Influence of Aquatic Macrophytes on Age‐0 Largemouth Bass Growth and Diets

Nohner, Joel K.; Taylor, William W.; Hayes, Daniel B.; Roth, Brian M.

doi:10.1002/tafs.10067

Cited by 7 publications

(6 citation statements)

References 44 publications

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“…At lake scale, considering the whole water body, studies usually investigate the general patterns of fish–macrophyte relationship such as fish abundance, composition, distribution and reproduction (Cheruvelil et al, 2005; Maceina et al, 1991). At point scale, considering the macrophyte patch that the fishes actually exploit (Dibble et al, 1996), studies have addressed the behavioural ecology of fishes and the process by which they interact with the plants, providing insight into how macrophytes affect fish foraging, diets and behavioural responses (Carniatto et al, 2020; Miranda & Hodges, 2000; Nohner et al, 2018; Padial et al, 2009; Savino & Stein, 1982). In addition, the unimodal relationship between macrophyte cover and fish attributes (e.g., fish abundance and richness), usually observed at microscale (Cunha et al, 2019; Quirino, Lansac‐Tôha, et al, 2021), may not be detected at whole‐lake scale.…”

Section: Introductionmentioning

confidence: 99%

Associations between submerged macrophytes and fish communities at two spatial scales in 88 temperate shallow lakes

et al. 2023

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Fish community structure is affected by a range of lake characteristics, including the cover of macrophytes that provide spawning habitats, nursery area, refuge against predators, and food. We assessed fish–macrophyte relationships at both lake and point scale using an extensive dataset from 88 Danish shallow lakes (maximum depth ≤4.5 m). At lake scale, we used mean values from fish and macrophyte community samples for all lakes, in total 88 samples. The point scale data were derived from multiple points in each lake (in total 595 samples) where both macrophytes and fish were sampled, allowing us to assess within‐lake variations. We found generally negative relationships between macrophyte cover and fish abundance and biomass, which was strongest at point scale. Contrary to macrophytes, chlorophyll a showed positive relationships with fish abundance—except for perch and all fish <10 cm, which did not show significant relationships. The deeper and more eutrophic the lakes, the more the fish tended to occupy points covered by macrophytes. The abundances of species such as roach and bream were negatively related to macrophyte cover, but, for perch, this relationship was not significant. Our results suggest that fish abundance and biomass were associated with a combination of factors that are often intercorrelated and difficult to isolate. The relationship between fish abundance and biomass and macrophyte cover may depend on, among other factors, fish species, fish size, and the characteristics of the individual lakes.

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Section: Introductionmentioning

confidence: 99%

Associations between submerged macrophytes and fish communities at two spatial scales in 88 temperate shallow lakes

et al. 2023

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“…The littoral zone of a lake can be viewed as a complex landscape, comprised of distinct habitats that provide varying resources and refuge for fish and other fauna (Chick and McIvor 1994). Within a littoral zone, the complex habitat created by submerged aquatic vegetation (SAV) can provide ecological benefits that result in an increase in abundance, biomass, and species diversity of fish and other fauna (Thorp et al 1997; Richardson et al 1998; Nohner et al 2018). For example, young Largemouth Bass Micropterus salmoides feed mostly on zooplankton, macroinvertebrates, and small fish (Keast and Eadie 1985; Carpenter et al 1987; Miner and Stein 1993; Middaugh et al 2013), and these organisms tend to be most abundant in vegetated areas (Moxley and Langford 1982; Warren and Vogel 1991; Beckett et al 1992; Spoljar et al 2012; Middaugh et al 2013).…”

Section: Introductionmentioning

confidence: 99%

“…In Texas reservoirs, the standing stock and recruitment of Largemouth Bass declined when SAV cover was less than 20% (Durocher et al 1984). In Michigan, a 60% cover of littoral habitat was recommended to decrease mortality and improve recruitment of age‐0 Largemouth Bass (Nohner et al 2018), and in central Florida lakes the abundance and survival of age‐0 Largemouth Bass were positively correlated with the percent cover of hydrilla Hydrilla verticillata when coverages were as high as 75% and 91% (Tate et al 2003). Although Largemouth Bass selectively use SAV habitat, the growth and condition of adult Largemouth Bass may decrease when the coverage of aquatic macrophytes is extremely high (Colle and Shireman 1980, Engle 1987).…”

Section: Introductionmentioning

confidence: 99%

Influence of habitat and other factors on Largemouth Bass abundance in Lake Okeechobee, Florida

Hanlon

Jordan

2023

Trans Am Fish Soc

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Objective: Submerged aquatic vegetation (SAV) is an important part of shallow lake ecosystems. It provides protective cover and foraging habitat for age-0 and juvenile Largemouth Bass Micropterus salmoides and other small fish, creates structure and habitat for macroinvertebrates and other fauna, and can influence the physical environment by stabilizing sediments and reducing water column turbidity.Methods: For this study, we reviewed annual abundance data for Largemouth Bass collected via electrofishing from 2002 to 2019, along with environmental covariates that included SAV cover (habitat) and turbidity.Result: All age-groups of Largemouth Bass were positively correlated with vascular SAV cover. Age-0 Largemouth Bass were most abundant when SAV cover exceeded approximately 24% (9400 ha) of the littoral and nearshore area, while the juvenile and all-ages groups were most abundant when SAV cover exceeded 20% and 12% of the area, respectively. Following major storm events, water depth and turbidity increased, SAV cover was reduced to <5% of the littoral and nearshore area, and the abundance of age-0 Largemouth Bass was reduced more than 90%. Conclusion:Once removed from the landscape and exposed to turbid conditions, vascular SAV will reestablish only if water clarity increases and light is sufficient to support plant growth. Lowering water levels for an extended period has been shown to reduce nearshore turbidity and jumpstart the recovery of SAV in Lake Okeechobee and other shallow lakes globally. Without adequate SAV habitat, recruitment of age-0 and juvenile Largemouth Bass will likely be suppressed. Maintaining a minimum coverage of vascular SAV (20-35%) in the littoral and nearshore area should increase the abundance of age-0 and juvenile Largemouth Bass and provide beneficial habitat for adult Largemouth Bass and other lake fauna.

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“…In glacial lakes, local densities of YOY largemouth bass are related to local habitat features such as vegetation coverage (Middaugh et al, 2013). Moreover, habitat characteristics have been shown to lead to differences in growth rates of YOY largemouth bass, with increased growth in edge or vegetated habitats (Nohner et al, 2018). However, past studies mainly focus on short‐term habitat use, and it is unknown if observed short‐term preferences translate to long‐term individual habitat use.…”

Section: Introductionmentioning

confidence: 99%

mentioning

confidence: 99%

Local resource reliance of juvenile fish in small lakes

Nease

Höök

2022

Ecology of Freshwater Fish

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Mobile individuals may integrate resources and conditions across multiple habitats (Armstrong et al., 2016). In contrast, relatively sedentary individuals that exhibit site fidelity will experience stronger influences of local conditions, with different individuals potentially experiencing distinct environmental conditions (Gray et al., 2004).Accurate descriptions of movement and habitat use patterns can help elucidate how groups of individuals and populations respond to

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Influence of Aquatic Macrophytes on Age‐0 Largemouth Bass Growth and Diets

Cited by 7 publications

References 44 publications

Associations between submerged macrophytes and fish communities at two spatial scales in 88 temperate shallow lakes

Associations between submerged macrophytes and fish communities at two spatial scales in 88 temperate shallow lakes

Influence of habitat and other factors on Largemouth Bass abundance in Lake Okeechobee, Florida

Local resource reliance of juvenile fish in small lakes

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