasite evolution in profoundly different ways, we emphasize the importance of studying these traits in concert. [ABSTRACT FROM AUTHOR]

Published

2020

18. Response to resources and parasites depends on health status in extensively grazed sheep.

Author

Liddell, Caroline, Morgan, Eric R., Bull, Katie, and Ioannou, Christos C.

Subjects

*ACARICIDES, *GLOBAL Positioning System, *SHEEP, *ZOOGEOGRAPHY, *ANIMAL ecology, *GRAZING, *PARASITES, LOGGING equipment

Abstract

A fundamental question in animal ecology is how an individual’s internal state and the external environment together shape species distributions across habitats. The increasing availability of biologgers is driving a revolution in answering this question in a wide range of species. In this study, the position of sheep (Ovis aries) from Global Positioning System collars was integrated with remote sensing data, field sampling of parasite distributions, and parasite load and health measures for each tagged individual. This allowed inter-individual variation in habitat use to be examined. Once controlling for a positive relationship between vegetation productivity and tick abundance, healthier individuals spent more of their time at sites with higher vegetation productivity, while less healthy individuals showed a stronger (negative) response to tick abundance. These trends are likely to represent a trade-off in foraging decisions that vary between individuals based on their health status. Given the rarity of studies that explore how animal distributions are affected by health and external factors, we demonstrate the value of integrating biologging technology with remote sensing data, traditional ecological sampling and individual measures of animal health. Our study, using extensively grazed sheep as a model system, opens new possibilities to study free-living grazing systems. [ABSTRACT FROM AUTHOR]

Published

2020

19. Evolution of a multifunctional trait: shared effects of foraging ecology and thermoregulation on beak morphology, with consequences for song evolution.

Author

Friedman, Nicholas R., Miller, Eliot T., Ball, Jason R., Kasuga, Haruka, Remeš, Vladimír, and Economo, Evan P.

Subjects

*BEAKS, *ECOLOGY, *BODY temperature regulation, *BIRDSONGS, *MORPHOLOGY, *GEOMETRIC shapes

Abstract

While morphological traits are often associated with multiple functions, it remains unclear how evolution balances the selective effects of different functions. Birds' beaks function not only in foraging but also in thermoregulating and singing, among other behaviours. Studies of beak evolution abound, however, most focus on a single function. Hence, we quantified relative contributions of different functions over an evolutionary timescale. We measured beak shape using geometric morphometrics and compared this trait with foraging behaviour, climatic variables and song characteristics in a phylogenetic comparative study of an Australasian radiation of songbirds (Meliphagidae). We found that both climate and foraging behaviour were significantly correlated with the beak shape and size. However, foraging ecology had a greater effect on shape, and climate had a nearly equal effect on size. We also found that evolutionary changes in beak morphology had significant consequences for vocal performance: species with elongate-shaped beaks sang at higher frequencies, while species with large beaks sang at a slower pace. The evolution of the avian beak exemplifies how morphological traits can be an evolutionary compromise among functions, and suggests that specialization along any functional axis may increase ecological divergence or reproductive isolation along others. [ABSTRACT FROM AUTHOR]

Published

2019

20. Right phenotype, wrong place: predator-induced plasticity is costly in a mismatched environment.

Author

Innes-Gold, Anne A., Zuczek, Nicholas Y., and Touchon, Justin C.

Subjects

*PHENOTYPIC plasticity, *NATURAL selection, *PHENOTYPES, *NATURAL products, *ENVIRONMENTAL economics, *FISH farming, *PREDATORY animals

Abstract

Like many animals, tadpoles often produce different, predator-specific phenotypes when exposed to risk of predation. It is generally assumed that such plasticity enhances survival in the presence of the predator and is costly elsewhere, but evidence remains surprisingly scarce. We measured (1) the survival trade-off of opposing phenotypes developed by Dendropsophus ebraccatus tadpoles when exposed to different predators and (2) which specific aspects of morphology drive any potential survival benefit or cost. Tadpoles developed predator-specific phenotypes after being reared with caged fish or dragonfly predators for two weeks. In 24 h predation trials with either a fish or a dragonfly, survival was highest in the groups with their matched predator, and lowest among with those the mismatched predator, with predator-naive controls being relatively intermediate. Then, using a large group of phenotypically variable predator-naive tadpoles, we found that increased survival rates are directly related to the morphological changes that are induced by each predator. This demonstrates that induced phenotypes are indeed adaptive and the product of natural selection. Furthermore, our data provide clear evidence of an environmental cost for phenotypic plasticity in a heterogeneous environment. Such costs are fundamental for understanding the evolution and maintenance of inducible phenotypes. [ABSTRACT FROM AUTHOR]

Published

2019

21. Quantifying maladaptation during the evolution of sexual dimorphism.

Author

Matthews, Genevieve, Hangartner, Sandra, Chapple, David G., and Connallon, Tim

Subjects

*SEXUAL dimorphism, *GENETIC correlations, *MAGNITUDE (Mathematics)

Abstract

Females and males have distinct trait optima, resulting in selection for sexual dimorphism. However, most traits have strong cross-sex genetic correlations, which constrain evolutionary divergence between the sexes and lead to protracted periods of maladaptation during the evolution of sexual dimorphism. While such constraints are thought to be costly in terms of individual and population fitness, it remains unclear how severe such costs are likely to be. Building upon classical models for the 'cost of selection' in changing environments (sensu Haldane), we derived a theoretical expression for the analogous cost of evolving sexual dimorphism; this cost is a simple function of genetic (co)variances of female and male traits and sex differences in trait optima. We then conducted a comprehensive literature search, compiled quantitative genetic data from a diverse set of traits and populations, and used them to quantify costs of sexual dimorphism in the light of our model. For roughly 90% of traits, costs of sexual dimorphism appear to be modest, and comparable to the costs of fixing one or a few beneficial substitutions. For the remaining traits (approx. 10%), sexual dimorphism appears to carry a substantial cost—potentially orders of magnitude greater than costs of selection during adaptation to environmental changes. [ABSTRACT FROM AUTHOR]

Published

2019

22. Individual willingness to leave a safe refuge and the trade-off between food and safety: a test with social fish.

Author

Balaban-Feld, Jesse, Mitchell, William A., Kotler, Burt P., Vijayan, Sundararaj, Tov Elem, Lotan T., Rosenzweig, Michael L., and Abramsky, Zvika

Subjects

*FORAGING behavior, *ANIMAL welfare, *FOOD safety, *GOLDFISH, *FISHES, *FISH as food

Abstract

Refuges offer prey animals protection from predation, but increased time spent hiding can reduce foraging opportunities. Within social groups, individuals vary in their refuge use and willingness to forage in the presence of a predator. Here, we examine the relative foraging benefits and mortality costs associated with individual refuge use and foraging behaviour within groups of goldfish (Carassius auratus) under predation risk from an avian predator (little egret—Egretta garzetta). We assessed individual order of emergence from the refuge and participation over 15 group foraging outings, and assigned each fish a daily outing index score. The individual fish that emerged from the refuge earlier than the other group members and that participated in more outings received high outing index scores and consumed more food compared with fish that tended to emerge in posterior positions and participate in fewer outings. However, individual fish that attained high outing index scores suffered a higher risk of predation. Furthermore, the amount of time the egret spent at the pool affected group foraging behaviour: as predation risk increased, groups of fish consumed significantly less food. Our results exemplify the trade-off between foraging success and safety from predation that prey species regularly experience. [ABSTRACT FROM AUTHOR]

Published

2019

23. Range expansion is associated with increased survival and fecundity in a long-lived bat species.

Author

Jan, P.-L., Lehnen, L., Besnard, A.-L., Kerth, G., Biedermann, M., Schorcht, W., Petit, E. J., Le Gouar, P., and Puechmaille, S. J.

Subjects

*FERTILITY, *RANGE management, *PER capita, *BATS, *HORSESHOE bats, *SPECIES distribution

Abstract

The speed and dynamics of range expansions shape species distributions and community composition. Despite the critical impact of population growth rates for range expansion, they are neglected in existing empirical studies, which focus on the investigation of selected life-history traits. Here, we present an approach based on non-invasive genetic capture–mark–recapture data for the estimation of adult survival, fecundity and juvenile survival, which determine population growth. We demonstrate the reliability of our method with simulated data, and use it to investigate life-history changes associated with range expansion in 35 colonies of the bat species Rhinolophus hipposideros. Comparing the demographic parameters inferred for 19 of those colonies which belong to an expanding population with those inferred for the remaining 16 colonies from a non-expanding population reveals that range expansion is associated with higher net reproduction. Juvenile survival was the main driver of the observed reproduction increase in this long-lived bat species with low per capita annual reproductive output. The higher average growth rate in the expanding population was not associated with a trade-off between increased reproduction and survival, suggesting that the observed increase in reproduction stems from a higher resource acquisition in the expanding population. Environmental conditions in the novel habitat hence seem to have an important influence on range expansion dynamics, and warrant further investigation for the management of range expansion in both native and invasive species. [ABSTRACT FROM AUTHOR]

Published

2019

24. Predation shapes sperm performance surfaces in guppies.

Author

Devigili, Alessandro, Evans, Jonathan P., and Fitzpatrick, John L.

Subjects

*SPERM competition, *SPERMATOZOA, *PREDATION, *GUPPIES, *MULTIVARIATE analysis, *PREDATORY animals, *MATHEMATICAL complex analysis

Abstract

Sperm velocity is a key determinant of competitive fertilization success in many species. Selection is therefore expected to favour the evolution of faster sperm when the level of sperm competition is high. However, several aspects can determine the direction and strength of selection acting on this key performance trait, including ecological factors that influence both sperm competition and the strength of selection acting on correlated traits that may constrain evolutionary responses in sperm velocity. Here, we determine how a key ecological variable, the level of predation, shapes sperm swimming speed across 18 Trinidadian populations of guppies (Poecilia reticulata). We use performance analysis, a statistical tool akin to the familiar methods of multivariate selection analyses, to determine how the level of predation influences sperm velocity (modelled as a performance trait) when accounting for correlated pre- and postcopulatory traits that are also impacted by predation. We show that predation affects the combination of pre- and postcopulatory traits that ultimately predict sperm performance. Overall, we report evidence for disruptive relationships between sperm performance and combinations of ornaments and sperm morphology, but the specific combinations of traits that predict sperm velocity depended on the level of predation. These analyses underscore the complex nonlinear interrelationships among pre- and postcopulatory traits and the importance of considering ecological factors that may ultimately change the way in which multiple traits interact to determine a trait's performance value. As such, our results are likely to be broadly applicable across systems where selection is influenced by ecological conditions. [ABSTRACT FROM AUTHOR]

Published

2019

25. Impact of immune activation on stored sperm viability in ant queens.

Author

Chérasse, Sarah and Aron, Serge

Subjects

*ANTS, *SPERMATHECA, *ANT colonies, *ANT reproduction, *ANT ecology

Abstract

Ant queens mate on a single occasion early in life and store millions of sperm cells in their spermatheca. By carefully using stored sperm to fertilize eggs, they can produce large colonies of thousands of individuals. Queens can live for decades and their lifetime reproductive success is dependent on their ability to keep stored sperm alive. Maintaining high sperm viability requires metabolic energy which could trade-off with other costly processes such as immunity. We tested the impact of immune activation on the survival of stored sperm by prompting Lasius niger ant queens to mount a melanization response and subsequently measuring sperm viability in their spermatheca. Since queens face different challenges that influence energy allocation depending on the life stage of their colony, we measured sperm viability after immune activation in both newly mated queens (incipient) and in queens 1 year after mating (established). We found that immune activation reduced sperm viability in established queens but not in incipient queens, showing that the cost of immunity on sperm preservation depends on the life stage. Unexpectedly, established queens had significantly higher sperm viability in their spermatheca compared to incipient queens suggesting that ant queens are able to remove dead sperm from their spermatheca. [ABSTRACT FROM AUTHOR]

Published

2018

26. Enzymatic antioxidants but not baseline glucocorticoids mediate the reproduction–survival trade-off in a wild bird.

Author

Casagrande, Stefania and Hau, Michaela

Subjects

*GLUCOCORTICOIDS, *CORTICOSTERONE, *GLUTATHIONE peroxidase, *GLUTATHIONE, *ANTIOXIDANTS

Abstract

The trade-off between reproductive investment and survival is central to life-history theory, but the relative importance and the complex interactions among the physiological mechanisms mediating it are still debated. Here we experimentally tested whether baseline glucocorticoid hormones, the redox system or their interaction mediate reproductive investment–survival trade-offs in wild great tits (Parus major). We increased the workload of parental males by clipping three feathers on each wing, and 5 days later determined effects on baseline corticosterone concentrations (Cort), redox state (reactive oxygen metabolites, protein carbonyls, glutathione peroxidase [GPx], total non-enzymatic antioxidants), body mass, body condition, reproductive success and survival. Feather-clipping did not affect fledgling numbers, chick body condition, nest provisioning rates or survival compared with controls. However, feather-clipped males lost mass and increased both Cort and GPx concentrations. Within feather-clipped individuals, GPx increases were positively associated with reproductive investment (i.e. male nest provisioning). Furthermore, within all individuals, males that increased GPx suffered reduced survival rates. Baseline Cort increases were related to mass loss but not to redox state, nest provisioning or male survival. Our findings provide experimental evidence that changes in the redox system are associated with the trade-off between reproductive investment and survival, while baseline Cort may support this trade-off indirectly through a link with body condition. These results also emphasize that plastic changes in individuals, rather than static levels of physiological signals, may mediate life-history trade-offs. [ABSTRACT FROM AUTHOR]

Published

2018

27. Multi-modal signal evolution in birds: re-examining a standard proxy for sexual selection.

Author

Cooney, Christopher R., MacGregor, Hannah E. A., Seddon, Nathalie, and Tobias, Joseph A.

Subjects

*SEXUAL selection, *DIFFERENCES, *FEATHERS, *ANIMAL sexual behavior, *COLOR of birds, *BIRDS

Abstract

Sexual selection is proposed to be an important driver of speciation and phenotypic diversification in animal systems. However, previous phylogenetic tests have produced conflicting results, perhaps because they have focused on a single signalling modality (visual ornaments), whereas sexual selection may act on alternative signalling modalities (e.g. acoustic ornaments). Here, we compile phenotypic data from 259 avian sister species pairs to assess the relationship between visible plumage dichromatism--a standard index of sexual selection in birds--and macroevolutionary divergence in the other major avian signalling modality: song. We find evidence for a strong negative relationship between the degree of plumage dichromatism and divergence in song traits, which remains significant even when accounting for other key factors, including habitat type, ecological divergence and interspecific interactions. This negative relationship is opposite to the pattern expected by a straightforward interpretation of the sexual selection--diversification hypothesis, whereby higher levels of dichromatism indicating strong sexual selection should be related to greater levels of mating signal divergence regardless of signalling modality. Our findings imply a 'trade-off' between the elaboration of visual ornaments and the diversification of acoustic mating signals, and suggest that the effects of sexual selection on diversification can only be determined by considering multiple alternative signalling modalities. [ABSTRACT FROM AUTHOR]

Published

2018

28. Elite swimmers do not exhibit a body mass index trade-off across a wide range of event distances.

Author

Gagnon, Christian M., Steiper, Michael E., and Pontzer, Herman

Subjects

*PHENOTYPES, *RUNNERS (Sports), *SPRINTING, *BODY mass index, *SWIMMING

Abstract

There is a trade-off reflected in the contrasting phenotypes of elite longdistance runners, who are typically leaner, and elite sprinters, who are usually more heavily muscled. It is unclear, however, whether and how swimmers' bodies vary across event distances from the 50 m swim, which is about a 20-30 s event, to the 10 000 m marathon swim, which is about a 2 h event. We examined data from the 2012 Olympics to test whether swimmers' phenotypes differed across event distances. We show that across all swimming event distances, from the 50 m sprint to the 10 000 m marathon, swimmers converge on a single optimal body mass index (BMI) in men's and women's events, in marked contrast with the strong inverse relationship between BMI and event distance found in runners. The absence of a speed-endurance trade-off in the body proportions of swimmers indicates a fundamental difference in design pressures and performance capability in terrestrial versus aquatic environments. [ABSTRACT FROM AUTHOR]

Published

2018

29. The evolution of juvenile susceptibility to infectious disease.

Author

Ashby, Ben and Bruns, Emily

Subjects

*HOST-parasite relationships, *POPULATION pyramid, *INFECTIOUS disease transmission, *DISEASE susceptibility, *BIOLOGICAL evolution

Abstract

Infection prior to reproduction usually carries greater fitness costs for hosts than infection later in life, suggesting selection should tend to favour juvenile resistance. Yet, juveniles are generally more susceptible than adults across a wide spectrum of host taxa. While physiological constraints and a lack of prior exposure can explain some of this pattern, studies in plants and insects suggest that hosts may trade off juvenile susceptibility against other lifehistory traits. However, it is unclear precisely how trade-offs shape the evolution of juvenile susceptibility. Here, we theoretically explore the evolution of juvenile susceptibility subject to trade-offs with maturation or reproduction, which could realistically occur due to resource allocation during development (e.g. prioritizing growth over immune defence). We show how host lifespan, the probability of maturation (i.e. of reaching the adult stage) and transmission mode affect the results. Our key finding is that elevated juvenile susceptibility is expected to evolve over a wide range of conditions, but should be lowest when hosts have moderate lifespans and an intermediate probability of reaching the adult stage. Our results elucidate how interactions between trade-offs and the epidemiologicaldemographic structure of the population can lead to the evolution of elevated juvenile susceptibility. [ABSTRACT FROM AUTHOR]

Published

2018

30. Plasticity for desiccation tolerance across Drosophila species is affected by phylogeny and climate in complex ways.

Author

Kellermann, Vanessa, Hoffmann, Ary A., Overgaard, Johannes, Loeschcke, Volker, and Sgro, Carla M.

Subjects

*PHENOTYPIC plasticity, *DEHYDRATION, *DROSOPHILA, *INSECT phylogeny, *COLD-blooded animals, *INSECTS & climate, *INSECTS

Abstract

Comparative analyses of ectotherm susceptibility to climate change often focus on thermal extremes, yet responses to aridity may be equally important. Here we focus on plasticity in desiccation resistance, a key trait shaping distributions of Drosophila species and other small ectotherms. We examined the extent to which 32 Drosophila species, varying in their distribution, could increase their desiccation resistance via phenotypic plasticity involving hardening, linking these responses to environment, phylogeny and basal resistance. We found no evidence to support the seasonality hypothesis; species with higher hardening plasticity did not occupy environments with higher and more seasonal precipitation. As basal resistance increased, the capacity of species to respond via phenotypic plasticity decreased, suggesting plastic responses involving hardening may be constrained by basal resistance. Trade-offs between basal desiccation resistance and plasticity were not universal across the phylogeny and tended to occur within specific clades. Phylogeny, environment and trade-offs all helped to explain variation in plasticity for desiccation resistance but in complex ways. These findings suggest some species have the ability to counter dry periods through plastic responses, whereas others do not; and this ability will depend to some extent on a species' placement within a phylogeny, along with its basal level of resistance. [ABSTRACT FROM AUTHOR]

Published

2018

31. A fast pace-of-life is traded off against a high thermal performance

Author

Nedim Tüzün and Robby Stoks

Subjects

Life Sciences & Biomedicine - Other Topics, Odonata, REACTION NORMS, Environmental Sciences & Ecology, structural equation modelling, General Biochemistry, Genetics and Molecular Biology, syndromes, HISTORY, Animals, PHYSIOLOGY, Biology, trade-off, General Environmental Science, Evolutionary Biology, PERSONALITY, Science & Technology, CLIMATE-CHANGE, Ecology, GEOGRAPHIC-VARIATION, General Immunology and Microbiology, life-history, thermal physiology, Temperature, General Medicine, Cold Temperature, Phenotype, Larva, EVOLUTIONARY, POPULATIONS, GROWTH, SENSITIVITY, General Agricultural and Biological Sciences, Life Sciences & Biomedicine

Abstract

The integration of life-history, behavioural and physiological traits into a ‘pace-of-life syndrome’ is a powerful concept in understanding trait variation in nature. Yet, mechanisms maintaining variation in ‘pace-of-life’ are not well understood. We tested whether decreased thermal performance is an energetic cost of a faster pace-of-life. We characterized the pace-of-life of larvae of the damselfly Ischnura elegans from high-latitude and low-latitude regions when reared at 20°C or 24°C in a common-garden experiment, and estimated thermal performance curves for a set of behavioural, physiological and performance traits. Our results confirm a faster pace-of-life (i.e. faster growth and metabolic rate, more active and bold behaviour) in the low-latitude and in warm-reared larvae, and reveal increased maximum performance, R max , but not thermal optimum T opt , in low-latitude larvae. Besides a clear pace-of-life syndrome integration at the individual level, larvae also aligned along a ‘cold–hot’ axis. Importantly, a faster pace-of-life correlated negatively with a high thermal performance (i.e. higher T opt for swimming speed, metabolic rate, activity and boldness), which was consistent across latitudes and rearing temperatures. This trade-off, potentially driven by the energetically costly maintenance of a fast pace-of-life, may be an alternative mechanism contributing to the maintenance of variation in pace-of-life within populations.

Published

2022

32. Temperature effects on life-history trade-offs, germline maintenance and mutation rate under simulated climate warming.

Author

Berger, David, Staångberg, Josefine, Grieshop, Karl, Martinossi-Allibert, Ivain, and Arnqvist, Göran

Subjects

*GENETIC mutation, *GERM cells, *UNICELLULAR organisms, *DNA repair, *MULTICELLULAR organisms

Abstract

Mutation has a fundamental influence over evolutionary processes, but how evolutionary processes shape mutation rate remains less clear. In asexual unicellular organism, increased mutation rates have been observed in stressful environments and the reigning paradigm ascribes this increase to selection for evolvability. However, this explanation does not apply in sexually reproducing species, where little is known about how the environment affects mutation rate. Here we challenged experimental lines of seed beetle, evolved at ancestral temperature or under simulated climate warming, to repair induced mutations at ancestral and stressful temperature. Results show that temperature stress causes individuals to pass on a greater mutation load to their grand-offspring. This suggests that stress-induced mutation rates, in unicellular and multicellular organisms alike, can result from compromised germline DNA repair in low condition individuals. Moreover, lines adapted to simulated climate warming had evolved increased longevity at the cost of reproduction, and this allocation decision improved germline repair. These results suggest that mutation rates can be modulated by resource allocation trade-offs encompassing life-history traits and the germline and have important implications for rates of adaptation and extinction as well as our understanding of genetic diversity in multicellular organisms. [ABSTRACT FROM AUTHOR]

Published

2017

33. Acute peaks of testosterone suppress paternal care: evidence from individual hormonal reaction norms.

Author

Goymann, Wolfgang and Dávila, Pamela Flores

Subjects

*ENDOCRINOLOGY, *TESTOSTERONE, *PERFORMANCE-enhancing drugs, *BIRD behavior, *PARENTAL behavior in animals, *BIRDS

Abstract

A long-standing tenet of evolutionary endocrinology states that testosterone mediates the life-history trade-off between mating and paternal care. However, the support for a role of testosterone in suppressing paternal care is mixed: implantation studies in birds suggest that high-level testosterone implants suppress paternal care, but circulating levels of testosterone and paternal care are typically not correlated. Because any trade-off in real life must be realized with hormone levels that are within an individual's reaction norm, it is crucial to show that natural changes in the hormone can modulate behaviour. Here, we used GnRH-injections to alter testosterone levels of free-living male black redstarts within each individual's hormonal reaction norm: individuals experiencing a short-term peak in testosterone resumed feeding their offspring later and showed a stronger suppression of offspring-feeding behaviour than control males. For the first time, this study demonstrated that short-term peaks in testosterone within the hormonal reaction norm of individuals can suppress paternal behaviour. Our findings reconcile previous seemingly contradictive effects that testosterone implants had on paternal care and the absence of correlations between circulating testosterone levels and paternal care, and demonstrate that the differential production of testosterone within the hormonal reaction norm of single individuals can indeed function as a mechanism to mediate a potential trade-off between mating and parenting. On a broader note, our results suggest that natural and short peaks in testosterone can elicit adaptive behavioural changes. [ABSTRACT FROM AUTHOR]

Published

2017

34. Reproductive costs in terrestrial male vertebrates: insights from bird studies.

Author

Bleu, Josefa, Gamelon, Marlene, and Sæther, Bernt-Erik

Subjects

*VERTEBRATES, *REPRODUCTION, *POLYGYNY, *FERTILITY, *CHORDATA

Abstract

Reproduction requires resources that cannot be allocated to other functions resulting in direct reproductive costs (i.e. trade-offs between current reproduction and subsequent survival/reproduction). In wild vertebrates, direct reproductive costs have been widely described in females, but their occurrence in males remains to be explored. To fill this gap, we gathered 53 studies on 48 species testing direct reproductive costs in male vertebrates. We found a trade-off between current reproduction and subsequent performances in 29% of the species and in every clade. As 73% of the studied species are birds, we focused on that clade to investigate whether such trade-offs are associated with (i) levels of paternal care, (ii) polygyny or (iii) pace of life. More precisely for this third question, it is expected that fast species (i.e. short lifespan, early maturity, high fecundity) pay a cost in terms of survival, whereas slow species (with opposite characteristics) do so in terms of fecundity. Our findings tend to support this hypothesis. Finally, we pointed out the potential confounding effects that should be accounted for when investigating reproductive costs in males and strongly encourage the investigation of such costs in more clades to understand to what extent our results are relevant for other vertebrates. [ABSTRACT FROM AUTHOR]

Published

2016

35. Senescence: why and where selection gradients might not decline with age

Author

Mark Roper, Pol Capdevila, and Roberto Salguero-Gómez

Subjects

0106 biological sciences, Senescence, life history, demography, senescence, Population structure, Tree of life, Biology, Trade-off, 010603 evolutionary biology, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, Review Articles, Selection (genetic algorithm), 030304 developmental biology, General Environmental Science, trade-off, 0303 health sciences, General Immunology and Microbiology, General Medicine, Variation (linguistics), Ageing, Evolutionary biology, ageing, Reproductive value, General Agricultural and Biological Sciences

Abstract

Patterns of ageing across the tree of life are much more diverse than previously thought. Yet, we still do not adequately understand how, why and where across the tree of life a particular pattern of ageing will evolve. An ability to predict ageing patterns requires a firmer understanding of how and why different ecological and evolutionary factors alter the sensitivity of fitness to age-related changes in mortality and reproduction. From this understanding, we can ask why and where selection gradients might not decline with age. Here, we begin by summarizing the recent breadth of literature that is unearthing, empirically and theoretically, the mechanisms that drive variation in patters of senescence. We focus on the relevance of two key parameters, population structure and reproductive value, as key to understanding selection gradients, and therefore senescence. We discuss how growth form, individual trade-offs, stage structure and social interactions may all facilitate differing distributions of these two key parameters than those predicted by classical theory. We argue that these four key aspects can help us understand why patterns of negligible and negative senescence can actually be explained under the same evolutionary framework as classical senescence.

Published

2021

36. Stress-induced mutagenesis and complex adaptation.

Author

Ram, Yoav and Hadany, Lilach

Subjects

*MUTAGENESIS, *BIOLOGICAL evolution, *BIOLOGICAL adaptation, *NATURAL selection, *GENETIC mutation

Abstract

Because mutations are mostly deleterious, mutation rates should be reduced by natural selection. However, mutations also provide the raw material for adaptation. Therefore, evolutionary theory suggests that the mutation rate must balance between adaptability -- the ability to adapt -- and adaptedness -- the ability to remain adapted. We model an asexual population crossing a fitness valley and analyse the rate of complex adaptation with and without stress-induced mutagenesis (SIM) -- the increase of mutation rates in response to stress or maladaptation. We show that SIM increases the rate of complex adaptation without reducing the population mean fitness, thus breaking the evolutionary trade-off between adaptability and adaptedness. Our theoretical results support the hypothesis that SIM promotes adaptation and provide quantitative predictions of the rate of complex adaptation with different mutational strategies. [ABSTRACT FROM AUTHOR]

Published

2014

37. Evolution of a multifunctional trait: shared effects of foraging ecology and thermoregulation on beak morphology, with consequences for song evolution

Author

Eliot T. Miller, Jason R. Ball, Nicholas R. Friedman, Haruka Kasuga, Vladimír Remeš, and Evan P. Economo

Subjects

Evolution, Ecology (disciplines), Foraging, Morphology (biology), Biology, Trade-off, General Biochemistry, Genetics and Molecular Biology, foraging, Songbirds, bird song, Animals, General Environmental Science, trade-off, Morphometrics, thermoregulation, General Immunology and Microbiology, Ecology, Beak, General Medicine, Reproductive isolation, Meliphagidae, Biological Evolution, beak shape, Phenotype, Trait, Vocalization, Animal, General Agricultural and Biological Sciences, Research Article, Body Temperature Regulation

Abstract

While morphological traits are often associated with multiple functions, it remains unclear how evolution balances the selective effects of different functions. Birds' beaks function not only in foraging but also in thermoregulating and singing, among other behaviours. Studies of beak evolution abound, however, most focus on a single function. Hence, we quantified relative contributions of different functions over an evolutionary timescale. We measured beak shape using geometric morphometrics and compared this trait with foraging behaviour, climatic variables and song characteristics in a phylogenetic comparative study of an Australasian radiation of songbirds (Meliphagidae). We found that both climate and foraging behaviour were significantly correlated with the beak shape and size. However, foraging ecology had a greater effect on shape, and climate had a nearly equal effect on size. We also found that evolutionary changes in beak morphology had significant consequences for vocal performance: species with elongate-shaped beaks sang at higher frequencies, while species with large beaks sang at a slower pace. The evolution of the avian beak exemplifies how morphological traits can be an evolutionary compromise among functions, and suggests that specialization along any functional axis may increase ecological divergence or reproductive isolation along others.

Published

2019

38. Correction to: A trade-off between thickness and length in the zebra finch sperm mid-piece

Author

Tania Mendonca, Tim R. Birkhead, Nicola Hemmings, Wolfgang Forstmeier, and Ashley J. Cadby

Subjects

General Immunology and Microbiology, Zoology, General Medicine, Biology, General Agricultural and Biological Sciences, Trade-off, Sperm, Zebra finch, General Biochemistry, Genetics and Molecular Biology, General Environmental Science

Published

2021

39. The influence of male age and simulated pathogenic infection on producing a dishonest sexual signal.

Author

Copeland, Emily K. and Fedorka*, Kenneth M.

Subjects

*ANIMAL sexual behavior, *MALES, *INFECTION, *REPRODUCTIVE health, *ALLONEMOBIUS socius

Abstract

In recent years, studies have shown that reproductive effort decelerates in response to pathogenic infection. If infection substantially reduces a host's residual reproductive value (RRV), however, then an acceleration of effort may instead occur (e.g. terminal investment). Reproductive acceleration would theoretically allow hosts to maintain or exaggerate their sexual signal upon infection. This would create a deceptive message from the perspective of the chooser, who may unwittingly copulate with an infected mate to their detriment. Using the cricket Allonemobius socius, we assessed the potential for reduced RRV to accelerate male reproductive effort and create a dishonest signal. RRV was manipulated through male age and simulated pathogenic insult. Reproductive effort was measured as calling song energetics, mating success, latency to mate and nuptial gift size. We show that males adopted either an accelerated or decelerated reproductive strategy upon infection, and that this decision was probably mediated by RRV. Moreover, males who accelerated their effort produced a dishonest signal by increasing their song energetics while providing fewer paternal resources (i.e. smaller gifts). Our study is one of the few to document the existence of dishonest signals and relate dishonesty to a potential reduction in female fitness, underscoring the conflict inherent in sexual reproduction. [ABSTRACT FROM AUTHOR]

Published

2012

40. Personality predicts individual responsiveness to the risks of starvation and predation.

Author

J. L., Quinn, E. F., Cole, J., Bates, R. W., Payne, and W., Cresswell

Subjects

*STARVATION, *PREDATION, *FORAGING behavior, *FOOD quality, *NEUROPLASTICITY, *BIOLOGICAL variation

Abstract

Theory suggests that individual personality is tightly linked to individual life histories and to environmental variation. The reactive–proactive axis, for example, is thought to reflect whether individuals prioritize productivity or survival, mutually exclusive options that can be caused by conflicts between foraging and anti-predation behaviour. Evidence for this trade-off hypothesis, however, is limited. Here, we tested experimentally whether exploration behaviour (EB), an assay of proactivity, could explain how great tits (Parus major) respond to changes in starvation and predation risk. Individuals were presented with two feeders, holding good or poor quality food, which interchanged between safe and dangerous positions 10 m apart, across two 24 h treatments. Starvation risk was assumed to be highest in the morning and lowest in the afternoon. The proportion of time spent feeding on good quality food (PTG) rather than poor quality food was repeatable within treatments, but individuals varied in how PTG changed with respect to predation- and starvation-risk across treatments. This individual plasticity variation in foraging behaviour was linked to EB, as predicted by the reactive–proactive axis, but only among individuals in dominant social classes. Our results support the trade-off hypothesis at the level of individuals in a wild population, and suggest that fine-scale temporal and spatial variation may play important roles in the evolution of personality. [ABSTRACT FROM AUTHOR]

Published

2012

41. A cooperative virulence plasmid imposes a high fitness cost under conditions that induce pathogenesis.

Author

Thomas G., Platt, James D., Bever, and Clay, Fuqua

Subjects

*MICROBIAL virulence, *PLASMIDS, *PUBLIC health, *AGROBACTERIUM tumefaciens, *METABOLISM, *HOST plants, *AGROBACTERIUM

Abstract

Harbouring a plasmid often imposes a fitness cost on the bacterial host. Motivated by implications for public health, the majority of studies on plasmid cost are focused on elements that impart antibiotic resistance. Plasmids, however, can provide a wide range of ecologically important phenotypes to their bacterial hosts—such as virulence, specialized catabolism and metal resistance. The Agrobacterium tumefaciens tumour-inducing (Ti) plasmid confers both the ability to infect dicotyledonous plants and to catabolize the metabolites that plants produce as a result of being infected. We demonstrate that this virulence and catabolic plasmid imposes a measurable fitness cost on host cells under resource-limiting, but not resource replete, environmental conditions. Additionally, we show that the expression of Ti-plasmid-borne pathogenesis genes necessary to initiate cooperative pathogenesis is extremely costly to the host cell. The benefits of agrobacterial pathogenesis stem from the catabolism of public goods produced by infected host plants. Thus, the virulence-plasmid-dependent costs we demonstrate constitute costs of cooperation typically associated with the ability to garner the benefits of cooperation. Interestingly, genotypes that harbour derived opine catabolic plasmids minimize this trade-off, and are thus able to freeload upon the pathogenesis initiated by other individuals. [ABSTRACT FROM AUTHOR]

Published

2012

42. Quantitative genetic evidence that males trade attractiveness for ejaculate quality in guppies.

Author

Evans, Jonathan P.

Subjects

*GUPPIES, *SEXUAL selection, *MALE ejaculation, *QUANTITATIVE genetics, *POLYANDRY, *HERITABILITY, *REPRODUCTION, *FISHES

Abstract

Polyandry, where females mate with multiple males, means that a male's reproductive success will depend both on his ability to acquire mates and the ability of his sperm to compete effectively for fertilizations. But, how do males partition their reproductive investment between these two episodes of selection? Theory predicts that increases in ejaculate investment will come at a cost to investment in other reproductive traits. Although evidence revealing such trade-offs is accumulating, we know little about their genetic basis. Here, I report patterns of genetic (co)variation for a range of traits subject to pre- and postcopulatory sexual selection in the guppy Poecilia reticulata, a promiscuous livebearing fish in which males alternate between courtship and sneak matings to obtain copulations. The analyses of genetic variation and covariation for these behaviours revealed a strong genetic predisposition for one tactic over the other. Both mating tactics were also strongly genetically integrated with the level of sexual ornamentation and ejaculate quality. Males that predominantly performed sneak matings were less ornamented but had faster swimming sperm than those that predominantly used courtship. These patterns of genetic variation and covariation reveal potential evolutionary constraints on the direction of selection of pre- and postcopulatory traits, and support sperm competition theory by revealing a trade-off between sexual attractiveness and investment in ejaculates. [ABSTRACT FROM AUTHOR]

Published

2010

43. Paternal effects in Arabidopsis indicate that offspring can influence their own size.

Author

House, Clarissa, Roth, Charlotte, Hunt, John, and Kover, Paula X.

Subjects

*ARABIDOPSIS, *SEED size, *COMPETITION (Biology), *PLANT genetics, *ABORTION, *STATISTICAL hypothesis testing

Abstract

The existence of genetic variation in offspring size in plants and animals is puzzling because offspring size is often strongly associated with fitness and expected to be under stabilizing selection. An explanation for variation in seed size is conflict between parents and between parents and offspring. However, for this hypothesis to be true, it must be shown that the offspring genotype can affect its own size. The existence of paternal effects would support this hypothesis, but these have rarely been shown. Using a diallel cross among four natural accessions of Arabidopsis thaliana we show that maternal, paternal and positional effects jointly influence seed size, number and the frequency of seed abortion. We found that seed abortion (%) depends on the combination of maternal and paternal genotypes, suggesting the existence of mate choice or epistatic incompatibility among accessions of A. thaliana. In addition, since paternal genotype explains approximately 10 per cent of the variation in seed size, we propose that A. thaliana's offspring must influence the amount of resources allocated to themselves. Identification of paternal effects in Arabidopsis should facilitate dissection of the genetic mechanisms involved in paternal effects. [ABSTRACT FROM AUTHOR]

Published

2010

44. Response to resources and parasites depends on health status in extensively grazed sheep

Author

Eric R. Morgan, Caroline Liddell, Christos C. Ioannou, and K. Bull

Subjects

NDVI, Health Status, 030231 tropical medicine, normalized difference vegetation index, animal distributions, Trade-off, General Biochemistry, Genetics and Molecular Biology, Normalized Difference Vegetation Index, Host-Parasite Interactions, ticks, 03 medical and health sciences, 0302 clinical medicine, biologging, Environmental Science(all), Immunology and Microbiology(all), Animals, Parasites, Ecosystem, trade-off, General Environmental Science, 2. Zero hunger, Sheep, Agricultural and Biological Sciences(all), Ecology, General Immunology and Microbiology, Biochemistry, Genetics and Molecular Biology(all), 0402 animal and dairy science, habitat use, 04 agricultural and veterinary sciences, General Medicine, 15. Life on land, 040201 dairy & animal science, Geography, Habitat, Animal ecology, Geographic Information Systems, General Agricultural and Biological Sciences, Research Article

Abstract

A fundamental question in animal ecology is how an individual's internal state and the external environment together shape species distributions across habitats. The increasing availability of biologgers is driving a revolution in answering this question in a wide range of species. In this study, the position of sheep ( Ovis aries ) from Global Positioning System collars was integrated with remote sensing data, field sampling of parasite distributions, and parasite load and health measures for each tagged individual. This allowed inter-individual variation in habitat use to be examined. Once controlling for a positive relationship between vegetation productivity and tick abundance, healthier individuals spent more of their time at sites with higher vegetation productivity, while less healthy individuals showed a stronger (negative) response to tick abundance. These trends are likely to represent a trade-off in foraging decisions that vary between individuals based on their health status. Given the rarity of studies that explore how animal distributions are affected by health and external factors, we demonstrate the value of integrating biologging technology with remote sensing data, traditional ecological sampling and individual measures of animal health. Our study, using extensively grazed sheep as a model system, opens new possibilities to study free-living grazing systems.

Published

2020

45. Enzymatic antioxidants but not baseline glucocorticoids mediate the reproduction–survival trade-off in a wild bird

Author

Stefania Casagrande and Michaela Hau

Subjects

Male, 0106 biological sciences, 0301 basic medicine, Hydrocortisone, Evolution, media_common.quotation_subject, Longevity, Physiology, Biology, Trade-off, 010603 evolutionary biology, 01 natural sciences, Antioxidants, General Biochemistry, Genetics and Molecular Biology, Nesting Behavior, Songbirds, 03 medical and health sciences, chemistry.chemical_compound, Corticosterone, Animals, Baseline (configuration management), General Environmental Science, media_common, chemistry.chemical_classification, General Immunology and Microbiology, Reproduction, Glutathione peroxidase, General Medicine, Investment (macroeconomics), 030104 developmental biology, Enzyme, chemistry, General Agricultural and Biological Sciences

Abstract

The trade-off between reproductive investment and survival is central to life-history theory, but the relative importance and the complex interactions among the physiological mechanisms mediating it are still debated. Here we experimentally tested whether baseline glucocorticoid hormones, the redox system or their interaction mediate reproductive investment–survival trade-offs in wild great tits ( Parus major ). We increased the workload of parental males by clipping three feathers on each wing, and 5 days later determined effects on baseline corticosterone concentrations (Cort), redox state (reactive oxygen metabolites, protein carbonyls, glutathione peroxidase [GPx], total non-enzymatic antioxidants), body mass, body condition, reproductive success and survival. Feather-clipping did not affect fledgling numbers, chick body condition, nest provisioning rates or survival compared with controls. However, feather-clipped males lost mass and increased both Cort and GPx concentrations. Within feather-clipped individuals, GPx increases were positively associated with reproductive investment (i.e. male nest provisioning). Furthermore, within all individuals, males that increased GPx suffered reduced survival rates. Baseline Cort increases were related to mass loss but not to redox state, nest provisioning or male survival. Our findings provide experimental evidence that changes in the redox system are associated with the trade-off between reproductive investment and survival, while baseline Cort may support this trade-off indirectly through a link with body condition. These results also emphasize that plastic changes in individuals, rather than static levels of physiological signals, may mediate life-history trade-offs.

Published

2018

46. Right phenotype, wrong place: predator-induced plasticity is costly in a mismatched environment

Author

Nicholas Y Zuczek, Anne A. Innes-Gold, and Justin C. Touchon

Subjects

Phenotypic plasticity, Natural selection, Odonata, Ecology, General Immunology and Microbiology, biology, Zoology, General Medicine, Dragonfly, biology.organism_classification, Trade-off, Phenotype, General Biochemistry, Genetics and Molecular Biology, Predation, Dendropsophus ebraccatus, Larva, Predatory Behavior, Animals, Anura, General Agricultural and Biological Sciences, Predator, General Environmental Science

Abstract

Like many animals, tadpoles often produce different, predator-specific phenotypes when exposed to risk of predation. It is generally assumed that such plasticity enhances survival in the presence of the predator and is costly elsewhere, but evidence remains surprisingly scarce. We measured (1) the survival trade-off of opposing phenotypes developed byDendropsophus ebraccatustadpoles when exposed to different predators and (2) which specific aspects of morphology drive any potential survival benefit or cost. Tadpoles developed predator-specific phenotypes after being reared with caged fish or dragonfly predators for two weeks. In 24 h predation trials with either a fish or a dragonfly, survival was highest in the groups with their matched predator, and lowest among with those the mismatched predator, with predator-naive controls being relatively intermediate. Then, using a large group of phenotypically variable predator-naive tadpoles, we found that increased survival rates are directly related to the morphological changes that are induced by each predator. This demonstrates that induced phenotypes are indeed adaptive and the product of natural selection. Furthermore, our data provide clear evidence of an environmental cost for phenotypic plasticity in a heterogeneous environment. Such costs are fundamental for understanding the evolution and maintenance of inducible phenotypes.

Published

2019

47. Differential allocation of parental investment and the trade-off between size and number of offspring

Author

Irja Ida Ratikainen, Thomas Ray Haaland, and Jonathan Wright

Subjects

0106 biological sciences, 0301 basic medicine, Male, Offspring, media_common.quotation_subject, Biology, Trade-off, 010603 evolutionary biology, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, Sexual Behavior, Animal, parental care adjustment, sexual selection, Animals, Body Size, Quality (business), Behaviour, state-dependent model, Parental investment, Reproductive compensation, General Environmental Science, media_common, quality–quantity trade-off, General Immunology and Microbiology, Reproduction, General Medicine, Models, Theoretical, Investment (macroeconomics), Clutch Size, 030104 developmental biology, reproductive compensation, Sexual selection, Female, General Agricultural and Biological Sciences, parental effects, Demography, Research Article

Abstract

When parents decide how much to invest in current versus future offspring and how many offspring to divide their current investments between, the optimal decision can be affected by the quality of their partner. This differential allocation (DA) is highly dependent on exactly how partner quality affects reproductive costs and offspring benefits. We present a stochastic dynamic model of DA in which females care for a series of clutches when mated with males of different quality. In each reproductive event, females choose the size and number of offspring. We find that if partner quality affects reproductive costs, then DA in total reproductive investment occurs only via changes in the number of offspring. DA in the optimal size of the offspring occurs only if partner quality affects the offspring benefit function. This is mostly in the form of greater female investment per offspring as male quality decreases. Simultaneously, we find that adaptive DA increases the number of offspring, and thus the amount of total investment, as male quality increases. Only certain model scenarios produce the positive DA in offspring size seen in empirical studies, providing a predictive framework for DA and how partner quality affects reproductive costs and offspring benefits. © 2018 The Authors. Published by the Royal Society under the terms of the Creative Commons Attribution License http://creativecommons.org/licenses/by/4.0/, which permits unrestricted use, provided the original author and source are credited.

Published

2018

48. Quantifying maladaptation during the evolution of sexual dimorphism

Author

Sandra Hangartner, Genevieve Matthews, David G. Chapple, and Tim Connallon

Subjects

Male, 0106 biological sciences, Evolution, Population, Adaptation, Biological, Biology, Trade-off, Models, Biological, 010603 evolutionary biology, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, Sexual conflict, 03 medical and health sciences, Animals, education, health care economics and organizations, Selection (genetic algorithm), 030304 developmental biology, General Environmental Science, Maladaptation, Sex Characteristics, 0303 health sciences, education.field_of_study, General Immunology and Microbiology, General Medicine, Biological Evolution, Sexual dimorphism, Phenotype, Evolutionary biology, Trait, Female, Adaptation, General Agricultural and Biological Sciences

Abstract

Females and males have distinct trait optima, resulting in selection for sexual dimorphism. However, most traits have strong cross-sex genetic correlations, which constrain evolutionary divergence between the sexes and lead to protracted periods of maladaptation during the evolution of sexual dimorphism. While such constraints are thought to be costly in terms of individual and population fitness, it remains unclear how severe such costs are likely to be. Building upon classical models for the ‘cost of selection’ in changing environments ( sensu Haldane), we derived a theoretical expression for the analogous cost of evolving sexual dimorphism; this cost is a simple function of genetic (co)variances of female and male traits and sex differences in trait optima. We then conducted a comprehensive literature search, compiled quantitative genetic data from a diverse set of traits and populations, and used them to quantify costs of sexual dimorphism in the light of our model. For roughly 90% of traits, costs of sexual dimorphism appear to be modest, and comparable to the costs of fixing one or a few beneficial substitutions. For the remaining traits (approx. 10%), sexual dimorphism appears to carry a substantial cost—potentially orders of magnitude greater than costs of selection during adaptation to environmental changes.

Published

2019

49. A weapons–testes trade-off in males is amplified in female traits

Author

Paul N. Joseph, Zachary Emberts, Rebecca M. Kilner, and Christine W. Miller

Subjects

Male, 0106 biological sciences, Evolution, Biology, Trade-off, 010603 evolutionary biology, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, Heteroptera, Sexual Behavior, Animal, 03 medical and health sciences, Testis, Animals, 030304 developmental biology, General Environmental Science, 0303 health sciences, General Immunology and Microbiology, Ovary, Extremities, General Medicine, Phenotype, Sexual selection, Resource allocation, Female, General Agricultural and Biological Sciences, Demography

Abstract

Sexually selected weapons are assumed to trade off with traits related to ejaculates, such as testes. However, remarkably little is known about what governs resource allocation and why trade-offs are found in some cases and not others. Often-used models depict competitive allocation occurring within the functional grouping of traits (e.g. reproduction); however, other factors including tissue expense and developmental timing may influence allocation. Experimental comparisons of investment across the sexes have the potential to illuminate allocation rules, because the sexes do not always use traits for the same functions. Here, we capitalize upon a species where females have weapons–testes homologues. We report that a documented trade-off in investment between hind-limb weapons and testes in leaf-footed cactus bugs, Narnia femorata , is even more pronounced in female hind limbs and ovaries. Female hind limbs in this species do not share the clear reproductive function of male hind limbs; therefore, this trade-off spans trait functional groups. Such patterns of investment suggest that future studies of reproductive trade-offs should consider factors such as tissue expense and developmental timing.

Published

2019

50. Predation shapes sperm performance surfaces in guppies

Author

John L. Fitzpatrick, Jonathan P. Evans, and Alessandro Devigili

Subjects

Male, 0106 biological sciences, Evolution, Zoology, Biology, Trade-off, 010603 evolutionary biology, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, Predation, 03 medical and health sciences, Human fertilization, Animals, Biological sciences, Sperm competition, reproductive and urinary physiology, Selection (genetic algorithm), 030304 developmental biology, General Environmental Science, Poecilia, 0303 health sciences, General Immunology and Microbiology, urogenital system, General Medicine, Spermatozoa, Sperm, Fertilization, Predatory Behavior, Female, General Agricultural and Biological Sciences

Abstract

Sperm velocity is a key determinant of competitive fertilization success in many species. Selection is therefore expected to favour the evolution of faster sperm when the level of sperm competition is high. However, several aspects can determine the direction and strength of selection acting on this key performance trait, including ecological factors that influence both sperm competition and the strength of selection acting on correlated traits that may constrain evolutionary responses in sperm velocity. Here, we determine how a key ecological variable, the level of predation, shapes sperm swimming speed across 18 Trinidadian populations of guppies ( Poecilia reticulata ). We use performance analysis, a statistical tool akin to the familiar methods of multivariate selection analyses, to determine how the level of predation influences sperm velocity (modelled as a performance trait) when accounting for correlated pre- and postcopulatory traits that are also impacted by predation. We show that predation affects the combination of pre- and postcopulatory traits that ultimately predict sperm performance. Overall, we report evidence for disruptive relationships between sperm performance and combinations of ornaments and sperm morphology, but the specific combinations of traits that predict sperm velocity depended on the level of predation. These analyses underscore the complex nonlinear interrelationships among pre- and postcopulatory traits and the importance of considering ecological factors that may ultimately change the way in which multiple traits interact to determine a trait's performance value. As such, our results are likely to be broadly applicable across systems where selection is influenced by ecological conditions.

Published

2019