2011
DOI: 10.1080/02755947.2011.562737
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Accuracy and Precision of Visual Estimates and Photogrammetric Measurements of the Length of a Small‐bodied Fish

Abstract: We assessed the accuracy and precision of visual estimates from two divers and photogrammetric measurements from a diver‐operated stereo‐video camera system for determining the length of Saratoga Springs pupfish Cyprinodon nevadensis nevadensis (12–36 mm total length) under controlled conditions. Visual estimates by two divers differed significantly from true fish length (P < 0.001) but were not significantly different from each other (P = 0.42). Levels of accuracy and precision were similar to those previousl… Show more

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Cited by 11 publications
(6 citation statements)
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“…As alternatives to physical measurements, fish lengths have been measured with nonintrusive methods, such as visual assessment (Harvey et al 2001;Edgar et al 2004); sonar acoustic cameras (Mueller et al 2006); and photogrammetry techniques (Welsh and Aldinger 2014), including paired-laser photogrammetry (Rochet et al 2006;Deakos 2010), stereo video equipment (Bower et al 2011;Shortis et al 2013;Langlois et al 2015), and underwater video with paired lasers (Yoshihara 1997). Nonintrusive methods of fish measurement are useful when it is difficult or undesirable to capture individuals with conventional sampling gear, such as in deep sea environments (Dunlop et al 2015); at fish passage facilities (Welsh and Aldinger 2014); when fishes are too large to capture, such as Whale Sharks Rhincodon typus (Rohner et al 2011); when fish are sensitive to stress of capture and handling (Molinero and Gonzalez 1995;Snyder 2003); and for protected areas or protected species (Harvey et al 2001;Jack and Wing 2010).…”
mentioning
confidence: 99%
“…As alternatives to physical measurements, fish lengths have been measured with nonintrusive methods, such as visual assessment (Harvey et al 2001;Edgar et al 2004); sonar acoustic cameras (Mueller et al 2006); and photogrammetry techniques (Welsh and Aldinger 2014), including paired-laser photogrammetry (Rochet et al 2006;Deakos 2010), stereo video equipment (Bower et al 2011;Shortis et al 2013;Langlois et al 2015), and underwater video with paired lasers (Yoshihara 1997). Nonintrusive methods of fish measurement are useful when it is difficult or undesirable to capture individuals with conventional sampling gear, such as in deep sea environments (Dunlop et al 2015); at fish passage facilities (Welsh and Aldinger 2014); when fishes are too large to capture, such as Whale Sharks Rhincodon typus (Rohner et al 2011); when fish are sensitive to stress of capture and handling (Molinero and Gonzalez 1995;Snyder 2003); and for protected areas or protected species (Harvey et al 2001;Jack and Wing 2010).…”
mentioning
confidence: 99%
“…For example, length measurements of Saratoga Springs pupfish, C. nevadensis nevadensis, generated from a SV system had negligible bias and greater precision compared to visual estimates from SCUBA divers (Bower et al 2011). We used SV technology to obtain monthly length-frequency distributions of the Devils Hole pupfish population.…”
Section: Estimation Of Length-frequency Distributionsmentioning
confidence: 99%
“…Stereo-video technology (SV) presents a powerful tool for non-obtrusively collecting accurate and precise length measurements (Harvey et al 2002(Harvey et al , 2004. For example, length measurements of Saratoga Springs pupfish, C. nevadensis nevadensis, generated from a SV system had negligible bias and greater precision compared to visual estimates from SCUBA divers (Bower et al 2011). We used SV technology to obtain monthly length-frequency distributions of the Devils Hole pupfish population.…”
Section: Estimation Of Length-frequency Distributionsmentioning
confidence: 99%
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“…A range of other marine biology applications also routinely use stereoimaging techniques (photo as well as video), including: fish monitoring (Ruff et al, 1995;Van Rooij et al, 1995;Li et al, 1996;Tillett et al, 2000;Harvey et al, 2003;Costa et al, 2006;Costa et al, 2009;Rooper et al, 2010;Bower et al, 2011;Torisawa et al, 2011); determination of the 3D structure of fish schools (Cullen et al, 1965;Pitcher, 1975;Dill et al, 1981;Sawada et al, 2009); determination of the influence of substrate complexity on the interaction between fish and the artificial substrate (Fischer et al, 2007); and surveys of the benthos and the sea floor (Emerey et al, 1965;Evans and Norris, 1997;Chong and Stratford, 2002;Jasiobedzki et al, 2008;Shortis et al, 2008;Svane et al, 2009).…”
Section: Introductionmentioning
confidence: 99%