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1.
Winter short-distance migration of juvenile fish between two floodplain water bodies of the Lower River Rhine 总被引:1,自引:0,他引:1
Abstract – During winter, large numbers of juvenile fishes (mainly roach, Rutilus rutilus L.) were observed to migrate at dawn from a floodplain lake into a connected channel, whereas they migrated in the opposite direction at dusk. The diurnal migration pattern was strongly correlated to light intensity. The total number of migrating fish decreased from autumn to spring. Ice coverage and water temperature were the only abiotic factors that affected the seasonal migration pattern significantly. Moonlight, water level, current velocity, rainfall, insolation and wind velocity did not influence the observed migration of juvenile fish. The results are discussed in relation to food availability, predation risk and energy conservation. 相似文献
2.
ABSTRACT: The life history and ecology of the glowbelly Acropoma japonicum a commercially important fishery resource, were investigated in the Uwa Sea, Japan. Newly settled juveniles (0+ ) appeared at the end of the breeding season and reached maturity in the next season, i.e. when they became yearlings (1+ ). The yearlings made a gametic effort comparable to that of older fish. During the breeding season, the somatic conditions were more deteriorated for males than for females. That the deterioration of male somatic conditions was not attributable to a sexual difference in energy gain from feeding suggests that the males incurred higher energetic costs of reproduction despite their relatively low gonadosomatic indices. Such an energy depletion may increase the mortality risk, resulting in female-biased sex ratios in the older age classes. Most of the 1+ fish disappeared in winter following their first breeding. For A. japonicum , the observed precocity and short life span is notable because it is a higher consumer that is generally expected to show later maturation and longer life. As possible explanations for their disappearances, predation and postbreeding emaciation were less likely. While fishing is one of the most influential factors, the possibility of age-specific migration toward deeper waters remains to be examined. 相似文献
3.
In the Norwegian fjord Masfjorden, different developmental stages of the mesopelagic planktivore Maurolicus muelleri form vertically separate sound scattering layers (SSLs) and in late autumn display different diel vertical migration (DVM) behaviour. Post‐larvae and juvenile fish perform normal crepuscular DVM, whereas the large majority of adults remain at depth throughout the diel period. In this study we examined the stomach contents of juvenile and adult fish caught at different times and depths during a 24‐h period in autumn. The different DVM behaviour of these two SSLs in addition to a shallow layer believed to be composed of post‐larvae is explained with a model for visual foraging in aquatic environments that uses gradients in vertical light intensity and copepod density and size as input variables. Field data revealed that vertically migrating juveniles distributed at a higher ambient light intensity and on average consumed 25 times more copepods than non‐migrating adult fish. The model showed that juveniles experienced a 15 times higher prey encounter rate and a higher level of predation risk than non‐migrating adults, and that the energetic benefits for post larvae and juveniles from prolonged feeding in a nearly constant and brighter environment outweigh the associated predation risk. The model also suggests that the visual detection range of piscivore predators is relatively more limited by the turbid surface water than that of their prey, which provide the post‐larva and juvenile life‐stages of M. muelleri a window of reduced visual predation near the surface. 相似文献
4.
Abstract – We present the first data on three-spined stickleback ( Gasterosteus aculeatus ) life history and habitat use in seasonal Mediterranean streams, analysing populations from NE Iberian Peninsula. Stickleback populations were strictly annual, with reproduction events involving exclusively 1+ fish. Somatic growth was concentrated in two periods, one in spring and early summer, and another in autumn and winter. During summer there was a clear stop in the somatic growth, coupled with low values of somatic condition. This growth pattern contrasts both with that of other Mediterranean stream fish species and that of stickleback in other European locations. Stickleback populations occupied mainly intermediate locations along fluvial gradients. The presence of abundant aquatic vegetation was identified as one of the main factors related with both stickleback presence and the abundance of its populations, while the latter was also negatively related with that of invasive fish and crayfish species. Stickleback tended to occur in native-dominated fish communities, being almost absent from lower stream reaches, which bear high abundances of invasive fish species. 相似文献
5.
本研究选取乌鳢(Channa argus)和南方大口鲶(Silurus soldatovi meridionalis)为捕食者,青鱼(Mylopharyngodon piceus)、草鱼(Ctenopharyngodon idellus)、鲢(Hypophthalmichthys molitrix)、鳙(Aristichthys nobilis)幼鱼为猎物鱼,比较了在无捕食(空白对照)、低捕食(隔网胁迫)和高捕食(直接胁迫)压力下,胁迫0、7、14 d后,“四大家鱼”幼鱼血清皮质醇(COR)水平和血液生化指标的变化。结果显示,不同捕食胁迫水平下,“四大家鱼”幼鱼的血液生化指标和COR水平变化程度不同,但变化趋势一致。“四大家鱼”幼鱼的COR水平随着捕食胁迫程度和胁迫时长的增加显著升高,表现为无捕食组<低捕食组<高捕食组,0 d<7 d<14 d。在血液生化指标中,血清蛋白浓度和总胆固醇(CHO)浓度较为稳定,各组相比无显著变化;血糖(GLU)浓度和碱性磷酸酶(ALK)在捕食胁迫下升高,甘油三酯(TG)则相反,呈下降趋势。研究表明,“四大家鱼”幼鱼会根据捕食风险来增强自身生存能力的方式及调整生理反应。捕食胁迫处理后,“四大家鱼”幼鱼均产生了应激反应,与隔网捕食相比,直接捕食对鱼体生理反应影响更为显著,且随着胁迫时长的增加应激程度也随之增加。各检测指标中,血清蛋白和CHO可能不是捕食胁迫下鱼类应激的敏感指标;COR和GLU的变化最为显著,这可能是为了弥补应激期间机体对能量需求的增大。 相似文献
6.
Is behaviour in a novel environment associated with bodily state in brown trout Salmo trutta fry? 
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下载免费PDF全文 Energetic status and body size are inconstant bodily states often considered to have feedback effects on behaviour. Feedbacks can be negative, like starvation‐threshold feedbacks (lower state values = increased risk taking due to higher energy need, and vice versa), or positive, like state‐dependent safety feedbacks (higher state values = lower vulnerability when expressing risky behaviours, and vice versa). Few studies have investigated feedback effects during the early‐life survival bottleneck of territorial species, when rapid growth is particularly important to maintain competitive ability. We investigated effects of body size and energetic status on the emergence latency into an unknown environment in highly territorial brown trout fry. We manipulated energetic status using high and low food rations in different combinations over two consecutive periods. In contrast to results from other small‐sized fishes, no general behavioural effects of energetic state were detected, but larger fish had on average shorter emergence latency. Starvation‐threshold feedbacks were not supported, but the size effect favours the presence of a state‐dependent safety feedback. When individuals were split into clusters characterised by long (>34 s) and short (<34 s) emergence latency, a state‐dependent safety feedback, based on energetic status, was found in the short‐latency cluster. Positive state‐dependent feedbacks may reflect the high level of competition among wild trout fry during the first summer, particularly among the more active individuals (i.e., from the short latency cluster). High state levels could be utilised to gain advantages over lesser competitors (e.g., to establish territories), particularly if the overall risk of starvation is higher than the risk of predation. 相似文献
7.
Billman EJ, Tjarks BJ, Belk MC. Effect of predation and habitat quality on growth and reproduction of a stream fish.Ecology of Freshwater Fish 2011: 20: 102–113. © 2010 John Wiley & Sons A/S Abstract – Anthropogenic disturbances are rarely independent, requiring native fishes to respond to multiple factors to persist in changing environments. We examined the interaction of predation environment (presence of introduced brown trout, Salmo trutta) and habitat quality on growth and reproduction of southern leatherside chub, Lepidomeda aliciae, a small‐bodied stream fish native to central Utah, USA. Southern leatherside chub were sampled from four streams representing a complete two‐factor cross of predation environment and habitat quality. Growth was estimated using increment analysis of annuli on otoliths, and reproductive traits were measured for both sexes. Southern leatherside chub growth was greater in high‐quality than in low‐quality habitats, and greater in predator than in nonpredator environments. However, fish exhibited a greater growth response to presence of brown trout in low‐quality habitats. Southern leatherside chub growth followed predictions of plastic responses to resource availability based on habitat quality and predation environment (lethal vs. nonlethal effects). Reproductive allocation (gonad wet mass) was significantly greater in low‐quality versus high‐quality habitats, but was unaffected by predation environment. Other female life‐history traits were affected either by both effects or their interaction. Reproductive responses to habitat quality and predation environment were consistent with predictions based on differential mortality. Southern leatherside chub growth and reproduction responded differently to the combination of habitat quality and predation environment, thus demonstrating the importance of assessing interacting effects of anthropogenic disturbances to more fully comprehend impacts on native species and to appropriately manage, recover and restore these species and their habitats. 相似文献
8.
Abstract – We investigated several indices (relative weight, mesentery fat, hepatosomatic index, gonadosomatic index, muscle index and visceral somatic index) of largemouth bass Micropterus salmoides (Lacèpede) as a function of season, gender and length to determine how these indices changed with energy content. Length was a significant influence in all comparisons of monthly index measurements, with the exception of the muscle index. All indices, except for the gonadosomatic index, showed few significant differences between sexes for all length groups. Generally, index values were associated with seasonal changes in prey relative abundance and temperature, and the reproductive cycle in mature fish. Total body energy was most influenced by muscle energy stores. Hepatic and gonadal energy of large, sexually mature females decreased considerably with the onset of spawning. Muscle and hepatic energy, to a lesser extent, supported gonadal development. Muscle index values closely tracked seasonal changes in muscle energy, thus providing a useful tool for evaluating seasonal growth and energy patterns. The hepatosomatic index responded to changes in body condition of small and medium fish until June, after which further increases in plumpness caused the utility of this index to decrease. The mesentery fat index provided a useful measure of stored energy available for long-term needs, relative to other energy depots. Seasonal dynamics of invasive condition indices must be considered in light of rapid increases or decreases in body weight (e.g., spawning loss of gametes). 相似文献
9.
Predation effects on matrotrophy,superfetation and other life history traits in Phalloceros harpagos 下载免费PDF全文
下载免费PDF全文 This study investigates the effect of a predation gradient on the female life history traits of the poeciliid live‐bearing fish Phalloceros harpagos from a tropical stream in Brazil. Females’ length at maturity, somatic dry mass, reproductive allotment and fecundity varied significantly among predation sites. Phalloceros harpagos from the high‐predation site showed smaller size at maturity and somatic dry mass, greater reproductive allotment and higher fecundity than the nonpredation site. In all sites, we observed superfetation: pregnant females with two broods at different developmental stages. The presence of superfetation was not observed before in other congeneric species, and it may represent an additional independent evolutionary origin of superfetation in the fish family Poeciliidae. Matrotrophy, the postfertilisation maternal provisioning of nutrients to developing embryos throughout gestation, was observed in all three sites, with values of the matrotrophy index above two. The population under high predation pressure showed the highest degree of matrotrophy (embryos quadruplicate their dry mass during development) and the greatest percentage of females with superfetation (44.4%). Some life history traits responded more strongly to predators’ presence and others to predator density. These results suggest that different predation regimes shape female life history traits, increasing fecundity in high‐predation sites. The results also suggest a link between the cost of reproduction and the evolution of matrotrophy and superfetation, potentially to reduce the risk of predation without reducing fecundity. 相似文献
10.
Timing of reproduction is an important life‐history trait that varies among species as a function of energy allocation strategy, particularly as individuals are influenced by seasonal variations prior to and during the reproductive season. This study investigated size‐ and sex‐based seasonal patterns of energy allocation in bluegill, Lepomis macrochirus (Rafinesque), a species that spawns repeatedly throughout the summer, by quantifying gonad, liver and mesenteric fat masses. Results indicate that bluegill delay production of gonad tissue until the onset of the spawning season and use an ‘income spawning’ approach. Comparisons of energetic trends with crappies, Pomoxis annularis (Rafinesque) and P. nigromaculatus (Lesueur), a confamilial species of relatively similar size and morphology that spawns in the spring, highlight the flexibility of energy allocation patterns even among relatively similar fishes and shed light on bluegill life‐history strategies. 相似文献
11.
E. M. Olsen H. Knutsen J. H. Simonsen B. Jonsson J. A. Knutsen 《Ecology of Freshwater Fish》2006,15(4):446-452
Abstract – Sea trout ( Salmo trutta ) originating from small coastal streams can be found at sea throughout the year, in contrast to conspecifics from larger rivers, which typically spend the autumn and winter in fresh water. Such an extended marine stay has been observed in coastal Skagerrak. We studied the seasonal variation in marine growth of Skagerrak sea trout based on scale increment patterns and body lengths of 563 individuals captured at sea. Growth, measured as increased body length, was rapid during summer while there was no evidence for continued growth during autumn and winter. Growth decreased with increasing age of the fish. Our results suggest that coastal Skagerrak is an important feeding area for sea trout during summer, and that an extended marine stay during autumn and winter may have trade-off benefits other than somatic growth. Alternative benefits might be increased winter survival and decreased migratory costs of juvenile fish. 相似文献
12.
Abstract— Large piscivorous fish are assumed to affect habitat selection and food intake of prey fish. To study the effects of cannibalistic Arctic charr, Salvelinus alpinus (L.), on smaller stunted charr, we sampled the prey fish in littoral and pelagic habitats using gill nets, before and shortly after the release of large charr in a small lake (0.52 km2 ). In the habitats where the risk of predation was highest, the catch per unit effort de creased from 13.3 to 4.8 fish per 100 m2 of gillnet after release of pred ators. The large decrease in numbers of charr < 18 cm corresponded with the predicted vulnerable prey sizes, according to a model based on the size distribution of predators. The occurrence of planktivorous fish and weight-specific food intake decreased in the high risk habitat and remained unaffected in the low risk habitats. Changes in the food intake of prey fish could not be explained in terms of fish length, indicating that prey fish changed diet when the risk of predation was high. 相似文献
13.
Extrathyroidal T4 5′-monodeiodination, demonstrated in several teleost species, generates T3 which binds more effectively than T4 to putative nuclear receptors and is probably the active thyroid hormone. T4 to T3 conversion is sensitive to the physiological state and provides a pivotal regulatory link between the environment and thyroid
hormone action. T3 generation is enhanced in anabolic states (positive energy balance or conditions favoring somatic growth; food intake or
treatment with androgens or growth hormone) and is suppressed in catabolic states (negative energy balance or conditions not
favoring somatic growth; starvation, stress, or high estradiol levels associated with vitellogenesis). In fish, as in mammals,
thyroidal status may be finely tuned to energy balance and through T3 production regulate energy-demanding processes, which in fish include somatic growth, development and early gonadal maturation. 相似文献
14.
Reproductive strategies in Atlantic salmon, Salmo salar L. 总被引:1,自引:0,他引:1
J. E. THORPE 《Aquaculture Research》1994,25(1):77-87
Abstract. Life-history strategies are means by which animals solve the problems of successful reproduction in varying environments. Their development patterns are consequences of responses to the opportunities the environment offers them. Understanding them requires an understanding of the way they evolved, their ontogenetic development, their physiological control, and their adaptive value. The present paper views the salmonids as marine fishes, which have radiated into fresh water through using river beds as protected spawning grounds. It also takes the view that the maturation process has priority over somatic growth in fish, and that it has already been initiated by the time of first feeding. Its completion is environmentally dependent, and can be arrested annually. Whether or not it will be arrested depends on the status of the energy stores of the individual at particular critical times of year. This mechanism has adaptive value both for immediate reproductive success — adequate energy to provision the next generation — and for later overwinter survival, ensuring that if energy stores are inadequate for reproduction they are spared. Atlantic salmon show variation in their reproductive patterns, and examples are given from laboratory and aquaculture experiments to demonstrate some environmental controls which result in these variations. A hypothetical model is presented to account for the operation of these controls. 相似文献
15.
Robert T. Cooney J. R. Allen M. A. Bishop D. L. Eslinger T. Kline B. L. Norcross C. P. Mcroy J. Milton J. Olsen V. Patrick A. J. Paul D. Salmon D. Scheel G. L. Thomas S. L. Vaughan T. M. Willette 《Fisheries Oceanography》2001,10(Z1):1-13
Five years of field, laboratory, and numerical modelling studies demonstrated ecosystem‐level mechanisms influencing the mortality of juvenile pink salmon and Pacific herring. Both species are prey for other fishes, seabirds, and marine mammals in Prince William Sound. We identified critical time‐space linkages between the juvenile stages of pink salmon and herring rearing in shallow‐water nursery areas and seasonally varying ocean state, the availability of appropriate zooplankton forage, and the kinds and numbers of predators. These relationships defined unique habitat dependencies for juveniles whose survivals were strongly linked to growth rates, energy reserves, and seasonal trophic sheltering from predators. We found that juvenile herring were subject to substantial starvation losses during a winter period of plankton diminishment, and that predation on juvenile pink salmon was closely linked to the availability of alternative prey for fish and bird predators. Our collaborative study further revealed that juvenile pink salmon and age‐0 herring exploit very different portions of the annual production cycle. Juvenile pink salmon targeted the cool‐water, early spring plankton bloom dominated by diatoms and large calanoid copepods, whereas young‐of‐the‐year juvenile herring were dependent on warmer conditions occurring later in the postbloom summer and fall when zooplankton was composed of smaller calanoids and a diversity of other taxa. The synopsis of our studies presented in this volume speaks to contemporary issues facing investigators of fish ecosystems, including juvenile fishes, and offers new insight into problems of bottom‐up and top‐down control. In aggregate, our results point to the importance of seeking mechanistic rather than correlative understandings of complex natural systems. 相似文献
16.
To evaluate the energetic condition of red snapper inhabiting natural and artificial reefs in the Gulf of Mexico, the liver-somatic index (LSI) and muscle tissue caloric density (CD) were measured for fish collected between September 2011 and October 2013. Liver energy reserves were highest in spring and decreased during summer, with greater LSI values at natural reefs in spring. While female red snapper LSI was greater than males at the natural reefs, indicating a larger energetic investment for spawning, it did not differ between males and females at the artificial reefs. Females at natural reefs have the ability to invest more energy in reproduction than females at artificial reefs, which is reflected in larger female LSI values at the natural reefs. Caloric density was highest in winter and decreased through fall at the natural reefs, with the opposite trend observed at artificial reefs. Muscle energy reserves are likely utilized for gonad development, while stored liver energy is utilized during and after spawning. Female red snapper at natural reefs can exhibit greater energy reserves, and thus a higher energetic condition than females at artificial reefs. Recognizing that energetic condition differs between habitats could enhance future red snapper stock assessments. 相似文献
17.
Rearing winter flounder (Pseudopleuronectes americanus) in captivity for aquaculture and stock enhancement is a viable option to relieve fishing pressure and aid in ongoing recovery strategies. The objective of this study was to determine the effect of photoperiod on growth and survival of young-of-the-year juvenile winter flounder. Juveniles were reared for 12 weeks at three photoperiods: 24 light/0 dark, 18 light/6 dark, and 12 light/12 dark. Twenty fish were stocked into each of 18 enclosures with six enclosures per treatment. Fish in all treatments were fed to satiation every four hours. All fish were imaged at stocking and at three-week intervals. Growth was measured as changes in standard length (SL) and body area (BA). As early as Week 3, fish in all treatments were significantly different in terms of SL and BA. In general, fish grown under continuous 24 light were the largest and fish in the 12 light/12 dark regime were the smallest. Maximum specific growth rates of 0.41 % per day for SL and 0.83 % per day for BA were achieved in the 24 light/0 dark photoperiod. Average mortality rate over the course of the experiment was 9.17 % and there were no significant differences in the number of dead fish among the treatments. In conclusion, this study demonstrates that a longer day coupled with available food will increase growth rate for winter flounder juveniles, without affecting survival. By extending the photoperiod, growth in young-of-the year winter flounder is accelerated, bringing the growth rate of winter flounder close to that of other commercially produced flatfish. 相似文献
18.
A dynamic model was developed to simulate nitrogen (N) flows and fish production in seasonal wetland fish ponds (Fingerponds) based on organic manuring and natural food production. The model incorporates pond water depth, food availability, fish stocking densities, fish and fingerling weights at stocking, reproduction rate, manure type and application rates. The ponds were fertilized fortnightly with 1042 kg ha−1 chicken manure. The model captured the dynamics of hydrology, nutrients and fish and demonstrated that similar fundamental processes underlie fish production in these systems. The model predicted annual fish yields of up to 2800 kg ha−1. Simulated fish production, chlorophyll a and dissolved inorganic N concentrations were comparable with field measurements. Using the model, N budgets and estimates of all N flows were made. Most of the N input into the ponds (60–70%) accumulated in the bottom detritus of the pond and only 8–10% was converted into fish biomass, of which about half consisted of small fish. Fish production in Fingerponds was limited by turbidity induced light limitation and by nutrient limitation. Reduction of variability of fish production should come from reduced turbidity and sufficient nutrient input to minimize light limitation and maximize fish growth. 相似文献
19.
Abstract – Seasonal pattern of energy content was determined in a population of Arctic char, Salvelinus alpinus (L.), living in an ultraoligotrophic alpine lake (altitude 1100 m) located in central Norway (62°5'N). Specific somatic energy content varied between 4.3 and 6.1 kJ · g−1 in spawners and between 4.8 and 6.6 kJ · g−1 in immatures. Corresponding values for specific somatic lipid energy were 0.5–1.6 kJ · g−1 for spawners and 0.7–2.1 kJ · g−1 for immatures. The temporal pattern in storage energy residuals (deviation from mean storage energy, all sampling periods pooled) indicated that total, protein and lipid energy accumulated in the autumn and early winter. This increase was followed by a winter decrease in somatic energy (January to April). A new increase in total somatic energy and somatic lipid energy occurred during late winter (March/April to June), while the lake was still ice covered and water temperatures ranged between 0.5 and 2.5 °C. The observed seasonal pattern of specific energy storage and lipid deposition demonstrated a considerable potential for energy accumulation in Arctic char at low temperatures. It is discussed whether freshwater lakes at high altitudes or latitudes represent a temperature-stabilised and predictable environment in contrast to the variable temperature experienced in the corresponding terrestrial system. 相似文献
20.
Temperature‐ and light‐dependent ratio of energy gain to metabolic costs explains spatial and temporal habitat use of zooplanktivorous fish 下载免费PDF全文
下载免费PDF全文 Ulrika Beier 《Ecology of Freshwater Fish》2017,26(4):506-516
Understanding the forces that drive habitat selection of species in communities is important in both ecology and evolution. In nature, species face variation in competition, predation and physical characters among habitats. Vendace (Coregonus albula (L.)) is a specialised zooplanktivorous fish predominantly using deeper water in lakes during summer, while roach (Rutilus rutilus (L.)) uses mainly the shallow littoral zone as well as the upper layer of the pelagic zone. To understand mechanisms behind habitat use of these species, I first conducted a predation experiment to investigate their sensitivity to predation by perch (Perca fluviatilis L.). Second, I performed a foraging experiment using different temperature and light treatments. I then used metabolic calculations to estimate energetic costs when foraging. I found no difference between species regarding sensitivity to predation. Vendace was the most efficient forager on zooplankton but also swam faster spending more energy compared to roach. Roach had a comparatively high metabolic rate in the lowest temperature, where their foraging efficiency was lowest. The energy gain ratio at 6°C was highest for vendace, while it was lowest for roach. In the highest temperature (18°C) and the lowest light level (1 lux), both species were similar in their energy gain ratio. The relative energy gain ratio provides a mechanism to explain habitat distribution for the two species. An increased understanding of the role of metabolism in combination with biotic interactions and habitat use may help to foresee effects of environmental change for different species. 相似文献