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202. Indirect effects of fish community structure on submerged vegetation in shallow, eutrophic lakes : an alternative mechanism

Author

Brönmark, Christer, Weisner, Stefan E. B., Brönmark, Christer, and Weisner, Stefan E. B.

Abstract

The loss of submerged macrophytes during eutrophication of shallow takes is a commonly observed phenomenon. The proximate reason for this decline is a reduction of available light due to increasing phytoplankton and/or epiphyton biomass. Here we argue that the ultimate cause for the transition from a macrophyte-dominated state to a phytoplankton-dominated state is a change in fish community structure. A catastrophic disturbance event (e.g. winterkill) acting selectively on piscivores, cascades down food chains, eventually reducing macrophyte growth through shading by epiphyton, an effect that is reinforced by increasing phytoplankton biomass. The transition back from the phytoplankton to the macrophyte state depends on an increase in piscivore standing stock and a reduction of planktivores. A conceptual model of these mechanisms is presented and supported by literature data and preliminary observations from a field experiment. © 1992 Kluwer Academic Publishers., Financial support was received from the Swedish Environmental Protection Agency and the Swedish Council for Forestry and Agricultural Research.

Published
1992
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210. A lake as a microcosm: reflections on developments in aquatic ecology.

Author

Hansson, Lars-Anders, Brodersen, Jakob, Chapman, Ben, Ekvall, Mattias, Hargeby, Anders, Hulthén, Kaj, Nicolle, Alice, Nilsson, P., Skov, Christian, and Brönmark, Christer

Abstract

In the present study, we aim at relating Forbes' remarkable paper on 'The lake as a microcosm', published 125 years ago, to the present status of knowledge in our own research group. Hence, we relate the observations Forbes made to our own microcosm, Lake Krankesjön in southern Sweden, that has been intensively studied by several research groups for more than three decades. Specifically, we focus on the question: Have we made any significant progress or did Forbes and colleagues blaze the trail through the unknown wilderness and we are mainly paving that intellectual road? We conclude that lakes are more isolated than many other biomes, but have, indeed, many extensions, for example, input from the catchment, fishing and fish migration. We also conclude that irrespective of whether lakes should be viewed as microcosms or not, the paper by Forbes has been exceptionally influential and still is, especially since it touches upon almost all aspects of the lake ecosystem, from individual behaviour to food web interactions and environmental issues. Therefore, there is no doubt that even if 125 years have passed, Forbes' paper still is a source of inspiration and deserves to be read. Hence, although aquatic ecology has made considerable progress over the latest century, Forbes might be viewed as one of the major pioneers and visionary scientists of limnology. [ABSTRACT FROM AUTHOR]

Published
2013
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213. Water brownification may increase the invasibility of a submerged non-native macrophyte.

Author

Mormul, Roger, Ahlgren, Johan, Ekvall, Mattias, Hansson, Lars-Anders, and Brönmark, Christer

Abstract

Environmental conditions and human activities play a significant role in structuring novel assemblages of native and non-native species. Ongoing and future climatic change may alter the performance of native and non-native species and their biotic interactions. In the northern hemisphere, expected climate changes include warmer temperatures and higher precipitation, the latter of which may increase dissolved organic carbon (humic) concentrations, resulting in browner water in aquatic ecosystems (brownification). We tested the effects of elevated temperature (3 °C) and brownification on native and non-native aquatic plant production in mesocosms over 56 days. Elodea canadensis, an aquatic invasive plant, had higher relative growth rate in terms of both length and weight, as well as higher weight to length ratio when grown in brown versus clear water; E. canadensis did not respond to temperature treatments. Different functional groups of native producers (phytoplankton, periphyton, macrophytes) showed different relationships to temperature and brownification treatments, with the macrophyte response being most notable because it was opposite to that of E. canadensis. Native macrophytes decreased in biomass in browner water, where they represented about 40 % of total biomass compared to 85 % in clear water. In regression analyses, E. canadensis length RGR was best predicted only by water color treatment, but biomass RGR and biomass per length were inversely correlated with native macrophyte biomass, which is consistent with competition. Our results unexpectedly showed water brownification to have more influence on lake invasion than climate warming at this temperature regime. Two pathways emerged for climate to interact with biological invasions in structuring novel communities: directly, if non-native species respond positively to climate change, and indirectly through species interactions, for instance, because water brownification impairs growth of native macrophytes and reduces biotic resistance to invasion. [ABSTRACT FROM AUTHOR]

Published
2012
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214. Fleeing towards death - leech-induced behavioural defences increase freshwater snail susceptibility to predatory fish.

Author

Ahlgren, Johan and Brönmark, Christer

Subjects
*FRESHWATER snails, *MOLLUSK mortality, *MOLLUSKS, *PREDATORY animals, *PREDATION, *LEECHES, *MOLLUSK defenses, *ANIMAL behavior
Abstract

Prey species are often exposed to multiple predators, which presents several difficulties to prey species. This is especially true when the response to one predator influences the prey's susceptibility to other predators. Predator-induced defences have evolved in a wide range of prey species, and experiments involving predators with different hunting strategies allow researchers to evaluate how prey respond to multiple threats. Freshwater snails are known to respond to a variety of predators with both morphological and behavioural defences. Here we studied how freshwater snails Radix balthica responded behaviourally to fish and leech predators, both separately and together. Our aim was to explore whether conflicting predator-induced responses existed and, if so, what effect they had on snail survival when both predatory fish and leeches were present. We found that although R. balthica increased refuge use when exposed to predatory fish, they decreased refuge use when exposed to predatory leeches. When both predators were present, snails showed a stronger response towards leech than fish and responded by leaving the refuge. This response made the snails more susceptible to fish predation, which increased snail mortality when exposed to both fish and leech compared to fish only. We show that predators that have a relatively low predation rate can substantially increase mortality rates by indirect effects. By forcing snails out of refuges such as rock and macrophyte habitats, leeches can indirectly increase predation from molluscivorous fish and may thus affect snail densities. [ABSTRACT FROM AUTHOR]

Published
2012
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215. The ecology and evolution of partial migration.

Author

Chapman, Ben B., Brönmark, Christer, Nilsson, Jan-Åke, and Hansson, Lars-Anders

Subjects
*MIGRATORY animals, *ECOLOGY, *POLYMORPHISM (Zoology), *PHENOTYPES, *DIMORPHISM in animals
Abstract

Partial migration, where populations of animals are composed of a mixture of resident and migratory individuals, is a widespread phenomenon in nature. It has been reported to occur in all major vertebrate groups, and can have significant ecological consequences. Here we give an overview of the ecology and evolution of partial migration in animals. We firstly review the different types of partial migration, and assess the ecological drivers responsible for driving individual differences in migratory tendency within populations. A variety of factors can be important in promoting the evolution of partial migration, including competition for resources or breeding opportunities, predation risk and intraspecific niche diversity. Often various factors act synergistically to create complex patterns of movement polymorphism within populations. The question of how partial migration is maintained over evolutionary timescales is also addressed. Whilst many theoretical considerations of partial migration utilise an evolutionary stable state (ESS) paradigm, empirical evidence for this is lacking. Rather the evidence suggests that partial migration is mostly condition dependent, and the optimum outcome for an individual is dependent upon its phenotype. What determines whether an individual follows a migratory or resident strategy is discussed in light of new theory and empirical data which supports the idea that environmentally responsive genetic thresholds are important across a range of species, from birds to fish, in proximately shaping migratory tendency. Finally we espouse our vision of how partial migration research will develop in the future, and suggest a number of exciting directions that studies into migratory dimorphism may take in the coming years. [ABSTRACT FROM AUTHOR]

Published
2011
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216. Interplay between temperature, fish partial migration and trophic dynamics.

Author

Brodersen, Jakob, Nicolle, Alice, Nilsson, P. Anders, Skov, Christian, Brönmark, Christer, and Hansson, Lars-Anders

Subjects
TEMPERATURE, MIGRATORY fishes, CLIMATE change, ZOOPLANKTON, BIOMASS, PHYTOPLANKTON
Abstract

Whereas many studies have addressed the mechanisms driving partial migration, few have focused on the consequences of partial migration on trophic dynamics, and integrated studies combining the two approaches are virtually nonexistent. Here we show that temperature affects seasonal partial migration of cyprinid fish from lakes to predation refuges in streams during winter and that this migration in combination with temperature affects the characteristics and phenology of lower trophic levels in the lake ecosystem. Specifically, our six-year study showed that the proportion of fish migrating was positively related to lake temperature during the pre-migration growth period, i.e. during summer. Migration from the lake occurred later when autumn water temperatures were high, and timing of return migration to the lake occurred earlier at higher spring water temperatures. Moreover, the winter mean size of zooplankton in the lake increased with the proportion of fish being away from the lake, likely as a consequence of decreased predation pressure. Peak biomass of phytoplankton in spring occurred earlier at higher spring water temperatures and with less fish being away from the lake. Accordingly, peak zooplankton biomass occurred earlier at higher spring water temperature, but relatively later if less fish were away from the lake. Hence, the time between phyto- and zooplankton peaks depended only on the amount of fish being away from the lake, and not on temperature. The intensity of fish migration thereby had a major effect on plankton spring dynamics. These results significantly contribute to our understanding of the interplay between partial migration and trophic dynamics, and suggest that ongoing climate change may significantly affect such dynamics. [ABSTRACT FROM AUTHOR]

Published
2011
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217. The influence of predator regime on the behaviour and mortality of a freshwater amphipod, Gammarus pulex.

Author

Ahlgren, Johan, Åbjörnsson, Kajsa, and Brönmark, Christer

Subjects
GAMMARUS pulex, AMPHIPODA, PREDATORY animals, PREDATION, ANIMAL mortality
Abstract

In species with restricted dispersal, traits may become genetically fixed leading to local adaptations. Therefore, predator avoidance in a prey species may differ between populations experiencing different predator regimes, but also between sexes within a population due to different vulnerability to predators. In this study we used male and female Gammarus pulex from two different predator regimes: fishless ponds, where invertebrates are the dominant predators and ponds with predatory fish. In the laboratory we examined refuge use, mortality, leaf decomposition rate and pair-formation in G. pulex when exposed to predator cues from either invertebrate predators or fish. Individuals from fish ponds spent more time in refuge and had a higher mortality than those from fishless ponds independent of predator cues. There was no effect of pond predator regime or predator cues on leaf decomposition rates. Further, fewer individuals formed pairs in G. pulex from fish ponds than from fishless ponds. Male G. pulex had a higher mortality and a higher decomposition rate than females independent of predator cues. However, there was no difference in refuge use between sexes. Our study shows that there are general differences in behaviour traits, both between predator regimes and sexes in G. pulex. [ABSTRACT FROM AUTHOR]

Published
2011
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218. Influences of environmental cues, migration history, and habitat familiarity on partial migration.

Author

Skov, Christian, Aarestrup, Kim, Baktoft, Henrik, Brodersen, Jakob, Brönmark, Christer, Hansson, Lars-Anders, Nielsen, Einar E., Nielsen, Tine, and Nilsson, P. Anders

Subjects
ROACH (Fish), RUTILUS, FISH migration, HABITATS, FISH populations
Abstract

The factors that drive partial migration in organisms are not fully understood. Roach (Rutilus rutilus), a freshwater fish, engage in partial migration where parts of populations switch between summer habitats in lakes and winter habitats in connected streams. To test if the partial migration trait is phenotypically plastic or has genetic components, we translocated roach from 2 populations with different opportunities for migration to a lake with migration opportunity, containing a local roach population. This enabled monitoring of partial migration of fish in 3 different situations: 1) previous opportunity for migration, migrating in a familiar environment (the local population); 2) previous opportunity for migration, migrating in an unfamiliar environment; and 3) no previous opportunity for seasonal migration, migrating in an unfamiliar environment. In addition, we evaluated the migration patterns of roach in the lake with migration opportunity wherefrom group 2 fish were translocated. Directional migration in and out of the lakes was monitored using Passive Integrated Transponder technology. Translocated fish with previous migration opportunity showed migration patterns more similar to local fish than to their home lake population, and individuals translocated from the lake without migration opportunity migrated when given the opportunity, suggesting that partial migration is phenotypically plastic and triggered by lake-specific environmental cues. We found temperature to be a proximate cue for migration decisions. Individuals without previous migration opportunity migrated at a lower proportion and with different small-scale migration patterns, suggesting that also genetic components are involved in the expression of the partial migration trait. [ABSTRACT FROM PUBLISHER]

Published
2010
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219. Habitat structure and juvenile fish ontogeny shape zooplankton spring dynamics.

Author

Nicolle, Alice, Hansson, Lars-Anders, and Brönmark, Christer

Subjects
HABITATS, MACROPHYTES, ONTOGENY, ZOOPLANKTON, FISH habitats, CLADOCERA
Abstract

Macrophytes in shallow lakes have the potential to alter fish–zooplankton interactions considerably. How far predation effects by newly hatched fish (0+ fish) on zooplankton are influenced by different types of aquatic vegetation, and how effects change during the first weeks of fish ontogeny remains, however, less clear. In order to address these issues, we examined the predation effects of 0+ fish on zooplankton in three different habitats during spring and summer in a shallow, eutrophic lake in Sweden. Zooplankton and fish samples were taken along the reed vegetation, in a shallow, unvegetated part of the lake and above dense, submersed vegetation to relate 0+ fish predation effects to vegetation complexity. All the size classes of zooplankton decreased when 0+ fish started to feed on them in all the different habitats. The magnitude of predation effects depended, however, on both the size of zooplankton and the complexity of the vegetation. While small cladocerans could maintain stable populations in the dense Chara vegetation after 0+ fish had started to feed on them, medium and large-sized zooplankton disappeared from all the habitats. Our results suggest that only small cladocerans can use dense vegetation as a refuge against 0+ fish predation, while medium and large zooplankton are not safe from 0+ fish predation in any habitat. [ABSTRACT FROM AUTHOR]

Published
2010
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220. Regime shifts in shallow lakes: the importance of seasonal fish migration.

Author

Brönmark, Christer, Brodersen, Jakob, Chapman, Ben B., Nicolle, Alice, Nilsson, P. Anders, Skov, Christian, and Hansson, Lars-Anders

Subjects
*FISH migration, *LAKES, *FISH populations, *AQUATIC biology, *FRESHWATER plankton, *ROACH (Fish)
Abstract

Shallow eutrophic lakes commonly exist in two alternative stable states: a clear-water state and a turbid water state. A number of mechanisms, including both abiotic and biotic processes, buffer the respective states against changes, whereas other mechanisms likely drive transitions between states. Our earlier research shows that a large proportion of zooplanktivorous fish populations in shallow lakes undertake seasonal migrations where they leave the lake during winter and migrate back to the lake in spring. Based on our past research, we propose a number of scenarios of how feedback processes between the individual and ecosystem levels may affect stability of alternative stable states in shallow lakes when mediated by fish migration. Migration effects on shallow lakes result from processes at different scales, from the individual to the ecosystem. Our earlier research has shown that ecosystem properties, including piscivore abundance and zooplankton productivity, affect the individual state of zooplanktivorous fish, such as growth rate or condition. Individual state, in turn, affects the relative proportion and timing of migrating zooplanktivorous fish. This change, in turn, may stabilize states or cause runaway processes that eventually lead to state shifts. Consequently, such knowledge of processes coupled to seasonal migration of planktivorous fish should increase our understanding of shallow lake dynamics. [ABSTRACT FROM AUTHOR]

Published
2010
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221. Waterfowl, macrophytes, and the clear water state of shallow lakes.

Author

Hansson, Lars-Anders, Nicolle, Alice, Brönmark, Christer, Hargeby, Anders, Lindström, Åke, and Andersson, Gunnar

Subjects
WATERFOWL, MACROPHYTES, LAKES, WATER pollution, WATER quality management, BIOTIC communities
Abstract

The importance of lake ecosystems for waterfowl remains a topic of debate. In order to assess how temporal variations in lake features, specifically shifts between alternative stable states, may interact with the waterfowl fauna, we performed a long-term (22 years) study of the shallow Lake Krankesjön, southern Sweden. Lower total numbers of waterfowl occurred during periods with low macrophyte cover and turbid water, than when submersed macrophytes flourished and the water was clear. Some specific functional groups of waterfowl, such as herbivores, invertebrate, and fish feeders, showed a positive relation to clear water and high macrophyte cover. Hence, our data suggest that some migratory waterfowl may select lakes based on water quality, thereby adjusting their large-scale migratory routes. On the other hand, omnivorous waterfowl exhibited their highest abundances during turbid conditions. Furthermore, waterfowl not primarily relying on food from the lake showed no response to fluctuations in turbidity or macrophyte cover, but followed regional trends in population dynamics. In our study lake, L. Krankesjön, we estimated that waterfowl remove less than 3% of the macrophyte biomass during a stable clear-water state with lush macrophyte beds. However, during transition periods between alternative stable states, when macrophyte biomass is lower and the plants already stressed, the consumption rate of waterfowl may have a stronger effect on lake ecosystem functioning. [ABSTRACT FROM AUTHOR]

Published
2010
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224. The influence of predator regime on reproductive traits in Gammarus pulex populations.

Author

Åbjörnsson, Kajsa, Brönmark, Christer, and Hansson, Lars-Anders

Subjects
*GAMMARUS pulex, *FISHES, *PREDATORY animals, *LIFE history theory, *POND aquaculture, *ANIMAL sexual behavior
Abstract

Selection on traits conferring reduced predation may be opposed by selection on other traits associated with reproduction. Here, we examined the hypothesis that traits associated with reproduction in Gammarus pulex are driven by predation. We studied G. pulex originating from ponds with two different kinds of predator regimes: (1) ponds with fish—often large, non-gap-limited predators and (2) ponds without fish where invertebrates are the dominant predators—often small, gap-limited predators with a much more restricted prey size range. We examined the body size of males and females in G. pulex amplexus pairs originating from fish and fishless ponds. We also examined, in the laboratory, their mating success, the number of offspring per female and offspring mortality under different rearing conditions, with or without fish cue. Mating success, defined as the percentage of amplexus pairs that produced live offspring, was higher for G. pulex from fishless ponds independent of rearing condition. Individuals from fish ponds were larger and they produced a higher number of offspring which tended to be related to female body size. Offspring mortality was higher in populations from fish ponds compared to populations from fishless ponds. Despite the higher offspring mortality, females from fish ponds had a higher number of offspring alive after 13 weeks, which is the approximate time it takes for G. pulex to reach maturity. Our data imply that no trade-off between reducing body size to reduce mortality caused by fish and maximising reproductive success exist in G. pulex from fish ponds. The strategy with many offspring may be the correct strategy in fishponds where predation pressure generally is higher than in fishless ponds. [ABSTRACT FROM AUTHOR]

Published
2009
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226. Bioturbation as Driver of Zooplankton Recruitment, Biodiversity and Community Composition in Aquatic Ecosystems.

Author

Gyllström, Mikael, Lakowitz, Thomas, Brönmark, Christer, and Hansson, Lars-Anders

Subjects
INVERTEBRATES, BIOTIC communities, ZOOPLANKTON, ASELLUS aquaticus, SIALIS lutaria, SEDIMENTS, BIODIVERSITY, CHIRONOMUS plumosus, FRESHWATER zooplankton
Abstract

In an experimental study we assessed if benthic bioturbating invertebrates affect the recruitment (hatching) of zooplankton from the sediment, and if this effect persists as differences in the zooplankton community in the water column, that is, if bioturbation quantitatively stimulates benthic–pelagic coupling. We investigated the effects of four different benthic invertebrates ( Asellus aquaticus, Chironomus plumosus, Tubifex tubifex in the presence or absence of the predator Sialis lutaria). In total, 45 zooplankton taxa hatched from the sediment and the hatching success of some of these was dependent on the species identity of the bioturbating invertebrate. The predator Sialis reduced the abundance of all three invertebrate species, but tended to positively influence the zooplankton recruitment rates, possibly through increasing the activity of the bioturbating invertebrates. The most striking effect of bioturbation on the hatching and pelagic zooplankton community properties was that, on average, 11% more species hatched in the Asellus treatment than in any other treatment. This was also mirrored in the zooplankton water column community where, on average, 7% more species established a viable population in treatments with Asellus as bioturbator. In a complementary field survey, Asellus was more common in littoral than in profundal sediments. Because Asellus strongly affected recruitment of zooplankton in our experiment, we argue that bioturbation may partly explain why recruitment of resting stages of both phyto- and zooplankton is generally higher in littoral than in profundal areas. [ABSTRACT FROM AUTHOR]

Published
2008
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227. Ecosystem effects of partial fish migration in lakes.

Author

Brodersen, Jakob, Ådahl, Emma, Brönmark, Christer, and Hansson, Lars-Anders

Subjects
BIOTIC communities, RADIOACTIVE substances in rivers, lakes, etc., RADIOACTIVE pollution of water, ECOLOGY, ENVIRONMENTAL sciences, ENVIRONMENTAL libraries, ECOLOGICAL art, ENVIRONMENTAL policy, POPULATION biology
Abstract

Migration is a widespread phenomenon in many ecosystems. Most often, studies on migration have focused on how migration strategies are dependent on ecological parameters, but little attention has been paid to the top-down effect of migration on ecosystem processes. Cyprinid fish in many European lakes undergo partial migration, where a part of the population leaves the lake and enters streams for the winter. In this study, we model the effect of partial migration by fish on lower trophic levels in a lake ecosystem. Our results suggest that spring phyto- and zooplankton dynamics, including occurrences of clear-water phases, can be related to the timing and magnitude of partial migration of planktivorous fish. From our results we conclude that partial migration can influence the dynamics of lower trophic levels in the ecosystem. Furthermore, we hypothesize that partial migration may affect the stability of alternative stable states and transitions between them. [ABSTRACT FROM AUTHOR]

Published
2008
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228. Predator–prey encounter rates in freshwater piscivores: effects of prey density and water transparency.

Author

Turesson, Håkan and Brönmark, Christer

Subjects
*PREDATION, *MATHEMATICAL models, *PISCIVOROUS fishes, *LAKES, *HABITATS, *AQUATIC ecology
Abstract

One of the most fundamental components of predator–prey models is encounter rate, modelled as the product of prey density and search efficiency. Encounter rates have, however, rarely been measured in empirical studies. In this study, we used a video system approach to estimate how encounter rates between piscivorous fish that use a sit-and-wait foraging strategy and their prey depend on prey density and environmental factors such as turbidity. We first manipulated prey density in a controlled pool and field enclosure experiments where environmental factors were held constant. In a correlative study of 15 freshwater lakes we then estimated encounter rates in natural habitats and related the results to both prey fish density and environmental factors. We found the expected positive dependence of individual encounter rates on prey density in our pool and enclosure experiments, whereas the relation between school encounter rate and prey density was less clear. In the field survey, encounter rates did not correlate with prey density but instead correlated positively with water transparency. Water transparency decreases with increasing prey density along the productivity gradient and will reduce prey detection distance and thus predator search efficiency. Therefore, visual predator–prey encounter rates do not increase, and may even decrease, with increasing productivity despite increasing prey densities. [ABSTRACT FROM AUTHOR]

Published
2007
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229. Friends and foes in foraging: intraspecific interactions act on foraging-cycle stages.

Author

Nilsson, P. Anders, Turesson, Håkan, and Brönmark, Christer

Subjects
COMPETITION (Biology), PREDATORY animals, PISCIVORES, ANIMALS, ECOLOGY
Abstract

Intraspecific interactions may increase or decrease foraging rates of individual consumers, and such facilitation or interference interactions should affect individual foraging economies as well as predator-prey processes at the population level. To mechanistically predict individual foraging performance, we need to investigate the effects of positive and negative interactions on separate foraging-cycle stages. We illustrate the importance and viability of examining the effects of facilitation and interference on different foraging-cycle stages using three piscivore species as a model system. We studied individual foraging behaviour when alone or in the presence of conspecifics, and show that northern pike foraging in the presence of conspecifics decrease attack frequencies and consumption rates, although no explicit agonistic behaviours were recorded. Pikeperch increase consumption rates in conspecific groups, possibly through a prey-mediated increase in capture success, as pikeperch showed no direct behavioural interactions. The actively cooperating Eurasian perch increase capture success and consumption rates in groups. The results demonstrate the need to combine behavioural studies of positive and negative effects of intraspecific interactions on foraging-cycle stages with quantifications of overall consumption rates. Pure behavioural observations may result in misinterpretations of the effects of interactions on foraging, while studies on consumption rates only would lack the mechanistic base of the obtained results. We also suggest that effects of intraspecific interactions during the foraging cycle should be incorporated in mechanistic models of facilitation and interference to elucidate the link between individual behaviours and higher-order processes. [ABSTRACT FROM AUTHOR]

Published
2006
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230. Size-dependent effects of an invasive herbivorous snail ( Pomacea canaliculata) on macrophytes and periphyton in Asian wetlands.

Author

Carlsson, Nils O. L. and BrÖnmark, Christer

Subjects
*SNAILS, *AGRICULTURAL pests, *RICE diseases & pests, *HERBIVORES, *POMACEA, *GASTROPODA, *AQUATIC animals, *DETRITUS, *FOOD chains, *WETLANDS
Abstract

1. The invasive golden apple snail ( Pomacea canaliculata), native to South America, is a serious pest on rice seedlings in south-east Asia and has also been shown to consume large amounts of macrophytes in natural wetlands, with large effects on ecosystem functioning. Earlier studies suggest that the snail undergoes an ontogenetic diet shift, feeding on algae and detritus as juveniles and shifting to aquatic macrophytes as adults. 2. Here, we study the effects of snail populations with a size-structure typical of either populations at an invasive front or the size-structure of established populations. In an enclosure experiment performed in a wetland in Laos, we compared treatments with small snails only (3 mm; invasive treatment) to treatments with small, medium sized (10 mm) and adult (>25 mm) snails (established treatment). The effects of snail grazing on three aquatic macrophyte species and periphytic algae were quantified. 3. We found that snails of all sizes had a strong negative effect on the biomass of all macrophyte species and periphytic algae. There was no evidence of an ontogenetic diet change, i.e. snails in both the invasive and established treatments affected macrophyte biomass. Foraging was size-dependent in that small snails had higher relative foraging capacity (g plant consumed per g of snail) compared with medium and adult snails. Small snails, therefore, depressed growth of medium snails at increasing densities through exploitative competition for preferred resources, while adult snails did not grow at all in the presence of small snails. 4. Density dependence is common in freshwater invertebrates, including gastropod populations, but differences in size dependent foraging- and competitive-ability have rarely been demonstrated in this group of organisms. Knowledge about intra-specific differences in ecological performance may, however, both deepen our understanding of the processes that underlie population dynamics in invertebrates such as gastropods, and help develop control strategies for invasive golden apple snails. [ABSTRACT FROM AUTHOR]

Published
2006
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231. INVADING HERB IVORY: THE GOLDEN APPLE SNAIL ALTERS ECOSYSTEM FUNCTIONING IN ASIAN WETLANDS.

Author

Carlsson, Nils O. L., Brönmark, Christer, and Hansson, Lars-Anders

Subjects
*WETLANDS, *PLANTS, *ECOLOGY, *AQUATIC resources, *SURVEYS, *ESTIMATES, *BIOTIC communities
Abstract

We investigated the effects of an exotic snail, the golden apple snail (Pomacea canaliculata) on biodiversity and ecosystem functioning in tropical wetland ecosystems. This large snail (up to 80-mm shell height) has invaded large parts of Southeast Asia during recent decades. A survey of natural wetlands in Thailand showed that high densities of the snail were associated with almost complete absence of aquatic plants, high nutrient concentrations, and high phytoplankton biomass, that is, a complete shift in both ecosystem state and function. A field experiment demonstrated that grazing by the snail can cause the loss of aquatic plants, a change toward dominance of planktonic algae, and thereby a shift toward turbid water. Estimates of biologically fixed nutrients released through snails grazing on aquatic plants revealed that phosphorus releases were sufficient to explain the recorded increase in phytoplankton biomass. Hence, our study demonstrates how an herbivore may trigger a shift from clear water and macrophyte dominance to a turbid state dominated by planktonic algae. This shift and the continuing aggressive invasion of this exotic species are detrimental to the integrity and functioning of wetland ecosystems, and to the services these provide in Southeast Asia. [ABSTRACT FROM AUTHOR]

Published
2004
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232. Foraging capacities and effects of competitive release on ontogenetic diet shift in bream, Abramis brama.

Author

Persson, Anders and Brönmark, Christer

Subjects
*DIET, *PREDATION, *PLANKTON
Abstract

Examines the foraging capacities and effects of competitive release on the ontogenetic diet shift in bream. Determination of size-dependent foraging capacities on prey types; Derivation of size-dependent diet preferences; Description of planktivorous foraging capacity.

Published
2002
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233. Influence of predator and dietary chemical cues on the behaviour and shredding efficiency of Gammarus pulex.

Author

Åbjörnsson, Kajsa, Dahl, Jonas, Nyström, Per, and Brönmark, Christer

Abstract

In two laboratory experiments, we examined short- and long-term responses of the detritivorous amphipod Gammarus pulex to chemical cues from potential predators fed various diets. In the first experiment we studied the short-term effect on G. pulex (locomotory activity) when exposed to chemical cues from three co-existing predators; sculpin ( Cottus gobio), trout ( Salmo trutta), and signal crayfish ( Pacifastacus leniusculus). Chemicals from sculpins and trout induced a short-term decrease in locomotory activity in G. pulex, whereas crayfish did not. There was no difference in activity between G. pulex exposed to water scented by trout or sculpin, and these responses were independent of predator diet ( G. pulex, Asellus aquaticus and starved). In the second experiment we examined whether longer-term exposure (4 week) to chemical cues from sculpins affects rates of leaf processing by G. pulex. During the first week, G. pulex consumed significantly more leaves in the control (i.e., no fish cue) than in the fish cue treatment. After 4 weeks, however, there was no difference in total leaf processing rate between treatments indicating an adaptation to the cue. [ABSTRACT FROM AUTHOR]

Published
2000
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234. Dynamics and structure of a Velia caprai (Heteroptera) population in a South Swedish stream.

Author

Brönmark, Christer, Malmqvist, Björn, and Otto, Christian

Subjects
*INSECT population density, *VELIA, *HEMIPTERA, *NYMPHS (Insects), *RESEARCH
Abstract

Population density was estimated monthly by means of direct counts for 16 consecutive months. Capture-recapture experiments revealed that 9-22% of the population was observed by this technique. Most nymphs appeared in June, and the presence of nymphs in September suggests a second generation. There was a strong positive correlation between summer surface drift and mean annual population density for five out of six sections studied. In July-August the sex ratio was near equal, while in September females began to dominate. The bias towards females was strong until new imagines emerged in July. From September a marked weight dimorphism was observed between the sexes. Food limitation, and skewed sex and weight ratios implied intersexual competition in this population. Brown trout possibly affected the population density in one section with less shelter. Wing dimorphism was observed in July and August. Macropterous individuals represented a low percentage (<17%) and were only observed in sections with high densities. [ABSTRACT FROM AUTHOR]

Published
1985
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235. Resource partitioning between unionid mussels in a Swedish lake outlet.

Author

Brönmark, Christer and Malmqvist, Björn

Subjects
*MUSSEL fisheries, *MUSSELS, *ANODONTA, *ANIMAL nutrition, *AQUATIC animals
Abstract

Partitioning of food and space resources of two dominating unionid mussel species, Anodonta piscinalis and Unio pictorum, was investigated in a South Swedish lake outlet. Differences in diurnal activities were not considered lo be a mechanism for niche segregation. The two species ingested particles of almost identical size distribution indicating a high overlap in food. Mussel distribution was correlated to environmental variables including substrate properties, water depth, current velocity, and distance from the lake, the latter being a relative measure of food quality and quantity. U. pictorum dominated near the lake and in the centre of the river while A. piscinalis had its peak density ca. 500 m below the lake and was relatively more abundant along the river margins. At maximum mussel densities, which were found near the lake, a separation in space was more obvious than downstream, implying possible interspecific interactions. [ABSTRACT FROM AUTHOR]

Published
1982
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237. Effect of DDT and MCPA (4-chloro-2-methylphenoxyacetic acid) on reproduction of the pond snail, Lymnaea stagnalis L.

Author

Woin, Per and Brönmark, Christer

Subjects
PHYSIOLOGICAL effects of DDT, PHYSIOLOGICAL effects of MCPA (Herbicide), LYMNAEA stagnalis, SNAILS, DISSECTING microscopes, REPRODUCTION
Abstract

The article presents a study on the influence of dichlorodiphenyltrichloroethane (DDT) and herbicide 4-chloro-2-methylphenoxyacetic acid (MCPA) concentrations on reproduction of Lymnaea stagnalis, a pulmonate snail. The study observed snails in a jar with concentrations of DDT and MCPA, and their egg masses were counted using a dissecting microscope. Results showed that DDT and MCPA concentrations do not increase the snails' mortality, indicating that they may be relatively pesticide-resistant.

Published
1992
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239. Benefits of a predtor-induced morphology in crucian carp.

Author

Nilsson, P., Brönmark, Christer, and Pettersson, Lars

Abstract

Crucian carp ( Carassius carassius) develop a deeper body in response to chemical cues from piscivores. This change in body morphology has been suggested to be a predator-induced defence. Here we investigate the possible benefits of the induced body morphology in laboratory experiments. Pike foraging behaviour when feeding on crucian carp of different body depths was recorded using video. Further, in a preference experiment pike were allowed to choose between shallow-bodied and deep-bodied crucian carp of similar lengths. Crucian carp body morphology did not affect predatory behaviours (activity, searching, following, observing, capture success) in northern pike, but an increase in crucian carp body depth led to an increase in handling time in pike. In the preference experiment, pike preferred shallow-bodied crucian carp over deep-bodied. Thus, a change in body morphology, induced by the presence of piscivores, benefits crucian carp by increasing piscivore handling times and an avoidance of the deep-bodied phenotype. [ABSTRACT FROM AUTHOR]

Published
1995
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240. Trading off safety against food: state dependent habitat choice and foraging in crucian carp.

Author

Pettersson, Lars and Brönmark, Christer

Abstract

The influence of hunger level and predation risk on habitat choice and foraging in crucian carp, Carassius carassius, were studied in a laboratory experiment. Experiments were carried out in aquaria with or without a predator (pike, Esox lucius). Habitat use and foraging activity of three-fish foraging groups of either fed or hungry crucian carp were studied. Fish were allowed to choose between an open (risky) habitat with Tubifex worms and a habitat with dense vegetation (safe) without food. Habitat use was significantly affected by both risk of predation and hunger level. Crucian carp spent less time in the open habitat when there was a predator present and they also spent less time there when fed than when hungry. Furthermore, there was a significant interaction between risk of predation and hunger level, indicating a state-dependent trade-off between food acquisition and predator avoidance. [ABSTRACT FROM AUTHOR]

Published
1993
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241. Partial migration: an introduction.

Author

Chapman, Ben B., Brönmark, Christer, Nilsson, Jan-Åke, and Hansson, Lars-Anders

Subjects
*ANIMAL migration, *ANIMAL behavior, *ZOOGEOGRAPHY, *MIGRATORY animals, *ANIMAL ecology
Abstract

The article offers information on partial migration of animal. It mentions that animal migration is one of nature's most spectacular forms of animal movement and has a long and illuminating scientific history, with exciting new discoveries reported each year. It informs that partial migration is which is characterized by within-population variation in migratory tendency such that just a fraction of the population migrates.

Published
2011
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242. Fitness cost from fluctuating ultraviolet radiation in Daphnia magna

Author

Stábile, Franca, Brönmark, Christer, Hansson, Lars-Anders, and Lee, Marcus

Abstract

Solar ultraviolet radiation (UVR) is an important environmental threat for organisms in aquatic systems, but its temporally variable nature makes the understanding of its effects ambiguous. The aim of our study was to assess potential fitness costs associated with fluctuating UVR in the aquatic zooplankter Daphnia magna. We investigated individual survival, reproduction and behaviour when exposed to different UVR treatments. Individuals exposed to fluctuating UVR, resembling natural variations in cloud cover, had the lowest fitness (measured as the number of offspring produced during their lifespan). By contrast, individuals exposed to the same, but constant UVR dose had similar fitness to control individuals (not exposed to UVR), but they showed a significant reduction in daily movement. The re-occurring threat response to the fluctuating UVR treatment thus had strong fitness costs for D. magna, and we found no evidence for plastic behavioural responses when continually being exposed to UVR, despite the regular, predictable exposure schedule. In a broader context, our results imply that depending on how variable a stressor is in nature, populations may respond with alternative strategies, a framework that could promote rapid population differentiation and local adaptation.

Published
2021
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244. Predicting impact of freshwater exotic species on native biodiversity: Challenges in spatial scaling

Author

LODGE, DAVID M., STEIN, ROY A., BROWN, KENNETH M., COVICH, ALAN P., BRÖNMARK, CHRISTER, GARVEY, JAMES E., and KLOSIEWSKT, STEVEN P.

Abstract

Abstract Global homogenization of biota is underway through worldwide introduction and establishment of nonindigenous (exotic) species. Freshwater ecologists should devote more attention to exotic species for two reasons. First, exotics provide an opportunity to test hypotheses about what characteristics of species or habitats are related to successful establishment or invasibility, respectively. Second, predicting which species will cause large ecological change is an important challenge for natural resource managers. Rigorous statistical relationships linking species characteristics to probability of establishment or of causing ecological impacts are needed. In addition, it is important to know how reliable different sorts of experiments are in guiding predictions. We address this issue with different spatial scales of experiments testing the impact of two predators on native snail assemblages in northern Wisconsin USA lakes: an exotic crayfish, the rusty crayfish (Orconectes rusticus); and a native fish predator, the pumpkinseed sunfish (Lepomis gibossus). For the crayfish, laboratory experiments, a field cage experiment, and a snapshot survey of 21 lakes gave consistent results: the crayfish reduced abundance and species richness of native snails. Laboratory and field experiments suggested that pumpkinseed sunfish should have a similar impact, but the lake survey suggested little impact. Unfortunately, no algorithms exist to guide scaling up from small-scale experiments to the whole-lake, long-term management scale. To protect native biodiversity, management of freshwater exotic species should be targeted on lakes or drainages that are both vulnerable to colonization by an exotic, and that harbour endemic species. Management should focus on preventing introduction because eradication after establishment is usually not possible.

Published
1998
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245. Finotypic plasticity: Predator‐induced plasticity in fin size, darkness and display behaviour in a teleost fish.

Author

Hulthén, Kaj, Vinterstare, Jerker, Nilsson, P. Anders, and Brönmark, Christer

Subjects
*CRUCIAN carp, *PHENOTYPIC plasticity, *SIZE of fishes, *PREDATION, *SWIMMING, *PREDATORY animals
Abstract

Fish fins are remarkable devices of propulsion. Fin morphology is intimately linked to locomotor performance, and hence to behaviours that influence fitness, such as foraging and predator avoidance. This foreshadows a connection between fin morphology and variation in predation risk. Yet, whether prey can adjust fin morphology according to changes in perceived risk within their lifetime (a.k.a. predator‐induced plasticity) remains elusive.Here, we quantify the structural size of five focal fins in crucian carp (Carassius carassius) following controlled manipulations to perceived predation risk (presence/absence of pike Esox lucius). We also assess if crucian carp respond to increased predation risk by shifts in dorsal fin colouration, and test for differences in how fish actively use their dorsal fins by quantifying the area of the fin displayed in behavioural trials.We find that crucian carp show phenotypic plasticity with regards to fin size as predator‐exposed fish consistently have larger fins. Individuals exposed to perceived predation risk also increased dorsal fin darkness and actively displayed a larger area of the fin to potential predators.Our results thus provide compelling evidence for predator‐induced fin enlargement, which should result in enhanced escape swimming performance. Moreover, fin‐size plasticity may evolve synergistically with fin colouration and display behaviour, and we suggest that the adaptive value of this synergy is to enhance the silhouette of deep‐bodied and hard‐to‐capture prey to deter gape‐limited predators prior to attack. Together, our results provide new perspectives on the role of predation risk in development and evolution of fins. [ABSTRACT FROM AUTHOR]

Published
2024
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