FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2100556871> ?p ?o ?g. }

• W2100556871 endingPage "758" @default.
• W2100556871 startingPage "746" @default.
• W2100556871 abstract "Underwater acoustics is a noninvasive sampling technique that potentially reduces expense and injury to target species, but this method may be underutilized for sampling large freshwater fishes. We measured target strength (TS), developed anatomically based backscatter models, and conducted gill-net and acoustic surveys of paddlefish Polyodon spathula to explore the potential use of acoustic surveys for estimating the abundance of large freshwater fishes. Mean TS measured from two size-groups of paddlefish at 200 kHz was −37.14 decibels (dB; SD = −2.36) for age-0 fish (353–406 mm) and −27.25 dB (SD = −2.21) for adult fish (1,018–1,284 mm), indicating that TS could differentiate these size-groups. Backscatter models identified strong contributions of the swim bladder to TS and revealed the sensitivity of acoustic backscatter to paddlefish length, aspect, and acoustic carrier frequency. Model results were generally within one SD of measured means from individual fish of each size-group. Target strength results were used to count two populations of adult paddlefish in mobile surveys using an echo sounder with a 200-kHz, 6° split-beam transducer. One population was stocked in 1.6-ha Hebron Pond, where no large fish were previously present. The other population resided in 28-ha Horseshoe Lake, an Ohio River backwater. Twenty-one paddlefish stocked in Hebron Pond were accurately counted during the first of six side-looking surveys, but subsequent surveys only counted between two and seven fish. Depletion gillnetting results in Horseshoe Lake provided an estimated baseline of 130 ± 55 paddlefish for comparison with abundance estimates from side-looking and down-looking acoustic surveys during day and night. Acoustic abundance estimates ranged from 187–313 fish (side-looking) to 3,464–13,489 fish (down-looking) depending on survey time (day or night) and the approach to analysis. Ratio estimates and cluster estimates provided similar results, and the coefficient of variation of the mean (100·SE/mean) ranged from 20% to 50%. Acoustic estimates were either greater or more variable than those derived from depletion gillnetting, yet acoustic surveys required only 6 man-hours compared to 180 man-hours for the gillnetting estimate. Our study is the first to indicate that TS can be used to count adult paddlefish and that, upon refinement of survey techniques, TS can be used to estimate paddlefish abundance. The benefits of acoustic surveys may be realized sampling other large freshwater fishes when the target species can be differentiated with TS and considerations are made for transducer selection." @default.
• W2100556871 created "2016-06-24" @default.
• W2100556871 creator A5047821979 @default.
• W2100556871 creator A5049930356 @default.
• W2100556871 creator A5061792849 @default.
• W2100556871 creator A5068198575 @default.
• W2100556871 date "2003-07-01" @default.
• W2100556871 modified "2023-10-11" @default.
• W2100556871 title "Paddlefish as Potential Acoustic Targets for Abundance Estimates" @default.
• W2100556871 cites W1526796313 @default.
• W2100556871 cites W1963544656 @default.
• W2100556871 cites W1967468140 @default.
• W2100556871 cites W1976691034 @default.
• W2100556871 cites W1977005400 @default.
• W2100556871 cites W1984538104 @default.
• W2100556871 cites W1985955721 @default.
• W2100556871 cites W1986952542 @default.
• W2100556871 cites W1993965912 @default.
• W2100556871 cites W1996304857 @default.
• W2100556871 cites W1998867733 @default.
• W2100556871 cites W2000156730 @default.
• W2100556871 cites W2008914868 @default.
• W2100556871 cites W2010179823 @default.
• W2100556871 cites W2010641979 @default.
• W2100556871 cites W2021766644 @default.
• W2100556871 cites W2036540626 @default.
• W2100556871 cites W2050054986 @default.
• W2100556871 cites W2051844250 @default.
• W2100556871 cites W2057347269 @default.
• W2100556871 cites W2061059263 @default.
• W2100556871 cites W2070042136 @default.
• W2100556871 cites W2075072356 @default.
• W2100556871 cites W2078496546 @default.
• W2100556871 cites W2079011289 @default.
• W2100556871 cites W2091753253 @default.
• W2100556871 cites W2122379482 @default.
• W2100556871 cites W2130443176 @default.
• W2100556871 cites W2142302687 @default.
• W2100556871 cites W2168261357 @default.
• W2100556871 cites W2171783348 @default.
• W2100556871 cites W2330805404 @default.
• W2100556871 cites W4234805861 @default.
• W2100556871 cites W4247892086 @default.
• W2100556871 doi "https://doi.org/10.1577/t02-060" @default.
• W2100556871 hasPublicationYear "2003" @default.
• W2100556871 type Work @default.
• W2100556871 sameAs 2100556871 @default.
• W2100556871 citedByCount "13" @default.
• W2100556871 countsByYear W21005568712013 @default.
• W2100556871 countsByYear W21005568712015 @default.
• W2100556871 countsByYear W21005568712016 @default.
• W2100556871 countsByYear W21005568712017 @default.
• W2100556871 countsByYear W21005568712018 @default.
• W2100556871 countsByYear W21005568712019 @default.
• W2100556871 countsByYear W21005568712021 @default.
• W2100556871 countsByYear W21005568712022 @default.
• W2100556871 countsByYear W21005568712023 @default.
• W2100556871 crossrefType "journal-article" @default.
• W2100556871 hasAuthorship W2100556871A5047821979 @default.
• W2100556871 hasAuthorship W2100556871A5049930356 @default.
• W2100556871 hasAuthorship W2100556871A5061792849 @default.
• W2100556871 hasAuthorship W2100556871A5068198575 @default.
• W2100556871 hasBestOaLocation W21005568712 @default.
• W2100556871 hasConcept C111368507 @default.
• W2100556871 hasConcept C120665830 @default.
• W2100556871 hasConcept C121332964 @default.
• W2100556871 hasConcept C127313418 @default.
• W2100556871 hasConcept C140779682 @default.
• W2100556871 hasConcept C144024400 @default.
• W2100556871 hasConcept C149923435 @default.
• W2100556871 hasConcept C2776479727 @default.
• W2100556871 hasConcept C2908647359 @default.
• W2100556871 hasConcept C2909208804 @default.
• W2100556871 hasConcept C30354325 @default.
• W2100556871 hasConcept C39432304 @default.
• W2100556871 hasConcept C41008148 @default.
• W2100556871 hasConcept C50254455 @default.
• W2100556871 hasConcept C505870484 @default.
• W2100556871 hasConcept C555944384 @default.
• W2100556871 hasConcept C76155785 @default.
• W2100556871 hasConcept C77077793 @default.
• W2100556871 hasConcept C86803240 @default.
• W2100556871 hasConcept C94915269 @default.
• W2100556871 hasConcept C98083399 @default.
• W2100556871 hasConceptScore W2100556871C111368507 @default.
• W2100556871 hasConceptScore W2100556871C120665830 @default.
• W2100556871 hasConceptScore W2100556871C121332964 @default.
• W2100556871 hasConceptScore W2100556871C127313418 @default.
• W2100556871 hasConceptScore W2100556871C140779682 @default.
• W2100556871 hasConceptScore W2100556871C144024400 @default.
• W2100556871 hasConceptScore W2100556871C149923435 @default.
• W2100556871 hasConceptScore W2100556871C2776479727 @default.
• W2100556871 hasConceptScore W2100556871C2908647359 @default.
• W2100556871 hasConceptScore W2100556871C2909208804 @default.
• W2100556871 hasConceptScore W2100556871C30354325 @default.
• W2100556871 hasConceptScore W2100556871C39432304 @default.
• W2100556871 hasConceptScore W2100556871C41008148 @default.
• W2100556871 hasConceptScore W2100556871C50254455 @default.

• next