Your search keyword '"trade‐off"' showing total 125 results

1. Differential genotype response to increased resource abundance helps explain parallel evolution of Daphnia populations in the wild

Author

Lyberger, Kelsey and Schoener, Thomas W

Subjects

Biological Sciences, Ecology, Genetics, Daphnia, natural selection, parallel evolution, trade-off, trade‐off, Evolutionary Biology, Evolutionary biology, Ecological applications

Abstract

Under controlled laboratory conditions, previous studies have shown that selection can produce repeatable evolutionary trajectories. Yet, the question remains for many of these studies if, given identical starting populations, evolution in the wild proceeds in a non-random direction. In the present study, we investigated the extent to which rapid evolution in the wild is parallel by monitoring the genetic composition of replicate populations of Daphnia in field mesocosms containing two clonal genotypes. We found parallel changes across all nine mesocosms, in which the same genotype increased in frequency. To probe whether genotype-specific response to resource abundance could have led to this frequency change, we conducted a life-history assay under high-resource abundance and low-resource abundance. We found that resource exploitation differed by genotype, in that, while one genotype (the winner in the field mesocosms) was more fit than the other genotype at high resources, the other genotype performed slightly better at low resources. We suspect that levels of resource abundance found in the summer field mesocosms had values in which the genotype better with abundant resources had the advantage. These findings suggest that variation in certain traits associated with resource acquisition can drive genotype frequency change.

Published

2023

2. Survival costs of reproduction are independent of energy costs in a seabird, the pelagic cormorant

Author

Téo Barracho, Scott A. Hatch, Jana Kotzerka, Stefan Garthe, Hannes A. Schraft, Shannon Whelan, and Kyle H. Elliott

Subjects

activity budgets, capture–mark–recapture, energetics, parental effort, trade‐off, Ecology, QH540-549.5

Abstract

Abstract Life‐history theory predicts that investment in reproduction should decrease survival (the ‘cost of reproduction’). It is often assumed that energy allocation drives such trade‐offs, with limited energy available for both reproduction and survival. However, the underlying mechanisms remain poorly understood, maybe because survival costs of reproduction are only apparent when resources are limited. Here, we took advantage of a natural experiment created by fluctuating environmental conditions to compare energy expenditure of a seabird, the pelagic cormorant (Phalacrocorax pelagicus), between contrasting population‐scale scenarios of survival costs of reproduction. We used multi‐state capture–recapture modelling across 16 years to identify which breeding seasons induced high survival costs (survival ratebreeders

Published

2024

3. Mechanisms, costs, and carry‐over effects of cannibal‐induced developmental plasticity in invasive cane toads

Author

Michael R. Crossland, Richard Shine, and Jayna L. DeVore

Subjects

anuran, inducible defence, phenotypic plasticity, predation, trade‐off, Ecology, QH540-549.5

Abstract

Abstract Inducible defences can improve survival in variable environments by allowing individuals to produce defences if they detect predators. These defences are often expressed as inter‐related developmental, morphological, and behavioural changes. However, producing defences can incur costs, which may be expressed immediately and/or during subsequent life stages. In Australia, waterborne cues of potentially cannibalistic conspecific tadpoles induce hatchlings of invasive cane toads to accelerate their developmental rate, thereby reducing their window of vulnerability. However, the mechanisms and costs of such accelerated development are poorly understood, and whether cane toad embryos show cannibal‐induced plasticity in other traits is unknown. Here, we found no evidence of altered time of hatching for embryos exposed to non‐feeding conspecific cannibal tadpole cues. Additionally, hatchling dispersal behaviours were not affected by exposure to these cues. However, developmental acceleration of hatchlings induced by exposure to tadpole cues was accompanied by reduced hatchling growth, indicating a trade‐off between these processes. At the conclusion of the hatchling stage, cannibal‐exposed individuals were smaller and morphologically distinct from control siblings. This size reduction affected performance during the subsequent tadpole stage: smaller cannibal‐exposed individuals were more likely to die, and initial size tended to be positively associated with subsequent tadpole growth and development across treatments (respectively, p = .07 and p = .06). However, even accounting for variation in initial size, there was an additional negative effect of cannibal exposure on tadpole growth and development, demonstrating that the fitness costs associated with developmental acceleration are not entirely attributable to size reductions.

Published

2024

4. Larval density in the invasive Drosophila suzukii: Immediate and delayed effects on life‐history traits

Author

Alicia Reyes‐Ramírez, Zaïnab Belgaidi, Patricia Gibert, Thomas Pommier, Aurélie Siberchicot, Laurence Mouton, and Emmanuel Desouhant

Subjects

crowding, Drosophila, life‐history traits, trade‐off, Ecology, QH540-549.5

Abstract

Abstract The effects of density are key in determining population dynamics, since they can positively or negatively affect the fitness of individuals. These effects have great relevance for polyphagous insects for which immature stages develop within a single site of finite feeding resources. Drosophila suzukii is a crop pest that induces severe economic losses for agricultural production; however, little is known about the effects of density on its life‐history traits. In the present study, we (i) investigated the egg distribution resulting from females' egg‐laying strategy and (ii) tested the immediate (on immatures) and delayed (on adults) effects of larval density on emergence rate, development time, potential fecundity, and adult size. The density used varied in a range between 1 and 50 larvae. We showed that 44.27% of the blueberries used for the oviposition assay contained between 1 and 11 eggs in aggregates. The high experimental density (50 larvae) has no immediate effect in the emergence rate but has effect on larval developmental time. This trait was involved in a trade‐off with adult life‐history traits: The time of larval development was reduced as larval density increased, but smaller and less fertile females were produced. Our results clearly highlight the consequences of larval crowding on the juveniles and adults of this fly.

Published

2023

5. Ecosystem services relationship characteristics of the degraded alpine shrub meadow on the Qinghai‐Tibetan Plateau

Author

Dawen Qian, Qian Li, Xiaowei Guo, Bo Fan, Yuting Lan, Mengke Si, and Guangmin Cao

Subjects

alpine shrub meadow, ecosystem service, grassland degradation, Qinghai‐Tibetan Plateau, trade‐off, Ecology, QH540-549.5

Abstract

Abstract Alpine shrub meadows hold significant importance as grassland ecosystems on the Qinghai‐Tibetan Plateau (QTP). They provide a range of vital ecosystem services (ESs) and are commonly utilized as summer pastures by herders, resulting in short grazing periods and high grazing intensities. Unfortunately, these practices have led to varying degrees of degradation, thereby affecting the sustainable provision of ESs. However, the current knowledge regarding changes in ESs and their characteristics under the influence of degradation, particularly the differences between alpine shrub and alpine meadow ecosystems, is insufficient. To address this gap, this study aimed to investigate and analyse changes in four ESs within alpine shrub meadows across different levels of degradation, as well as explore their relationships. The research was conducted in a summer pasture located in the northeastern QTP. The findings revealed a substantial reduction of 85.9% in forage supply due to degradation in alpine shrub meadows. Moreover, regulating services experienced a decline followed by an increase in instances of heavy degradation. Trade‐offs were observed between provisioning and regulating services, while synergistic relationships were identified among different regulating services. Degradation exacerbated imbalances between provisioning and regulating services, whereas light degradation allowed for a better equilibrium between the two. Comparatively, alpine meadows exhibited higher levels of forage supply and carbon storage services, whereas alpine shrub ecosystems displayed greater nutrient supply and water retention services. It was observed that changes in ESs and relationship patterns within alpine shrub meadows were significantly influenced by the presence of alpine meadows. Consequently, safeguarding the structural integrity of alpine meadows and addressing conflicts over ESs is essential to ensure coordination and sustainability of ESs within alpine shrub meadows. The outcomes of this study provide valuable insights for ecosystem management and ecological restoration initiatives in alpine shrub meadows on the QTP.

Published

2023

6. Maternal provisioning of an obligate symbiont in a sponge

Author

Tyler J. Carrier, Lara Schmittmann, Sabrina Jung, Lucía Pita, and Ute Hentschel

Subjects

animal–microbe, development, life history evolution, marine invertebrate, trade‐off, Ecology, QH540-549.5

Abstract

Abstract The transmission of microbes from mother to offspring is an ancient, advantageous, and widespread feature of metazoan life history. Despite this, little is known about the quantitative strategies taken to maintain symbioses across generations. The quantity of maternal microbes that is provided to each offspring through vertical transmission could theoretically be stochastic (no trend), consistent (an optimal range is allocated), or provisioned (a trade‐off with fecundity). Examples currently come from animals that release free‐living eggs (oviparous) and suggest that offspring are provided a consistent quantity of symbionts. The quantity of maternal microbes that is vertically transmitted in other major reproductive strategies has yet to be assessed. We used the brooding (viviparous) sponge Halichondria panicea to test whether offspring receive quantitatively similar numbers of maternal microbes. We observed that H. panicea has a maternal pool of the obligate symbiont Candidatus Halichondribacter symbioticus and that this maternal pool is provisioned proportionally to reproductive output and allometrically by offspring size. This pattern was not observed for the total bacterial community. Experimental perturbation by antibiotics could not reduce the abundance of Ca. H. symbioticus in larvae, while the total bacterial community could be reduced without affecting the ability of larvae to undergo metamorphosis. A trade‐off between offspring size and number is, by definition, maternal provisioning and parallel differences in Ca. H. symbioticus abundance would suggest that this obligate symbiont is also provisioned.

Published

2023

7. Differential genotype response to increased resource abundance helps explain parallel evolution of Daphnia populations in the wild

Author

Kelsey Lyberger and Thomas W. Schoener

Subjects

Daphnia, natural selection, parallel evolution, trade‐off, Ecology, QH540-549.5

Abstract

Abstract Under controlled laboratory conditions, previous studies have shown that selection can produce repeatable evolutionary trajectories. Yet, the question remains for many of these studies if, given identical starting populations, evolution in the wild proceeds in a non‐random direction. In the present study, we investigated the extent to which rapid evolution in the wild is parallel by monitoring the genetic composition of replicate populations of Daphnia in field mesocosms containing two clonal genotypes. We found parallel changes across all nine mesocosms, in which the same genotype increased in frequency. To probe whether genotype‐specific response to resource abundance could have led to this frequency change, we conducted a life‐history assay under high‐resource abundance and low‐resource abundance. We found that resource exploitation differed by genotype, in that, while one genotype (the winner in the field mesocosms) was more fit than the other genotype at high resources, the other genotype performed slightly better at low resources. We suspect that levels of resource abundance found in the summer field mesocosms had values in which the genotype better with abundant resources had the advantage. These findings suggest that variation in certain traits associated with resource acquisition can drive genotype frequency change.

Published

2023

8. Trade‐off between flight capability and reproduction in Acridoidea (Insecta: Orthoptera)

Author

Huihui Chang, Xiaoqiang Guo, Shuli Guo, Nan Yang, and Yuan Huang

Subjects

Acridoidea, gonadosomatic index, reproduction, trade‐off, wing type, Ecology, QH540-549.5

Abstract

Abstract In many insect taxa, there is a well‐established trade‐off between flight capability and reproduction. The wing types of Acridoidea exhibit extremely variability from full length to complete loss in many groups, thus, provide a good model for studying the trade‐off between flight and reproduction. In this study, we completed the sampling of 63 Acridoidea species, measured the body length, wing length, body weight, flight muscle weight, testis and ovary weight, and the relative wing length (RWL), relative flight muscle weight (RFW), and gonadosomatic index (GSI) of different species were statistically analyzed. The results showed that there were significant differences in RWL, RFW, and GSI among Acridoidea species with different wing types. RFW of long‐winged species was significantly higher than that of short‐winged and wingless species (p

Published

2021

9. Asexual reproduction and vegetative growth of Bionectria ochroleuca in response to temperature and photoperiod

Author

Yi Zheng, Yichun Xie, Yan Xie, and Shixiao Yu

Subjects

conidiation, environmental factors, growth, reproduction, trade‐off, Ecology, QH540-549.5

Abstract

Abstract Growth and reproduction are two essential life‐history traits for fungi. Understanding life‐history strategies provides insight into the environmental adaption of species. Here, we investigated the colonial morphology, vegetative growth, and asexual reproduction of the ascomycete fungus Bionectria ochroleuca in response to a variety of environmental conditions. We demonstrated that the increased temperature from 15 to 25°C induced mycelial growth and conidiation in B. ochroleuca. We also found that the optimal temperatures for mycelial growth and conidial formation in this fungus species were 25 and 30°C, respectively. However, as the temperature increased from 25 to 30°C, mycelial growth was suppressed, but the total number of conidia was significantly increased. The shift in light–dark cycles dramatically changed the morphological features of the colonies and affected both vegetative growth and asexual reproduction. Under incubation environments of alternating light and dark (16:8 and 8:16 light:dark cycles), conidiophores and conidia in the colonies formed dense‐sparse rings and displayed synchronous wave structures. When the light duration was prolonged in the sequence of 0, 8, 16, and 24 hr per day, mycelial growth was suppressed, but conidiation was promoted. Together, our results indicate that temperature and light period may trigger a trade‐off between vegetative growth and asexual reproduction in B. ochroleuca.

Published

2021

10. The trade‐off between investment in weapons and fertility is mediated through spermatogenesis in the leaf‐footed cactus bug Narnia femorata

Author

Katelyn R. Cavender, Tessa A. Ricker, Mackenzie O. Lyon, Emily A. Shelby, Christine W. Miller, and Patricia J. Moore

Subjects

autotomy, Narnia femorata, spermatogenesis, testes, trade‐off, weapons, Ecology, QH540-549.5

Abstract

Abstract Males have the ability to compete for fertilizations through both precopulatory and postcopulatory intrasexual competition. Precopulatory competition has selected for large weapons and other adaptations to maximize access to females and mating opportunities, while postcopulatory competition has resulted in ejaculate adaptations to maximize fertilization success. Negative associations between these strategies support the hypothesis that there is a trade‐off between success at pre‐ and postcopulatory mating success. Recently, this trade‐off has been demonstrated with experimental manipulation. Males of the leaf‐footed cactus bug Narnia femorata use hind limbs as the primary weapon in male–male competition. However, males can drop a hind limb to avoid entrapment. When this autotomy occurs during development, they invest instead in large testes. While evolutionary outcomes of the trade‐offs between pre‐ and postcopulatory strategies have been identified, less work has been done to identify proximate mechanisms by which the trade‐off might occur, perhaps because the systems in which the trade‐offs have been investigated are not ones that have the molecular tools required for exploring mechanism. Here, we applied knowledge from a related model species for which we have developmental knowledge and molecular tools, the milkweed bug Oncopeltus fasciatus, to investigate the proximate mechanism by which autotomized N. femorata males developed larger testes. Autotomized males had evidence of a higher rate of transit amplification divisions in the spermatogonia, which would result more spermatocytes and thus in greater sperm numbers. Identification of mechanisms underlying a trade‐off can help our understanding of the direction and constraints on evolutionary trajectories and thus the evolutionary potential under multiple forms of selection.

Published

2021

11. Genetic differentiation underlies seasonal variation in thermal tolerance, body size, and plasticity in a short‐lived copepod

Author

Matthew C. Sasaki and Hans G. Dam

Subjects

Copepod, fluctuating selection, phenotypic plasticity, seasonality, thermal tolerance, trade‐off, Ecology, QH540-549.5

Abstract

Abstract Organisms experience variation in the thermal environment on several different temporal scales, with seasonality being particularly prominent in temperate regions. For organisms with short generation times, seasonal variation is experienced across, rather than within, generations. How this affects the seasonal evolution of thermal tolerance and phenotypic plasticity is understudied, but has direct implications for the thermal ecology of these organisms. Here we document intra‐annual patterns of thermal tolerance in two species of Acartia copepods (Crustacea) from a highly seasonal estuary, showing strong variation across the annual temperature cycle. Common garden, split‐brood experiments indicate that this seasonal variation in thermal tolerance, along with seasonal variation in body size and phenotypic plasticity, is likely affected by genetic polymorphism. Our results show that adaptation to seasonal variation is important to consider when predicting how populations may respond to ongoing climate change.

Published

2020

12. Ecomorphology of the pectoral girdle in anurans (Amphibia, Anura): Shape diversity and biomechanical considerations

Author

Karolin Engelkes, Lena Kath, Thomas Kleinteich, Jörg U. Hammel, André Beerlink, and Alexander Haas

Subjects

locomotion, many‐to‐one mapping, muscle moment arm, stress dissipation, trade‐off, Ecology, QH540-549.5

Abstract

Abstract Frogs and toads (Lissamphibia: Anura) show a diversity of locomotor modes that allow them to inhabit a wide range of habitats. The different locomotor modes are likely to be linked to anatomical specializations of the skeleton within the typical frog Bauplan. While such anatomical adaptations of the hind limbs and the pelvic girdle are comparably well understood, the pectoral girdle received much less attention in the past. We tested for locomotor‐mode‐related shape differences in the pectoral girdle bones of 64 anuran species by means of micro‐computed‐tomography‐based geometric morphometrics. The pectoral girdles of selected species were analyzed with regard to the effects of shape differences on muscle moment arms across the shoulder joint and stress dissipation within the coracoid. Phylogenetic relationships, size, and locomotor behavior have an effect on the shape of the pectoral girdle in anurans, but there are differences in the relative impact of these factors between the bones of this skeletal unit. Remarkable shape diversity has been observed within locomotor groups indicating many‐to‐one mapping of form onto function. Significant shape differences have mainly been related to the overall pectoral girdle geometry and the shape of the coracoid. Most prominent shape differences have been found between burrowing and nonburrowing species with headfirst and backward burrowing species significantly differing from one another and from the other locomotor groups. The pectoral girdle shapes of burrowing species have generally larger moment arms for (simulated) humerus retractor muscles across the shoulder joint, which might be an adaptation to the burrowing behavior. The mechanisms of how the moment arms were enlarged differed between species and were associated with differences in the reaction of the coracoid to simulated loading by physiologically relevant forces.

Published

2020

13. Adaptation potential of the copepod Eurytemora affinis to a future warmer Baltic Sea

Author

Konrad Karlsson and Monika Winder

Subjects

genotype by environment interaction, global warming, life history, multiple stressors, phenotypic plasticity, trade‐off, Ecology, QH540-549.5

Abstract

Abstract To predict effects of global change on zooplankton populations, it is important to understand how present species adapt to temperature and how they respond to stressors interacting with temperature. Here, we ask if the calanoid copepod Eurytemora affinis from the Baltic Sea can adapt to future climate warming. Populations were sampled at sites with different temperatures. Full sibling families were reared in the laboratory and used in two common garden experiments (a) populations crossed over three temperature treatments 12, 17, and 22.5°C and (b) populations crossed over temperature in interaction with salinity and algae of different food quality. Genetic correlations of the full siblings’ development time were not different from zero between 12°C and the two higher temperatures 17 and 22.5°C, but positively correlated between 17 and 22.5°C. Hence, a population at 12°C is unlikely to adapt to warmer temperature, while a population at ≥17°C can adapt to an even higher temperature, that is, 22.5°C. In agreement with the genetic correlations, the population from the warmest site of origin had comparably shorter development time at high temperature than the populations from colder sites, that is, a cogradient variation. The population with the shortest development time at 22.5°C had in comparison lower survival on low quality food, illustrating a cost of short development time. Our results suggest that populations from warmer environments can at present indirectly adapt to a future warmer Baltic Sea, whereas populations from colder areas show reduced adaptation potential to high temperatures, simply because they experience an environment that is too cold.

Published

2020

14. Dietary carotenoid supplementation facilitates egg laying in a wild passerine

Author

Jorge García‐Campa, Wendt Müller, Sonia González‐Braojos, Emilio García‐Juárez, and Judith Morales

Subjects

carotenoid allocation, egg production, maternal effects, self‐maintenance, trade‐off, Ecology, QH540-549.5

Abstract

Abstract During egg laying, females face a trade‐off between self‐maintenance and investment into current reproduction, since providing eggs with resources is energetically demanding, in particular if females lay one egg per day. However, the costs of egg laying not only relate to energetic requirements, but also depend on the availability of specific resources that are vital for egg production and embryonic development. One of these compounds are carotenoids, pigments with immuno‐stimulatory properties, which are crucial during embryonic development. In this study, we explore how carotenoid availability alleviates this trade‐off and facilitates egg laying in a small bird species, the blue tit (Cyanistes caeruleus). Blue tits have among the largest clutch size of all European passerines and they usually lay one egg per day, although laying interruptions are frequent. We performed a lutein supplementation experiment and measured potential consequences for egg laying capacity and egg quality. We found that lutein‐supplemented females had less laying interruptions and thus completed their clutch faster than control females. No effects of treatment were found on the onset of egg laying or clutch size. Experimentally enhanced carotenoid availability did not elevate yolk carotenoid levels or egg mass, but negatively affected eggshell thickness. Our results provide hence evidence on the limiting role of carotenoids during egg laying. However, the benefits of laying faster following lutein supplementation were counterbalanced by a lower accumulation of calcium in the eggshell. Thus, even though single components may constrain egg laying, it is the combined availability of a range of different resources which ultimately determines egg quality and thus embryonic development.

Published

2020

15. Molecular and ecological plant defense responses along an elevational gradient in a boreal ecosystem

Author

Rafael Fonseca Benevenuto, Tarald Seldal, James Polashock, Stein R. Moe, Cesar Rodriguez‐Saona, Mark A. K. Gillespie, and Stein Joar Hegland

Subjects

climate change, constitutive and induced defenses, gene expression, plant‐herbivore interactions, trade‐off, Ecology, QH540-549.5

Abstract

Abstract Plants have the capacity to alter their phenotype in response to environmental factors, such as herbivory, a phenomenon called phenotypic plasticity. However, little is known on how plant responses to herbivory are modulated by environmental variation along ecological gradients. To investigate this question, we used bilberry (Vaccinium myrtillus L.) plants and an experimental treatment to induce plant defenses (i.e., application of methyl jasmonate; MeJA), to observe ecological responses and gene expression changes along an elevational gradient in a boreal system in western Norway. The gradient included optimal growing conditions for bilberry in this region (ca. 500 m a.s.l.), and the plant's range limits at high (ca. 900 m a.s.l.) and low (100 m a.s.l.) elevations. Across all altitudinal sites, MeJA‐treated plants allocated more resources to herbivory resistance while reducing growth and reproduction than control plants, but this response was more pronounced at the lowest elevation. High‐elevation plants growing under less herbivory pressure but more resource‐limiting conditions exhibited consistently high expression levels of defense genes in both MeJA‐treated and untreated plants at all times, suggesting a constant state of “alert.” These results suggest that plant defense responses at both the molecular and ecological levels are modulated by the combination of climate and herbivory pressure, such that plants under different environmental conditions differentially direct the resources available to specific antiherbivore strategies. Our findings are important for understanding the complex impact of future climate changes on plant–herbivore interactions, as this is a major driver of ecosystem functioning and biodiversity.

Published

2020

16. Trade‐offs between morphology and thermal niches mediate adaptation in response to competing selective pressures

Author

Stella F. Uiterwaal, Ian T. Lagerstrom, Thomas M. Luhring, Miranda E. Salsbery, and John P. DeLong

Subjects

climate change, evolution, morphology, Paramecium, predation, trade‐off, Ecology, QH540-549.5

Abstract

Abstract The effects of climate change—such as increased temperature variability and novel predators—rarely happen in isolation, but it is unclear how organisms cope with multiple stressors simultaneously. To explore this, we grew replicate Paramecium caudatum populations in either constant or variable temperatures and exposed half to predation. We then fit thermal performance curves (TPCs) of intrinsic growth rate (rmax) for each replicate population (N = 12) across seven temperatures (10°C–38°C). TPCs of P. caudatum exposed to both temperature variability and predation responded only to one or the other (but not both), resulting in unpredictable outcomes. These changes in TPCs were accompanied by changes in cell morphology. Although cell volume was conserved across treatments, cells became narrower in response to temperature variability and rounder in response to predation. Our findings suggest that predation and temperature variability produce conflicting pressures on both thermal performance and cell morphology. Lastly, we found a strong correlation between changes in cell morphology and TPC parameters in response to predation, suggesting that responses to opposing selective pressures could be constrained by trade‐offs. Our results shed new light on how environmental and ecological pressures interact to elicit changes in characteristics at both the individual and population levels. We further suggest that morphological responses to interactive environmental forces may modulate population‐level responses, making prediction of long‐term responses to environmental change challenging.

Published

2020

17. Teaching laboratory for large cohorts of undergraduates: Private and social information in fish

Author

Jost Borcherding, Mike M. Webster, and Katja Heubel

Subjects

behavior, feeding, Gasterosteus aculeatus, learning, trade‐off, Ecology, QH540-549.5

Abstract

Abstract A challenge in the Bachelor's studies in Biology is to strike a balance between reducing the teaching of practical scientific experiments to what is feasible in a short time, and teaching “real” science in undergraduate laboratories for high numbers of participants. We describe a laboratory in behavioral biology, with the primary focus on the student learning. However, also the underlying scientific question and the results of the experiment, namely the behavior of the three‐spined stickleback (Gasterosteus aculeatus) in a trade‐off situation during foraging, is without a doubt timely and sufficient for scientific studies on this subject, and this through the experiments conducted and data collected by the students. The students rated this laboratory well and learned at the end that social information is certainly important, but that self‐learning can be more important, and this not only in small fish, but also for the students themselves.

Published

2020

18. Copepod reproductive effort and oxidative status as responses to warming in the marine environment

Author

Ella vonWeissenberg, Anna Jansson, Kristiina A. Vuori, and Jonna Engström‐Öst

Subjects

climate change, marine ecology, oxidative stress, trade‐off, zooplankton, Ecology, QH540-549.5

Abstract

Abstract The marine ecosystems are under severe climate change‐induced stress globally. The Baltic Sea is especially vulnerable to ongoing changes, such as warming. The aim of this study was to measure eco‐physiological responses of a key copepod species to elevated temperature in an experiment, and by collecting field samples in the western Gulf of Finland. The potential trade‐off between reproductive output and oxidative balance in copepods during thermal stress was studied by incubating female Acartia sp. for reproduction rate and oxidative stress measurements in ambient and elevated temperatures. Our field observations show that the glutathione cycle had a clear response in increasing stress and possibly had an important role in preventing oxidative damage: Lipid peroxidation and ratio of reduced and oxidized glutathione were negatively correlated throughout the study. Moreover, glutathione‐s‐transferase activated in late July when the sea water temperature was exceptionally high and Acartia sp. experienced high oxidative stress. The combined effect of a heatwave, increased cyanobacteria, and decreased dinoflagellate abundance may have caused larger variability in reproductive output in the field. An increase of 7°C had a negative effect on egg production rate in the experiment. However, the effect on reproduction was relatively small, implying that Acartia sp. can tolerate warming at least within the temperature range of 9–16°C. However, our data from the experiment suggest a link between reproductive success and oxidative stress during warming, shown as a significant combined effect of temperature and catalase on egg production rate.

Published

2022

19. Survival costs of reproduction are independent of energy costs in a seabird, the pelagic cormorant.

Author

Barracho T, Hatch SA, Kotzerka J, Garthe S, Schraft HA, Whelan S, and Elliott KH

Abstract

Life-history theory predicts that investment in reproduction should decrease survival (the 'cost of reproduction'). It is often assumed that energy allocation drives such trade-offs, with limited energy available for both reproduction and survival. However, the underlying mechanisms remain poorly understood, maybe because survival costs of reproduction are only apparent when resources are limited. Here, we took advantage of a natural experiment created by fluctuating environmental conditions to compare energy expenditure of a seabird, the pelagic cormorant ( Phalacrocorax pelagicus ), between contrasting population-scale scenarios of survival costs of reproduction. We used multi-state capture-recapture modelling across 16 years to identify which breeding seasons induced high survival costs (survival rate breeders  < survival rate non/failed breeders ) and we concomitantly estimated energy expenditure of chick-rearing males using time-energy budget models across 4 years. Daily energy expenditure (DEE) of chick-rearing pelagic cormorants varied significantly among years. However, survival costs of reproduction were observed in only 1 year, and contrary to our expectations, variation in DEE was not associated with population-level survival costs. Similarly, at the individual level, DEE in 1 year did not predict the probability of being observed again at the colony in following years (apparent survival). Finally, DEE was independent of brood size and brood age, but older individuals tended to expend less energy than younger ones. Given the lack of an apparent energetic 'cost of reproduction', lower DEE in older birds could be due to improved efficiency rather than avoidance of costs in old birds. Although future studies should account for potential sex-specific energetic constraints by including data on female energy expenditure, we conclude that a direct link between the rate of energy expenditure during breeding and subsequent survival is unlikely in this system., Competing Interests: The authors declare no conflicts of interest., (© 2024 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd.)

Published

2024

20. Fecundity compensation is dependent on the generalized stress response in a nematode host

Author

Victoria L. Pike, Suzanne A. Ford, Kayla C. King, and Charlotte Rafaluk‐Mohr

Subjects

fecundity compensation, host–parasite interactions, indirect defense, life‐history shift, stress, trade‐off, Ecology, QH540-549.5

Abstract

Abstract Background Fecundity compensation, increased offspring output following parasite exposure, is widely reported, but the underlying mechanisms remain unclear. General stress responses are linked to other indirect defenses against parasites, and therefore may be responsible. We challenged strains of Caenorhabditis elegans (wild type and mutants with compromised or strengthened stress responses) with Staphylococcus aureus. Results In all strains except the compromised stress response mutant, we saw elevated offspring production if hosts survived initial parasite exposure. Conclusion We infer that general stress responses are linked with fecundity compensation. These results may explain why trade‐offs are not always observed among parasite defense mechanisms.

Published

2019

21. A distance–performance trade‐off in the phenotypic basis of dispersal

Author

Brett R. Addis, Bret W. Tobalske, Jon M. Davenport, and Winsor H. Lowe

Subjects

dispersal distance, locomotion, plethodontid salamanders, trade‐off, Ecology, QH540-549.5

Abstract

Abstract Across taxa, individuals vary in how far they disperse, with most individuals staying close to their origin and fewer dispersing long distances. Costs associated with dispersal (e.g., energy, risk) are widely believed to trade off with benefits (e.g., reduced competition, increased reproductive success) to influence dispersal propensity. However, this framework has not been applied to understand variation in dispersal distance, which is instead generally attributed to extrinsic environmental factors. We alternatively hypothesized that variation in dispersal distances results from trade‐offs associated with other aspects of locomotor performance. We tested this hypothesis in the stream salamander Gyrinophilus porphyriticus and found that salamanders that dispersed farther in the field had longer forelimbs but swam at slower velocities under experimental conditions. The reduced swimming performance of long‐distance dispersers likely results from drag imposed by longer forelimbs. Longer forelimbs may facilitate moving longer distances, but the proximate costs associated with reduced swimming performance may help to explain the rarity of long‐distance dispersal. The historical focus on environmental drivers of dispersal distances misses the importance of individual traits and associated trade‐offs among traits affecting locomotion.

Published

2019

22. Senescence and costs of reproduction in the life history of a small precocial species

Author

Fritz Trillmich, Edda Geißler, and Anja Guenther

Subjects

postnatal development and mortality, reproductive effort, reproductive seasonality, reproductive senescence, trade‐off, Ecology, QH540-549.5

Abstract

Abstract Species following a fast life history are expected to express fitness costs mainly as increased mortality, while slow‐lived species should suffer fertility costs. Because observational studies have limited power to disentangle intrinsic and extrinsic factors influencing senescence, we manipulated reproductive effort experimentally in the cavy (Cavia aperea) which produces extremely precocial young. We created two experimental groups: One was allowed continuous reproduction (CR) and the other intermittent reproduction (IR) by removing males at regular intervals. We predicted that the CR females should senesce (and die) earlier and produce either fewer and/or smaller, slower growing offspring per litter than those of the IR group. CR females had 16% more litters during three years than IR females. CR females increased mass and body condition more steeply and both remained higher until the experiment ended. Female survival showed no group difference. Reproductive senescence in litter size, litter mass, and reproductive effort (litter mass/maternal mass) began after about 600 days and was slightly stronger in CR than IR females. Litter size, litter mass, and offspring survival declined with maternal age and were influenced by seasonality. IR females decreased reproductive effort less during cold seasons and only at higher age than CR females. Nevertheless, offspring winter mortality was higher in IR females. Our results show small costs of reproduction despite high reproductive effort, suggesting that under ad libitum food conditions costs depend largely on internal regulation of allocation decisions.

Published

2019

23. The competition–dispersal trade‐off exists in forbs but not in graminoids: A case study from multispecies alpine grassland communities

Author

Xiaolong Zhou, Chengzhi Li, Honglin Li, and Qingdong Shi

Subjects

alpine grassland, competitive ability, dispersal ability, functional trait, trade‐off, Ecology, QH540-549.5

Abstract

Abstract Much theoretical evidence has demonstrated that a trade‐off between competitive and dispersal ability plays an important role in facilitating species coexistence. However, experimental evidence from natural communities is still rare. Here, we tested the competition–dispersal trade‐off hypothesis in an alpine grassland in the Tianshan Mountains, Xinjiang, China, by quantifying competitive and dispersal ability using a combination of 4 plant traits (seed mass, ramet mass, height, and dispersal mode). Our results show that the competition–dispersal trade‐off exists in the alpine grassland community and that this pattern was primarily demonstrated by forbs. The results suggest that most forb species are constrained to be either good competitors or good dispersers but not both, while there was no significant trade‐off between competitive and dispersal ability for most graminoids. This might occur because graminoids undergo clonal reproduction, which allows them to find more benign microenvironments, forage for nutrients across a large area and store resources in clonal structures, and they are thus not strictly limited by the particular resources at our study site. To the best of our knowledge, this is the first time the CD trade‐off has been tested for plants across the whole life cycle in a natural multispecies plant community, and more comprehensive studies are still needed to explore the underlying mechanisms and the linkage between the CD trade‐off and community composition.

Published

2019

24. Long‐term declines in winter body mass of tits throughout Britain and Ireland correlate with climate change

Author

Euan N. Furness and Robert A. Robinson

Subjects

body mass regulation, climate change, Paridae, predation risk, supplementary feeding, trade‐off, Ecology, QH540-549.5

Abstract

Abstract The optimum body mass of passerine birds typically represents a trade‐off between starvation risk, which promotes fat gain, and predation pressure, which promotes fat loss to maintain maneuvrability. Changes in ecological factors that affect either of these variables will therefore change the optimum body masses of populations of passerine birds. This study sought to identify and quantify the effects of changing temperatures and predation pressures on the body masses and wing lengths of populations of passerine birds throughout Britain and Ireland over the last 50 years. We analyzed over 900,000 individual measurements of body mass and wing length of blue tits Cyanistes caeruleus, coal tits Periparus ater, and great tits Parus major collected by licenced bird ringers throughout Britain and Ireland from 1965 to 2017 and correlated these with publicly available temperature data and published, UK‐wide data on the abundance of a key predator, the sparrowhawk Accipiter nisus. We found highly significant, long‐term, UK‐wide decreases in winter body masses of adults and juveniles of all three species. We also found highly significant negative correlations between winter body mass and winter temperature, and between winter body mass and sparrowhawk abundance. Independent of these effects, body mass further correlated negatively with calendar year, suggesting that less well understood dynamic factors, such as supplementary feeding levels, may play a major role in determining population optimum body masses. Wing lengths of these birds also decreased, suggesting a hitherto unobserved large‐scale evolutionary adjustment of wing loading to the lower body mass. These findings provide crucial evidence of the ways in which species are adapting to climate change and other anthropogenic factors throughout Britain and Ireland. Such processes are likely to have widespread implications as the equilibria controlling evolutionary optima in species worldwide are upset by rapid, anthropogenic ecological changes.

Published

2019

25. Mechanisms, costs, and carry-over effects of cannibal-induced developmental plasticity in invasive cane toads.

Author

Crossland MR, Shine R, and DeVore JL

Abstract

Inducible defences can improve survival in variable environments by allowing individuals to produce defences if they detect predators. These defences are often expressed as inter-related developmental, morphological, and behavioural changes. However, producing defences can incur costs, which may be expressed immediately and/or during subsequent life stages. In Australia, waterborne cues of potentially cannibalistic conspecific tadpoles induce hatchlings of invasive cane toads to accelerate their developmental rate, thereby reducing their window of vulnerability. However, the mechanisms and costs of such accelerated development are poorly understood, and whether cane toad embryos show cannibal-induced plasticity in other traits is unknown. Here, we found no evidence of altered time of hatching for embryos exposed to non-feeding conspecific cannibal tadpole cues. Additionally, hatchling dispersal behaviours were not affected by exposure to these cues. However, developmental acceleration of hatchlings induced by exposure to tadpole cues was accompanied by reduced hatchling growth, indicating a trade-off between these processes. At the conclusion of the hatchling stage, cannibal-exposed individuals were smaller and morphologically distinct from control siblings. This size reduction affected performance during the subsequent tadpole stage: smaller cannibal-exposed individuals were more likely to die, and initial size tended to be positively associated with subsequent tadpole growth and development across treatments (respectively, p  = .07 and p  = .06). However, even accounting for variation in initial size, there was an additional negative effect of cannibal exposure on tadpole growth and development, demonstrating that the fitness costs associated with developmental acceleration are not entirely attributable to size reductions., Competing Interests: The authors declare no competing interests., (© 2024 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd.)

Published

2024

26. Trade‐off between flight capability and reproduction in Acridoidea (Insecta: Orthoptera)

Author

Xiaoqiang Guo, Yuan Huang, Nan Yang, Shuli Guo, and Huihui Chang

Subjects

animal structures, biology, Ecology, Orthoptera, media_common.quotation_subject, gonadosomatic index, Zoology, biology.organism_classification, Trade-off, wing type, reproduction, Acridoidea, trade‐off, Reproduction, Research Articles, Ecology, Evolution, Behavior and Systematics, QH540-549.5, Research Article, Nature and Landscape Conservation, media_common

Abstract

In many insect taxa, there is a well‐established trade‐off between flight capability and reproduction. The wing types of Acridoidea exhibit extremely variability from full length to complete loss in many groups, thus, provide a good model for studying the trade‐off between flight and reproduction. In this study, we completed the sampling of 63 Acridoidea species, measured the body length, wing length, body weight, flight muscle weight, testis and ovary weight, and the relative wing length (RWL), relative flight muscle weight (RFW), and gonadosomatic index (GSI) of different species were statistically analyzed. The results showed that there were significant differences in RWL, RFW, and GSI among Acridoidea species with different wing types. RFW of long‐winged species was significantly higher than that of short‐winged and wingless species (p, Flight‐capable individuals (long‐winged) of Acridoidea expend energy developing and maintaining the flight apparatus at the expense of reproduction. Flight‐incapable individuals (short‐winged or wingless) cannot fly, but has a greater reproductive output. The results provide evidence for the trade‐off between flight and reproduction in Acridoidea.

Published

2021

27. Community species diversity mediates the trade‐off between aboveground and belowground biomass for grasses and forbs in degraded alpine meadow, Tibetan Plateau

Author

Ning Zong, Tiancai Zhou, Ge Hou, Jian Sun, and Peili Shi

Subjects

geography, Biomass (ecology), Plateau, geography.geographical_feature_category, biology, Ecology, Species diversity, Plant community, Anaphalis, biology.organism_classification, Trade-off, Agronomy, Forb, plant function groups, alpine meadow, Biomass partitioning, biomass allocation, strategy, Ecology, Evolution, Behavior and Systematics, QH540-549.5, Original Research, Nature and Landscape Conservation, degradation

Abstract

Although many empirical experiments have shown that increasing degradation results in lower aboveground biomass (AGB), our knowledge of the magnitude of belowground biomass (BGB) for individual plants is a prerequisite for accurately revealing the biomass trade‐off in degraded grasslands. Here, by linking the AGB and BGB of individual plants, species in the community, and soil properties, we explored the biomass partitioning patterns in different plant functional groups (grasses of Stipa capillacea and forbs of Anaphalis xylorhiza). Our results indicated that 81% and 60% of the biomass trade‐off variations could be explained by environmental factors affecting grasses and forbs, respectively. The change in community species diversity dominated the biomass trade‐off via either direct or indirect effects on soil properties and biomass. However, the community species diversity imparted divergent effects on the biomass trade‐off for grasses (scored at −0.72) and forbs (scored at 0.59). Our findings suggest that plant communities have evolved two contrasting strategies of biomass allocation patterns in degraded grasslands. These are the “conservative” strategy in grasses, in which plants with larger BGB trade‐off depends on gigantic roots for soil resources, and the “opportunistic” strategy in forbs, in which plants can adapt to degraded lands using high variation and optimal biomass allocation., Two contrasting strategies of biomass allocation patterns were detected in grasses and forbs. “Conservative” strategy in grasses, in which plants with belowground trade‐off depend on gigantic roots for soil resources. “Opportunistic” strategy in forbs, in which plants can adapt to degraded lands via high variation and optimal biomass allocation.

Published

2021

28. Asexual reproduction and vegetative growth of Bionectria ochroleuca in response to temperature and photoperiod

Author

Shixiao Yu, Yichun Xie, Yi Zheng, and Yan Xie

Subjects

Ecology, biology, Vegetative reproduction, growth, media_common.quotation_subject, Conidiation, Asexual reproduction, Fungus, conidiation, biology.organism_classification, Conidium, reproduction, environmental factors, Botany, trade‐off, Reproduction, QH540-549.5, Ecology, Evolution, Behavior and Systematics, Bionectria ochroleuca, Mycelium, Nature and Landscape Conservation, media_common

Abstract

Growth and reproduction are two essential life‐history traits for fungi. Understanding life‐history strategies provides insight into the environmental adaption of species. Here, we investigated the colonial morphology, vegetative growth, and asexual reproduction of the ascomycete fungus Bionectria ochroleuca in response to a variety of environmental conditions. We demonstrated that the increased temperature from 15 to 25°C induced mycelial growth and conidiation in B. ochroleuca. We also found that the optimal temperatures for mycelial growth and conidial formation in this fungus species were 25 and 30°C, respectively. However, as the temperature increased from 25 to 30°C, mycelial growth was suppressed, but the total number of conidia was significantly increased. The shift in light–dark cycles dramatically changed the morphological features of the colonies and affected both vegetative growth and asexual reproduction. Under incubation environments of alternating light and dark (16:8 and 8:16 light:dark cycles), conidiophores and conidia in the colonies formed dense‐sparse rings and displayed synchronous wave structures. When the light duration was prolonged in the sequence of 0, 8, 16, and 24 hr per day, mycelial growth was suppressed, but conidiation was promoted. Together, our results indicate that temperature and light period may trigger a trade‐off between vegetative growth and asexual reproduction in B. ochroleuca.

Published

2021

29. Changes in haemolymph parameters and insect ability to respond to immune challenge during overwintering

Author

Pavel Dobeš, Michal Řeřicha, and Michal Knapp

Subjects

0106 biological sciences, media_common.quotation_subject, Zoology, Insect, Biology, Trade-off, 010603 evolutionary biology, 01 natural sciences, invasive species, 03 medical and health sciences, Immune system, Hemolymph, Temperate climate, Climate change, trade‐off, innate immunity, QH540-549.5, Ecology, Evolution, Behavior and Systematics, Overwintering, Original Research, 030304 developmental biology, Nature and Landscape Conservation, media_common, 0303 health sciences, fluctuating temperatures, Innate immune system, Ecology, antimicrobial response, cold tolerance, biology.organism_classification, Harmonia axyridis, haemocytes, 13. Climate action, bacterial challenge

Abstract

Overwintering is a challenging period in the life of temperate insects. A limited energy budget characteristic of this period can result in reduced investment in immune system. Here, we investigated selected physiological and immunological parameters in laboratory‐reared and field‐collected harlequin ladybirds (Harmonia axyridis). For laboratory‐reared beetles, we focused on the effects of winter temperature regime (cold, average, or warm winter) on total haemocyte concentration aiming to investigate potential effects of ongoing climate change on immune system in overwintering insects. We recorded strong reduction in haemocyte concentration during winter; however, there were only limited effects of winter temperature regime on changes in haemocyte concentration in the course of overwintering. For field‐collected beetles, we measured additional parameters, specifically: total protein concentration, antimicrobial activity against Escherichia coli, and haemocyte concentration before and after overwintering. The field experiment did not investigate effects of winter temperature, but focused on changes in inducibility of insect immune system during overwintering, that is, measured parameters were compared between naïve beetles and those challenged by Escherichia coli. Haemocyte concentration decreased during overwintering, but only in individuals challenged by Escherichia coli. Prior to overwintering, the challenged beetles had a significantly higher haemocyte concentration compared to naïve beetles, whereas no difference was observed after overwintering. A similar pattern was observed also for antimicrobial activity against Escherichia coli as challenged beetles outperformed naïve beetles before overwintering, but not after winter. In both sexes, total protein concentration increased in the course of overwintering, but females had a significantly higher total protein concentration in their hemolymph compared to males. In general, our results revealed that insect’s ability to respond to an immune challenge is significantly reduced in the course of overwintering., Prior to overwintering, the challenged insects had a significantly higher haemocyte concentration compared to naïve insects, whereas no difference was observed after overwintering. A similar pattern was observed also for antimicrobial activity against Escherichia coli as challenged insects outperformed naïve insects before overwintering, but not after winter.

Published

2021

30. The evolutionary genetics of paternal care: How good genes and extrapair copulation affect the trade‐off between paternal care and mating success

Author

Courtney L. Fitzpatrick, Colette Marie Ciresi, and Michael J. Wade

Subjects

0106 biological sciences, Offspring, Population, Biology, Trade-off, 010603 evolutionary biology, 01 natural sciences, extrapair copulation, 03 medical and health sciences, lcsh:QH540-549.5, Genetic model, Mating, Allele, education, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Nature and Landscape Conservation, Original Research, 0303 health sciences, education.field_of_study, Ecology, Human evolutionary genetics, paternal care, Indirect genetic effects, Evolutionary biology, lcsh:Ecology, Paternal care, direct genetic effects, mathematical model

Abstract

We investigate the evolution of a gene for paternal care, with pleiotropic effects on male mating fitness and offspring viability, with and without extrapair copulations (EPCs). We develop a population genetic model to examine how pleiotropic effects of a male mating advantage and paternal care are affected by “good genes” and EPCs. Using this approach, we show that the relative effects of each on fitness do not always predict the evolutionary change. We then find the line of combinations of mating success and paternal care that bisects the plane of possible values into regions of positive or negative gene frequency change. This line shifts when either good genes or EPCs are introduced, thereby expanding or contracting the region of positive gene frequency change and significantly affecting the evolution of paternal care. Predictably, a direct viability effect of “good genes” that enhances offspring viability constrains or expands the parameter space over which paternal care can evolve, depending on whether the viability effect is associated with the paternal care allele or not. In either case, the effect of a “good gene” that enhances offspring viability is substantial; when strong enough, it can even facilitate the evolution of poor paternal care, where males harm their young. When nonrandom mating is followed by random EPCs, the genetic regression between sire and offspring is reduced and, consequently, the relative strengths of selection are skewed away from paternal care and toward the male mating advantage. However, when random mating is followed by nonrandom EPCs, a situation called “trading up” by females, we show that selection is skewed in the opposite direction, away from male mating advantage and toward paternal care across the natural range of EPC frequencies., We present a population genetic model to investigate the evolution of a gene for paternal care, when it also has pleiotropic effects on male mating fitness and offspring viability, with and without extrapair copulations (EPCs). We illustrate the quantitative evolutionary relationship between the different direct and indirect fitness effects hypothesized to influence the evolution of male parental care. We model trade‐offs: (1) between a direct effect on male mating success and an indirect effect on paternal caregiving; (2) between male mating success and offspring viability; and, (3) between good genes and bad parenting or vice versa. We show that a male mating bias is an episode of selection occurring before reproduction and offspring viability selection. Moreover, it differentially affects the direct and indirect components of offspring viability selection as they affect mean fitness and gene frequency change.

Published

2021

31. Larval density in the invasive Drosophila suzukii : Immediate and delayed effects on life-history traits.

Author

Reyes-Ramírez A, Belgaidi Z, Gibert P, Pommier T, Siberchicot A, Mouton L, and Desouhant E

Abstract

The effects of density are key in determining population dynamics, since they can positively or negatively affect the fitness of individuals. These effects have great relevance for polyphagous insects for which immature stages develop within a single site of finite feeding resources. Drosophila suzukii is a crop pest that induces severe economic losses for agricultural production; however, little is known about the effects of density on its life-history traits. In the present study, we (i) investigated the egg distribution resulting from females' egg-laying strategy and (ii) tested the immediate (on immatures) and delayed (on adults) effects of larval density on emergence rate, development time, potential fecundity, and adult size. The density used varied in a range between 1 and 50 larvae. We showed that 44.27% of the blueberries used for the oviposition assay contained between 1 and 11 eggs in aggregates. The high experimental density (50 larvae) has no immediate effect in the emergence rate but has effect on larval developmental time. This trait was involved in a trade-off with adult life-history traits: The time of larval development was reduced as larval density increased, but smaller and less fertile females were produced. Our results clearly highlight the consequences of larval crowding on the juveniles and adults of this fly., Competing Interests: The authors have declared that no competing interests exist., (© 2023 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd.)

Published

2023

32. Ecosystem services relationship characteristics of the degraded alpine shrub meadow on the Qinghai-Tibetan Plateau.

Author

Qian D, Li Q, Guo X, Fan B, Lan Y, Si M, and Cao G

Abstract

Alpine shrub meadows hold significant importance as grassland ecosystems on the Qinghai-Tibetan Plateau (QTP). They provide a range of vital ecosystem services (ESs) and are commonly utilized as summer pastures by herders, resulting in short grazing periods and high grazing intensities. Unfortunately, these practices have led to varying degrees of degradation, thereby affecting the sustainable provision of ESs. However, the current knowledge regarding changes in ESs and their characteristics under the influence of degradation, particularly the differences between alpine shrub and alpine meadow ecosystems, is insufficient. To address this gap, this study aimed to investigate and analyse changes in four ESs within alpine shrub meadows across different levels of degradation, as well as explore their relationships. The research was conducted in a summer pasture located in the northeastern QTP. The findings revealed a substantial reduction of 85.9% in forage supply due to degradation in alpine shrub meadows. Moreover, regulating services experienced a decline followed by an increase in instances of heavy degradation. Trade-offs were observed between provisioning and regulating services, while synergistic relationships were identified among different regulating services. Degradation exacerbated imbalances between provisioning and regulating services, whereas light degradation allowed for a better equilibrium between the two. Comparatively, alpine meadows exhibited higher levels of forage supply and carbon storage services, whereas alpine shrub ecosystems displayed greater nutrient supply and water retention services. It was observed that changes in ESs and relationship patterns within alpine shrub meadows were significantly influenced by the presence of alpine meadows. Consequently, safeguarding the structural integrity of alpine meadows and addressing conflicts over ESs is essential to ensure coordination and sustainability of ESs within alpine shrub meadows. The outcomes of this study provide valuable insights for ecosystem management and ecological restoration initiatives in alpine shrub meadows on the QTP., Competing Interests: No conflict of interest exists in the submission of this manuscript, and the manuscript is approved by all authors for publication., (© 2023 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd.)

Published

2023

33. Genetic differentiation underlies seasonal variation in thermal tolerance, body size, and plasticity in a short‐lived copepod

Author

Hans G. Dam and Matthew C. Sasaki

Subjects

0106 biological sciences, Climate change, Trade-off, phenotypic plasticity, 010603 evolutionary biology, 01 natural sciences, thermal tolerance, 03 medical and health sciences, lcsh:QH540-549.5, medicine, trade‐off, Temporal scales, Ecology, Evolution, Behavior and Systematics, Original Research, 030304 developmental biology, Nature and Landscape Conservation, 0303 health sciences, Phenotypic plasticity, Ecology, biology, seasonality, Seasonality, Copepod, biology.organism_classification, medicine.disease, fluctuating selection, lcsh:Ecology, Adaptation, Acartia

Abstract

Organisms experience variation in the thermal environment on several different temporal scales, with seasonality being particularly prominent in temperate regions. For organisms with short generation times, seasonal variation is experienced across, rather than within, generations. How this affects the seasonal evolution of thermal tolerance and phenotypic plasticity is understudied, but has direct implications for the thermal ecology of these organisms. Here we document intra‐annual patterns of thermal tolerance in two species of Acartia copepods (Crustacea) from a highly seasonal estuary, showing strong variation across the annual temperature cycle. Common garden, split‐brood experiments indicate that this seasonal variation in thermal tolerance, along with seasonal variation in body size and phenotypic plasticity, is likely affected by genetic polymorphism. Our results show that adaptation to seasonal variation is important to consider when predicting how populations may respond to ongoing climate change., We examined seasonal variation in thermal performance curves of a short‐lived marine copepod. Experiments with unacclimated individuals from the field and laboratory common garden experiments indicate that the observed seasonal variation in both thermal tolerance and phenotypic plasticity likely has a genetic basis.

Published

2020

34. Ecomorphology of the pectoral girdle in anurans (Amphibia, Anura): Shape diversity and biomechanical considerations

Author

Jörg U. Hammel, Lena Kath, Alexander Haas, Thomas Kleinteich, André Beerlink, and Karolin Engelkes

Subjects

0106 biological sciences, Pectoral girdle, Ecomorphology, Range (biology), Biology, Lissamphibia, 010603 evolutionary biology, 01 natural sciences, Coracoid, 03 medical and health sciences, medicine, many‐to‐one mapping, trade‐off, Ecology, Evolution, Behavior and Systematics, QH540-549.5, 030304 developmental biology, Nature and Landscape Conservation, Original Research, Morphometrics, 0303 health sciences, Pelvic girdle, Ecology, muscle moment arm, Anatomy, biology.organism_classification, stress dissipation, locomotion, medicine.anatomical_structure, Shoulder joint, ddc:500

Abstract

Ecology and evolution 10, 11467 - 11487 (2020). doi:10.1002/ece3.6784, Frogs and toads (Lissamphibia: Anura) show a diversity of locomotor modes that allow them to inhabit a wide range of habitats. The different locomotor modes are likely to be linked to anatomical specializations of the skeleton within the typical frog Bauplan. While such anatomical adaptations of the hind limbs and the pelvic girdle are comparably well understood, the pectoral girdle received much less attention in the past. We tested for locomotor-mode-related shape differences in the pectoral girdle bones of 64 anuran species by means of micro-computed-tomography-based geometric morphometrics. The pectoral girdles of selected species were analyzed with regard to the effects of shape differences on muscle moment arms across the shoulder joint and stress dissipation within the coracoid. Phylogenetic relationships, size, and locomotor behavior have an effect on the shape of the pectoral girdle in anurans, but there are differences in the relative impact of these factors between the bones of this skeletal unit. Remarkable shape diversity has been observed within locomotor groups indicating many-to-one mapping of form onto function. Significant shape differences have mainly been related to the overall pectoral girdle geometry and the shape of the coracoid. Most prominent shape differences have been found between burrowing and nonburrowing species with headfirst and backward burrowing species significantly differing from one another and from the other locomotor groups. The pectoral girdle shapes of burrowing species have generally larger moment arms for (simulated) humerus retractor muscles across the shoulder joint, which might be an adaptation to the burrowing behavior. The mechanisms of how the moment arms were enlarged differed between species and were associated with differences in the reaction of the coracoid to simulated loading by physiologically relevant forces., Published by John Wiley & Sons, Inc., [S.l.]

Published

2020

35. Dietary carotenoid supplementation facilitates egg laying in a wild passerine

Author

Sonia González-Braojos, Jorge García-Campa, Judith Morales, Emilio García-Juárez, Wendt Müller, Ministerio de Economía y Competitividad (España), European Commission, and Ministerio de Ciencia e Innovación (España)

Subjects

Egg production, 0106 biological sciences, Avian clutch size, Lutein, food.ingredient, Maternal effects, media_common.quotation_subject, Trade-off, Egg laying, 010603 evolutionary biology, 01 natural sciences, chemistry.chemical_compound, 03 medical and health sciences, food, Animal science, lcsh:QH540-549.5, Yolk, biology.animal, trade‐off, Self-maintenance, Eggshell, Carotenoid allocation, Biology, Carotenoid, Ecology, Evolution, Behavior and Systematics, Original Research, 030304 developmental biology, Nature and Landscape Conservation, media_common, chemistry.chemical_classification, 0303 health sciences, Ecology, biology, Cyanistes, Maternal effect, food and beverages, biology.organism_classification, Passerine, self‐maintenance, Chemistry, chemistry, embryonic structures, lcsh:Ecology, Reproduction

Abstract

During egg laying, females face a trade‐off between self‐maintenance and investment into current reproduction, since providing eggs with resources is energetically demanding, in particular if females lay one egg per day. However, the costs of egg laying not only relate to energetic requirements, but also depend on the availability of specific resources that are vital for egg production and embryonic development. One of these compounds are carotenoids, pigments with immuno‐stimulatory properties, which are crucial during embryonic development. In this study, we explore how carotenoid availability alleviates this trade‐off and facilitates egg laying in a small bird species, the blue tit (Cyanistes caeruleus). Blue tits have among the largest clutch size of all European passerines and they usually lay one egg per day, although laying interruptions are frequent. We performed a lutein supplementation experiment and measured potential consequences for egg laying capacity and egg quality. We found that lutein‐supplemented females had less laying interruptions and thus completed their clutch faster than control females. No effects of treatment were found on the onset of egg laying or clutch size. Experimentally enhanced carotenoid availability did not elevate yolk carotenoid levels or egg mass, but negatively affected eggshell thickness. Our results provide hence evidence on the limiting role of carotenoids during egg laying. However, the benefits of laying faster following lutein supplementation were counterbalanced by a lower accumulation of calcium in the eggshell. Thus, even though single components may constrain egg laying, it is the combined availability of a range of different resources which ultimately determines egg quality and thus embryonic development., This study provides the first evidence of limiting role of carotenoid during egg production. Experimentally enhanced carotenoid availability facilitated egg laying in blue tit females.

Published

2020

36. Trade‐offs between morphology and thermal niches mediate adaptation in response to competing selective pressures

Author

Ian T. Lagerstrom, Miranda E. Salsbery, Thomas M. Luhring, John P. DeLong, and Stella F. Uiterwaal

Subjects

0106 biological sciences, Paramecium, Environmental change, Population, Biology, Cell morphology, Trade-off, 010603 evolutionary biology, 01 natural sciences, Predation, 03 medical and health sciences, lcsh:QH540-549.5, evolution, morphology, trade‐off, education, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Nature and Landscape Conservation, Original Research, Ecological niche, 0303 health sciences, education.field_of_study, Ecology, Replicate, climate change, 13. Climate action, predation, lcsh:Ecology, Adaptation

Abstract

The effects of climate change—such as increased temperature variability and novel predators—rarely happen in isolation, but it is unclear how organisms cope with multiple stressors simultaneously. To explore this, we grew replicate Paramecium caudatum populations in either constant or variable temperatures and exposed half to predation. We then fit thermal performance curves (TPCs) of intrinsic growth rate (r max) for each replicate population (N = 12) across seven temperatures (10°C–38°C). TPCs of P. caudatum exposed to both temperature variability and predation responded only to one or the other (but not both), resulting in unpredictable outcomes. These changes in TPCs were accompanied by changes in cell morphology. Although cell volume was conserved across treatments, cells became narrower in response to temperature variability and rounder in response to predation. Our findings suggest that predation and temperature variability produce conflicting pressures on both thermal performance and cell morphology. Lastly, we found a strong correlation between changes in cell morphology and TPC parameters in response to predation, suggesting that responses to opposing selective pressures could be constrained by trade‐offs. Our results shed new light on how environmental and ecological pressures interact to elicit changes in characteristics at both the individual and population levels. We further suggest that morphological responses to interactive environmental forces may modulate population‐level responses, making prediction of long‐term responses to environmental change challenging., To explore how well organisms can cope with multiple simultaneous selective pressures—such as those produced by climate change—we exposed Paramecium caudatum populations to both temperature variability and predation. Our findings suggest that these two stressors produce conflicting pressures on both thermal performance and cell morphology, making prediction of long‐term responses to environmental change challenging. We further found a strong correlation between changes in cell morphology and thermal performance curve parameters in response to predation, suggesting that responses to opposing selective pressures could be constrained by trade‐offs.

Published

2020

37. Teaching laboratory for large cohorts of undergraduates: Private and social information in fish

Author

Jost Borcherding, Katja U. Heubel, Mike M. Webster, University of St Andrews. Centre for Biological Diversity, University of St Andrews. Centre for Social Learning & Cognitive Evolution, and University of St Andrews. School of Biology

Subjects

0106 biological sciences, LB2300, LB2300 Higher Education, Behavioral biology, QH301 Biology, media_common.quotation_subject, Trade-off, Scientific experiment, Bachelor, 010603 evolutionary biology, 01 natural sciences, QH301, 03 medical and health sciences, lcsh:QH540-549.5, ComputingMilieux_COMPUTERSANDEDUCATION, Learning, trade‐off, Student learning, Social information, Gasterosteus aculeatus, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Nature and Landscape Conservation, media_common, Behavior, 0303 health sciences, Medical education, learning, Ecology, behavior, Feeding, DAS, Subject (documents), %22">Fish , lcsh:Ecology, Academic Practice in Ecology and Evolution, feeding

Abstract

A challenge in the Bachelor's studies in Biology is to strike a balance between reducing the teaching of practical scientific experiments to what is feasible in a short time, and teaching “real” science in undergraduate laboratories for high numbers of participants. We describe a laboratory in behavioral biology, with the primary focus on the student learning. However, also the underlying scientific question and the results of the experiment, namely the behavior of the three‐spined stickleback (Gasterosteus aculeatus) in a trade‐off situation during foraging, is without a doubt timely and sufficient for scientific studies on this subject, and this through the experiments conducted and data collected by the students. The students rated this laboratory well and learned at the end that social information is certainly important, but that self‐learning can be more important, and this not only in small fish, but also for the students themselves., We describe a laboratory in behavioral biology, with the primary focus on the student learning. However, also the underlying scientific question and the results of the experiment, namely the behavior of the three‐spined stickleback (Gasterosteus aculeatus) in a trade‐off situation during foraging, are without a doubt timely and sufficient for scientific studies on this subject, and this through the experiments conducted and data collected by the students. The students rated this laboratory well.

Published

2019

38. Maternal provisioning of an obligate symbiont in a sponge.

Author

Carrier TJ, Schmittmann L, Jung S, Pita L, and Hentschel U

Abstract

The transmission of microbes from mother to offspring is an ancient, advantageous, and widespread feature of metazoan life history. Despite this, little is known about the quantitative strategies taken to maintain symbioses across generations. The quantity of maternal microbes that is provided to each offspring through vertical transmission could theoretically be stochastic (no trend), consistent (an optimal range is allocated), or provisioned (a trade-off with fecundity). Examples currently come from animals that release free-living eggs (oviparous) and suggest that offspring are provided a consistent quantity of symbionts. The quantity of maternal microbes that is vertically transmitted in other major reproductive strategies has yet to be assessed. We used the brooding (viviparous) sponge Halichondria panicea to test whether offspring receive quantitatively similar numbers of maternal microbes. We observed that H .  panicea has a maternal pool of the obligate symbiont Candidatus Halichondribacter symbioticus and that this maternal pool is provisioned proportionally to reproductive output and allometrically by offspring size. This pattern was not observed for the total bacterial community. Experimental perturbation by antibiotics could not reduce the abundance of Ca. H. symbioticus in larvae, while the total bacterial community could be reduced without affecting the ability of larvae to undergo metamorphosis. A trade-off between offspring size and number is, by definition, maternal provisioning and parallel differences in Ca. H. symbioticus abundance would suggest that this obligate symbiont is also provisioned., Competing Interests: We declare that we have no competing interests., (© 2023 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd.)

Published

2023

39. Evolutionary constraint on low elevation range expansion: Defense‐abiotic stress‐tolerance trade‐off in crosses of the ecological model Boechera stricta

Author

David H. Siemens, Jake Alsdurf, Riston Haugen, Jason Olsen, Gunbharpur S. Gill, and Steven L. Matzner

Subjects

0106 biological sciences, linkage mapping, Range (biology), trade‐offs, Trade-off, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, chemical defense, lcsh:QH540-549.5, Boechera stricta, extended generation crosses, Ecology, Evolution, Behavior and Systematics, Original Research, 030304 developmental biology, Nature and Landscape Conservation, Abiotic component, 0303 health sciences, Ecology, biology, Resistance (ecology), Abiotic stress, Elevation, biology.organism_classification, abiotic stress‐tolerance, Evolutionary biology, geographical range limits, lcsh:Ecology, Adaptation

Abstract

Most transplant experiments across species geographic range boundaries indicate that adaptation to stressful environments outside the range is often constrained. However, the mechanisms of these constraints remain poorly understood. We used extended generation crosses from diverged high and low elevation populations. In experiments across low elevation range boundaries, there was selection on the parental lines for abiotic stress‐tolerance and resistance to herbivores. However, in support of a defense‐tolerance trade‐off, extended generation crosses showed nonindependent segregation of these traits in the laboratory across a drought‐stress gradient and in the field across the low elevation range boundary. Genotypic variation in a marker from a region of the genome containing a candidate gene (MYC2) was associated with change in the genetic trade‐off. Thus, using crosses and forward genetics, we found experimental genetic and molecular evidence for a pleiotropic trade‐off that could constrain the evolution of range expansion., Evolutionary constraints are important to understand range limits, yet the mechanisms are poorly understood. Here we used an integrative approach to show that a trade‐off between abiotic stress‐tolerance and chemical defense against herbivores may inhibit the evolution of low elevation range expansion in the ecological model Boechera stricta.

Published

2019

40. A distance–performance trade‐off in the phenotypic basis of dispersal

Author

Winsor H. Lowe, Jon M. Davenport, Brett R. Addis, and Bret W. Tobalske

Subjects

0106 biological sciences, media_common.quotation_subject, Gyrinophilus porphyriticus, Trade-off, 010603 evolutionary biology, 01 natural sciences, Competition (biology), 03 medical and health sciences, biology.animal, lcsh:QH540-549.5, trade‐off, Ecology, Evolution, Behavior and Systematics, Original Research, 030304 developmental biology, Nature and Landscape Conservation, media_common, 0303 health sciences, Ecology, biology, Reproductive success, biology.organism_classification, locomotion, plethodontid salamanders, Salamander, Biological dispersal, lcsh:Ecology, dispersal distance

Abstract

Across taxa, individuals vary in how far they disperse, with most individuals staying close to their origin and fewer dispersing long distances. Costs associated with dispersal (e.g., energy, risk) are widely believed to trade off with benefits (e.g., reduced competition, increased reproductive success) to influence dispersal propensity. However, this framework has not been applied to understand variation in dispersal distance, which is instead generally attributed to extrinsic environmental factors. We alternatively hypothesized that variation in dispersal distances results from trade‐offs associated with other aspects of locomotor performance. We tested this hypothesis in the stream salamander Gyrinophilus porphyriticus and found that salamanders that dispersed farther in the field had longer forelimbs but swam at slower velocities under experimental conditions. The reduced swimming performance of long‐distance dispersers likely results from drag imposed by longer forelimbs. Longer forelimbs may facilitate moving longer distances, but the proximate costs associated with reduced swimming performance may help to explain the rarity of long‐distance dispersal. The historical focus on environmental drivers of dispersal distances misses the importance of individual traits and associated trade‐offs among traits affecting locomotion., Variation in dispersal distance is generally attributed to extrinsic environmental factors. We alternatively hypothesized that variation in dispersal distance results from trade‐offs associated with other aspects of locomotor performance. We tested this hypothesis in the stream salamander Gyrinophilus porphyriticus and found that salamanders with long forelimbs dispersed farther in the field but swam at slower velocities under experimental conditions, indicating that a distance–performance trade‐off likely shapes selection on dispersal distances.

Published

2019

41. Salt‐tolerant native plants have greater responses to other environments when compared to salt‐tolerant invasive plants

Author

Huixuan Liao, Shaolin Peng, and Muxin Liu

Subjects

0106 biological sciences, Zoology, mechanism, Introduced species, 010603 evolutionary biology, 01 natural sciences, Invasive species, 03 medical and health sciences, lcsh:QH540-549.5, trade‐off, Mikania micrantha, rapid evolution, Ecology, Evolution, Behavior and Systematics, Original Research, 030304 developmental biology, Nature and Landscape Conservation, salt stress, 0303 health sciences, Biomass (ecology), Ecology, biology, stress tolerance, Native plant, biology.organism_classification, invasion, Salinity, combined stresses, Habitat, lcsh:Ecology, Waterlogging (agriculture)

Abstract

The strong expansion potential of invasive plants is often attributed to fast adaptive responses to stress. However, the evolution of tolerance to one stressor may affect the responses to other stressors. Currently, it remains unclear what effect the evolution to one stressor might have on the responses to other single or combined stressors. Moreover, it is unknown how this might differ between invasive and native species. Invasive plants (Mikania micrantha and Bidens pilosa) and native plants (Merremia hederacea and Sida acuta) from low‐ and high‐salinity habitats were grown under control and stressful conditions [salt stress, water stress (drought/waterlogging), and their combinations]. We explored the effects of evolved salt tolerance on the responses to water stress/combined stresses and the underlying trait mechanisms. The high‐salinity populations of all species exhibited stronger salt tolerance than the low‐salinity populations. As to the tolerance to other stressors, the high‐salinity and low‐salinity populations of the invasive species were similar, whereas the high‐salinity populations of the native species exhibited stronger tolerance than the low‐salinity populations under most stress treatments. However, the enhanced salt tolerance in native species was accompanied by reduced total biomass under control condition. The stress tolerance of native species correlated with leaf production rate and allocation to root, while the performance of native species under control condition correlated with leaf morphology and carbon assimilation rate. This suggests a trade‐off between salt tolerance and performance in the native but not the invasive species, probably resulting from altered phenotypic/physiological traits. Synthesis Our work suggests that the evolution of tolerance to one stressor may have stronger effects on the tolerance to other stressors of the native compared with the invasive species. This may be a new paradigm to explain the greater advantage of invasive vs. native species in highly stressful habitats.

Published

2019

42. Senescence and costs of reproduction in the life history of a small precocial species

Author

Trillmich, Fritz, Geißler, Edda, and Günther, Anja

Subjects

reproductive, postnatal development and mortality, reproductive senescence, seasonality, lcsh:QH540-549.5, reproductive seasonality, reproductive effort, trade‐off, lcsh:Ecology, trade-off, Original Research

Abstract

Species following a fast life history are expected to express fitness costs mainly as increased mortality, while slow-lived species should suffer fertility costs. Because observational studies have limited power to disentangle intrinsic and extrinsic factors influencing senescence, we manipulated reproductive effort experimentally in the cavy (Cavia aperea) which produces extremely precocial young. We created two experimental groups: One was allowed continuous reproduction (CR) and the other intermittent reproduction (IR) by removing males at regular intervals. We predicted that the CR females should senesce (and die) earlier and produce either fewer and/or smaller, slower growing offspring per litter than those of the IR group. CR females had 16% more litters during three years than IR females. CR females increased mass and body condition more steeply and both remained higher until the experiment ended. Female survival showed no group difference. Reproductive senescence in litter size, litter mass, and reproductive effort (litter mass/maternal mass) began after about 600 days and was slightly stronger in CR than IR females. Litter size, litter mass, and offspring survival declined with maternal age and were influenced by seasonality. IR females decreased reproductive effort less during cold seasons and only at higher age than CR females. Nevertheless, offspring winter mortality was higher in IR females. Our results show small costs of reproduction despite high reproductive effort, suggesting that under ad libitum food conditions costs depend largely on internal regulation of allocation decisions. © 2019 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd.

Published

2019

43. Long‐term declines in winter body mass of tits throughout Britain and Ireland correlate with climate change

Author

Furness, Euan N. and Robinson, Robert A.

Subjects

0106 biological sciences, Periparus, Population, supplementary feeding, Zoology, wing length, 010603 evolutionary biology, 01 natural sciences, Sparrowhawk, Predation, 03 medical and health sciences, biology.animal, Paridae, predation risk, lcsh:QH540-549.5, trade‐off, education, Ecology, Evolution, Behavior and Systematics, Original Research, 030304 developmental biology, Nature and Landscape Conservation, Parus, 0303 health sciences, education.field_of_study, Ecology, biology, Cyanistes, body mass regulation, Accipiter, biology.organism_classification, Passerine, climate change, lcsh:Ecology

Abstract

The optimum body mass of passerine birds typically represents a trade‐off between starvation risk, which promotes fat gain, and predation pressure, which promotes fat loss to maintain maneuvrability. Changes in ecological factors that affect either of these variables will therefore change the optimum body masses of populations of passerine birds. This study sought to identify and quantify the effects of changing temperatures and predation pressures on the body masses and wing lengths of populations of passerine birds throughout Britain and Ireland over the last 50 years. We analyzed over 900,000 individual measurements of body mass and wing length of blue tits Cyanistes caeruleus, coal tits Periparus ater, and great tits Parus major collected by licenced bird ringers throughout Britain and Ireland from 1965 to 2017 and correlated these with publicly available temperature data and published, UK‐wide data on the abundance of a key predator, the sparrowhawk Accipiter nisus. We found highly significant, long‐term, UK‐wide decreases in winter body masses of adults and juveniles of all three species. We also found highly significant negative correlations between winter body mass and winter temperature, and between winter body mass and sparrowhawk abundance. Independent of these effects, body mass further correlated negatively with calendar year, suggesting that less well understood dynamic factors, such as supplementary feeding levels, may play a major role in determining population optimum body masses. Wing lengths of these birds also decreased, suggesting a hitherto unobserved large‐scale evolutionary adjustment of wing loading to the lower body mass. These findings provide crucial evidence of the ways in which species are adapting to climate change and other anthropogenic factors throughout Britain and Ireland. Such processes are likely to have widespread implications as the equilibria controlling evolutionary optima in species worldwide are upset by rapid, anthropogenic ecological changes.

Published

2019

44. The competition–dispersal trade‐off exists in forbs but not in graminoids: A case study from multispecies alpine grassland communities

Author

Shi Qingdong, Xiaolong Zhou, Honglin Li, and Chengzhi Li

Subjects

0106 biological sciences, Forage (honey bee), competitive ability, media_common.quotation_subject, Biology, Trade-off, 010603 evolutionary biology, 01 natural sciences, Competition (biology), Grassland, 03 medical and health sciences, Nutrient, lcsh:QH540-549.5, alpine grassland, dispersal ability, trade‐off, functional trait, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Nature and Landscape Conservation, media_common, Original Research, 0303 health sciences, geography, geography.geographical_feature_category, Ecology, Plant community, Biological dispersal, Forb, lcsh:Ecology

Abstract

Much theoretical evidence has demonstrated that a trade‐off between competitive and dispersal ability plays an important role in facilitating species coexistence. However, experimental evidence from natural communities is still rare. Here, we tested the competition–dispersal trade‐off hypothesis in an alpine grassland in the Tianshan Mountains, Xinjiang, China, by quantifying competitive and dispersal ability using a combination of 4 plant traits (seed mass, ramet mass, height, and dispersal mode). Our results show that the competition–dispersal trade‐off exists in the alpine grassland community and that this pattern was primarily demonstrated by forbs. The results suggest that most forb species are constrained to be either good competitors or good dispersers but not both, while there was no significant trade‐off between competitive and dispersal ability for most graminoids. This might occur because graminoids undergo clonal reproduction, which allows them to find more benign microenvironments, forage for nutrients across a large area and store resources in clonal structures, and they are thus not strictly limited by the particular resources at our study site. To the best of our knowledge, this is the first time the CD trade‐off has been tested for plants across the whole life cycle in a natural multispecies plant community, and more comprehensive studies are still needed to explore the underlying mechanisms and the linkage between the CD trade‐off and community composition.

Published

2019

45. Diet can alter the cost of resistance to a natural parasite in Caenorhabditis elegans .

Author

Jiranek J and Gibson A

Abstract

Resistance to parasites confers a fitness advantage, yet hosts show substantial variation in resistance in natural populations. Evolutionary theory indicates that resistant and susceptible genotypes can coexist if resistance is costly, but there is mixed evidence that resistant individuals have lower fitness in the absence of parasites. One explanation for this discrepancy is that the cost of resistance varies with environmental context. We tested this hypothesis using Caenorhabditis elegans and its natural microsporidian parasite, Nematocida ironsii . We used multiple metrics to compare the fitness of two near-isogenic host genotypes differing at regions associated with resistance to N. ironsii . To quantify the effect of the environment on the cost associated with these known resistance regions, we measured fitness on three microbial diets. We found that the cost of resistance varied with both diet and the measure of fitness. We detected no cost to resistance, irrespective of diet, when fitness was measured as fecundity. However, we detected a cost when fitness was measured in terms of population growth, and the magnitude of this cost varied with diet. These results provide a proof of concept that, by mediating the cost of resistance, environmental context may govern the rate and nature of resistance evolution in heterogeneous environments., Competing Interests: The authors declare no conflicts of interest., (© 2023 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd.)

Published

2023

46. The trade-off between investment in weapons and fertility is mediated through spermatogenesis in the leaf-footed cactus bug

Author

Katelyn R, Cavender, Tessa A, Ricker, Mackenzie O, Lyon, Emily A, Shelby, Christine W, Miller, and Patricia J, Moore

Subjects

Narnia femorata, weapons, testes, trade‐off, spermatogenesis, Original Research, autotomy

Abstract

Males have the ability to compete for fertilizations through both precopulatory and postcopulatory intrasexual competition. Precopulatory competition has selected for large weapons and other adaptations to maximize access to females and mating opportunities, while postcopulatory competition has resulted in ejaculate adaptations to maximize fertilization success. Negative associations between these strategies support the hypothesis that there is a trade‐off between success at pre‐ and postcopulatory mating success. Recently, this trade‐off has been demonstrated with experimental manipulation. Males of the leaf‐footed cactus bug Narnia femorata use hind limbs as the primary weapon in male–male competition. However, males can drop a hind limb to avoid entrapment. When this autotomy occurs during development, they invest instead in large testes. While evolutionary outcomes of the trade‐offs between pre‐ and postcopulatory strategies have been identified, less work has been done to identify proximate mechanisms by which the trade‐off might occur, perhaps because the systems in which the trade‐offs have been investigated are not ones that have the molecular tools required for exploring mechanism. Here, we applied knowledge from a related model species for which we have developmental knowledge and molecular tools, the milkweed bug Oncopeltus fasciatus, to investigate the proximate mechanism by which autotomized N. femorata males developed larger testes. Autotomized males had evidence of a higher rate of transit amplification divisions in the spermatogonia, which would result more spermatocytes and thus in greater sperm numbers. Identification of mechanisms underlying a trade‐off can help our understanding of the direction and constraints on evolutionary trajectories and thus the evolutionary potential under multiple forms of selection., Male leaf‐footed cactus bugs that lose the ability to fully invest in weapons required for success in precopulatory contests invest instead in testis size that allows them to compete for postcopulatory fertilization success. In this study, we shed light on the mechanism by which this trade‐off occurs; males that lost their weapon during a key developmental stage have sperm progenitor cells that divided more rapidly than control males. Understanding proximate mechanisms can help us understand potential directions and constraints on the evolution of this trade‐off under different forms of selection.

Published

2020

47. Asexual reproduction and vegetative growth of

Author

Yi, Zheng, Yichun, Xie, Yan, Xie, and Shixiao, Yu

Subjects

reproduction, environmental factors, growth, trade‐off, conidiation, Original Research

Abstract

Growth and reproduction are two essential life‐history traits for fungi. Understanding life‐history strategies provides insight into the environmental adaption of species. Here, we investigated the colonial morphology, vegetative growth, and asexual reproduction of the ascomycete fungus Bionectria ochroleuca in response to a variety of environmental conditions. We demonstrated that the increased temperature from 15 to 25°C induced mycelial growth and conidiation in B. ochroleuca. We also found that the optimal temperatures for mycelial growth and conidial formation in this fungus species were 25 and 30°C, respectively. However, as the temperature increased from 25 to 30°C, mycelial growth was suppressed, but the total number of conidia was significantly increased. The shift in light–dark cycles dramatically changed the morphological features of the colonies and affected both vegetative growth and asexual reproduction. Under incubation environments of alternating light and dark (16:8 and 8:16 light:dark cycles), conidiophores and conidia in the colonies formed dense‐sparse rings and displayed synchronous wave structures. When the light duration was prolonged in the sequence of 0, 8, 16, and 24 hr per day, mycelial growth was suppressed, but conidiation was promoted. Together, our results indicate that temperature and light period may trigger a trade‐off between vegetative growth and asexual reproduction in B. ochroleuca., The trade‐offs between vegetative growth and reproductive growth are essential to the environmental adaptation and population growth of the species. However, scientists have not found the evidence in support of either a positive or negative relationship between growth and reproduction. By using Bionectria ochroleuca, a potential pathogen which was isolated and purified from a subtropical tree Cyclobalanopsis chungii, we investigate its changes and differences in vegetative growth and reproductive growth under a variety of environmental conditions. Our results demonstrated that the compensation of limiting resources would induce both reproduction and growth, and the high plasticity on light, nutrient, and temperature conditions during conidia germination is the adaptive advantages for survival and dispersal in changeable environments.

Published

2020

48. Trade-off between fecundity and survival generates stabilizing selection on gall size

Author

Glen R. Hood, Michael Foster, Scott P. Egan, and Amanda K. Weaver

Subjects

0106 biological sciences, Zoology, multitrophic interactions, Biology, Trade-off, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, lcsh:QH540-549.5, Cynipidae, Gall, Stabilizing selection, gall former, Ecology, Evolution, Behavior and Systematics, Original Research, 030304 developmental biology, Nature and Landscape Conservation, 0303 health sciences, Experimental evolution, Natural selection, Ecology, Host (biology), natural selection, Phenotypic trait, Fecundity, Hymenoptera, lcsh:Ecology

Abstract

Complex interactions within multitrophic communities are fundamental to the evolution of individual species that reside within them. One common outcome of species interactions are fitness trade‐offs, where traits adaptive in some circumstances are maladaptive in others. Here, we identify a fitness trade‐off between fecundity and survival in the cynipid wasp Callirhytis quercusbatatoides that induces multichambered galls on the stem of its host plant Quercus virginiana. We first quantified this trade‐off in natural populations by documenting two relationships: a positive association between the trait gall size and fecundity, as larger galls contain more offspring, and a negative association between gall size and survival, as larger galls are attacked by birds at a higher rate. Next, we performed a field‐based experimental evolution study where birds were excluded from the entire canopy of 11 large host trees for five years. As a result of the five‐year release from avian predators, we observed a significant shift to larger galls per tree. Overall, our study demonstrates how two opposing forces of selection can generate stabilizing selection on a critical phenotypic trait in wild populations, and how traits can evolve rapidly in the predicted direction when conditions change., Complex interactions within multitrophic communities can result in fitness trade‐offs for individual species, where traits adaptive in some circumstances are maladaptive in others. In this paper, we identify a fitness trade‐off in the cynipid wasp Callirhytis quercusbatatoides, which induces multichambered galls on the stem of its host plant Quercus virginiana. We find a positive association between the trait “gall size” and fecundity, where larger galls contain more offspring, and a negative association between gall size and survival, where larger galls are attacked by birds at a higher rate. We then use a field‐based experimental evolution study where birds were excluded from host trees for five years and observe a significant shift to larger galls per tree in the direction predicted by natural selection.

Published

2020

49. Divergence in digestive and metabolic strategies matches habitat differentiation in juvenile salmonids.

Author

Monnet G, Rosenfeld JS, and Richards JG

Abstract

Divergent energy acquisition and processing strategies associated with using different microhabitats may allow phenotypes to specialize and coexist at small spatial scales. To understand how ecological specialization affects differentiation in energy acquisition and processing strategies, we examined relationships among digestive physiology, growth, and energetics by performing captive experiments on juveniles of wild coho salmon ( Oncorhynchus kisutch ) and steelhead trout ( O. mykiss ) that exploit adjacent habitats along natural low-to-high energy flux gradients (i.e., pools versus riffles) in coastal streams. We predicted that: (i) the specialization of steelhead trout to high-velocity, high-energy habitats would result in elevated food intake and growth at the cost of lower growth efficiency relative to coho salmon; (ii) the two species would differentiate along a rate-maximizing (steelhead trout) versus efficiency-maximizing (coho salmon) axis of digestive strategies matching their ecological lifestyle; and (iii) the higher postprandial metabolic demand (i.e., specific dynamic action, SDA) associated with elevated food intake would occupy a greater fraction of the steelhead trout aerobic budget. Relative to coho salmon, steelhead trout presented a pattern of faster growth and higher food intake but lower growth efficiency, supporting the existence of a major growth versus growth efficiency trade-off between species. After accounting for differences in ration size between species, steelhead trout also presented higher SDA than coho salmon, but similar intestinal transit time and lower assimilation efficiency. Both species presented similar aerobic budgets since the elevated SDA of steelhead trout was largely compensated by their higher aerobic scope relative to coho salmon. Our results illustrate the key contribution of digestive physiology to the adaptive differentiation of juvenile growth, energetics, and overall performance of taxa with divergent habitat specializations along a natural productivity gradient., Competing Interests: 7The authors declare that they have no conflict of interest., (© 2022 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd.)

Published

2022

50. Female ornamentation and the fecundity trade‐off in a sex‐role reversed pipefish

Author

John R. Morrongiello, Dianne J. Bray, Matthew Warr, Kenyon B. Mobley, and Bob B. M. Wong

Subjects

0106 biological sciences, 0301 basic medicine, Avian clutch size, media_common.quotation_subject, Stigmatopora nigra, Zoology, Body size, Trade-off, 010603 evolutionary biology, 01 natural sciences, Pipefish, honest signaling, cost of reproduction, 03 medical and health sciences, allometry, sexual selection, mate choice, Ecology, Evolution, Behavior and Systematics, media_common, Nature and Landscape Conservation, Original Research, Ecology, biology, Ornaments, Fecundity, biology.organism_classification, Mating preferences, 030104 developmental biology, Mate choice, Sexual selection, Reproductive value, Reproduction, female competition

Abstract

Female ornaments are a rare occurrence in nature. One explanation for this is that female ornaments are costly to produce and maintain and, therefore, females must trade-off resources related to reproduction to promote ornament expression. Here, we investigate the potential trade-off between female ornamentation and fecundity in the sex-role reversed, wide-bodied pipefish, Stigmatopora nigra. We measured two components of the female ornament, body width and stripe thickness, and tested the relationship between these ornaments and female fecundity and the mean egg size. Both body width and stripe thickness were strongly and positively related to female body size. After controlling for the influence of body size, we found no evidence of a cost of belly width or stripe thickness on female fecundity. Rather, females that have larger ornaments have higher fecundity and thus a greater relative fitness advantage. However, larger females suffered a slight decrease in egg size, consistent with a potential trade-off between egg size and body size, although no relationship between egg size and ornaments was observed. Our results suggest that larger S. nigra females accurately advertise their reproductive value to males, and underscore the importance of investigating the potential mechanisms that promote and maintain honesty of female ornaments.

Published

2018