Comparison of Gears for Sampling Littoral‐Zone Fishes in Floodplain Lakes of the Lower White River, Arkansas

Eggleton, Michael A.; Jackson, John R.; Lubinski, Benjamin J.

doi:10.1577/m09-127.1

Cited by 30 publications

(41 citation statements)

References 30 publications

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“…Consequently, different net‐based (seining, gillnetting, fyke netting, use of baited fish traps, baited lift netting), hook‐and‐line based (angling, longline fishing) and visual fish‐sampling methods (snorkelling) as well as electrofishing were selected for the comparative study. These methods are listed in CEN () or had previously been applied or suggested for the use in lentic flood‐plain water bodies or lakes, but have to the best of the authors' knowledge never been systematically compared for their applicability to fish sampling in typical backwaters of large rivers (electrofishing and point abundance sampling in large rivers, Persat & Copp, ; electrofishing, fyke netting and seining in lakes, Fago, ; fyke netting and electrofishing in small ponds, Basler & Schramm, ; electrofishing, seining, multi‐mesh gillnetting, fyke netting in stagnant flood‐plain water bodies of large flood‐plain rivers, De Leeuw et al ., ; seining and electrofishing in flood‐plain lakes, Jurajda et al ., ; bottom trawls, fyke netting, multi‐mesh gillnetting, longline fishing, drift netting, day and night electrofishing in an impoundment of the River Inn, Schotzko & Gassner, ; fyke netting, gillnetting and electrofishing in flood‐plain lakes, Eggleton et al ., ; gillnetting, seining, trawling and hydroacoustics in lakes, Jurvelius et al ., ; gillnetting, electrofishing and hydroacoustics in alpine lakes, Achleitner et al ., ). Specifically, it was hypothesized that (1) low‐activity methods ( e .…”

Section: Introductionmentioning

confidence: 98%

Comparison of nine different methods to assess fish communities in lentic flood‐plain habitats

Mueller

Pander

Knott

et al. 2017

Journal of Fish Biology

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This study compares the effectiveness and representativeness of electrofishing, snorkelling, seining, baited lift netting, multi-mesh gillnetting, baited fish traps, fyke netting, angling and longline fishing, considering three typical lentic flood-plain habitats at different times of day. Electrofishing was by far the most effective method yielding highest species richness, species trait representation and catch per unit of effort (CPUE), followed by seining. For single species like dace Leuciscus leuciscus, European ruffe Gymnocephalus cernua, common bream Abramis brama and silver bream Blicca bjoerkna, seining was more effective than electrofishing. With both methods, some species were more consistently caught during night, dusk or dawn than during daylight. All other methods tested cannot be generally recommended for fish community assessments in shallow backwaters due to their low representativeness of species inventory and generally low CPUE. Based on these results, electrofishing of 30 m transect replicates at different times of day for monitoring the fish community in shallow backwaters, can be recommended, enabling the maximum possible comparability to adjacent river habitats. Seining should be considered as an alternative if accessibility of habitats is restricted or electrofishing is prohibited. The 25 species detected in the backwaters also suggest that these habitats contribute a large proportion of fish diversity and should be included in standard assessments of river ecological status.

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Section: Introductionmentioning

confidence: 98%

Comparison of nine different methods to assess fish communities in lentic flood‐plain habitats

Mueller

Pander

Knott

et al. 2017

Journal of Fish Biology

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“…The nature and challenges of large‐scale riverine research necessitated the use of multiple sampling methods in targeted habitats (Goodwin & Angermeier, ; Phelps et al , ), because A . rostrata is especially difficult to collect in the lower White River (Clark et al , ; Lubinski et al , ; Eggleton et al , ).…”

Section: Discussionmentioning

confidence: 99%

Population demographics of American eels Anguilla rostrata in two Arkansas, U.S.A., catchments that drain into the Gulf of Mexico

Cox

Quinn²,

Lewis

et al. 2016

Journal of Fish Biology

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The goal of this study was to compare American eel Anguilla rostrata life history in two inland river systems in Arkansas, U.S.A., that ultimately discharge into the Gulf of Mexico via the Mississippi River and the Red-Atchafalaya catchments. From 21 June 2011 to 24 April 2014, 238 yellow-phase A. rostrata were captured in the middle Ouachita River and tributaries using boat electrofishing and 39 in the lower White River using multiple sampling gears. Most of them were caught downstream of dams in both basins (61%). Medium-sized A. rostrata ranging from 225 to 350 mm total length (LT ) were the most abundant size group in the Ouachita River basin, but they were absent from the White River. Mean LT at age 4 years (i.e. youngest shared age) was 150 mm greater for the White River than the Ouachita River basin. Anguilla rostrata appeared to have a greater initial LT (i.e. minimum size upon arrival) in the White River that allowed them to reach a gonado-somatic index (IG ) of 1·5 up to 4 years earlier, and downstream migration appeared to occur 5 years earlier at 100 mm greater LT ; these differences may be related to increased river fragmentation by dams in the Ouachita River basin. Growth and maturation of A. rostrata in this study were more similar to southern populations along the Atlantic coast than other inland populations. Adult swimbladder nematodes Anguillicoloides crassus were not present in any of the 214 swimbladders inspected. Gulf of Mexico catchments may be valuable production areas for A. rostrata and data from these systems should be considered as range-wide protection and management plans are being developed.

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“…In Fago's (1998) comparison study of three gears which included mini-fyke nets, each of the sampling methods missed an average of four species per lake that another method captured. Furthermore, in a comparison with boat electrofishing and gill nets, Eggleton et al (2010) reported that mini-fyke nets captured the largest number of unique species. With little data overlap, this gear was able to describe a component of littoral fish communities that the other gears could not.…”

Section: Discussionmentioning

confidence: 99%

“…Furthermore, mini-fyke nets have been compared with other gears for assessing fish community structure. They tended to collect more fish and more species of fish than other gears, including electrofishing, gill nets, and seines (Clark et al 2007;Eggleton et al 2010;Cvetkovic et al 2012). Weaver et al (1993) also found that this gear resulted in better descriptions of littoral fish communities than did gill nets or seines.…”

mentioning

confidence: 96%

Use of Mini‐Fyke Nets for Sampling Shallow‐Water Fish Communities in Florida Lakes

Bonvechio

Sawyers

Bitz

et al. 2014

N American J Fish Manag

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We evaluated mini‐fyke nets for sampling shore‐based (SB; <1 m deep) fish communities in Florida lakes. Specifically, we wanted to determine the most effective deployment method and sample size required for adequately characterizing fish communities in these habitats. Shallow SB (0.15–0.6 m) net sets, in which nets were not completely submersed, collected significantly more individuals and a larger proportion of poeciliids. However, deep SB (0.6–1.0 m) net sets, in which nets were completely submersed, collected a larger proportion of centrarchids, cyprinids, and cyprinidontids. Net placement also significantly affected the overall catch and composition of samples. Nets placed in locations away from the lake boundary tended to collect actively schooling fishes such as Threadfin Shad Dorosoma petenense and cyprinids. Nets placed next to the lake boundary tended to collect species associated with shallow, vegetated habitats, particularly poeciliids, at greater frequencies. In some cases, the collection of these fishes was unique to a particular deployment method. Our results suggest that in long‐term monitoring of Florida's shore‐based lentic fish communities, nets should be placed in SB waters with the lead extending to the lake boundary. Although long‐term sampling objectives may vary, we determined that a sampling target of 30 net sets was sufficient for characterizing the fish community in terms of percentage composition, species richness, and species diversity. Furthermore, we recommend the continued use of additional gears to fully characterize littoral fish communities.Received December 19, 2013; accepted March 1, 2014

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Comparison of Gears for Sampling Littoral‐Zone Fishes in Floodplain Lakes of the Lower White River, Arkansas

Cited by 30 publications

References 30 publications

Comparison of nine different methods to assess fish communities in lentic flood‐plain habitats

Comparison of nine different methods to assess fish communities in lentic flood‐plain habitats

Population demographics of American eels Anguilla rostrata in two Arkansas, U.S.A., catchments that drain into the Gulf of Mexico

Use of Mini‐Fyke Nets for Sampling Shallow‐Water Fish Communities in Florida Lakes

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