Academic literature on the topic 'Native fish'

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Journal articles on the topic "Native fish"

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Williams, Jack E., Richard N. Williams, Russell F. Thurow, Leah Elwell, David P. Philipp, Fred A. Harris, Jeffrey L. Kershner, et al. "Native Fish Conservation Areas: A Vision for Large-Scale Conservation of Native Fish Communities." Fisheries 36, no. 6 (June 15, 2011): 267–77. http://dx.doi.org/10.1080/03632415.2011.582398.

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Hesthagen, T., O. Hegge, J. Skurdal, and B. K. Dervo. "Differences in habitat utilization among native, native stocked, and non-native stocked brown trout (Salmo trutta) in a hydroelectric reservoir." Canadian Journal of Fisheries and Aquatic Sciences 52, no. 10 (October 1, 1995): 2159–67. http://dx.doi.org/10.1139/f95-808.

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Native and native-stocked brown trout (Salmo trutta) in Lake Tesse, a regulated hydroelectric reservoir (southern Norway), were spatially segregated according to size: small individuals occurred mainly in the epibenthic habitat and larger individuals mainly in the pelagic habitat. In contrast, all size groups of non-native stocked brown trout were mostly restricted to the epibenthic habitat. Age-specific lengths were generally larger for non-native than for native stocked trout, which were larger than native fish. However, growth rate between age 3 and 4 was significantly lower for non-native stocked fish than for native and native stocked fish. Differences in body length were mainly due to strain but also to some extent to habitat. Native fish had significantly fuller stomachs in the pelagic than in the epibenthic habitat in summer. Epibenthic non-native fish had significantly fuller stomachs than native and native stocked fish in August but not in July. Native and native stocked fish fed mainly on surface insects and planktonic crustaceans in both habitats. We hypothesize that the non-native brown trout stocked in Lake Tesse do not use the pelagic habitat in the home lake and are therefore less adapted to utilize such habitat than populations originating from lakes where pelagic habitat is available.
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Paterson, Rachel A., Colin R. Townsend, Robert Poulin, and Daniel M. Tompkins. "Introduced brown trout alter native acanthocephalan infections in native fish." Journal of Animal Ecology 80, no. 5 (March 22, 2011): 990–98. http://dx.doi.org/10.1111/j.1365-2656.2011.01834.x.

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Hulme, P. E. "Rough waters for native Chinese fish." Science 347, no. 6221 (January 29, 2015): 484. http://dx.doi.org/10.1126/science.347.6221.484-a.

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DOVE, A. D. M. "Richness patterns in the parasite communities of exotic poeciliid fishes." Parasitology 120, no. 6 (June 2000): 609–23. http://dx.doi.org/10.1017/s0031182099005958.

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Three species of poeciliids (Gambusia holbrooki, Xiphophorus helleri and X. maculatus) and 15 species of ecologically similar native freshwater fishes (mainly eleotrids, ambassids, melanotaeniids and retropinnids) were examined for parasite richness to investigate parasite flux, qualitative differences, quantitative differences and the structuring factors in parasite communities in the 2 fish types in Queensland, Australia. Theory suggests that poeciliids would harbour depauperate parasite communities. Results supported this hypothesis; poeciliids harboured more species-poor parasite infracommunities and regional faunas than natives (P < 0·0001), despite greater sampling effort for the former. Cluster analysis of presence/absence data for poeciliids and the 6 most-sampled native fishes revealed that parasite communities of the 2 fish groups are qualitatively distinct; the proportion of parasite species with complex life-cycles was lower in poeciliids than in native species, and Myxosporea, Microspora, Coccidia and parasitic Crustacea were all absent from poeciliids. Limited exchange of parasite species has occurred between natives and poeciliids. Logistic ordinal regression analysis revealed that fish origin (exotic or native), environmental disturbance and host sex were all significant determinants of parasite community richness (P < 0·05). Theoretical modelling suggests that poeciliids are at a competitive advantage over native fishes because of their lack of parasites.
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Manangkalangi, Emmanuel, M. Fadjar Rahardjo, Renny K. Hadiaty, Sigid Hariyadi, and Charles P. H. Simanjuntak. "Ekologi trofik komunitas ikan di Sungai Nimbai: Interaksi kompetisi dan pemangsaan terhadap ikan pelangi arfak, Melanotaenia arfakensis Allen, 1990." Jurnal Iktiologi Indonesia 19, no. 3 (October 1, 2019): 449. http://dx.doi.org/10.32491/jii.v19i3.505.

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Information on trophic ecology can provide an understanding of the functional role of fish in an ecosystem, including endemic and native fish groups, as well as alien fish that are introduced through anthropogenic activities. The research on the trophic ecology of the fish community in the Nimbai Stream, Prafi River system, is intended to describe the interaction of competition and predation, especially towards endemic fish, Melanotaenia arfakensis. Fish samples were collected monthly from four habitat types, i.e., slow littoral, medium littoral, pool, and run from May 2016 to April 2017. A combination of an electric shocker and a hand net was used to collect fish samples. A total of 16 fish species were collected, consists of one endemic species, namely M. arfakensis, nine species of native fish, and six species of alien fish. The Arfak rainbowfish and three native fish species were categorized as insectivorous, four native fish species as herbivorous, and two other fishes as carnivorous. Three alien fish species also belong to insectivorous, two alien fish species as carnivorous, and one species as herbivorous. The niche breadth of fish communities ranges from 0.071 to 0.857. The trophic niche overlap between the Arfak rainbowfish and three native fish species and three alien fish species was recorded. The results of this study indicate a potential competition and predation interactions between Arfak rainbowfish and native fish as well as with alien fish species. Therefore, introducing alien fish into Prafi River system will disrupt Arfak rainbowfish population.
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Henkanaththegedara, Sujan M., and Craig A. Stockwell. "Intraguild predation may facilitate coexistence of native and non-native fish." Journal of Applied Ecology 51, no. 4 (June 13, 2014): 1057–65. http://dx.doi.org/10.1111/1365-2664.12285.

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SIMONOVIC, P., A. TOŠIĆ, M. VASSILEV, A. APOSTOLOU, D. MRDAK, M. RISTOVSKA, V. KOSTOV, et al. "Risk assessment of non-native fishes in the Balkans Region using FISK, the invasiveness screening tool for non-native freshwater fishes." Mediterranean Marine Science 14, no. 2 (June 21, 2013): 369. http://dx.doi.org/10.12681/mms.337.

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A high level of freshwater fish endemism in the Balkans Region emphasizes the need for non-native species risk assessments to inform management and control measures, with pre-screening tools, such as the Fish Invasiveness Screening Kit (FISK) providing a useful first step. Applied to 43 non-native and translocated freshwater fishes in four Balkan countries, FISK reliably discriminated between invasive and non-invasive species, with a calibration threshold value of 9.5 distinguishing between species of medium and high risk sensu lato of becoming invasive. Twelve of the 43 species were assessed by scientists from two or more Balkan countries, and the remaining 31 species by a single assessor. Using the 9.5 threshold, three species were classed as low risk, 10 as medium risk, and 30 as high risk, with the latter category comprised of 26 moderately high risk, three high risk, and one very high risk species. Confidence levels in the assessments were relatively constant for all species, indicating concordance amongst assessors.
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Gu, Dang En, Fan Dong Yu, Yin Chang Hu, Jian Wei Wang, Meng Xu, Xi Dong Mu, Ye Xin Yang, et al. "The Species Composition and Distribution Patterns of Non-Native Fishes in the Main Rivers of South China." Sustainability 12, no. 11 (June 3, 2020): 4566. http://dx.doi.org/10.3390/su12114566.

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Non-native fish invasions are among the greatest threats to the sustainability of freshwater ecosystems worldwide. Tilapia and catfish are regularly cultured in South China which is similar to their climate in native areas and may also support their invasive potential. We systematically collected fish from eight main rivers of South China, from 2016 to 2018, to investigate and analyse species’ composition and the distribution of non-native fishes. The data reveal that non-native fishes are widespread and abundant in the sampled rivers: of the 98,887 fish collected, 11,832 individuals representing 20 species were not native, which were distributed in the 96% sampled sites. Of the non-native fish species, 17 are used in aquaculture and 19 are native to the tropics; 13 are omnivores while the other seven are predators. Based on dissimilarity of the non-native fish species distributions across the eight rivers, the different rivers could be divided into four assemblages. Geographical isolation and temperature were identified as affecting the distribution patterns of non-native fishes, thereby influencing fish species composition, species number, dominant species, and distribution variations in the South China rivers. Species composition of the non-native fishes in these rivers are related to their introduction vector, compatibility with their native habitat, and feeding strategies. Their distribution was mainly influenced by geographical location and temperature. To mitigate the impacts of non-native fish, a series of stricter management practices, systematic monitoring, and more research are needed.
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Spikmans, Frank, Pim Lemmers, Huub J. M. op den Camp, Emiel van Haren, Florian Kappen, Anko Blaakmeer, Gerard van der Velde, Frank van Langevelde, Rob S. E. W. Leuven, and Theo A. van Alen. "Impact of the invasive alien topmouth gudgeon (Pseudorasbora parva) and its associated parasite Sphaerothecum destruens on native fish species." Biological Invasions 22, no. 2 (November 12, 2019): 587–601. http://dx.doi.org/10.1007/s10530-019-02114-6.

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Abstract The Asian cyprinid Pseudorasbora parva is considered to be a major threat to native fish communities and listed as an invasive alien species of European Union concern. Our study aims to gain evidence-based knowledge on the impact of both P. parva and its parasite Sphaerothecum destruens on native fish populations by analysing fish assemblages and body condition of individuals of native fish species in floodplain water bodies that were invaded and uninvaded by P. parva. We explored the use of environmental DNA (eDNA) techniques to detect S. destruens. Prevalence of S. destruens in native fish species was assessed. Fish samplings showed significantly negative correlations between the abundance of P. parva and the native Leucaspius delineatus, and Pungitius pungitius and three biodiversity indices of the fish assemblages (Simpson’s diversity index, Shannon–Wiener index and evenness). Contrastingly, the abundances of the native Gasterosteus aculeatus and P. parva were positively related. In nearly all isolated water bodies with P. parva, this species is outnumbering native fish species. No effect of P. parva presence was found on body condition of native fish species. Sphaerothecum destruens was demonstrated to occur in both P. parva and G. aculeatus. Gasterosteus aculeatus is suggested to be an asymptomatic carrier that can aid the further spread of S. destruens. Analysis of eDNA proved to be a promising method for early detection of S. destruens, here showing that S. destruens presence coincided with P. parva presence. The ongoing invasion of both P. parva and S. destruens is predicted to pose a significant risk to native fish communities.
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Dissertations / Theses on the topic "Native fish"

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McGinley, Susan. "Tagging Fish: Monitoring Native Species." College of Agriculture and Life Sciences, University of Arizona (Tucson, AZ), 2000. http://hdl.handle.net/10150/622273.

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Gandy, David A. "Examining Gradients in Novelty: Native and Non-native Fish Assemblages in Everglades Canals." FIU Digital Commons, 2013. http://digitalcommons.fiu.edu/etd/951.

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Novel ecosystems emerge from alterations to historic abiotic regimes and contain new species combinations. Everglades canals offer an opportunity to understand the function of novel habitat for native and non-native fishes and how novel conditions in turn influence distribution, abundance and assembly patterns. I examined native and non-native fish assemblages collected across a gradient in novelty, defined by the loss of wetland connectivity and habitat complexity. As novelty increased, native species richness and abundance strongly declined, and the contribution of non-natives increased. Community structure vastly differed among canals and was strongly influenced by spatial factors and secondarily by hydrological factors. Natives and non-natives had opposing responses to key hydrologic and habitat parameters. This study represents the first comprehensive assessment of Everglades canal fishes, providing insight into the factors influencing native and non-native abundance and assembly patterns and contributing to our understanding of this novel but permanent habitat.
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Rinne, John N. "Nonnative, Predatory Fish Removal and Native Fish Response, Upper Verde River, Arizona: Preliminary Results." Arizona-Nevada Academy of Science, 2001. http://hdl.handle.net/10150/296582.

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Zipfel, Katherine J. "The distribution and status of native walleye (Sander vitreus) stocks in West Virginia." Ohio : Ohio University, 2006. http://www.ohiolink.edu/etd/view.cgi?ohiou1164229538.

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Rinne, John N. "Relationship of Fine Sediment and Two Native Southwestern Fish Species." Arizona-Nevada Academy of Science, 2001. http://hdl.handle.net/10150/296569.

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Monopoli, Matthew Stephen. "Acid water tolerance in a New Zealand native freshwater fish." Thesis, University of Canterbury. Zoology, 1996. http://hdl.handle.net/10092/6974.

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Physiological experiments were conducted to measure the effects of low pH water upon Na⁺ fluxes and swimming performance in east coast neutral water banded kokopu, and west coast banded kokopu living in naturally acid water. This allowed comparisons to be made regarding the relative acid tolerance between the two population stocks. A morphological study of the gills using scanning electron microscopy and transmission electron microscopy was carried out on a limited number of fish to compare gill structures of east coast acid and non acid exposed fish with west coast fish. East coast kokopu from neutral water showed a reduced sodium influx on the first day of exposure to pH4 water. This was accompanied by a reduction in passive loss or efflux. After 4 days at pH4 influx recovered allowing the fish to approach sodium balance. West coast fish showed no significant change in influx upon introduction to pH7 water and maintained influx values in pH4 water near those measured for control fish. For east coast fish, swimming performance was significantly impaired on the 2nd swimming trial when pH was lowered from 7 to 4. On the third swim with the pH returned to 7, Ucrit was similar to the initial value. West coast banded kokopu showed a significant increase in performance between trial one and three and were unaffected by pH7 water, matching performances measured in control fish. Gills from east coast acid exposed fish resembled west coast fish in that the trailing edges of the lamellae were swollen due to the large numbers of chloride cells which were present to a point approximately half way up the lamellar edge. Microridges were present on the apical surfaces of the chloride cells of east coast control fish which contrasted with the microvilli structures observed in west coast and acid exposed east coast fish. The microvilli structures present on the chloride cells of west coast and east coast acid exposed banded kokopu appeared to assist in the anchorage of mucus to the apical surface of the cell.
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Ingram, Brett A. "Rearing juvenile Australian native percichthyid fish in fertilised earthen ponds." Connect to this title online, 2001. http://tux.lib.deakin.edu.au/adt-VDU/public/adt-VDU20050418.172221/.

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Esplin, Lindsay D. "Culvert Roughness Elements for Native Utah Fish Passage: Phase I." BYU ScholarsArchive, 2011. https://scholarsarchive.byu.edu/etd/2506.

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Culverts can increase stream velocities as a result of reduced waterway areas and prevent upstream passage of small non-salmonid fish such as the Native Utah Leatherside chub (Gila copei) and Longnose dace (Rhinichthyscataractae). To mitigate this problem, current culvert design standards for fish passage match sustained fish swim speeds with average cross sectional velocity through the culvert. Such policies dictate relatively large barrels and do not recognize the role of reduced velocity zones near culvert boundaries. Obstacles and streambed substrate create turbulent regions with lower velocity zones that can increase upstream fish passage. A comparison of upstream passage success using native Utah fish in an experimental flume was conducted with three different conditions: (1) a smooth boundary, (2) a smooth boundary with strategically placed cylinders, and (3) a boundary consisting of natural substrate. The refuge provided by the cylinders and substrate allowed fish to expend less energy as they swam upstream. Energy expenditure was compared between the conditions by mapping the velocity field near the boundary and tracing fish swim paths. Substrate provided sufficient refuge for the fish to behave in a manner similar to their behavior in a natural environment and with significantly reduced energy expenditure. Cylinders provided limited refuge that allowed fish to rest periodically as they navigated the flume. The smooth boundary case required the highest energy expenditure as there was no refuge provided. Fish swimming capabilities in the form of prolonged and burst velocities have been recorded for most species. Streamwise velocity near the boundary can be compared to the prolonged and burst swim speeds to predict passage rates. Further field testing is necessary to fully substantiate the effectiveness of utilizing reduced velocity zones in non-salmonid fish passage prediction. If such a design approach can be used instead of using the conservative but overly simplistic average velocity to evaluate the retrofit of existing culverts and to design new culverts it will help minimize costs and result in fewer culvert replacements and smaller and simpler new designs. Other implications such as downstream effects on stream bed stability and scour remain an issue.
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Monk, Suzanne Kim. "Culvert Roughness Elements for Native Utah Fish Passage: Phase II." BYU ScholarsArchive, 2012. https://scholarsarchive.byu.edu/etd/3656.

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Native fishes have become an increasingly important concern when designing fish passable culverts. Many operational culverts constrict waterways which increase velocities and prevent upstream passage of small fish species. The current method to ensure fish passage is to match the average cross sectional velocity to the sustained swim speed of the fish. This study investigates the passage rates of leatherside chub (Lepidomeda aliciae) and speckled dace (Rhinichthys osculus) at three sites (an arch culvert with substrate bottom, box culvert with bare bottom, and a stream section with no culvert) located on Salina Creek near Salina, UT. It was found that fish were able to pass through all of the sites. However, fish were able to take advantage of the habitat within the culvert that had a substrate bottom more effectively than within the culvert that had no substrate within the barrel. This was reflected in population density estimates at each of the three test sites for each species. It was also found that the substrate at the arch culvert and stream sites scaled with the fish measured in this study. The D50 and D84 were 44 and 205 mm at the arch culvert site and 26 and 126 mm at the stream site. The average fish length was 76 mm for the chub and 64 mm for the dace. It is recommended that (1) a culvert size that produces a velocity equal to the prolonged swim speed of target fish in the near boundary region (2 cm above the bed) be used in the future, and (2) substrate that scales with the target fish species be placed in the culvert barrel.
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Snyder, Claire. "A microchemical analysis of native fish passage through Brandon Road Lock and Dam, Des Plaines River, Illinois." OpenSIUC, 2019. https://opensiuc.lib.siu.edu/theses/2601.

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Modifications to Brandon Road Lock and Dam (BRLD), located on the Des Plaines River in northeastern Illinois, have been proposed to prevent the upstream transfer of aquatic invasive species, particularly Asian carps, into the Great Lakes Basin. These modifications, including the installation of an electric barrier, acoustic fish deterrent, and air bubble curtain, are designed to completely eliminate all upstream fish passage and may negatively impact native fish populations in the Des Plaines River by reducing upstream movement and potentially fragmenting populations. BRLD is situated just 21 km upstream of the Des Plaines River mouth, and fish are only able to pass upstream via the lock chamber. Fish species richness within the Des Plaines River watershed has increased over the last 35 years. It has been suggested that the majority of new species to the upper Des Plaines River have migrated upstream past Brandon Road Lock and Dam (BRLD), from the Illinois, Kankakee, and lower Des Plaines rivers. However, documentation of emigration needed to support that contention is lacking and there is limited knowledge of the current rate of BRLD passage by native species. To assess native fish passage through the lock, a microchemical study was conducted using fin rays from fish collected from the Des Plaines, Illinois, and Kankakee Rivers. The edge of each fin ray, which contained the most recently deposited material, was assumed to contain a microchemical signature reflective of residency in the river where the fish was sampled. Fin ray edge strontium:calcium ratio (Sr:Ca) was used to define taxonomic and river-specific signature ranges for four taxonomic groups: centrarchids, catostomids, ictalurids, and lepisosteids. Fin ray edge Sr:Ca data were input into a random forest classification model, and the classification accuracy of fish to their river of capture based on their fin ray edge Sr:Ca was > 97% in each taxonomic group. The classification model was then applied to the entire fin ray of each fish sampled upstream of Brandon Road to infer retrospective environmental history. Upstream BRLD lock passage was suggested by the presence of Sr:Ca signatures indicative of prior downstream residency in the Illinois or Kankakee rivers in a fish sampled upstream of BRLD. Results indicated some evidence of downstream residency that suggested upstream BRLD lock passage for centrarchids, catostomids, ictalurids, and lepisosteids, ranging from 15 – 37% of individuals sampled depending on taxa. An additional 19 – 80% of individuals within each taxonomic group were classified as fish with uncertain downstream residency, whereby the possibility of BLRD lock passage could not be rejected, but there was higher uncertainty in establishing downstream residency in the Illinois or Kankakee rivers. The impact of BRLD modifications and passage restriction on Des Plaines River fish populations is unknown and merits further investigation.
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Books on the topic "Native fish"

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Thompson, Paul D. Status of native yellowstone cutthroat trout (Oncorhynchus clarki bouvieri) in Utah, 2001. Salt Lake City, Utah: Utah Division of Wildlife Resources, 2002.

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Bear, Elizabeth Ann. Status of habitat and native species in southeast Wyoming prairie streams. [Cheyenne?, Wyo.]: Wyoming Game and Fish Dept., Fish Division, 2007.

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The fascinating fresh water fish book: How to catch, keep, and observe your own native fish. New York: Wiley, 1994.

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Huntington, Charles W. Healthy native stocks of anadromous salmonids in the Pacific Northwest and California. Portland, Or: Oregon Trout, 1994.

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Burley, Craig C. Native Resident Fish Program: Annual report, July 1, 1992- June 30, 1993. Olympia, Wash: Fish Management Program, Washington State Dept. of Fish and Wildlife, 1993.

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Service, United States Forest. Inland native fish strategy environmental assessment, 1995: [finding of no significant impact]. [Coeur d'Alene, Idaho]: U.S. Dept. of Agriculture, Forest Service, 1995.

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Williams, Cetan Wanbli. The Native American Fish and Wildlife Society: Summer youth practicum : internship report. Bellingham, WA: Huxley College of the Environment, Western Washington University, 2004.

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Burley, Craig C. Evaluation of the strategies for Washington's wildlife: Resident Native Fish Program, 1987-1997. [Olympia, Wash.]: State of Washington, Dept. of Fish and Wildlife, Fish Management Program, Freshwater Resources, 1998.

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Pierce, Ron. An integrated stream restoration and native fish conservation strategy for the Blackfoot River basin. Missoula, Mont: Montana Fish, Wildlife and Parks, 2005.

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Don't blame the Indians: Native Americans and the mechanized destruction of fish and wildlife. South Hamilton, Mass: GSJ Press, 1986.

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Book chapters on the topic "Native fish"

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Gopalan, Sujith V., Linda John, K. P. Laladhas, and Oommen V. Oommen. "Sustainability of Native Fish Broods and Rural Livelihood." In Environmental Challenges and Solutions, 295–301. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-42162-9_20.

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Teixeira, Amílcar, and Rui M. V. Cortes. "PIT telemetry as a method to study the habitat requirements of fish populations: application to native and stocked trout movements." In Developments in Fish Telemetry, 171–85. Dordrecht: Springer Netherlands, 2007. http://dx.doi.org/10.1007/978-1-4020-6237-7_17.

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Rowe, David K., Gerry Closs, and David W. West. "Restoration of Native Fish in New Zealand Lakes and Reservoirs." In Lake Restoration Handbook, 333–65. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-93043-5_10.

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Retnoaji, Bambang, Luthfi Nurhidayat, Amir Husni, and Suwarman. "Cultivation and Conservation of Indonesian Native Fish (Rasbora lateristriata) Through Fish Farmer Group Empowerment in Yogyakarta." In Proceeding of the 1st International Conference on Tropical Agriculture, 475–82. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-60363-6_50.

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Young, Sewall F., Mark R. Downen, and James B. Shaklee. "Microsatellite DNA data indicate distinct native populations of kokanee, Oncorhynchus nerka, persist in the Lake Sammamish Basin, Washington." In Genetics of Subpolar Fish and Invertebrates, 63–79. Dordrecht: Springer Netherlands, 2004. http://dx.doi.org/10.1007/978-94-007-0983-6_6.

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Jones, Peter, and Gerard Closs. "The Introduction of Brown Trout to New Zealand and their Impact on Native Fish Communities." In Brown Trout, 545–67. Chichester, UK: John Wiley & Sons, Ltd, 2017. http://dx.doi.org/10.1002/9781119268352.ch21.

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"Multispecies and Watershed Approaches to Freshwater Fish Conservation." In Multispecies and Watershed Approaches to Freshwater Fish Conservation, edited by Gary P. Garrett. American Fisheries Society, 2019. http://dx.doi.org/10.47886/9781934874578.ch10.

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<em>Abstract</em>.—Native fish conservation areas in the Chihuahuan Desert of Texas were identified and designated as part of a statewide network of focal watersheds uniquely valued in preservation of Texas freshwater fish diversity. Native fish conservation areas represent a holistic, multispecies, and habitat-based approach to native fish conservation that encourages and facilitates coordination among landowners, nongovernmental organizations, state and federal agencies, universities, and local governments to achieve landscape-scale conservation within focal watersheds. This approach to native fish conservation provides an effective method for addressing the common nature and magnitude of threats facing species and their habitats in freshwater systems. Desert fishes and their habitats are particularly susceptible to habitat alteration, especially anthropogenic land use and water consumption patterns, which continue to create conservation challenges. The strategic and science-based conservation strategies embodied by the native fish conservation areas approach represent an innovative path forward for addressing the conservation needs of native fishes and their habitats in the Chihuahuan Desert of Texas. In this chapter, we describe six native fish conservation areas designated within the Chihuahuan Desert of Texas and profile multiagency conservation planning and delivery that has substantially increased the scope and scale of conservation investments for restoration and protection of native fishes and their habitats in the region.
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"Propagated Fish in Resource Management." In Propagated Fish in Resource Management, edited by DANIEL B. FENNER, MAUREEN G. WALSH, and DANA L. WINKELMAN. American Fisheries Society, 2004. http://dx.doi.org/10.47886/9781888569698.ch39.

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<em>Abstract.</em>—Private angling groups in Oklahoma have requested permission to stock rainbow trout <em>Oncorhynchus mykiss </em>into streams of northeastern Oklahoma although little is known regarding interactions between introduced rainbow trout and native fishes in these systems. Our study objectives were to assess diet overlap between introduced rainbow trout and native smallmouth bass <em>Micropterus dolomieu</em>, shadow bass <em>Ambloplites ariommus</em>, and bluegill sunfish <em>Lepomis macrochirus </em>in Brush Creek, Oklahoma, a small spring-fed Ozark stream. Rainbow trout diet composition differed from that of all three native fishes in the 2 months of comparison (March and May 2001), and rainbow trout diets contained relatively low numbers of prey. It is unlikely that exploitative competition for food resources occurred between rainbow trout and these three native fishes.
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"Propagated Fish in Resource Management." In Propagated Fish in Resource Management, edited by MAUREEN G. WALSH and DANA L. WINKELMAN. American Fisheries Society, 2004. http://dx.doi.org/10.47886/9781888569698.ch35.

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<em>Abstract.</em>—Rainbow trout <em>Oncorhynchus mykiss </em>have been widely stocked throughout the United States as a popular sport fish. Our study was initiated to evaluate potential effects of rainbow trout introduction on native fishes to inform future decisions about trout stocking in northeastern Oklahoma streams. We sampled fish assemblages in pools, glides, and riffles in Brush Creek, Delaware County, Oklahoma, from February 2000 to September 2002, and experimentally stocked rainbow trout into the stream from November 2000 to March 2001 and November 2001 to March 2002. We used a combination of multivariate analyses to evaluate seasonal and habitat effects on native fish assemblages and to compare assemblage structure between prestocking, the first year of stocking, and the second year of stocking. Mesohabitat type significantly affected assemblage structure among years, whereas we did not detect an effect of season. We did not detect differences in assemblage structure among years in glide or riffle habitats. Native fish assemblage structure in pool habitats before rainbow trout introduction differed from assemblage structure in both the first and second year of stocking. Declines in seven species, including two native game fish (smallmouth bass <em>Micropterus dolomieu </em>and bluegill <em>Lepomis machrochirus</em>), contributed to assemblage dissimilarity in pool habitats between prestocking conditions and the second year of stocking. Our results indicate that stocking rainbow trout may cause local disruption in assemblage structure in pool habitats.
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"Propagated Fish in Resource Management." In Propagated Fish in Resource Management, edited by JOHN N. RINNE, LARRY RILEY, ROB BETTASO, ROGER SORENSON, and KIRK YOUNG. American Fisheries Society, 2004. http://dx.doi.org/10.47886/9781888569698.ch37.

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<em>Abstract.</em>—The native fish fauna of the Southwest has become markedly reduced in range and numbers over the past century. Dramatic changes in aquatic habitats and the introduction of nonnative fishes are related to their demise. Major southwestern river systems such as the Colorado, Rio Grande, Gila, and Verde presently contain nonnative, primarily sport fish assemblages, in combination with rare, declining, and listed native species. The Arizona Game and Fish Department in collaboration with federal and private agencies is responsible for managing both of these fish groups in a representative state, Arizona. Two questions can be offered: “Is it desirable, and possible, to sustain both fish groups in the waters of Arizona?” and further, “Is it possible to sustain both fish groups in the same river, stream, lake for spring?” Currently, the Arizona Game and Fish Department (Department) propagates primarily coldwater species; however, a half a dozen species, including the threatened Apache trout <em>Oncorhynchus gilae apache</em>, Colorado pikeminnow <em>Ptychocheilus lucius</em>, razorback sucker <em>Xyrauchen texanus</em>, Gila topminnow <em>Poeciliopsis occidentalis</em>, and desert pupfish <em>Cyprinodon nevadensis</em>, are also reared in hatcheries and refugia habitats. Repatriation programs for these same species are ongoing in Arizona. A critical component for recovery of these rare, native species will be to sustain secure habitats for their repatriation. Cooperative programs with the U.S. Forest Service, U.S. Bureau of Land Management, and U.S. Bureau of Reclamation seek available habitats for restoration of native fishes. The management activities of many agencies over the last century have contributed to the hydrological and biological state of southwestern river systems. Cooperation among these same agencies will be necessary to conserve and enhance native fishes while sportfishing continues. The answer to the above two questions are (1) “Yes, both groups are being managed under department mission statements”; and (2) “No, efforts to do so should in the same habitats are not recommended and should not be attempted.”
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Conference papers on the topic "Native fish"

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Monk, Suzanne K., Lindsay E. Wait, Rollin H. Hotchkiss, Eric Billman, Mark Belk, and Denis Stuhff. "Culvert Roughness Elements for Native Utah Fish Passage." In World Environmental And Water Resources Congress 2012. Reston, VA: American Society of Civil Engineers, 2012. http://dx.doi.org/10.1061/9780784412312.131.

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Marohasy, J., and J. Abbot. "Deconstructing the native fish strategy for Australia’s Murray Darling catchment." In RIVER BASIN MANAGEMENT 2013. Southampton, UK: WIT Press, 2013. http://dx.doi.org/10.2495/rbm130281.

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Huang, Yu-Sheng, and Yun-Ju Chen. "Evaluating the Conservation Preferences of Native Species Sweet-Fish in Taiwan." In 2016 5th IIAI International Congress on Advanced Applied Informatics (IIAI-AAI). IEEE, 2016. http://dx.doi.org/10.1109/iiai-aai.2016.78.

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Overby, S. T., and C. D. Overby. "Native Fish Restoration of a Southwest Stream Following Decommissioning of a Hydroelectric Facility." In Watershed Management Conference 2005. Reston, VA: American Society of Civil Engineers, 2005. http://dx.doi.org/10.1061/40763(178)60.

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Takács, Péter, Bálint Bánó, and Tibor Erős. "Functional diversity of the Middle-Danubian fish fauna, the role of non-native species." In 5th European Congress of Conservation Biology. Jyväskylä: Jyvaskyla University Open Science Centre, 2018. http://dx.doi.org/10.17011/conference/eccb2018/108126.

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Burgos-Morán, Ricardo, Jason Shaw, and Janeth Sánchez-Campuzano. "Simply low-cost recirculation aquaculture system for Amazonian native fish hatchery under controlled conditions." In MOL2NET 2019, International Conference on Multidisciplinary Sciences, 5th edition. Basel, Switzerland: MDPI, 2019. http://dx.doi.org/10.3390/mol2net-05-06623.

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Brian D Sugden. "Accomplishments of the plum creek timber company native fish habitat conservation plan at 5 years." In Watershed Management to Meet Water Quality Standards and TMDLS (Total Maximum Daily Load) Proceedings of the 10-14 March 2007, San Antonio, Texas. St. Joseph, MI: American Society of Agricultural and Biological Engineers, 2007. http://dx.doi.org/10.13031/2013.22497.

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Firsova, A. V. "FORMATION OF ICE MICROPARTICLES IN THE HOMOGENATE OF NATIVE EGGS OF STURGEON FISH DURING CRYOPRESERVATION." In STATE AND DEVELOPMENT PROSPECTS OF AGRIBUSINESS Volume 2. DSTU-Print, 2020. http://dx.doi.org/10.23947/interagro.2020.2.225-227.

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In this work, we studied the formation of ice microparticles in a thin layer (0.2 mm) of the protoplasm of Russian sturgeon caviar upon cooling to a temperature of -196 ° C. Upon gradual cooling from room temperature + 20 ° C to -196 ° C, the process of freezing, formation and changes of ice microparticles were observed. The shape and size of the particles depended on the composition of the frozen solution. The freezing temperature for all layers of protoplasm was different, which is due to the chemical composition.
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Bair, Russell, Edward R. Schenk, Benjamin W. Tobin, and Hampton Childres. "POTENTIAL IMPACTS ON NATIVE AND INVASIVE FISH HABITAT IN BRIGHT ANGEL CREEK (AZ) WITH THE REDESIGN OF GRAND CANYON WATER INTAKE INFRASTRUCTURE." In GSA Annual Meeting in Denver, Colorado, USA - 2016. Geological Society of America, 2016. http://dx.doi.org/10.1130/abs/2016am-282429.

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Amaral, Pedro, Pedro Oliveira, Márcio Moutinho, Daniel Matado, Ruben Costa, and João Sarraipa. "Semantic Annotation of Aquaculture Production Data." In ASME 2016 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers, 2016. http://dx.doi.org/10.1115/imece2016-67316.

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Aquaculture is probably the fastest growing food-producing sector in the world producing nearly 50 percent of the fish that is used for food, according to the Food and Agriculture Organization of the United Nations (FAO). With the growing of the Aquaculture sector, problems of global knowledge access, seamless data exchanges and lack of data reuse between aquaculture companies and its related stakeholders become more evident. From an IT perspective, aquaculture is characterized by high volumes of heterogeneous data, and lack of interoperability intra and inter-organizations. Each organization uses different data representations, using its native languages and legacy classification systems to manage and organize information, leading to a problem of integrating information from different sources due to lack of semantic interoperability that exists among knowledge organization tools used in different information systems. The lack of semantic interoperability that exists can be minimized, if innovative semantic techniques for representing, indexing and searching sources of non-structured information are applied. To address these issues, authors are developing a platform specifically designed for the aquaculture sector, which will allow even small companies to explore their data and extract knowledge, to improve in terms of use of feed, environmental impact, growth of the fish, cost, etc.
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Reports on the topic "Native fish"

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Wingert, Michele, and Todd Andersen. Kalispel Non-Native Fish Suppression Project 2007 Annual Report. Office of Scientific and Technical Information (OSTI), November 2008. http://dx.doi.org/10.2172/962633.

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Abernethy, C. S. Factors affecting the quality of fish caught by Native Americans in the Zone 6 fishery 1991 through 1993. Office of Scientific and Technical Information (OSTI), September 1994. http://dx.doi.org/10.2172/10189673.

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Fausch, Kurt D., Bruce E. Rieman, Michael Young, and Jason B. Dunham. Strategies for conserving native salmonid populations at risk from nonnative fish invasions: tradeoffs in using barriers to upstream movement. Ft. Collins, CO: U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, 2006. http://dx.doi.org/10.2737/rmrs-gtr-174.

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Mohlenhoff, Kathryn. Tracking Fish and Human Response to Abrupt Environmental Change at Tse-whit-zen: A Large Native American Village on the Olympic Peninsula, Washington State. Portland State University Library, January 2000. http://dx.doi.org/10.15760/etd.1052.

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Stevenson, Alexander. Using Archaeological Fish Remains to Determine the Native Status of Anadromous Salmonids in the Upper Klamath Basin (Oregon, USA) Through mtDNA and Geochemical Analysis. Portland State University Library, January 2000. http://dx.doi.org/10.15760/etd.444.

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Dodd, Hope, David Peitz, Gareth Rowell, Janice Hinsey, David Bowles, Lloyd Morrison, Michael DeBacker, Jennifer Haack-Gaynor, and Jefrey Williams. Protocol for Monitoring Fish Communities in Small Streams in the Heartland Inventory and Monitoring Network. National Park Service, April 2021. http://dx.doi.org/10.36967/nrr-2284726.

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Fish communities are an important component of aquatic systems and are good bioindicators of ecosystem health. Land use changes in the Midwest have caused sedimentation, erosion, and nutrient loading that degrades and fragments habitat and impairs water quality. Because most small wadeable streams in the Heartland Inventory and Monitoring Network (HTLN) have a relatively small area of their watersheds located within park boundaries, these streams are at risk of degradation due to adjacent land use practices and other anthropogenic disturbances. Shifts in the physical and chemical properties of aquatic systems have a dramatic effect on the biotic community. The federally endangered Topeka shiner (Notropis topeka) and other native fishes have declined in population size due to habitat degradation and fragmentation in Midwest streams. By protecting portions of streams on publicly owned lands, national parks may offer refuges for threatened or endangered species and species of conservation concern, as well as other native species. This protocol describes the background, history, justification, methodology, data analysis and data management for long-term fish community monitoring of wadeable streams within nine HTLN parks: Effigy Mounds National Monument (EFMO), George Washington Carver National Monument (GWCA), Herbert Hoover National Historic Site (HEHO), Homestead National Monument of America (HOME), Hot Springs National Park (HOSP), Pea Ridge National Military Park (PERI), Pipestone National Monument (PIPE), Tallgrass Prairie National Preserve (TAPR), and Wilson's Creek national Battlefield (WICR). The objectives of this protocol are to determine the status and long-term trends in fish richness, diversity, abundance, and community composition in small wadeable streams within these nine parks and correlate the long-term community data to overall water quality and habitat condition (DeBacker et al. 2005).
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Hoy, Michael D. Herons and Egrets. U.S. Department of Agriculture, Animal and Plant Health Inspection Service, August 2017. http://dx.doi.org/10.32747/2017.7208742.ws.

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Herons and egrets commonly cause damage at aquaculture facilities and recreational fishing waters where fish are held at high densities. Fish-eating birds also can have an impact on intensively managed sport fisheries. Damage occurs when herons and egrets feed on fish purchased and released for recreational sport fishing activities. Values of these fish can be quite high given the intensity of management activities and the direct relationship of fishery quality to property value. Herons and egrets are freshwater or coastal birds of the family Ardeidae. Herons and egrets discussed in this section are all piscivorous. They are opportunistic feeders, however, and will consume small amphibians, insects, and reptiles. Due to these food preferences, herons and egrets are attracted to shallow lakes and human-made impoundments. Native bird species are covered under the Migratory Bird Treaty Act (MBTA) and given federal protection. Depredation permits can be obtained through the U.S. Fish and Wildlife Service. In addition, individual states may require their own permits for legal take of these bird species.
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Marks, David R. Mute Swans. U.S. Department of Agriculture, Animal and Plant Health Inspection Service, February 2018. http://dx.doi.org/10.32747/2018.7208745.ws.

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Mute swans (Cygnus olor) are an invasive species originally brought to the United States in the late 19th and early 20th centuries for ornamental ponds and lakes, zoos and aviculture collections. Original populations were located in northeastern states along the Hudson Valley but have since expanded to several Midwestern states and portions of the western U.S. and Canada. Mute swan damage includes competing with native waterfowl, destroying native plants, spreading disease, and colliding with aircraft. They are also considered a nuisance in some areas due to their abundant fecal droppings and aggressiveness towards people. Some have questioned the status of mute swans as an introduced species, but multiple reviews by scientists and the U.S. Fish and Wildlife Service clearly support the conclusion that mute swans are not native to North America. The Migratory Bird Treaty Act, therefore, does not protect mute swans, and management authority falls under jurisdiction of the states and Tribes.
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Dana Wessels, Dana Wessels. Something's fishy: the effects of non-native rainbow trout farming on Neotropical cloud forest streams. Experiment, October 2016. http://dx.doi.org/10.18258/8008.

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Geisthardt, Eric, Burton Suedel, and John Janssen. Monitoring the Milwaukee Harbor breakwater : an Engineering With Nature® (EWN®) demonstration project. Engineer Research and Development Center (U.S.), March 2021. http://dx.doi.org/10.21079/11681/40022.

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The US Army Corps of Engineers (USACE) maintains breakwaters in Milwaukee Harbor. USACE’s Engineering With Nature® (EWN®) breakwater demonstration project created rocky aquatic habitat with cobbles (10–20 cm) covering boulders (6–8 metric tons) along a 152 m section. A prolific population of Hemimysis anomala, an introduced Pontocaspian mysid and important food source for local pelagic fishes, was significantly (p < .05) more abundant on cobbles versus boulders. Food-habits data of alewife (Alosa pseudoharengus) and rainbow smelt (Osmerus mordax) provided evidence that H. anomala were a common prey item. Night surveys and gill netting confirmed O. mordax preferred foraging on the cobbles (p < .05) and consumed more H. anomala than at the reference site (p < .05). H. anomala comprised a significant portion of the diets of young-of-the-year (YOY) yellow perch (Perca flavescens), YOY largemouth bass (Micropterus salmoides), and juvenile rock bass (Ambloplites rupestris) caught on the breakwater. The natural features’ construction on the breakwater increased the available habitat for this benthopelagic macroinvertebrate and created a novel ecosystem benefiting forage fish and a nursery habitat benefiting nearshore game fish juveniles. These data will encourage the application of EWN concepts during structural repairs at other built navigation infrastructure.
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