Christer Brönmark

Predator-Induced Phenotypical Change in Body Morphology in Crucian Carp

In a field experiment where the presence or absence of piscivorous pike (Esox lucius) in ponds was manipulated, the morphology of crucian carp (Carassius carassius) diverged, such that individuals became deeper bodied in pond sections with pike. A laboratory experiment confirmed that the presence of this predator induced a change in body morphology in the carp. Estimation of prey vulnerability to predation by pike, a gape-limited predator, revealed that this increase in body depth resulted in crucian carp reaching a size that provided refuge from predation. However, this change in morphology incurs a cost through an increase in drag when the carp are swimming. Because crucian carp are limited by resources in the absence of piscivores and by the substantial cost of the defensive morph in their presence, phenotypic plasticity should be the optimal strategy for this species.

Invading herbivory : the golden apple snail alters ecosystem functioning in Asian wetlands

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.

THE INFLUENCE OF MULTIPLE INTRODUCED PREDATORS ON A LITTORAL POND COMMUNITY

In a replicated field experiment we studied the effects of natural densities of two exotic consumers, the predatory and herbivorous signal crayfish (Pacifastacus leniusculus) and the predatory rainbow trout (Oncorhynchus mykiss), on multiple trophic levels of a pond community. The goals were to: (1) determine the individual and combined effects of predators on macroinvertebrates, macrophytes, and periphytic algae; (2) evaluate the strength of direct and indirect interactions in a food web influenced by omnivores; and (3) evaluate the relative importance of direct and indirect predator effects on mortality and growth of a native frog species, Rana temporaria. The experiment showed that both signal crayfish and rainbow trout had strong effects on multitrophic levels of a littoral pond community, through direct consumption and indirect effects on lower trophic levels. Crayfish had weak but significant negative effects on the biomass of predatory invertebrates and greatly reduced the biomass of snails, the most abundant invertebrate grazers. Although the number of active herbivorous tadpoles tended to be higher in crayfish cages relative to control cages, the proportion of surviving froglets was lower in crayfish cages than in control cages, possibly due to crayfish predation on injured tadpoles. The size of surviving froglets did not differ from controls, but tadpoles in crayfish cages often suffered tail injuries. Macrophyte coverage decreased as a result of crayfish consumption and nonconsumptive fragmentation. However, the biomass of periphyton increased in crayfish cages relative to controls, probably due to reduced grazing from snails. In contrast, trout had strong negative effects on the biomass of both predatory invertebrates and insect grazers, whereas trout had less effect on snail biomass than did crayfish. Also, in contrast to crayfish cages, the number of active tadpoles in trout cages was lower than in controls, probably due to a combination of trout predation and trout-induced reduced tadpole activity. Trout had a strong negative impact on froglet survival, and froglets in trout cages metamorphosed at a smaller size and had reduced growth rates compared to froglets in crayfish and control cages. As with crayfish, the biomass of periphyton increased in trout cages relative to controls, which may be due to a combination of both density and trait-mediated trout effects on tadpole grazing. In treatments with multiple predators the effects of crayfish and trout on caged communities were independent, and there were few interactions. Mostly effects of combined predators reflected those in single predator cages. Our results demonstrate that noninteracting, introduced multiple predators can have strong direct and indirect effects on multiple trophic levels in pond communities. Trophic cascades may develop in aquatic food webs even with omnivores such as crayfish, and in complex habitats with trout. These strong indirect effects are mediated through both predation on important grazers (i.e., the crayfish-snail-periphyton link) and a combination of density and behavioral responses of grazers to predators (i.e., the trout-tadpole-periphyton link). When two noninteracting predators have strong but different effects on prey survival or activity, their combined effects on intermediate trophic levels reflect responses to the more dangerous predator. (Less)

Environmental issues in lakes and ponds: current state and perspectives

Lakes and ponds are habitats of great human importance as they provide water for domestic, industrial and agricultural use as well as providing food. In spite of their fundamental importance to humans, freshwater systems have been severely affected by a multitude of anthropogenic disturbances, which have led to serious negative effects on the structure and function of these ecosystems. The aim of the present study is to review the current state of lake and pond ecosystems and to present a likely scenario for threats against these ecosystems for the time horizon of the year 2025. Predictions are based on a review of the current state, projections of long-term trends, for example in population and global climate, and an analysis of the trends in publications in the scientific literature during the past 25 years (1975-2000). The biodiversity of lake and pond ecosystems is currently threatened by a number of human disturbances, of which the most important include increased nutrient load, contamination, acid rain and invasion of exotic species. Analysis of trends suggests that older, well known threats to biodiversity such as eutrophication, acidification and contamination by heavy metals and organochlorines may become less of a problem in developed countries in the future. New threats such as global warming, ultraviolet radiation, endocrine disruptors and, especially, invasion by exotic species including transgenic organisms will most likely increase in importance. However, in developing countries where priorities other than environmental conservation exist, the threat of eutrophication, acidification and contamination by toxic substances is predicted to continue to increase. Although the future of biodiversity in lakes and ponds is seriously threatened, growing concern for environmental problems, implementation of new environmental strategies and administrations, and international agreements, are positive signs of changes that should improve the ability to manage old as well as new, yet undiscovered, threats.

To boldly go: individual differences in boldness influence migratory tendency

Partial migration, whereby only a fraction of the population migrates, is thought to be the most common type of migration in the animal kingdom, and can have important ecological and evolutionary consequences. Despite this, the factors that influence which individuals migrate and which remain resident are poorly understood. Recent work has shown that consistent individual differences in personality traits in animals can be ecologically important, but field studies integrating personality traits with migratory behaviour are extremely rare. In this study, we investigate the influence of individual boldness, an important personality trait, upon the migratory propensity of roach, a freshwater fish, over two consecutive migration seasons. We assay and individually tag 460 roach and show that boldness influences migratory propensity, with bold individuals being more likely to migrate than shy fish. Our data suggest that an extremely widespread personality trait in animals can have significant ecological consequences via influencing individual-level migratory behaviour.

CONDITION‐DEPENDENT INDIVIDUAL DECISION‐MAKING DETERMINES CYPRINID PARTIAL MIGRATION

Partial migration is a common phenomenon among many animals and occurs in many types of ecosystems. Understanding the mechanisms behind partial migration is of major importance for the understanding of population dynamics and, eventually, ecosystem processes. We studied the effects of food availability on the seasonal partial migration of cyprinid fish from a lake to connected streams during winter by the use of passive telemetry. Fish with increased access to food were found to migrate in higher proportion, earlier in the season, and to reside in the streams for a longer period compared to fish with decreased access to food. Furthermore, fewer unfed migrants returned to the lake, indicating higher overwinter mortality. Our results suggest that individual fish trade off safety from predation and access to food differently depending on their body condition, which results in a condition-dependent partial migration. Hence, our main conclusion is that individual decision-making is based on assessment of own condition which offers a mechanistic explanation to partial migration. Moreover, this may be of high importance for understanding population responses to environmental variation as well as ecosystem dynamics and stability.

Influence of an Exotic and a Native Crayfish Species on a Littoral Benthic Community

The aim of this study was to compare the effects of the introduced signal crayfish (Pacifastacus leniusculus) and the native noble crayfish (Astacus astacus) on a benthic food web. We mimicked the habitat of a pond littoral in 4.5-m 2 plastic pools stocked with natural densities of macrophytes, invertebrates and either signal crayfish, noble crayfish, or kept as crayfish free controls. After two summer months, all invertebrates and macrophytes were collected from each pool, and periphyton was sampled on one substratum exposed and two substrata not exposed to crayfish grazing. Samples for stabile isotope analysis of benthos were collected in pools with noble crayfish. 15 N ratios showed that crayfish were top consumers, and 13 C ratios indicated that they received most of their carbon from invertebrates, but less from primary producers. Crayfish did not affect the biomass of predatory invertebrates, dominated by active swimmers among Heteroptera and Coleoptera, but had a strong impact on grazers dominated by thin-shelled Lymmaea snails. Hard-shelled Bithynia snails were also reduced in numbers, but the largest of these snails were consumed less than thin-shelled Lymmaea snails. The reduced biomass of snails had an indirect positive effect on periphyton biomass on all three substrata. Crayfish grazed selectively on macrophytes and reduced the biomass of Chara, whereas Elodea was less affected. The exotic signal crayfish had, overall, a stronger impact on the biomass of macrophytes and grazers than the native noble crayfish. The results indicate that crayfish may structure food webs through consumption from many food levels. The short-term influence of crayfish on other trophic levels depends on crayfish feeding efficiency, food preferences and species-specific consumption rates.

Chemical cues from piscivores induce a change in morphology in crucian carp

Crucian carp (Carassius carassius) develop a deeper body in the presence of northern pike (Esox lucius) and this has been suggested to be a predator-induced morphological defense. The evolution of inducible defenses requires that prey have reliable cues of detecting the predator. Here we investigate the nature of the cues used by crucian carp in a series of laboratory experiments. We monitored the change in body depth of crucian carp when exposed to visual and chemical cues from predators and to alarm substances from conspecifics. Results show that chemical cues are sufficient to induce an increase in body depth of crucian carp. Alarm substances released by injured crucians had no effect on body depth, whereas pike, even when not feeding in the experimental aquaria, induced an increase in body depth

Interactions between macrophytes, epiphytes and herbivores: an experimental approach

Influence sur la croissance de Ceratophyllum demersum des epiphytes et des herbivores Lymnea peregra et Planorbis planorbis

Indirect Effects of Predation in a Freshwater, Benthic Food Chain

During part of this study C. Bronmark was supported by an Ohio State University post-doctoral fellowship, funded through the Graduate School, The Ohio State University. Support from the National Science Foundation (to R. A. Stein, BSR 850772) and from the Swedish Natural Science Research Board and the Swedish Institute (to C. Bronmark) is appreciated.