2020
DOI: 10.1002/nafm.10508
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Light Trap Effectiveness to Capture Razorback Sucker Larvae in a Large Floodplain Wetland

Abstract: Light trap captures of larval Razorback Sucker Xyrauchen texanus are used to trigger flow releases from Flaming Gorge Reservoir, which inundate floodplain wetland nursery habitat in the Green River, Utah. However, because little is known about the efficacy of traps to capture or retain larvae under field-relevant conditions, we conducted an exploratory study using releases of unmarked and marked (oxytetracycline hydrochloride) early life stages of Razorback Sucker (mesolarval life stage, hereafter called "larv… Show more

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Cited by 2 publications
(7 citation statements)
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“…If the light source is intense enough, i.e., close enough to the larva, it may be sufficient to attract and retain even less phototactic life stages. If this is the case, it indicates that the use of brighter light sources may be more effective at attracting older and larger life stages of fish, a hypothesis also supported by LED light trap experiments reported elsewhere (de Vlaming 2019; de Vlaming and Bestgen, in press). However, Snyder and Meismer (1997) found no effect of light intensity on the capture of Razorback Sucker by light traps, except for juveniles, where a negative effect on capture was observed; it is possible that their findings were confounded by the use of differing light trap designs or their circular experimental arena compared with our linear one.…”
Section: Discussionsupporting
confidence: 61%
“…If the light source is intense enough, i.e., close enough to the larva, it may be sufficient to attract and retain even less phototactic life stages. If this is the case, it indicates that the use of brighter light sources may be more effective at attracting older and larger life stages of fish, a hypothesis also supported by LED light trap experiments reported elsewhere (de Vlaming 2019; de Vlaming and Bestgen, in press). However, Snyder and Meismer (1997) found no effect of light intensity on the capture of Razorback Sucker by light traps, except for juveniles, where a negative effect on capture was observed; it is possible that their findings were confounded by the use of differing light trap designs or their circular experimental arena compared with our linear one.…”
Section: Discussionsupporting
confidence: 61%
“…It is noteworthy that one LED trap captured 617 fish, 380 of which were Razorback Sucker, despite light failure prior to pulling the trap, which may be a conservative number due to the strong influence of light on larvae retention (de Vlaming and Bestgen 2020a). Experimental release and recapture of larval Razorback Sucker in a large floodplain wetland also supported our finding that LED traps captured more Razorback Sucker larvae than CL traps (de Vlaming and Bestgen 2020b). Overall, these collective results support a switch by field workers to LED light sources in traps.…”
Section: Discussionsupporting
confidence: 82%
“…This indicated that differences in light intensity between the new and old light sticks, due to the reduction in the amount of energy released in the chemiluminescent reaction over time, is the reason for the decline in capture probabilities and not the light type specifically. The belief that light intensity was the primary driver of capture rates was also supported by the laboratory choice experiment, where 5.5 times more Razorback Sucker larvae chose the brighter LED trap, and by field sampling in a large floodplain, where LED trap capture rates were 3.7 times higher than CL traps over a wide range of fish densities (de Vlaming and Bestgen 2020b). Additionally, the importance of light intensity also suggests that if use of CL traps is necessary, CL light sources should be replaced frequently to maximize light intensity during the sampling period.…”
Section: Discussionmentioning
confidence: 87%
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