Mating patterns of female Leon Springs pupfish Cyprinodon bovinus.

In a field study of Leon Springs pupfish Cyprinodon bovinus, two questions about female promiscuity were investigated. First, were females selective in the males with whom they spawned or were they unselective, spawning randomly among males? Second, how promiscuous were the females, i.e. with how many males did they spawn? If simply spawning with many males maximized a female's reproductive success, then females might be expected to spawn randomly with as many males as possible. Alternatively, if females were selective but engaged in multiple mating, they would limit their spawning to preferred males. In the only wild population of this endangered fish, breeding males defend closely associated territories in the shallow margins of a single desert pool. No territories were observed elsewhere in the pool. Therefore, all territorial males were present simultaneously and females could survey all of them, depositing any number of eggs with one, a few or many males. Rather than spawning randomly, females surveyed many males first, visited relatively few males and ultimately spawned with a small fraction of those available males. With increasing numbers of spawns, however, females increased the number of different mates with whom they spawned. Thus, females showed a bet-hedging tactic of having a narrow mate preference while also laying eggs in the territories of other males, possibly to reduce egg predation and to avoid inbreeding.

Predictability of food supply, but not ration, increases exploratory behaviour in zebrafish Danio rerio.

Individual zebrafish Danio rerio were assayed for exploratory tendency in a serial open field test before and after being maintained on one of four diet treatments that differed in ration and in predictability of food delivery. Danio rerio became more exploratory after being maintained on a diet with a predictable delivery schedule. There was no effect of ration. Thus, exploratory behaviour is inducible by environmental influences independent of genetic predisposition or social interactions. These results have implications for management of correlated behavioural syndromes of exploratory and boldness of animals reared in captivity for later release into wild populations.

Functional constraints on nest characteristics of pebble mounds of breeding male hornyhead chub Nocomis biguttatus.

Breeding male hornyhead chub Nocomis biguttatus constructed nests in areas with relatively high but less than maximum flow rate and greater than average water depth. Nests comprised c. 3000 pebbles for a total mass of 11 kg. Males selected pebbles of smaller diameter but higher density than pebbles in the immediate vicinity. Thus, nests balanced the risk of mound erosion and energetic cost of nest construction with the benefits of protection from egg predators and a stable internal flow rate for oxygenation. These data help establish environmental management goals for the conservation of N. biguttatus and the lotic ecosystems dependent upon them.

Avoidance of conspecific injury-released chemical cues by free-ranging Gammarus lacustris (Crustacea:Amphipoda).

Behavioral responses to chemical cues have been demonstrated for a range of aquatic animals. Injury-released chemical alarm cues from conspecifics are released when a prey's predator is actively foraging. Detection of these cues elicits antipredator behaviors that reduce the probability of predation. Amphipod crustaceans in the genus Gammarus are widespread denizens of ponds and streams. Antipredator responses by Gammarus to conspecific alarm cues, and subsequent reduction of predation risk, are known from experiments in the laboratory. Here, we verify laboratory findings by demonstrating an avoidance response to alarm cues using a field population of G. lacustris. We used small traps baited with sponge blocks containing either water (control) or injury-released cues from Gammarus. We repeated the experiment twice. In both experiments, significantly fewer Gammarus were captured in traps with alarm cue sponges than in traps with water sponges. Predatory leeches Dina parva were attracted to Gammarus traps in the first experiment but not the second experiment. In the second experiment, we measured the individual weight of captured amphipods. Two size classes were present; small (1-5 mg) and large (35-108 mg). Both sizes contributed to the avoidance response. Within the large size class, small individuals were significantly less responsive to the alarm cue than large individuals, implying that small adult Gammarus may have different cost/benefit decision criteria for risk assessment than large Gammarus.

Olfactory assessment of predation risk in the aquatic environment.

The aquatic environment is well suited for the transmission of chemical information. Aquatic animals have evolved highly sensitive receptors for detecting these cues. Here, I review behavioural evidence for the use of chemical cues by aquatic animals for the assessment of predation risk. Chemical cues are released during detection, attack, capture and ingestion of prey. The nature of the cue released depends on the stage of the predation sequence in which cues are released. Predator odours, disturbance pheromones, injury-released chemical cues and dietary cues all convey chemical information to prey Prey use these cues to minimize their probability of being taken on to the next stage of the sequence. The evolution of specialized epidermal alarm substance cells in fishes in the superorder Ostariophysi represent an amplification of this general phenomenon. These cells carry a significant metabolic cost. The cost is offset by the fitness benefit of the chemical attraction of predators. Attempts of piracy by secondary predators interrupt predation events allowing prey an opportunity for escape. In conclusion, chemical cues are widely used by aquatic prey for risk assessment and this has resulted in the evolution of specialized structures among some taxa.

Early warning in the predation sequence: A disturbance pheromone in Iowa darters (Etheostoma exile).

The probability of prey avoiding a predator's attack should increase if the predator's presence is detected at an early stage in the predation sequence. In this study, we tested whether threatened Iowa darters (Etheostoma exile) release disturbance pheromones that warn conspecifics of the presence of predation threat. Pairs of aquaria were visually isolated from one another, but connected chemically by water circulating between them. Darters in one aquarium were observed before and after darters in the other aquarium were chased with a model predator. In control tests, the model was moved in the same manner but there were no darters in the upstream tank. Darters receiving water from threatened fish increased vigilance behavior and decreased movement. Vigilant fish raised their head above the substratum, propping themselves up on their pectoral fins and/or arching their neck dorsally, pointing the snout upward. Exposure to water from disturbed darters suppressed exploratory behavior and resulted in movement by short rapid hops that ended abruptly in a rigid, alert posture. This study suggests that Iowa darters release a disturbance pheromone that can provide conspecifics with an early warning of predation risk.

Risk-sensitive habitat use by brook stickleback (Culaea inconstans) in areas associated with minnow alarm pheromone.

Brook stickleback (Culaea inconstans) share habitat and predators with cyprinid species, and they exploit the alarm pheromone of fathead minnows (Pimephales promelas) to avoid areas of high predation risk. In this field experiment, we measured the retention and duration of area avoidance by brook stickleback from areas marked with alarm pheromone of fathead minnows. Area avoidance was greatest during the first 2 hr after the source of the alarm pheromone was removed (P<0.05), but after 4 hr, area use was not significantly different from premarking levels. This study shows that brook stickleback: (1) use the alarm pheromone of fathead minnows to avoid high risk areas, (2) continue to avoid locations associated with predation risk after the source of the pheromone has gone, and (3) avoid risky areas temporarily, and resume use of risky areas after 2-4 hr. This behavioral response by stickleback to minnow alarm pheromone could serve to minimize risk of predation.