Your search keyword '"Johansson, Frank"' showing total 106 results

1. Effects of temperature and resource level on interspecific interactions in two species of Odonata larvae.

Author

Stahl, Lisa and Johansson, Frank

Subjects

*TEMPERATURE effect, *ODONATA, *ANIMAL clutches, *LARVAE, *LOW temperatures, *PREDATION

Abstract

Identifying how temperature and food resources affect interactions between species is important for understanding how climate change will shape community structure in the future. Here, we tested how temperature and resource density affect survival and growth in the larval stage of two coexisting odonates: the damselfly Lestes sponsa and the dragonfly Sympetrum vulgatum. We performed a laboratory experiment at two temperatures (21 and 24°C) with two resource densities. We estimated the timing of egg hatching of individual egg clutches and thereafter the larval growth rate‐, survival‐ and size‐mediated priority effects under interspecific conditions. Eggs of both species hatched slightly faster at 24°C, and S. vulgatum eggs started hatching approximately 1 day earlier than L. sponsa eggs. However, this earlier hatching did not result in a size‐mediated priority effect, that is, a higher predation on the later hatching L. sponsa. Nevertheless, L. sponsa larvae were significantly larger than S. vulgatum at hatching. Growth rate and survival were significantly higher: (1) at 24°C compared with 21°C, (2) at high compared with low‐resource density and (3) in L. sponsa compared with S. vulgatum. Several significant interaction effects between resource density and temperature and between temperature and species were found. At high temperature, L. sponsa had a higher growth rate than S. vulgatum, but no difference in growth rate between species was found at low temperature. Additionally, a high‐resource density resulted in a higher growth rate in both species, but only under high temperature. There was a negative relationship between growth rate and survival in both species, suggesting that the higher growth rate of larvae was to some degree driven by intraguild predation and/or cannibalism. Our results imply that resource levels interact with temperature to affect interactions between the species. [ABSTRACT FROM AUTHOR]

Published

2024

2. Remaining forests on the Central Highlands of Madagascar—Endemic and endangered aquatic beetle fauna uncovered.

Author

Ranarilalatiana, Tolotra, Razafindraleva, Herisolo Andrianiaina, Granath, Gustaf, Bukontaite Malm, Rasa, Rakotonirina, Jean Claude, Razafindranaivo, Victor, Ravaomanarivo, Lala Harivelo Raveloson, Johansson, Frank, and Bergsten, Johannes

Subjects

AQUATIC animals, UPLANDS, AQUATIC insects, ENDANGERED species, INSECT diversity, HABITATS

Abstract

Madagascar is known for its high endemism and as many as 90% of this unique diversity are forest‐dwellers. Unfortunately, the forest cover of Madagascar is decreasing at an alarming rate. This decrease can also affect aquatic insects, but our knowledge on aquatic insect diversity and distribution on Madagascar are limited. Although the eastern rainforests are considered the most diverse, the Central Highlands of Madagascar also harbors unique microendemic fauna but has been less studied. Here, we analyze the aquatic Adephaga beetle fauna of three remaining protected forests of the Central Highlands. Diversity, abundance, and uniqueness are compared between and within natural forests and surrounding grasslands. At least 15 undescribed species were found, highlighting the Central Highlands as an important area for endemism. The natural forests and the surrounding grasslands differed significantly in species assemblages. Interestingly, the three remaining forests differed in their assemblages with the geographically more distant Manjakatompo Ankaratra having the most unique fauna but also the highest altitude span. By contrast, the species composition was similar between the peripheral zones of each of the three remaining forests. The similarity of the fauna in the peripheral open habitats illustrates how some local forest endemics are replaced with widespread generalists in degraded habitats. Our study shows that the remaining forests of the Central Highlands of Madagascar are important refuges of unique fauna at high risk of extinction. [ABSTRACT FROM AUTHOR]

Published

2022

3. The effect of temperature and behaviour on the interaction between two dragonfly larvae species within the native and expanded range.

Author

Everling, Sanne and Johansson, Frank

Subjects

*TEMPERATURE effect, *COMPETITION (Biology), *LIFE history theory, *SPECIES distribution, *SPECIES, *LARVAE, *DRAGONFLIES

Abstract

Studies on interaction between species are needed to observe and predict the effects of climate change on species distributions. Here we studied intra‐ and interspecific competition and behaviour in larvae of a native and a northward expanding dragonfly species, Sympetrum vulgatum and Sympetrum fonscolombii, respectively. We estimated growth, mortality, and behaviour (prey capture success, activity, and boldness) at 20°C and 23°C.The northward expanding S. fonscolombii had a higher growth rate and a higher survival compared with the native S. vulgatum in interspecific competition. In intraspecific conditions, there was no significant difference between species in mortality and growth. Temperature had no significant effect on growth and survival of S. fonscolombii, but S. vulgatum showed both a higher growth rate and a higher mortality at 23°C under intraspecific conditions. There was a correlation between growth and mortality, suggesting that cannibalism and intraguild predation caused the growth differences between treatments in the competition experiments.Temperature had no significant effect on any of the behaviours. There were very few significant correlations between any of the behaviours and the life‐history traits survival and growth and there were also very few significant correlations between any of the behaviours. Repeatability of behaviours over ontogeny was low.The results of the present study suggest that the range expanding S. fonscolombii has the potential to outcompete the native species, but that this competition advantage does not seem to be driven by the temperature effects explored in this study. [ABSTRACT FROM AUTHOR]

Published

2022

4. Size‐mediated priority effects are trait‐dependent and consistent across latitudes in a damselfly.

Author

Raczyński, Mateusz, Stoks, Robby, Johansson, Frank, and Sniegula, Szymon

Subjects

PLANT phenology, INSECT larvae, COMPETITION (Biology), LATITUDE, AQUATIC insects, ODONATA, SEASONS

Abstract

Variation in hatching time (phenology) might cause size differences within populations resulting in size‐mediated priority effects (SMPEs) shaping intraspecific interactions. These phenology‐driven effects potentially can be strengthened by seasonal time constraints caused by a short growth season, and depend on latitude. Here the single and combined effects of phenology and latitude‐associated time constraints on SMPEs in larvae of an aquatic insect, the damselfly Lestes sponsa, are studied. We did so by rearing larvae in groups of 16 individuals with different phenology (hatching date) thereby imposing strong intraspecific competition, resulting in cannibalism. We thereby manipulated in a fully crossed way time constraints (combination of temperature and photoperiod: thermo‐photoperiod) in larvae from low‐latitude and more time constrained high‐latitude populations, and examined effects on life history (survival, development, growth) and physiology (fat and protein contents, and phenoloxidase activity as a measure of immune function). Phenology, time constraints and latitude of origin had strong effects on life history, but only the time constraint affected the physiology. We detected a SMPE for survival that, however, was not stronger under time constraints and was consistent in strength between latitudes. Phenology and time constraints interacted for development and growth in a direction suggesting adaptive responses to time constraints but these life history traits did not show SMPEs. We provided important insights in the study of SMPEs thereby showing these to be trait‐dependent and not more pronounced under experimentally manipulated or latitude‐associated time constraints. Our study thereby makes an important addition to geographic variation in SMPEs, a largely neglected topic. [ABSTRACT FROM AUTHOR]

Published

2021

5. Enhanced recruitment of larger predators in the presence of large prey.

Author

Takatsu, Kunio, Kishida, Osamu, and Johansson, Frank

Subjects

AMPHIBIANS, PREDATORY animals, FOOD chains, PREDATION, SALAMANDERS, TADPOLES

Abstract

Copyright of Journal of Animal Ecology is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2020

6. Threats from the air: Damselfly predation on diverse prey taxa.

Author

Kaunisto, Kari M., Roslin, Tomas, Forbes, Mark R., Morrill, Andre, Sääksjärvi, Ilari E., Puisto, Anna I. E., Lilley, Thomas M., Vesterinen, Eero J., and Johansson, Frank

Subjects

PREDATORY animals, BIOTIC communities, INVERTEBRATE communities, ODONATA, PREDATION, CHIRONOMIDAE, ESTIMATION theory, FOOD consumption

Abstract

To understand the diversity and strength of predation in natural communities, researchers must quantify the total amount of prey species in the diet of predators. Metabarcoding approaches have allowed widespread characterization of predator diets with high taxonomic resolution. To determine the wider impacts of predators, researchers should combine DNA techniques with estimates of population size of predators using mark–release–recapture (MRR) methods, and with accurate metrics of food consumption by individuals.Herein, we estimate the scale of predation exerted by four damselfly species on diverse prey taxa within a well‐defined 12‐ha study area, resolving the prey species of individual damselflies, to what extent the diets of predatory species overlap, and which fraction of the main prey populations are consumed.We identify the taxonomic composition of diets using DNA metabarcoding and quantify damselfly population sizes by MRR. We also use predator‐specific estimates of consumption rates, and independent data on prey emergence rates to estimate the collective predation pressure summed over all prey taxa and specific to their main prey (non‐biting midges or chironomids) of the four damselfly species.The four damselfly species collectively consumed a prey mass equivalent to roughly 870 (95% CL 410–1,800) g, over 2 months. Each individual consumed 29%–66% (95% CL 9.4–123) of its body weight during its relatively short life span (2.1–4.7 days; 95% CL 0.74–7.9) in the focal population. This predation pressure was widely distributed across the local invertebrate prey community, including 4 classes, 19 orders and c. 140 genera. Different predator species showed extensive overlap in diets, with an average of 30% of prey shared by at least two predator species.Of the available prey individuals in the widely consumed family Chironomidae, only a relatively small proportion (0.76%; 95% CL 0.35%–1.61%) were consumed.Our synthesis of population sizes, per‐capita consumption rates and taxonomic distribution of diets identifies damselflies as a comparatively minor predator group of aerial insects. As the next step, we should add estimates of predation by larger odonate species, and experimental removal of odonates, thereby establishing the full impact of odonate predation on prey communities. [ABSTRACT FROM AUTHOR]

Published

2020

7. Predator‐induced changes in the chemical defence of a vertebrate.

Author

Hettyey, Attila, Üveges, Bálint, Móricz, Ágnes M., Drahos, László, Capon, Robert J., Van Buskirk, Josh, Tóth, Zoltán, Bókony, Veronika, and Johansson, Frank

Subjects

ZOOLOGY, PREDATORY animals, TADPOLES

Abstract

1. Inducible defences are ubiquitous in the animal kingdom, but little is known about facultative changes in chemical defences in response to predators, especially so in vertebrates. 2. We tested for predator‐induced changes in toxin production of larval common toads (Bufo bufo), which are known to synthesize bufadienolide compounds. 3. The experiment included larvae originating from three permanent and three temporary ponds reared in the presence or absence of chemical cues of three predators: dragonfly larvae, newts or fish. 4. Tadpoles raised with chemical cues of predation risk produced higher numbers of bufadienolide compounds and larger total bufadienolide quantities than predator‐naive conspecifics. Further, the increase in intensity of chemical defence was greatest in response to fish, weakest to newts and intermediate to dragonfly larvae. Tadpoles originating from temporary and permanent ponds did not differ in their baseline toxin content or in the magnitude of their induced chemical responses. 5. These results provide the first compelling evidence for predator‐induced changes in chemical defence of a vertebrate that may have evolved to enhance survival under predation risk. [ABSTRACT FROM AUTHOR]

Published

2019

8. Let's mate here and now – seasonal constraints increase mating efficiency.

Author

Golab, Maria J., Johansson, Frank, and Sniegula, Szymon

Subjects

*TEMPERATE climate, *SPECIES distribution, *CLIMATE change, *POPULATION density, *SEXUAL intercourse

Abstract

1. Latitudinal climatic conditions shape the length of the mating season and could thus influence reproductive traits. Knowledge of how animals behave along latitudinal clines will increase understanding of the impact of climate on sexual selection and might help in the prediction of whether peripheral populations will spread or shrink in response to changes in climate. 2. This study investigated variation in the mating efficiency of a temperate insect, the emerald damselfly Lestes sponsa, under semi‐natural field conditions along a latitudinal gradient covering three regions of the species' distribution: south, central and north. 3. A comparison was done of the proportion of copulating males, the proportion of males that formed tandems but did not copulate (unsuccessful males), and the proportion of males that did not attempt to form a tandem (passive males) in these three regions. 4. It was found that the proportion of copulations was significantly higher at northern latitudes than in the southern and central regions. Southern latitudes had a higher proportion of successful copulations compared with central latitudes. The northern region had a significantly lower frequency of passive males. The southern region had an intermediate proportion of passive males, and the central region had the highest proportion. The proportion of unsuccessful males did not differ between regions. The population density across sites did not affect these results. 5. The study shows that damselflies inhabiting northern populations mate more intensively than individuals from southern and central populations. This suggests that more restrictive environmental conditions during a brief mating season select for higher mating efficiency. [ABSTRACT FROM AUTHOR]

Published

2019

9. Predation risk affects egg mortality and carry over effects in the larval stages in damselflies.

Author

Sniegula, Szymon, Nsanzimana, Jean d'Amour, and Johansson, Frank

Subjects

DAMSELFLIES, PREDATION, INSECT eggs, MORTALITY, COENAGRIONIDAE, KAIROMONES

Abstract

The non‐consumptive predator effect may incur physiological costs that affect growth and development and ultimately survival. While studies have shown that the effect can affect development and growth in organisms with complex life cycles, we have limited knowledge on the effect in the egg and early larval stage.Here, we used a laboratory experiment to examine how the presence of chemical cues, a non‐consumptive predator effect, from an aquatic predator, perch, affected hatching success of larvae in three species of damselfly, Ischnura elegans, Coenagrion pulchellum, and Enallagma cyathigerum. In addition, we examined how exposure to predation risk in the early larval stages affected growth in the late larval stages of I. elegans.We found that the presence of chemical predator cues (1) increased egg mortality in all three species, (2) caused earlier hatching of eggs in one species, no change in a second species and a delay in egg hatching in a third species. We also found that predator cues have the potential to cause a carryover effect from early larval stages to late larval stages in terms of larval growth rate.The addition of non‐consumptive predator cues in the form of fish water caused higher algal growth than in the control experimental containers, and we suggest that this algal growth has the potential to confound predator stress cues.Our results show that the non‐consumptive predator effects affect survival and growth, and hence they have the potential to affect predator–prey dynamics in natural systems. Future studies on such effects in aquatic systems should consider confounding stressors, such as algae, fungi, oxygen, and nutrients levels, that might come with the addition of predation cues in water and thus add additional stress. [ABSTRACT FROM AUTHOR]

Published

2019

10. Size‐mediated priority and temperature effects on intra‐cohort competition and cannibalism in a damselfly.

Author

Sniegula, Szymon, Golab, Maria J., Johansson, Frank, and Lancaster, Lesley

Subjects

CANNIBALISM, DAMSELFLIES, AQUATIC insects, TEMPERATURE, LARVAE

Abstract

A shift in the relative arrival of offspring, for example a shift in hatching time, can affect competition at the intraspecific level through size‐mediated priority effects, where the larger individuals gain more resources. These priority effects are likely to be affected by climate warming and the rate of intraspecific predation, that is cannibalism.In a laboratory experiment, we examined size‐mediated priority effects in larvae of the univoltine damselfly, Lestes sponsa, at two different temperatures (21 and 23°C). We created three size groups of larvae by manipulating hatching time: early hatched with a large size (extra‐advanced), intermediate hatched with an intermediate size (advanced) and late hatched with a small size (non‐advanced). Thereafter, we reared the larvae from these groups in non‐mixed and mixed groups of 12 larvae.We found strong priority and temperature effects. First, extra‐advanced larvae most often had higher survival, growth and development rates than non‐advanced larvae in mixed groups, compared to groups that consisted of only extra‐advanced larvae. Second, temperature increased growth and development rates and cannibalism.However, the strength of priority effects did not differ between the two experimental temperatures, because there was no statistical interaction between temperature and treatments. That is, the mixed and non‐mixed groups of non‐advanced, advanced and extra‐advanced larvae showed the same relative change in life‐history traits across the two temperatures.Non‐advanced and advanced larvae had similar or higher growth rate and mass in mixed groups compared to non‐mixed groups, suggesting that predation from advanced larvae in the mixed group released resources for the non‐advanced and advanced larvae that survived despite cannibalism risk. Thus, a thinning effect occurred due to cannibalism caused by priority effects.The results suggest that a shift in the relative arrival of offspring can cause temperature‐dependent priority effects, mediated through cannibalism, growth and development, which may change the size distribution and abundance of emerging aquatic insects. Shifts in the relative hatching of offspring can lead size‐mediated priority effects. This study shows that such priority effects have a twofold advantage in early‐hatching individuals: higher growth and higher cannibalism on early‐hatching individuals. In addition, a two‐degree higher temperature increased growth and cannibalism. [ABSTRACT FROM AUTHOR]

Published

2019

11. Wing morphology and migration status, but not body size, habitat or Rapoport's rule predict range size in North‐American dragonflies (Odonata: Libellulidae).

Author

Outomuro, David and Johansson, Frank

Subjects

*DRAGONFLIES, *ODONATA, *LIBELLULIDAE, *INSECT wings, *INSECT morphology, *INSECT migration, *HABITATS, *BIODIVERSITY

Abstract

Understanding why species range sizes vary is important for predicting the impact of environmental change on biodiversity. Here we use a multi‐variable approach in a phylogenetic comparative context to understand how four morphological, two ecological, and two eco‐geographical variables are associated with range size, latitudinal range and longitudinal range in 81 species of North‐American libellulid dragonflies. Our results show that: 1) migratory species and species with a more expanded basal hindwing lobe have a larger range size; 2) opposite to Rapoport's rule, latitudinal range is negatively correlated with mid‐range latitude; 3) longitudinal range is predicted by wing morphology and migration; 4) body size and larval habitat are not correlated with range size, latitudinal range or longitudinal range. These results suggest that dispersal‐related traits, such as wing shape and migratory status, are important factors in predicting the range size of libellulid dragonflies. In addition, the reverse Rapoport's rule suggests that more northern‐centred species might be more specialized than more southern‐centred species. We suggest that the variables predicting range size are likely imposed by taxon‐specific morphological, ecological, physiological and behavioural traits. Taxon‐specific knowledge is thus necessary to understand the dynamics of range sizes and is important to implement successful restoration and conservation plans of threatened species. [ABSTRACT FROM AUTHOR]

Published

2019

12. The interaction between predation risk and food ration on behavior and morphology of Eurasian perch.

Author

Svanbäck, Richard, Zha, Yinghua, Brönmark, Christer, and Johansson, Frank

Subjects

EUROPEAN perch, PREDATION, ANIMAL ecology, ANIMAL behavior, FISH food

Abstract

The risk of both predation and food level has been shown to affect phenotypic development of organisms. However, these two factors also influence animal behavior that in turn may influence phenotypic development. Hence, it might be difficult to disentangle the behavioral effect from the predator or resource-level effects. This is because the presence of predators and high resource levels usually results in a lower activity, which in turn affects energy expenditure that is used for development and growth. It is therefore necessary to study how behavior interacts with changes in body shape with regard to resource density and predators. Here, we use the classic predator-induced morphological defense in fish to study the interaction between predator cues, resource availability, and behavioral activity with the aim to determine their relative contribution to changes in body shape. We show that all three variables, the presence of a predator, food level, and activity, both additively and interactively, affected the body shape of perch. In general, the presence of predators, lower swimming activity, and higher food levels induced a deep body shape, with predation and behavior having similar effect and food treatment the smallest effect. The shape changes seemed to be mediated by changes in growth rate as body condition showed a similar effect as shape with regard to food-level and predator treatments. Our results suggests that shape changes in animals to one environmental factor, for example, predation risk, can be context dependent, and depend on food levels or behavioral responses. Theoretical and empirical studies should further explore how this context dependence affects fitness components such as resource gain and mortality and their implications for population dynamics. [ABSTRACT FROM AUTHOR]

Published

2017

13. Lack of trophic polymorphism despite substantial genetic differentiation in sympatric brown trout ( Salmo trutta) populations.

Author

Andersson, Anastasia, Johansson, Frank, Sundbom, Marcus, Ryman, Nils, and Laikre, Linda

Subjects

*BROWN trout, *FISH populations, *GENETIC polymorphisms, *FRESHWATER fishes, *FISH morphology, *FISHES

Abstract

Sympatric populations occur in many freshwater fish species; such populations are typically detected through morphological distinctions that are often coupled to food niche and genetic separations. In salmonids, trophic and genetically separate sympatric populations have been reported in landlocked Arctic char, whitefish and brown trout. In Arctic char and brown trout rare cases of sympatric, genetically distinct populations have been detected based on genetic data alone, with no apparent morphological differences, that is 'cryptic' structuring. It remains unknown whether such cryptic, sympatric structuring can be coupled to food niche separation. Here, we perform an extensive screening for trophic divergence of two genetically divergent, seemingly cryptic, sympatric brown trout populations documented to remain in stable sympatry over several decades in two interconnected, tiny mountain lakes in a nature reserve in central Sweden. We investigate body shape, body length, gill raker metrics, breeding status and diet (stomach content analysis and stable isotopes) in these populations. We find small significant differences for body shape, body size and breeding status, and no evidence of food niche separation between these two populations. In contrast, fish in the two lakes differed in body shape, diet, and nitrogen and carbon isotope signatures despite no genetic difference between lakes. These genetically divergent populations apparently coexist using the same food resources and showing the same adaptive plasticity to the local food niches of the two separate lakes. Such observations have not been reported previously but may be more common than recognised as genetic screenings are necessary to detect the structures. [ABSTRACT FROM AUTHOR]

Published

2017

14. A potential pitfall in studies of biological shape: Does size matter?

Author

Outomuro, David, Johansson, Frank, and Behmer, Spencer

Subjects

*MORPHOMETRICS, *BIOLOGICAL variation, *ALLOMETRY, *BODY size, *ANIMAL morphology

Abstract

The number of published studies using geometric morphometrics ( GM) for analysing biological shape has increased steadily since the beginning of the 1990s, covering multiple research areas such as ecology, evolution, development, taxonomy and palaeontology. Unfortunately, we have observed that many published studies using GM do not evaluate the potential allometric effects of size on shape, which normally require consideration or assessment. This might lead to misinterpretations and flawed conclusions in certain cases, especially when size effects explain a large part of the shape variation., We assessed, for the first time and in a systematic manner, how often published studies that have applied GM consider the potential effects of allometry on shape., We reviewed the 300 most recent published papers that used GM for studying biological shape. We also estimated how much of the shape variation was explained by allometric effects in the reviewed papers., More than one-third (38%) of the reviewed studies did not consider the allometric component of shape variation. In studies where the allometric component was taken into account, it was significant in 88% of the cases, explaining up to 87.3% of total shape variation. We believe that one reason that may cause the observed results is a misunderstanding of the process that superimposes landmark configurations, i.e. the Generalized Procrustes Analysis, which removes isometric effects of size on shape, but not allometric effects., Allometry can be a crucial component of shape variation. We urge authors to address, and report, size effects in studies of biological shape. However, we do not propose to always remove size effects, but rather to evaluate the research question with and without the allometric component of shape variation. This approach can certainly provide a thorough understanding of how much size contributes to the observed shaped variation. [ABSTRACT FROM AUTHOR]

Published

2017

15. Sexual selection on male body size, genital length and heterozygosity: Consistency across habitats and social settings.

Author

Head, Megan L., Kahn, Andrew T., Henshaw, Jonathan M., Keogh, J. Scott, Jennions, Michael D., and Johansson, Frank

Subjects

SPATIAL variation, BIOLOGICAL variation, SEX ratio, BODY size, ECOLOGICAL heterogeneity, POECILIIDAE, HETEROZYGOSITY

Abstract

Spatial and temporal variation in environmental factors and the social setting can help to maintain genetic variation in sexually selected traits if it affects the strength of directional selection. A key social parameter which affects the intensity of, and sometimes predicts the response to, mating competition is the operational sex ratio ( OSR; ratio of receptive males to females)., How the OSR affects selection for specific male traits is poorly understood. It is also unclear how sexual selection is affected by interactions between the OSR and environmental factors, such as habitat complexity, that alter key male-female interactions such as mate encounter rates., Here, we experimentally manipulated the OSR and habitat complexity and quantified sexual selection on male mosquitofish ( Gambusia holbrooki) by directly measuring male reproductive success (i.e. paternity)., We show that despite a more equitable sharing of paternity (i.e. higher levels of multiple paternity) under a male-biased OSR, selection on focal male traits was unaffected by the OSR or habitat complexity. Instead, sexual selection consistently, and significantly, favoured smaller bodied males, males with higher genome wide heterozygosity (based on >3,000 SNP markers) and males with a relatively long gonopodium (intromittent organ)., Our results show that sexual selection on male body size, relative genital size and heterozygosity in this system is consistent across environments that vary in ecological parameters that are expected to influence mate encounter rates. [ABSTRACT FROM AUTHOR]

Published

2017

16. Non-random dispersal mediates invader impacts on the invertebrate community.

Author

Cote, Julien, Brodin, Tomas, Fogarty, Sean, Sih, Andrew, and Johansson, Frank

Subjects

DISPERSAL (Ecology), BIOLOGICAL invasions, PHENOTYPES, INTRODUCED species, PREDATION

Abstract

Dispersers are often not a random draw from a population, dispersal propensity being conditional on individual phenotypic traits and local contexts. This non-randomness consequently results in phenotypic differences between dispersers and non-dispersers and, in the context of biological invasions, in an invasion front made of individuals with a biased phenotype. This bias of phenotypes at the front may subsequently modulate the strength of ecological effects of an invasive species on invaded communities., We recently demonstrated that more asocial mosquitofish ( Gambusia affinis), one of the 100 worst invasive species, disperse further, suggesting a sociability-biased invasion front. As behavioural types are related to the strength of interspecific interactions, an invasion by a biased subset of individuals should have important ecological implications for native communities., Here, we tested the impact of phenotypic biases in dispersing individuals (relative to non-dispersers) on prey communities in experimental mesocosms., We show that dispersers reduce prey abundance more than do non-dispersers during the first 4 weeks after introduction, and that the disperser's social types are likely drivers of these differences. These differences in prey communities disappeared after 8 weeks suggesting prey community resilience against predation in these mesocosm ecosystems., Consequently, we call for the integration of non-random dispersal, dispersal syndromes and more generally intraspecific variation into studies predicting the impacts of invasions. [ABSTRACT FROM AUTHOR]

Published

2017

17. Fast-slow life history is correlated with individual differences in movements and prey selection in an aquatic predator in the wild.

Author

Nakayama, Shinnosuke, Rapp, Tobias, Arlinghaus, Robert, and Johansson, Frank

Subjects

EUROPEAN perch, PREDATORY aquatic animals, FISH locomotion, FISH life cycles, FISH behavior

Abstract

Fast and slow life histories are proposed to covary with consistent individual differences in behaviour, but little is known whether it holds in the wild, where individuals experience natural fluctuations of the environment., We investigated whether individual differences in behaviour, such as movement traits and prey selection, are linked to variation in life-history traits in Eurasian perch ( Perca fluviatilis) in the wild., Using high-resolution acoustic telemetry, we collected the positional data of fish in a whole natural lake and estimated individual movement traits by fitting a two-state correlated random walk model. Prey selection was inferred from stable isotope analysis using scale samples. Life-history traits were estimated by fitting a biphasic growth model to an individual growth trajectory back-calculated from scale samples., Life-history traits were correlated with behavioural traits such as movements and prey selection. Individuals with higher reproductive effort were found to switch more frequently between active and inactive modes and show greater reliance on prey from pelagic pathways (indicated by lower δ13C). Further, individuals with faster juvenile growth were found to stay active for a longer time during the adult stage., Our results demonstrate the link between individual behavioural differences and fast-slow life-history traits under ecologically relevant conditions. [ABSTRACT FROM AUTHOR]

Published

2017

18. The price of looking sexy: visual ecology of a three-level predator-prey system.

Author

Outomuro, David, Söderquist, Linus, Johansson, Frank, Ödeen, Anders, and Nordström, Karin

Subjects

ANIMAL communication, PREDATION, ANIMAL coloration, ANIMAL species, VICARIANCE

Abstract

Colour signals and colour vision play a pivotal role in intraspecific communication and predator-prey interactions. However, the costs of expressing conspicuous sexual signals at multiple trophic levels have been largely overlooked. Sexual signals can also experience character displacement in sympatric populations of closely related species, leading to potential changes in conspicuousness., We here investigate a bird-damselfly-fruit fly predator-prey system, where two closely related damselfly species have conspicuous, sexually selected wing coloration. The damselflies can occur in sympatry and allopatry, and reproductive character displacement in the coloration size has been previously reported., We quantify the damselfly wing reflectance from replicated sympatric and allopatric populations, and use receptor noise models to investigate the visual discriminability of the wing coloration for the bird, damselfly and fly vision systems, against natural backgrounds. We perform electroretinograms to study damselfly eye sensitivity. We also estimate damselfly predation risk in natural populations., We find that the chromatic component of wing coloration makes males highly discriminable to the predator, but not to the prey. However, female wing coloration is predominantly cryptic for the predator and prey, and interestingly, also for male damselflies. A female being cryptic to conspecifics likely reduces male harassment. The estimates of predation risk partially support the discriminability results. We also show that there is no difference in colour vision sensitivity between the two damselfly species and sexes, and no difference in wing coloration or its discriminability between sympatric and allopatric populations., Our results suggest that sexually selected traits can be antagonistically selected by predators and prey and that this antagonistic selection can be sex-dependent: males are paying a large cost in terms of conspicuousness, while females remain mostly cryptic. Our study thus emphasizes the need for investigating visual communication at multitrophic levels since the degree of colour discriminability can differ between predators, prey and the focal species., A is available for this article. [ABSTRACT FROM AUTHOR]

Published

2017

19. A large-scale latitudinal pattern of life-history traits in a strictly univoltine damselfly.

Author

SNIEGULA, SZYMON, GOLAB, MARIA J., and JOHANSSON, FRANK

Subjects

DIMORPHISM in animals, SCARCE blue-tailed damselfly, DRAGONFLIES, INSECT size, INSECT sex attractants, INSECTS

Abstract

1. Variation in thermal conditions and season length along latitudinal gradients affect body size-related traits over different life stages. Selection is expected to optimise these size traits in response to the costs and benefits. 2. Egg, hatchling, larval and adult size in males and females were estimated along a latitudinal gradient of 2730 km across Europe in the univoltine damselfly Lestes sponsa, using a combination of field-collection and laboratory-rearing experiments. In the laboratory, individuals were grown in temperatures and photoperiod simulating those at the latitude of origin, and in common-garden conditions. 3. The size of adults sampled in nature was negatively correlated with latitude. In all populations the females were larger than the males. Results from simulated and common-garden rearing experiments supported this pattern of size difference across latitudes and between sexes, suggesting a genetic component for the latitudinal size trend and female-biased size dimorphism. In contrast, hatchling size showed a positive relationship with latitude, but egg size, although differing between latitudes, showed no such relationship. 4. The results support a converse Bergmann cline, i.e. a negative body size cline towards the north. This negative cline in body size is probably driven by progressively stronger seasonal time and temperature constraints towards the higher latitudes and by the obligate univoltine life cycle of L. sponsa. As egg size showed no relationship with latitude, other environmental factors besides temperature, such as desiccation risk, probably affect this trait. [ABSTRACT FROM AUTHOR]

Published

2016

20. Time constraint effects on phenology and life history synchrony in a damselfly along a latitudinal gradient.

Author

Śniegula, Szymon, Gołąb, Maria J., and Johansson, Frank

Subjects

DAMSELFLIES, INSECT phenology, LIFE cycles (Biology), EVOLUTIONARY theories, PHENOLOGY, ANATOMY

Abstract

In organisms with complex life cycles living in seasonal environments, the synchronisation of phenological events is important from the ecological and evolutionary perspectives. Life history transitions should be synchronised to a greater degree at northern latitudes. We quantified hatching and emergence timing and synchrony in the obligate univoltine damselfly Lestes sponsa along a latitudinal gradient covering its entire north-south range in Europe. In our first experiment, populations from different latitudes were grown in separate climate chambers simulating temperature and photoperiod conditions occurring at their sites of origin. Northern populations expressed early and high synchronous hatching and emergence, central populations intermediate, and southern populations late and low synchronous hatching and emergence. This pattern was expressed at both population and full-sibling family levels, indicating stronger selection for timing and synchronisation in the north compared to the south. In our second experiment, populations from all latitudes were reared in conditions simulating an average temperature and photoperiod over the latitudinal gradient. Interestingly, the pattern of timing and synchronisation was reversed with respect to latitude when compared to the pattern shown in the first experiment, indicating the importance of environmental factors in shaping phenological events. Our results indicate strong selection for timing and synchronisation of life history events at northern latitudes, caused by time constraints. Our results also show that it is important to use as natural conditions as possible in experiments on life history shifts in organisms with complex life cycles in order to achieve a correct understanding of these shifts. [ABSTRACT FROM AUTHOR]

Published

2016

21. Seasonal time constraints reduce genetic variation in life-history traits along a latitudinal gradient.

Author

Sniegula, Szymon, Golab, Maria J., Drobniak, Szymon M., Johansson, Frank, and Chapman, Jason

Subjects

LIFE cycles (Biology), SEASONAL effects on wildlife, PHOTOPERIODISM, ANIMAL genetics, ANIMAL populations

Abstract

1. Time constraints cause strong selection on life-history traits, because populations need to complete their life cycles within a shorter time. We therefore expect lower genetic variation in these traits in high- than in low-latitude populations, since the former are more timeconstrained. 2. The aim was to estimate life-history traits and their genetic variation in an obligately univoltine damselfly along a latitudinal gradient of 2730 km. 3. Populations were grown in the laboratory at temperatures and photoperiods simulating those at their place of origin. In a complementary experiment, individuals from the same families were grown in constant temperature and photoperiod that mimicked average conditions across the latitude. 4. Development time and size was faster and smaller, respectively, and growth rate was higher at northern latitudes. Additive genetic variance was very low for life-history traits, and estimates for egg development time and larval growth rate showed significant decreases towards northern latitudes. The expression of genetic effects in life-history traits differed considerably when individuals were grown in constant rather than simulated and naturally variable conditions. 5. Our results support strong selection by time constraints. They also highlight the importance of growing organisms in their native environment for correct estimates of genetic variance at their place of origin. Our results also suggest that the evolutionary potential of lifehistory traits is very low at northern compared to southern latitudes, but that changes in climate could alter this pattern. [ABSTRACT FROM AUTHOR]

Published

2016

22. Inferring the effects of potential dispersal routes on the metacommunity structure of stream insects: as the crow flies, as the fish swims or as the fox runs?

Author

Kärnä, Olli‐Matti, Grönroos, Mira, Antikainen, Harri, Hjort, Jan, Ilmonen, Jari, Paasivirta, Lauri, Heino, Jani, and Johansson, Frank

Subjects

DISPERSAL of insects, INSECT ecology, INSECT communities, COMMUNITY organization, RIVER channels, INSECT morphology

Abstract

Metacommunity research relies largely on proxies for inferring the effect of dispersal on local community structure. Overland and watercourse distances have been typically used as such proxies. A good proxy for dispersal should, however, take into account more complex landscape features that can affect an organism's movement and dispersal. The cost distance approach does just that, allowing determining the path of least resistance across a landscape., Here, we examined the distance decay of assemblage similarity within a subarctic stream insect metacommunity. We tested whether overland, watercourse and cumulative cost distances performed differently as correlates of dissimilarity in assemblage composition between sites. We also investigated the effect of body size and dispersal mode on metacommunity organization., We found that dissimilarities in assemblage composition correlated more strongly with environmental than physical distances between sites. Overland and watercourse distances showed similar correlations to assemblage dissimilarity between sites, being sometimes significantly correlated with biological variation of entire insect communities. In metacommunities deconstructed by body size or dispersal mode, contrary to our expectation, passive dispersers showed a slightly stronger correlation than active dispersers to environmental differences between sites, although passive dispersers also showed a stronger correlation than active dispersers to physical distances between sites. The strength of correlation between environmental distance and biological dissimilarity also varied slightly among the body size classes., After controlling for environmental differences between sites, cumulative cost distances were slightly better correlates of biological dissimilarities than overland or watercourse distances between sites. However, quantitative differences in correlation coefficients were small between different physical distances., Although environmental differences typically override physical distances as determinants of the composition of stream insect assemblages, correlations between environmental distances and biological dissimilarities are typically rather weak. This undetermined variation may be attributable to dispersal processes, which may be captured using better proxies for the process. We suggest that further modifying the measurement of cost distances may be a fruitful avenue, especially if complemented by more direct natural history information on insect dispersal behaviour and distances travelled by them. [ABSTRACT FROM AUTHOR]

Published

2015

23. Elements of regional beetle faunas: faunal variation and compositional breakpoints along climate, land cover and geographical gradients.

Author

Heino, Jani, Alahuhta, Janne, and Johansson, Frank

Subjects

BEETLES, ANIMAL diversity, BIODIVERSITY, ANIMAL ecology, INSECTS, ANIMAL species

Abstract

Regional faunas are structured by historical, spatial and environmental factors. We studied large-scale variation in four ecologically different beetle groups (Coleoptera: Dytiscidae, Carabidae, Hydrophiloidea, Cerambycidae) along climate, land cover and geographical gradients, examined faunal breakpoints in relation to environmental variables, and investigated the best fit pattern of assemblage variation (i.e. randomness, checkerboards, nestedness, evenly spaced, Gleasonian, Clementsian). We applied statistical methods typically used in the analysis of local ecological communities to provide novel insights into faunal compositional patterns at large spatial grain and geographical extent., We found that spatially structured variation in climate and land cover accounted for most variation in each beetle group in partial redundancy analyses, whereas the individual effect of each explanatory variable group was generally much less important in accounting for variation in provincial species composition., We also found that climate variables were most strongly associated with faunal breakpoints, with temperature-related variables alone accounting for about 20% of variation at the first node of multivariate regression tree for each beetle group. The existence of faunal breakpoints was also shown by the 'elements of faunal structure' analyses, which suggested Clementsian gradients across the provinces, that is, that there were two or more clear groups of species responding similarly to the underlying ecological gradients., The four beetle groups showed highly similar biogeographical patterns across our study area. The fact that temperature was related to faunal breakpoints in the species composition of each beetle group suggests that climate sets a strong filter to the distributions of species at this combination of spatial grain and spatial extent. This finding held true despite the ecological differences among the four beetle groups, ranging from fully aquatic to fully terrestrial and from herbivorous to predaceous species., The existence of Clementsian gradients may be a common phenomenon at large scales, and it is likely to be caused by crossing multiple species pools determined by climatic and historical factors on the distributions of species. [ABSTRACT FROM AUTHOR]

Published

2015

24. Allometric scaling of indirect effects: body size ratios predict non-consumptive effects in multi-predator systems.

Author

Krenek, Lauren, Rudolf, Volker H. W., and Johansson, Frank

Subjects

PREDATORY animals, BIOTIC communities, BIODIVERSITY, PREDATION, ALLOMETRY

Abstract

Non-consumptive effects ( NCES) frequently lead to non-independent effects of multiple predators. While such emergent predator effects are ubiquitous in natural communities, the strength of these effects varies among studies and systems, making it difficult to predict a priory how changes in predator diversity influence prey suppression. Thus, identifying general scaling rules which can explain this variation of non-independent effects is vital for modelling natural communities and how they respond to biodiversity loss., Body size is a key trait determining the nature and strength of ecological interactions. While great progress has been made using allometric relationships to predict the interaction strength of predator-prey pairs, it is unknown whether similar relationships explain variation in the strength of NCEs, and how they are related to consumptive effects., Here, we experimentally manipulate the relative size difference of multiple predators to determine whether NCEs follow general allometric scaling relationships in an aquatic multi-predator system., Results demonstrate that the presence and strength of NCEs can vary dramatically across predator combinations. However, this variation scaled predictably with the size ratio of predators, increasing the size difference among predators increased NCEs. This pattern was driven by a size-mediated shift in 'food web motif' from competition to intraguild predation and a positive correlation of NCEs and intraguild predation rate., Results indicate that models which assume that consumers have independent effects are particularly likely to make erroneous predictions when predators differ substantially in size, but simple allometric relationships of NCEs could be used to correct this bias. [ABSTRACT FROM AUTHOR]

Published

2014

25. Dispersal, niche breadth and population extinction: colonization ratios predict range size in North American dragonflies.

Author

McCauley, Shannon J., Davis, Christopher J., Werner, Earl E., Robeson, Michael S., and Johansson, Frank

Subjects

DRAGONFLIES, DISPERSAL of insects, ECOLOGICAL niche, INSECT populations, BIOLOGICAL extinction, COLONIZATION (Ecology)

Abstract

Species' range sizes are shaped by fundamental differences in species' ecological and evolutionary characteristics, and understanding the mechanisms determining range size can shed light on the factors responsible for generating and structuring biological diversity. Moreover, because geographic range size is associated with a species' risk of extinction and their ability to respond to global changes in climate and land use, understanding these mechanisms has important conservation implications., Despite the hypotheses that dispersal behaviour is a strong determinant of species range areas, few data are available to directly compare the relationship between dispersal behaviour and range size. Here, we overcome this limitation by combining data from a multispecies dispersal experiment with additional species-level trait data that are commonly hypothesized to affect range size (e.g. niche breadth, local abundance and body size.). This enables us to examine the relationship between these species-level traits and range size across North America for fifteen dragonfly species., Ten models based on a priori predictions about the relationship between species traits and range size were evaluated and two models were identified as good predictors of species range size. These models indicated that only two species' level traits, dispersal behaviour and niche breadth were strongly related to range size. The evidence from these two models indicated that dragonfly species that disperse more often and further had larger North American ranges., Extinction and colonization dynamics are expected to be a key linkage between dispersal behaviour and range size in dragonflies. To evaluate how extinction and colonization dynamics among dragonflies were related to range size we used an independent data set of extinction and colonization rates for eleven dragonfly species and assessed the relationship between these populations rates and North American range areas for these species., We found a negative relationship between North American range size and species' extinction-to-colonization ratios. Our results indicate that metapopulation dynamics act to shape the extent of species' continental distributions. These population dynamics are likely to interact with dispersal behaviour, particularly at species range margins, to determine range limits and ultimately species range sizes. [ABSTRACT FROM AUTHOR]

Published

2014

26. Competitive interactions modify the temperature dependence of damselfly growth rates.

Author

Nilsson-Örtman, Viktor, Stoks, Robby, and Johansson, Frank

Subjects

FRESHWATER animals, DEVELOPMENTAL biology, SCARCE blue-tailed damselfly, COMPETITION (Biology), CLIMATE change

Abstract

Individual growth rates and survival are major determinants of individual fitness, population size structure, and community dynamics. The relationships between growth rate, survival, and temperature may thus be important for predicting biological responses to climate change. Although it is well known that growth rates and survival are affected by competition and predation in addition to temperature, the combined effect of these factors on growth rates, survival, and size structure has rarely been investigated simultaneously in the same ecological system. To address this question, we conducted experiments on the larvae of two species of damselflies and determined the temperature dependence of growth rate, survival, and cohort size structure under three scenarios of increasing ecological complexity; no competition, intraspecific competition, and interspecific competition. In one species, the relationship between growth rate and temperature became steeper in the presence of competitors, whereas that of survival remained unchanged. In the other species, the relationship between growth rate and temperature was unaffected by competitive interactions, but survival was greatly reduced at high temperatures in the presence of interspecific competitors. The combined effect of competitive interactions and temperature on cohort size structure differed from the effects of these factors in isolation. Together, these findings suggest that it will be challenging to scale up information from single-species laboratory studies to the population and community level. [ABSTRACT FROM AUTHOR]

Published

2014

27. Photoperiod and variation in life history traits in core and peripheral populations in the damselfly Lestes sponsa.

Author

ŚNIEGULA, SZYMON, DROBNIAK, SZYMON M., GOŁĄB, MARIA J., and JOHANSSON, FRANK

Subjects

PHOTOPERIODISM, SCARCE blue-tailed damselfly, PHENOTYPIC plasticity, HERITABILITY, GENETIC recombination, INSECTS

Abstract

In order to predict evolutionary responses to environmental changes one needs to identify the evolutionary potential in terms of genetic variation of traits and of the traits' plasticity. We studied genetic variance in life history traits and their reaction norms in response to manipulated photoperiods in central, northern, and northernmost peripheral populations of the damselfly Lestes sponsa ( Hansemann). After the central-marginal hypothesis, it is predicted that central populations will express the highest genetic variance., Northern and northernmost populations showed the highest development and growth rates. All populations expressed shorter development and accelerated growth when raised in a northern compared with a central latitude photoperiod. The slopes of reaction norms differed between regions resulting in a region-by-photoperiod interaction., There was genetic variation in development time; however, it did not differ across regions. There was no genetic variation in growth rate or in the plasticity of development time and growth rate to photoperiod., Results did not support the central-marginal hypothesis. However, evidence was found that the development time has the potential to evolve at similar rates across study regions. In contrast, the growth rate seems to be genetically constrained for further evolution, probably because of a strong past directional selection on this trait. The presence of low genetic variation in the slope of the reaction norms could be a result of stabilising selection imposed by seasonality. [ABSTRACT FROM AUTHOR]

Published

2014

28. Phenotypic plasticity in the hepatic transcriptome of the European common frog ( Rana temporaria): the interplay between environmental induction and geographical lineage on developmental response.

Author

Johansson, Frank, Veldhoen, Nik, Lind, Martin I., and Helbing, Caren C.

Subjects

*PHENOTYPIC plasticity, *RANA temporaria, *GEOGRAPHY, *DEVELOPMENTAL biology, *MOLECULAR ecology, *SURVIVAL behavior (Animals), *BIOLOGICAL adaptation

Abstract

Phenotypic plasticity might facilitate adaptation to new environmental conditions through the enhancement of initial survival of organisms. Once a population is established, further adaptation and diversification may occur through adaptive trait evolution. While several studies have found evidence for this mechanism using phenotypic traits, much less is known at the level of gene expression. Here, we use an islands system of frog populations that show local adaptation and phenotypic plasticity to pool drying conditions in development time until metamorphoses. We examined gene expression differences in Rana temporaria tadpole livers with respect to pool drying at the source population and in response to simulated pool drying in the laboratory. Using a MAGEX cDNA microarray and quantitative real-time polymerase chain reaction ( qPCR), we identified an increase in several gene transcripts in response to artificial pool drying including thyroid hormone receptor alpha and beta, carbamoyl phosphate synthetase 1, ornithine transcarbamylase and catalase. In addition, these gene transcripts also showed greater abundance in island populations that developed faster. Hence, the gene transcripts were related to both constitutive response (higher levels in island populations that developed faster) and plastic response (increased abundance under decreasing water levels). This pattern is in accordance with genetic accommodation, which predicts similarities between plastic gene expression and constitutive expression in locally adapted populations. [ABSTRACT FROM AUTHOR]

Published

2013

29. Latitudinal patterns of phenology and age-specific thermal performance across six Coenagrion damselfly species.

Author

Nilsson-Örtman, Viktor, Stoks, Robby, De Block, Marjan, and Johansson, Frank

Subjects

PHENOLOGY, COENAGRIONIDAE, ONTOGENY, ANIMAL life cycles, ACCLIMATIZATION, LOW temperatures

Abstract

Using a combination of computer simulations and laboratory experiments we test if the thermal sensitivity of growth rates change during ontogeny in damselfly larvae and if these changes can be predicted based on the natural progression of average temperature or thermal variability in the field. The laboratory experiment included replicated species from Southern, Central, and Northern Europe. Although annual fluctuations in temperature represent a key characteristic of temperate environments, few studies of thermal performance have considered the ecological importance of the studied traits within a seasonal context. Instead, thermal performance is assumed to remain constant throughout ontogeny and to reflect selection acting over the whole life cycle. The laboratory experiment revealed considerable variation among species in the strength and direction of ontogenetic performance shifts. In four species from Southern and Central Europe, reaction norms were steepest during early ontogeny, becoming less steep during later ontogenetic stages (indicative of low-temperature acclimation). In one Northern European species, the slope of reaction norms did not change during ontogeny. In the other North European species, reaction norms became steeper during ontogeny (indicative of high-temperature acclimation). We had expected high-latitude species to show strong low-temperature acclimation responses, because they have a short flight season and inhabit a strongly seasonal environment. Instead, we found the reversed pattern: Low-latitude species displayed strong low-temperature acclimation responses, and high-latitude species displayed weak, or even reversed, acclimation responses to low temperatures. These findings suggest that low-temperature acclimation may be less beneficial and possibly more costly in habitats with rapid seasonal transitions in average temperature. We conclude that thermal performance traits are more dynamic than typically assumed and caution against using results from single ontogenetic stages to predict species' responses to changing environmental conditions. [ABSTRACT FROM AUTHOR]

Published

2013

30. Large-scale patterns in genetic variation, gene flow and differentiation in five species of European Coenagrionid damselfly provide mixed support for the central-marginal hypothesis.

Author

Johansson, Helena, Stoks, Robby, Nilsson‐Örtman, Viktor, Ingvarsson, Pär K., and Johansson, Frank

Subjects

COENAGRIONIDAE, GENE flow, SCARCE blue-tailed damselfly, GENETIC regulation, SPECIES distribution, TRINUCLEOTIDE repeats, INSECTS

Abstract

Recently, an increased effort has been directed towards understanding the distribution of genetic variation within and between populations, particularly at central and marginal areas of a species' distribution. Much of this research is centred on the central-marginal hypothesis, which posits that populations at range margins are sparse, small and genetically diminished compared to those at the centre of a species' distribution range. We tested predictions derived from the central-marginal hypothesis for the distribution of genetic variation and population differentiation in five European Coenagrionid damselfly species. We screened genetic variation (microsatellites) in populations sampled in the centre and margins of the species' latitudinal ranges, assessed genetic diversity (HS) in the populations and the distribution of this genetic diversity between populations (FST). We further assessed genetic substructure and migration with Bayesian assignment methods, and tested for significant associations between genetic substructure and bioclimatic and spatial (altitude and latitude) variables, using general linearized models. We found no general adherence to the central-marginal hypothesis; instead we found that other factors such as historical or current ecological factors often better explain the patterns uncovered. This was illustrated in Coenagrion mercuriale whose colonisation history and behaviour most likely led to the observation of a high genetic diversity in the south and lower genetic diversity with increasing latitude, and in C. armatum and C. pulchellum whose patterns of low genetic diversity coupled with the weakest genetic differentiation at one of their range margins suggested, respectively, possible range shifts and recent, strong selection pressure. [ABSTRACT FROM AUTHOR]

Published

2013

31. Latitudinally structured variation in the temperature dependence of damselfly growth rates.

Author

Nilsson‐Örtman, Viktor, Stoks, Robby, Block, Marjan, Johansson, Helena, Johansson, Frank, and Enquist, Brian

Subjects

DAMSELFLIES, INSECT growth, SPECIES distribution, CLIMATE change, BIOLOGICAL adaptation, INSECT populations

Abstract

The Metabolic Theory of Ecology predicts that the slope of the rate-temperature relationship, E, remains consistent across traits and organisms, acting as a major determinant of large-scale ecological patterns. Although E has recently been shown to vary systematically, we have a poor understanding of its ecological significance. To address this question, we conducted a common-garden experiment involving six damselfly species differing in distribution, estimating E at the level of full-sib families. Each species was sampled throughout its latitudinal range, allowing us to characterise variation in E along a latitudinal gradient spanning 3600 km. We show that E differs among populations and increases with latitude. E was right-skewness across species, but this was largely an artefact of the latitudinal trend. Increased seasonality towards higher latitude may contribute to the latitudinal trend in E. We conclude that E should be seen as a trait involved in local adaptation. [ABSTRACT FROM AUTHOR]

Published

2013

32. Predator-induced morphological defences as by-products of prey behaviour: a review and prospectus.

Author

Bourdeau, Paul E. and Johansson, Frank

Subjects

*PREDATORY animals, *ANIMAL morphology, *CARNIVORA, *PREDATION, *PREY availability

Abstract

Predator-induced morphological defences (PIMDs) are ubiquitous. Many PIMDs may be mediated by prey behaviour rather than directly cued by predators. A survey of 92 studies indicated 40 that quantified prey behaviour, all of which document positive associations between defence production and activity reduction. Thus, PIMDs are associated with changes in prey activity, which could have caused the morphological change. We propose two possible mechanisms: 1) decreased activity reduces feeding rate, resulting in lower growth and morphological change; and 2) activity reduction conserves energy, which is reallocated for growth, subsequently changing morphology. Resource availability also causes similar morphological change to predator presence, suggesting confounding effects of resources and predators with current methodology. Future studies should estimate food ingestion, assimilation efficiency, and growth rate in the presence and absence of predators, crossing predator presence with resource levels. Not all PIMDs will be behaviourally-mediated, but consideration of causal linkages between prey behaviour and PIMDs is warranted. [ABSTRACT FROM AUTHOR]

Published

2012

33. Differentiation in developmental rate across geographic regions: a photoperiod driven latitude compensating mechanism?

Author

Śniegula, Szymon, Johansson, Frank, and Nilsson-Örtman, Viktor

Subjects

*PHOTOPERIODISM, *DEVELOPMENTAL biology, *DAMSELFLIES, *PHENOTYPIC plasticity, *LIFE history theory

Abstract

Genetic differentiation and phenotypic plasticity in growth rates along latitudinal gradients may benefit our understanding of latitudinal compensating mechanisms in life history patterns. Here we explore latitudinal compensatory growth mechanisms with respect to photoperiod in northern and southern populations of two damselfly species, Coenagrion puella and C. pulchellum. In addition we compared size of field-collected adults from southern and northern populations. Eggs from females in copulating tandems were collected at two or three localities for each species in each geographic region. Eggs were transported to the laboratory and the experiment started when the eggs hatched. The role of photoperiod on the expression of larval growth rate was evaluated under controlled laboratory conditions. Both species had lower growth rate when reared in the northern photoperiod, which is counter to expectations if species use photoperiodic cues to trigger compensatory growth. Instead, both species displayed countergradient variation in growth rates, which probably enable northern populations to compensate for the shorter growth season in the north. The smaller size of field-collected adults from northern populations also supports the view that these species compensate for the shorter growth season by investing in growth and development but accomplish this at the expense of decreased final size. [ABSTRACT FROM AUTHOR]

Published

2012

34. Generalists and specialists along a latitudinal transect: patterns of thermal adaptation in six species of damselfiies.

Author

Nilsson-örtman, Viktor, Stoks, Robby, De Block, Marjan, and Johansson, Frank

Subjects

BIOLOGICAL adaptation, DAMSELFLIES, COENAGRIONIDAE, COLONIZATION (Ecology), CLIMATE change, TRANSECT method

Abstract

Tropical organisms colonizing temperate environments face reduced average temperatures and dramatic thermal fluctuations. Theoretical models postulate that thermal specialization should be favored either when little environmental variation is experienced within generations or when among-generation variation is small relative to within-generation variation. To test these predictions, we studied six temperate species of damselfiies differing in latitudinal distribution. We developed a computer model simulating how organisms experience environmental variation (accounting for diapause and voltinism) and performed a laboratory experiment assaying thermal sensitivities of growth rates. The computer model showed opposing latitudinal trends in among- and within-generation thermal variability: within-generation thermal variability decreased toward higher latitudes, whereas relative levels of among-generation thermal variability peaked at midlatitudes (where a shift in voltinism occurred). The growth experiment showed that low-latitude species were more thermally generalized than mid- and high-latitude species, supporting the prediction that generalists are favored under high levels of within-generation variation. Northern species had steeper, near-exponential reaction norms suggestive of thermal specialization. However, they had strikingly high thermal optima and grew very slowly over most of the thermal range they are expected to experience in the field. This observation is at present difficult to explain. These results highlight the importance of considering interactions between life history and environmental variation when deriving expectations of thermal adaptation. [ABSTRACT FROM AUTHOR]

Published

2012

35. Photoperiod affects compensating developmental rate across latitudes in the damselfly Lestes sponsa.

Author

ŚNIEGULA, SZYMON and JOHANSSON, FRANK

Subjects

*SCARCE blue-tailed damselfly, *PHOTOPERIODISM, *PHENOTYPIC plasticity, *LARVAE, *FRESHWATER animals

Abstract

1. Although there is a great deal of theoretical and empirical data about the life history responses of time constraints in organisms, little is known about the latitude-compensating mechanism that enables northern populations' developmental rates to compensate for latitude. To investigate the importance of photoperiod on development, offspring of the obligatory univoltine damselfly Lestes sponsa from two populations at different latitudes (53°N and 63°N) were raised in a common laboratory environment at both northern and southern photoperiods that corresponded to the sites of collection. 2. Egg development time was shorter under northern photoperiod regimes for both populations. However, the northern latitude population showed a higher phenotypic plasticity response to photoperiod compared with the southern latitude population, suggesting a genetic difference in egg development time in response to photoperiod. 3. Larvae from both latitudes expressed shorter larval development time and faster growth rates under northern photoperiod regimes. There was no difference in phenotypic plastic response between northern and southern latitude populations with regard to development time. 4. Data on field collected adults showed that adult sizes decreased with an increase in latitude. This adult size difference was a genetically fixed trait, as the same size difference between populations was also found when larvae were reared in the laboratory. 5. The results suggest phenotypic plasticity responses in life history traits to photoperiod, but also genetic differences between north and south latitude populations in response to photoperiod, which indicates the presence of a latitudinal compensating mechanism that is triggered by a photoperiod. [ABSTRACT FROM AUTHOR]

Published

2010

36. Predation leads to assembly rules in fragmented fish communities.

Author

Englund, Göran, Johansson, Frank, Olofsson, Patrik, Salonsaari, Juha, and Öhman, Johanna

Subjects

*FRAGMENTED landscapes, *PREDATION, *BIOLOGICAL extinction, *FISH communities, *AQUATIC habitats, *PIKE, *PERCH

Abstract

Diamond [Assembly of species communities. In: Ecology and Evolution of Communities (eds Cody, M.L. & Diamond, J.M.). Harvard University Press, Cambridge, pp. 342–444] proposed that resource competition leads to checkerboard-like distributions of competing species. This proposal prompted research that revealed checkerboard patterns within a wide range of communities, but the mechanisms that generate such patterns are still poorly understood. Here we present whole-lake natural experiments and analyses of species–environment relationships in small coastal lake fish communities that were fragmented when land uplift isolated these lakes from the Baltic Sea, showing that a combination of predation and habitat suitability generated checkerboard distributions. Checkerboard patterns developed because two piscivores, northern pike and Eurasian perch, caused the extinction of several prey species in deep lakes. Conversely, low oxygen levels in shallow lakes caused extinction of the piscivores, and these areas served as a refuge for tolerant prey species. Based on these findings, we suggest that habitat suitability and biotic interactions should be viewed simultaneously in null models of assembly rules. [ABSTRACT FROM AUTHOR]

Published

2009

37. Scared fish get lazy, and lazy fish get fat.

Author

Johansson, Frank and Andersson, Jens

Subjects

*PREDATORY animals, *BIOTIC communities, *FISHES, *PHENOTYPES, *ANIMAL morphology, *ANIMAL populations, *PREDATION, *ECOLOGY, *OCEANOGRAPHY, *ANIMAL behavior

Abstract

1. Many biological textbooks present predator-induced morphological changes in prey species as an example of an adaptive response, because the morphological change is associated with lower predation risk. Here we show that the adaptive morphological response observed in many systems may actually be an indirect effect of decreased activity – which reduces the predation risk – rather than a direct adaptive response. 2. One of the classical examples comes from crucian carp, where the presence of pike leads to a deeper body. We manipulated pike cues (presence and absence) and water current (standing and running water) and found that both standing water and pike cues similarly and independently induced a deeper body. 3. Since the presence of pike cues as well as standing water might be associated with low swimming activity, we suggest that the presence of pike causes a reduction in activity (antipredator behaviour). Reduced activity subsequently induces a deeper body, possibly because the energy saved is allocated to a higher growth rate. 4. Our result suggests that even if morphological change is adaptive, it might be induced indirectly via activity. This important conceptual difference may be similar in many other systems. [ABSTRACT FROM AUTHOR]

Published

2009

38. Integrating life history and physiology to understand latitudinal size variation in a damselfly.

Author

De Block, Marjan, Slos, Stefanie, Johansson, Frank, and Stoks, Robby

Subjects

DAMSELFLIES, ODONATA, PHYSIOLOGY, ANATOMY, TRIGLYCERIDES, GLYCERIDES, ENERGY storage

Abstract

Our understanding of latitudinal life history patterns may benefit by jointly considering age and mass at maturity and growth rate. Additional insight may be gained by exploring potential constraints through pushing growth rates to their maximum and scoring physiological cost-related variables. Therefore, we reared animals of a univoltine Spanish and Belgian population and of a semivoltine Swedish population of the damselfly Enallagma cyathigerum (spanning a latitude gradient of ca 2350 km) in a common environment from the eggs until adult emergence and exposed them to a transient starvation period to induce compensatory growth. Besides age and mass at maturity and growth rate we also scored investment in energy storage (i.e. triglycerides) and immune function (i.e. total activity of phenoloxidase). At emergence, body mass was greater in Spain and Sweden and lower in Belgium, suggesting a genetic component for the U-shaped latitudinal pattern that was found also in a previous study based on field-collected adults. The mass difference between univoltine populations can be explained by the shorter development time in the Belgian population, and this despite a higher growth rate, a pattern consistent with undercompensating countergradient variation. In line with the assumed shorter growth seasons, Belgian and Swedish animals showed higher routine growth rates and compensatory growth after transient starvation. Despite a strong link with metabolic rates (as measured by oxygen consumption) populations with higher routine growth rates had no lower fat content and had higher immune function (i.e. immune function decreased from Sweden to Spain), which was unexpected. Rapid compensatory growth did, however, result in a lowered immune function. This may contribute to the absence of perfect compensating countergradient variation in the Belgian population and the lowest routine growth rates in the Spanish population. Our results underscore the importance of integrating key life historical with physiological traits for understanding latitudinal population differentiation. [ABSTRACT FROM AUTHOR]

Published

2008

39. Species abundance models and patterns in dragonfly communities: effects of fish predators.

Author

Johansson, Frank, Englund, Göran, Brodin, Tomas, and Gardfjell, Hans

Subjects

*DRAGONFLIES, *PREDATORS of fishes, *BIOTIC communities, *SPECIES distribution, *SPECIES, *ECOLOGICAL niche, *POPULATION biology, *ECOLOGY, *BIOLOGY

Abstract

We investigated if dragonfly larvae community composition and species abundance curves are sensitive to variation in predation intensity, and whether the fit to a particular niche partitioning model could be used to make inferences about mechanisms structuring communities. The approach taken was to compare communities in lakes either having or lacking fish predation. Dragonfly species classified as active, strongly dominated the dragonfly communities in fishless lakes, and low active species dominated fishless lakes. As activity level is known to correlate with susceptibility to fish predation this indicates that these communities are structured by fish predation. Fitting relative abundance data to five niche partitioning models showed that the same model fitted data from both types of habitats (fish/no fish). This means that the observed differences in relative abundances were substitutive, i.e. the relative abundance of a rank stayed constant, even though the identity of the species having this rank changed. The best fit to data from both types of lakes was found for the random assortment model, which is usually interpreted as an indication that the community is not structured by within-guild interactions. This interpretation for fishless lakes did not seem to agree with other community measures (i.e. lowered diversity and evenness and no relationship between species richness and dragonfly biomass), which indicate that the community is structured by within-guild interactions. Moreover, a detail in the fitting procedure, the number of species included in the analysis, affected which model that fitted data best. Thus, we question if fitting niche partitioning models to data can provide mechanistic understanding of how resources are partitioned in natural communities. [ABSTRACT FROM AUTHOR]

Published

2006

40. Predator related oviposition site selection of aquatic beetles ( Hydroporus spp.) and effects on offspring life-history.

Author

Brodin, Tomas, Johansson, Frank, and Bergsten, Johannes

Subjects

*PREDATION, *ECOLOGY, *POPULATION dynamics, *BEETLES, *AMPHIBIANS, *MOSQUITOES, *INSECTS, *EUROPEAN perch

Abstract

1. Theory predicts that natural selection should favour females that are able to correctly assess the risk of predation and then use that information to avoid high-risk oviposition sites to reduce the risk of offspring predation. Despite the potential significance of such behaviour on individual fitness, population dynamics and community structure, relatively few studies of oviposition behaviour connected to the risk of predation have been carried out. 2. However, some recent studies suggest that oviposition site selection in response to risk of predation may be a common phenomenon, at least among amphibians and mosquitoes. A vast majority of previous studies have, however, neglected to investigate how the offspring are affected, in terms of fitness related parameters, by the maternal oviposition site choice. 3. In an outdoor artificial pond experiment we tested the oviposition site selection of female aquatic beetles ( Hydroporus spp.) in relation to the presence or absence of a predatory fish ( Perca fluviatilis). In addition, we monitored how the oviposition site selection affected the behaviour, growth and food resource of the progeny. 4. We show that free-flying females of the aquatic beetles Hydroporus incognitus and H. nigrita prefer to oviposit in waters without fish compared with waters with fish. Larval activity of Hydroporus spp. was unaffected by fish presence. Our results indicate that beetle larvae from females that do lay eggs in waters with fish show increased growth compared with larvae in waters without fish. We explain this difference in growth by a higher per-capita food supply in the presence of a fish predator. This finding may have important implications for our understanding of how the variance of oviposition site selection in a population is sustained. [ABSTRACT FROM AUTHOR]

Published

2006

41. Phenotypic plasticity in gender specific life-history: effects of food availability and predation.

Author

Mikolajewski, Dirk Johannes, Brodin, Tomas, Johansson, Frank, and Joop, Gerrit

Subjects

PREDATION, LIFE history theory, PHYSIOLOGICAL adaptation, SEX differences (Biology), ECOLOGY, FOOD supply, SPECIES

Abstract

If environmental conditions vary, plasticity in life-history traits is predicted. A recent model indicates that males and females should differ in life-history traits, because sexes differ in optimal attributes depending on species ecology. In this study we test the impact of two biotic factors in combination (presence/absence of predators and low/high food level) on gender specific life-history traits in the damselfly Coenagrion puella (Odonata). Results show that predator presence and low food density decreased activity in both sexes. Additionally, individuals with less food grew more slowly, emerged later, remained smaller and had a higher mortality. At low food densities, however, and in contrast to former investigations, individuals from treatments with predator presence were the same size or larger than individuals without predators. Gender had a strong impact on larval activity and life-history traits and sexes differed in development. Females were less active and took longer to complete development, but emerged at a larger size, weight and fat content. This study highlights the importance of gender specific approaches in life-history research. [ABSTRACT FROM AUTHOR]

Published

2005

42. Predation cost of rapid growth: behavioural coupling and physiological decoupling.

Author

STOKS, ROBBY, BLOCK, MARJAN DE, VAN DE MEUTTER, FRANK, and JOHANSSON, FRANK

Subjects

ANIMAL behavior, ANIMAL ecology, PREDATORY animals, FORAGING behavior, POPULATION biology

Abstract

1. Despite its prominent role in life-history theory, there is no direct empirical evidence for a behaviourally mediated predation cost of rapid growth. Moreover, we know little about how digestive physiology may also influence the shape of the growth/predation risk trade-off function. 2. We determined the role of behaviour and digestive physiology in experiments in which damselfly larvae were induced to grow slowly or rapidly by manipulating photoperiod (time stress), and exposure to a fish predator. 3. We showed that larvae under time stress grew more rapidly. Rapid-growing larvae had a higher foraging activity and a higher growth efficiency. 4. Under predation risk, larvae not only had a lower foraging activity but also a lower growth efficiency. 5. Rapid-growing larvae (i.e. those under time stress) balanced the growth/predation risk trade-off differently and took more risk in the presence of a predator, which resulted in a behaviourally mediated higher predation cost compared to slow-growing larvae. Their higher growth efficiency, however, made this cost smaller compared to a completely behaviourally mediated rapid-growth strategy. 6. Our results provide the first explicit experimental proof of a behaviourally mediated predation cost of rapid growth. Besides a behavioural coupling of growth and predation risk, resulting in the well-known trade-off, we also found a partial decoupling of these two processes by digestive physiology. Journal of Animal Ecology (2005) doi: 10.1111/j.1365-2656.2005.00969.x [ABSTRACT FROM AUTHOR]

Published

2005

43. CONFLICTING SELECTION PRESSURES ON THE GROWTH/PREDATION- RISK TRADE-OFF IN A DAMSELFLY.

Author

Brodin, Tomas and Johansson, Frank

Subjects

*ANIMALS, *FOOD, *GROWTH, *PREDATORY animals, *ECOLOGICAL research, *ECOLOGY

Abstract

Activity is an important behavioral trait that in most animals mediates a trade-off between obtaining food for growth and avoiding predation. Active individuals usually experience a higher encounter rate with food items and predators and, as a con- sequence, grow faster and suffer higher predation pressure than less active individuals. We investigated how predator-induced mortality and growth of the damselfly Coenagrion hastulatum depend on activity at the level of the genotype. Larvae from six different C. hastulatum families were reared in two different predator treatments: predator present or absent. Families differed in activity, and active families grew to a significantly larger size than less-active families. Within families there was a plastic response to predators. Larvae reared without predators were more active and grew larger than larvae reared with a non- lethal predator. In the presence of a lethal predator the active families experienced higher mortality than the less active families. The results illustrate that the growth/predation-risk trade-off was mediated by activity and clearly show a cost of antipredator behavior. They also suggest that variation in activity level might be genetically regulated and could explain why C. hastulatum are abundant in aquatic systems both with and without potential predators. [ABSTRACT FROM AUTHOR]

Published

2004

44. Behaviour and growth of dragonfly larvae along a permanent to temporary water habitat gradient.

Author

Johansson, Frank and Suhltng, Frank

Subjects

*DRAGONFLIES, *ODONATA, *SPECIES, *LARVAE, *CANNIBALISM, *HABITATS

Abstract

1. Freshwaters form a gradient from small temporary waters to large permanent waters. Identifying and examining traits that restrict the distribution of species along this gradient are crucial to the understanding of community structure in these habitats. 2. Using dragonfly larvae species, differences in traits important for growth and survival were studied. 3. The traits were studied in a series of laboratory experiments using two pairs of dragonfly species that coexist in the Namibian semi-desert. One species pair was from the most temporary part of the water permanence gradient and the other species pair from an intermediate part of the gradient. 4. As predicted, activity, capture rate, and growth rate were significantly greater in the two temporary water species. Contrary to the prediction made in the work reported here, species differences in microhabitat selection were not related to the species' habitat origin. Cannibalism did not differ between species. 5. The results lend support to the hypothesis that selection has favoured certain combinations of trait values and that these traits are important for a successful life in temporary and permanent waters. [ABSTRACT FROM AUTHOR]

Published

2004

45. Latitudinal shifts in body size of Enallagma cyathigerum (Odonata).

Author

Johansson, Frank

Subjects

*ENALLAGMA, *ANIMAL populations

Abstract

Abstract Aim Survey of the latitudinal body size pattern for populations of Enallagma cyathigerum (Odonata) across a south-north transect. Location A transect covering the whole distribution range from south to north across Europe was sampled. Methods Newly emerged adults were collected from five major sites across Europe and one to four localities were sampled within each site. In total 253 adults were collected from fourteen localities. Body size was measured using thorax length, length of right front wing and length of right hind tibia. These body size estimates were thereafter related to latitude and mean temperature in January and July. Results Body size showed a U-shaped pattern with latitude, being large at low and high latitudes and small at intermediate latitudes. The same U-shaped pattern was found for mean January and July temperature, with large animals at low and high temperatures. Conclusion The U-shaped relationship between body size and latitude is suggested to be a combination of two effects: (1) the length of the season favourable for growth and development, and (2) variation in life cycle length with latitude. [ABSTRACT FROM AUTHOR]

Published

2003

46. Sexual dimorphism in Odonata: age, size, and sex ratio at emergence.

Author

Crowley, Philip H. and Johansson, Frank

Subjects

*SEXUAL dimorphism in animals, *ODONATA

Abstract

Analyzes the sexually dimorphic life histories of the male and female odonates. Emphasis on the basic assumptions of the life-history model; Adjustment on the default magnitudes of female-life history variables; Formulation of projections for the odonate system.

Published

2002

47. LIFE HISTORY PLASTICITY IN A DAMSELFLY: EFFECTS OF COMBINED TIME AND BIOTIC CONSTRAINTS.

Author

Johansson, Frank, Stoks, Robby, Rowe, Locke, and de Block, Marjan

Subjects

*DAMSELFLIES, *DEVELOPMENTAL biology, *PHYSIOLOGICAL adaptation, *LARVAE

Abstract

Studies the interaction between life history traits and environmental conditions on the larval development of the damselfly, Lestes sponsa. Effect of early- or late-hatching time on predation risk; Effect of early or late-hatching time on food level; Growth rate, foraging activity and development rate of larvae at high food levels.

Published

2001

48. Trading off mortality risk against foraging effort in damselflies that differ in life cycle length.

Author

Stoks, Robby and Johansson, Frank

Subjects

*DAMSELFLIES, *LIFE cycles (Biology), *DEVELOPMENTAL biology, *MORTALITY, *PERCH

Abstract

Life history theory predicts that size and age at emergence depend on the slope and shape of the relationship between mortality rate and foraging effort. Given the high expected foraging effort in obligate univoltine species compared with semivoltine species we expected a low slope and an increase in foraging effort in the presence of a predator for the former and the opposite pattern for the latter. We tested these predictions in two damselfly species of the univoltine genus Lestes, and the semivoltine genus Coenagrion when confronted with perch. We determined for each of the four study species the relationships between mortality rate and foraging effort at an individual level. As expected by the different growth demands associated with differences in life cycle length, both Lestes species had a higher foraging effort than the two Coenagrion species in the absence as well as in the presence of perch. As a result, lestids also suffered a higher mortality rate. The slope of the regression between mortality rate and foraging effort was, as predicted, lower for lestids than for coenagrionids, for one species pair. Despite this, and opposite to our prediction, the lestids decreased foraging effort even more than coenagrionids in the presence of perch. We discuss these findings in the light of life history responses in species that differ in life cycle length. [ABSTRACT FROM AUTHOR]

Published

2000

49. Fitness and body size in mature odonates.

Author

Sokolovska, Natalia, Rowe, Locke, and Johansson, Frank

Subjects

ODONATA, INSECT sex ratio

Abstract

SummaryThe relationship between body size and fitness components in odonates was examined using a meta-analysis of 33 published studies. There was a positive and significant overall effect of body size on mating rate and lifetime mating success among males. There was also a weaker but still significant positive effect of body size on survivorship of males. The relationship between body size, mating rate, longevity, and lifetime mating success differed significantly between males of territorial and nonterritorial species. The effect of body size was significant for all fitness components in territorial species but significant only for longevity and lifetime mating success in nonterritorial species. Effect sizes appeared to be strongest on longevity in both sexes, and on male mating rate in territorial species. Other effect sizes, even when significant, were small. Despite a much smaller data set, female fitness also increased significantly with body size. Both clutch size and longevity showed a significant positive relationship with body size. These results suggest that there is a general fitness benefit to large size in odonates. Nevertheless, significant heterogeneity is apparent in this effect, which can be attributed to sex, mating system, and fitness component. Finally, these analyses point to inadequacies in the current data that need further study before the potentially rich patterns in size effects on fitness can be explored more thoroughly. [ABSTRACT FROM AUTHOR]

Published

2000

50. The slow—fast life style characteristics in a suite of six species of odonate larvae.

Author

Johansson, Frank

Subjects

*HABITATS, *PREDATION

Abstract

Summary 1 The validity of the slow—fast lifestyle dichotomy proposed by Sih (1987) was tested in a suite of six odonate species from a restricted geographical area. Data on activity and microhabitat use were obtained in a laboratory study. Further necessary information on life history, macrohabitat (ephemeral-permanent) use and vulnerability to fish predation was provided by a literature survey. 2 Activity was estimated as number of moves and distance moved for the six odonate larvae. Aeschna juncea, Lestes sponsa and Sympetrum danae were categorised as high-active species, whereas Coenagrion hastulatum, Cordulia aenea and Leucorhinia dubia were categorised as low-active species. 3 C. hastulatum and L. sponsa exploited microhabitats close to the water surface, C. aenea and L. dubia close to the bottom, and A. juncea and S. danae were intermediate in their water depth utilisation. 4 A principal component analysis of the data from the laboratory experiment and the literature survey supported the slow—fast life style dichotomy since the variables activity, macrohabitat use, life cycle length and sensitivity to fish predators were highly correlated. [ABSTRACT FROM AUTHOR]

Published

2000