Your search keyword '"Gill rakers"' showing total 9 results

1. Visual sensitivity and spatial resolution of the planktivorous fish, Atherinomorus forskalii (Atherinidae; Rüppell, 1838), to a polarized grating.

Author

Lerner A, Shmulevitz R, Browman HI, and Shashar N

Subjects

Animals, Behavior, Animal, Light, Oceans and Seas, Ocular Physiological Phenomena, Scattering, Radiation, Species Specificity, Contrast Sensitivity physiology, Pattern Recognition, Visual physiology, Photoreceptor Cells physiology, Predatory Behavior physiology, Smegmamorpha physiology, Visual Perception physiology, Zooplankton

Abstract

Polarized light detection has been documented in only a small number of fish species. The benefit of polarization vision for fish is not fully understood, nor is the transduction mechanism that underlies it. Past studies proposed that one possible advantage of polarization vision is that it enhances the contrast of zooplankton targets by breaking their transparency. Here, we used an optomotor apparatus to test the responses of the planktivorous Hardyhead silverside fish Atherinomorus forskalii (Atherinidae) to vertical unpolarized (intensity) and polarized gratings. We also tested and compared the spatial and temporal resolutions of A. forskalii in the intensity and polarization domains. A. forskalii responded to the polarization pattern, but only under illumination that included ultraviolet-blue (λ>380nm) wavelengths. The spatial resolution of A. forskalii was measured as a minimum separable angle of 0.57° (a 1-mm prey viewed from 100-mm distance). The temporal resolution to unpolarized vs. polarized gratings was constant, at 33 and 10Hz respectively at most of the stripe widths tested. At the smallest stripe width tested (1mm=the minimal separable angle), which correlates with the size of prey typically consumed by these fish, the temporal resolution to the polarized grating increased to 42Hz. We conclude that A. forskalii is polarization sensitive, may use polarization vision to improve detection of its planktonic prey, and that polarization may be perceived by the fish via a separate visual pathway than intensity., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2017

2. Structure, development and function of the branchial sieve of the common bream, Abramis brama, white bream, Blicca bjoerkna and roach, Rutilus rutilus

Author

van den Berg, Coen, Sibbing, Ferdinand A., Osse, Jan W. M., Hoogenboezem, Wim, Balon, Eugene K., editor, Wieser, Wolfgang, editor, Schiemer, Fritz, editor, Goldschmidt, Alfred, editor, and Kotrschal, Kurt, editor

Published

1992

3. Ecomorphological patterns linking morphology and diet across three populations of pumpkinseed sunfish ( Lepomis gibbosus).

Author

Berchtold, A.E., Colborne, S.F., Longstaffe, F.J., and Neff, B.D.

Subjects

*PUMPKINSEED (Fish), *FISH nutrition, *FISH populations, *LAKES, *STABLE isotope analysis, *ZOOPLANKTON

Abstract

Relationships between morphological traits and their ecological function frequently result in patterns that are consistently observed within taxa. Across fishes, the field of ecomorphology has identified a number of morphological traits linked to foraging tactic. Here we examined the links between morphology and diet in pumpkinseed sunfish ( Lepomis gibbosus (L., 1758)) from three temperate freshwater lakes. We focused on morphological variation in pharyngeal jaw and gill raker structures, both involved with the processing of prey after capture, in relation to diet. Using stomach contents and stable isotope analysis, we established mean resource use estimates for both populations and individual fish. Among populations and individuals within lakes, we observed that pharyngeal jaw size and gill raker spacing increased with the consumption of littoral prey (e.g., hard-shelled snails) relative to pelagic prey (e.g., zooplankton), but the morphological changes were greater for the pharyngeal jaws. Overall, the relationships that we observed between morphology and foraging tactic were consistent with patterns observed in pumpkinseed and across other fishes. Individual-level diet variation associated with morphology may result in phenotypic diversity within populations that has multiple ecological and evolutionary implications for these populations. [ABSTRACT FROM AUTHOR]

Published

2015

4. Midtrophic fish feeding modes at the poles: an ecomorphological comparison of polar cod (Boreogadus saida) and Antarctic silverfish (Pleuragramma antarctica)

Author

Marino Vacchi, Richard L. O'Driscoll, Erica Carlig, Davide Di Blasi, Laura Ghigliotti, Jørgen S. Christiansen, Sara Ferrando, and Eva Pisano

Subjects

Boreogadus saida, biology, Ecology, Ecomorphology, Filter feeder, Gill rakers, Pelagic zone, biology.organism_classification, Zooplankton, Antarctic silverfish, Feeding strategy, Jaw mechanics, Polar cod, Predation, Abundance (ecology), VDP::Mathematics and natural science: 400::Zoology and botany: 480, General Agricultural and Biological Sciences, VDP::Matematikk og Naturvitenskap: 400::Zoologiske og botaniske fag: 480

Abstract

The polar cod (Boreogadus saida) and the Antarctic silverfish (Pleuragramma antarctica) are pelagic fish endemic to the Arctic and Antarctica sea, respectively. Both species are abundant and play a central role as midtrophic wasp-waist species in polar ecosystems. Due to their biological and ecological characteristics (small size, complex life histories, relatively short generation cycles, movement capability, planktivorous diet, and importance as prey), the polar cod and the Antarctic silverfish are potentially good sentinels of ecosystem change. Changes in polar zooplankton communities are well documented. How changes impact ecosystems as a whole largely depend on the degree of diet specialization and feeding flexibility of midtrophic species. Here, we provide the ecomorphological characterization of polar cod and Antarctic silverfish feeding performances. A comparative functional ecology approach, based on the analysis of morpho-anatomical traits, including calculation of suction index and mechanical advantage in jaw closing, was applied to profile the feeding modes and flexibility of the two species. Ecomorphological evidence supports differences in food acquisition: the polar cod appears able to alternate particulate ram-suction feeding to a pump filter feeding, and the Antarctic silverfish results be both a particulate ram and a tow-net filter feeder. Both species exhibit opportunistic feeding strategies and appear able to switch feeding mode according to the abundance and size of the available prey, which is a clue of potential resilience to a changing environment.

Published

2021

5. Phenotype-environment correlations in a putative whitefish adaptive radiation.

Author

Harrod, Chris, Mallela, Jennie, and Kahilainen, Kimmo K.

Subjects

*GLACIAL lakes, *RADIOACTIVE pollution of water, *PHENOTYPES, *COREGONUS lavaretus, *ZOOPLANKTON

Abstract

1. The adaptive radiation of fishes into benthic (littoral) and pelagic (lentic) morphs in post-glacial lakes has become an important model system for speciation. Although these systems are well studied, there is little evidence of the existence of morphs that have diverged to utilize resources in the remaining principal lake habitat, the profundal zone. 2. Here, we tested phenotype-environment correlations of three whitefish ( Coregonus lavaretus) morphs that have radiated into littoral, pelagic and profundal niches in northern Scandinavian lakes. We hypothesized that morphs in such trimorphic systems would have a morphology adapted to one of the principal lake habitats (littoral, pelagic or profundal niches). Most whitefish populations in the study area are formed by a single (monomorphic) whitefish morph, and we further hypothesized that these populations should display intermediate morphotypes and niche utilization. We used a combination of traditional (stomach content, habitat use, gill raker counts) and more recently developed (stable isotopes, geometric morphometrics) techniques to evaluate phenotype-environment correlations in two lakes with trimorphic and two lakes with monomorphic whitefish. 3. Distinct phenotype-environment correlations were evident for each principal niche in whitefish morphs inhabiting trimorphic lakes. Monomorphic whitefish exploited multiple habitats, had intermediate morphology, displayed increased variance in gillraker-counts, and relied significantly on zooplankton, most likely due to relaxed resource competition. 4. We suggest that the ecological processes acting in the trimorphic lakes are similar to each other, and are driving the adaptive evolution of whitefish morphs, possibly leading to the formation of new species. [ABSTRACT FROM AUTHOR]

Published

2010

6. Experimental evidence that phenotypic divergence in predators drives community divergence in prey.

Author

Palkovacs, Eric P. and Post, David M.

Subjects

*PREDATORY animals, *BIOLOGICAL divergence, *ZOOPLANKTON, *BIOTIC communities, *ALEWIFE, *FORAGING behavior, *ANIMAL communities

Abstract

Studies of adaptive divergence have traditionally focused on the ecological causes of trait diversification, while the ecological consequences of phenotypic divergence remain relatively unexplored. Divergence in predator foraging traits, in particular, has the potential to impact the structure and dynamics of ecological communities. To examine the effects of predator trait divergence on prey communities, we exposed zooplankton communities in lake mesocosms to predation from either anadromous or landlocked (freshwater resident) alewives, which have undergone recent and rapid phenotypic differentiation in foraging traits (gape width, gill raker spacing, and prey size-selectivity). Anadromous alewives, which exploit large prey items, significantly reduced the mean body size, total biomass, species richness, and diversity of crustacean zooplankton relative to landlocked alewives, which exploit smaller prey. The zooplankton responses observed in this experiment are consistent with patterns observed in lakes. This study provides direct evidence that phenotypic divergence in predators, even in its early stages, can play a critical role in determining prey community structure. [ABSTRACT FROM AUTHOR]

Published

2009

7. Determination of feeding mode in fishes: the importance of using structural and functional feeding studies in conjunction with gut analysis in a selective zooplanktivore Chirostoma estor estor Jordan 1880.

Author

Ross, L. G., Mart&#00xED;nez-Palacios, C. A., Aguilar Valdez, Ma. del C., Beveridge, M. C. M., and Chavez Sanchez, Ma. C.

Subjects

*FISH food, *ZOOPLANKTON, *PLANKTON, *TEETH, *ENZYMES, *AQUATIC biology

Abstract

Anatomical and histological studies of the endangered atherinid Chirostoma estor estor reveal that the species is ideally adapted to feeding on zooplankton. It has a superior protractile mouth with short unicuspid mandibular teeth. The buccal cavity is a highly adapted branchial sieve with branchial spines which develop in complexity with age to form a continuous flexible interdigitated mat. The filter bed has many of the characteristics of a cross-flow filter, which is ideal for a continuously feeding and filtering animal as the filter bed will not readily become occluded. The aggregates from the cross-flow filter pass to the rear of the buccal cavity where they are triturated by well-developed pharyngeal teeth. The species has a short intestine (<0·3 × body length) with no histological evidence of stomach-like structures, no pyloric caecae and with trypsin-like enzymes operating at high pH. Feeding trials with natural plankton showed a sequence of particle size selection as the animals grow, with older animals taking cladocerans up to 700 μm in diameter. Although some adults occasionally take small fish prey, cumulatively, the present studies indicate that the fish is a zooplankton feeder throughout all its life stages. [ABSTRACT FROM AUTHOR]

Published

2006

8. Ecomorphological divergence drives differential mercury bioaccumulation in polymorphic European whitefish (Coregonus lavaretus) populations of subarctic lakes

Author

Tommi Malinen, Brian Hayden, Ossi Keva, Stephen M. Thomas, Elina K.M. Nystedt, Kimmo K. Kahilainen, Environmental Sciences, and Kilpisjärvi Biological Station

Subjects

Gills, 0106 biological sciences, Food Chain, Environmental Engineering, Gill rakers, PREY, Scandinavian and Nordic Countries, Biology, METHYLMERCURY, 010603 evolutionary biology, 01 natural sciences, Zooplankton, FRESH-WATER FISH, Gill raker, food, Arctic, Coregonus lavaretus, CHARR, Animals, Environmental Chemistry, Profundal zone, 14. Life underwater, TROUT SALMO-TRUTTA, Waste Management and Disposal, Ecosystem, Pelagic zooplankton, 1172 Environmental sciences, Trophic level, Stable isotopes, ACCUMULATION, SYMPATRIC WHITEFISH, SALVELINUS-ALPINUS L, food.dish, Ecology, 010604 marine biology & hydrobiology, fungi, Pelagic zone, Mercury, Pollution, ADAPTIVE RADIATION, Lakes, Heavy metals, Benthic zone, Benthic macroinvertebrates, Bioaccumulation, PARALLEL EVOLUTION, 1181 Ecology, evolutionary biology, Salmonidae, Water Pollutants, Chemical

Abstract

Resource polymorphism, whereby ancestral trophic generalists undergo divergence into multiple specialist morphs, is common in salmonid fish populations inhabiting subarctic lakes. However, the extent to which such resource specialization into the three principal lake habitats (littoral, profundal, and pelagic) affects patterns of contaminant bioaccumulation remains largely unexplored. We assessed total mercury concentrations (THg) of European whitefish (Coregonus lavaretus (L)) and their invertebrate prey in relation to potential explanatory variables across 6 subarctic lakes, of which three are inhabited by polymorphic (comprised of four morphs) and three by monomorphic populations. Among invertebrate prey, the highest THg concentrations were observed in profundal benthic macroinvertebrates, followed by pelagic zooplankton, with concentrations lowest in littoral benthic macroinvertebrates in both lake types. Broadly similar patterns were apparent in whitefish in polymorphic systems, where average age-corrected THg concentrations and bioaccumulation rates were the highest in pelagic morphs, intermediate in the profundal morph, and the lowest in the littoral morph. In monomorphic systems, age-corrected THg concentrations were generally lower, and showed pronounced lake-specific variation. In the polymorphic systems, we found significant relationships between whitefish muscle tissue THg concentration and gill raker count, resource use, lipid content and maximum length, whilst no such relationships were apparent in the monomorphic systems. Across all polymorphic lakes, the major variables explaining THg in whitefish were gill raker count and age, whereas in monomorphic systems, the factors were lake-specific. Whitefish resource polymorphism across the three main lake habitats therefore appears to have profound impacts on THg concentration and bioaccumulation rate. This highlights the importance of recognizing such intraspecific diversity in both future scientific studies and mercury monitoring programs. (C) 2017 Elsevier B.V. All rights reserved.

Published

2017

9. Structure, development and function of the branchial sieve of the common bream, Abramis brama, white bream, Blicca bjoerkna and roach, Rutilus rutilus

Author

Ferdinand A. Sibbing, Coen van den Berg, Jan W.M. Osse, and Wim Hoogenboezem

Subjects

Comb model, Gill rakers, Particle (ecology), Aquatic Science, Gill raker, Zooplankton, law.invention, Sieve, law, Gill slit, Channel model, Experimental Animal Morphology and Cell Biology, Ecology, Evolution, Behavior and Systematics, Retention ability, biology, Capacity, Common bream, Blicca bjoerkna, Anatomy, Eutrophication, biology.organism_classification, White (mutation), Experimentele diermorfologie en celbiologie, Filter feeding, Cyprinids, Energy ratio, Rutilus

Abstract

The filter feeding organ of cyprinid fishes is the branchial sieve, which consists of a mesh formed by gill rakers and tiny channels on the gill arches. In order to establish its possible role during growth we measured the following morphological gill raker parameters over a range of sizes in three cyprinid fishes, bream, white bream and roach: inter raker distance, bony raker length, raker width, cushion length and channel width. At any given standard length common bream has the largest inter raker distance, roach the lowest and white bream is intermediate. In the ‘comb model’ of filter feeding the inter raker distance is considered to be a direct measure of the mesh size and retention ability (= minimal size of prey that can be retained) of a filter. For the three species under study there is a conflict between the comb model and experimental data on particle retention. Lammens et al. (1987) found that common bream has a large retention ability whereas roach and white bream have a much smaller one. A new model, the ‘channel model’ (Hoogenboezem et al. 1991) has been developed for common bream; in this model the lateral gill rakers can regulate the mesh size of the medial channels on the other side of the gill slit. The present data indicate that this model is not appropriate for white bream and roach. At any given standard length white bream and roach only reach 70% of the raker length of common bream, which means that in this model the gill slits should to be very narrow during filter feeding. The gill rakers consist of a bony raker and a fleshy cushion. The bony rakers have a rather long needle-like part outside the cushion in bream, but not in white bream and roach which have blunt gill rakers. Blunt gill rakers are not suited to reduce the diameter of the medial channels. The comb model seems more appropriate for white bream and roach, but doubts about the validity of this simple model remain. The sum of the areas of the medial channels is an approximation of the area through which water flows in the filter. This channel area therefore gives an impression of the capacity or flow rate of the filter. With this capacity estimation and an estimation of energy consumption we calculated an energy ratio of filter feeding. The energy ratio decreases with increasing standard length with an exponent close to the expected exponent of -0.40. The energy ratio is highest in bream, intermediate in white bream and lowest in roach.

Published

1992