An awkward introduction: phylogeography of <i>Notropis lutipinnis</i> in its ‘native’ range and the Little Tennessee River

Scott, Cambell; Cashner, Mollie F.; Grossman, Gary D.; Wares, John P.

doi:10.1111/j.1600-0633.2009.00368.x

Cited by 7 publications

(9 citation statements)

References 71 publications

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“…Our study was motivated by an invasion of long-term study sites in Coweeta Creek, North Carolina, USA, by yellowfin shiner, Notropis lutipinnis (Scott et al 2009;Grossman et al 2010). Our study was motivated by an invasion of long-term study sites in Coweeta Creek, North Carolina, USA, by yellowfin shiner, Notropis lutipinnis (Scott et al 2009;Grossman et al 2010).…”

Section: Introductionmentioning

confidence: 99%

“…Our study was motivated by an invasion of long-term study sites in Coweeta Creek, North Carolina, USA, by yellowfin shiner, Notropis lutipinnis (Scott et al 2009;Grossman et al 2010). Recent genetic studies indicate that yellowfin shiner may be native to lower portions of the Little Tennessee River drainage (Scott et al 2009); however, it has only recently invaded upper Coweeta Creek. Recent genetic studies indicate that yellowfin shiner may be native to lower portions of the Little Tennessee River drainage (Scott et al 2009); however, it has only recently invaded upper Coweeta Creek.…”

Section: Introductionmentioning

confidence: 99%

“…In this study, we use the input matching rule to test the relative abilities of two North American minnows (one native, one invasive) to track changes in patch quality as prey abundance increases from low to high natural levels, in a laboratory stream. Our study was motivated by an invasion of long-term study sites in Coweeta Creek, North Carolina, USA, by yellowfin shiner, Notropis lutipinnis (Scott et al 2009;Grossman et al 2010). Coweeta Creek is typical of many relatively undisturbed streams in the southern Appalachian mountains of the United States (Grossman et al 2010), and we have studied ecological relationships of fishes in this system for over 25 years.…”

Section: Introductionmentioning

confidence: 99%

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Input matching and patch use by native and invasive minnows

Wagner

Grossman

2012

Ecology of Freshwater Fish

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When members of a population choose patches that maximise individual net energy gain without interference, they are input matching, a strategy derived from the ideal free distribution (IFD) that results in equal rewards across all patches. We investigated the input matching abilities of yellowfin shiner, a recent invader, and rosyside dace, a common native minnow, found in Coweeta Creek, North Carolina, USA. To test the species' relative input matching abilities, we varied food abundance within the range found in the natural habitat in a twopatch laboratory stream to document the distribution of foragers when food densities differed in the ratio of 2:1. We then applied simple IFD model predictions to determine whether the observed distribution of foragers was best described by (i) the IFD, (ii) differing competitive abilities or (iii) the ideal despotic distribution and/or other unequal competitor models, and to ascertain whether the invader demonstrated a superior ability to track resource distributions. Yellowfin shiner was more likely to move between patches, which resulted in increased ability to match the distribution of food when prey abundance increased. The distribution of rosyside dace between patches did not change in response to increased food abundance. Despite a considerable range of competitive abilities within intraspecific groups, the 'equal competitors' IFD was as good at predicting fish distributions as 'unequal competitor' models. The ability to track local resource availability in highly variable environments facilitates maximising energy intake and likely promoted the establishment of yellowfin shiner in a southern Appalachian stream.

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“…Our study was motivated by an invasion of long-term study sites in Coweeta Creek, North Carolina, USA, by yellowfin shiner, Notropis lutipinnis (Scott et al 2009;Grossman et al 2010). Our study was motivated by an invasion of long-term study sites in Coweeta Creek, North Carolina, USA, by yellowfin shiner, Notropis lutipinnis (Scott et al 2009;Grossman et al 2010).…”

Section: Introductionmentioning

confidence: 99%

“…Our study was motivated by an invasion of long-term study sites in Coweeta Creek, North Carolina, USA, by yellowfin shiner, Notropis lutipinnis (Scott et al 2009;Grossman et al 2010). Recent genetic studies indicate that yellowfin shiner may be native to lower portions of the Little Tennessee River drainage (Scott et al 2009); however, it has only recently invaded upper Coweeta Creek. Recent genetic studies indicate that yellowfin shiner may be native to lower portions of the Little Tennessee River drainage (Scott et al 2009); however, it has only recently invaded upper Coweeta Creek.…”

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Input matching and patch use by native and invasive minnows

Wagner

Grossman

2012

Ecology of Freshwater Fish

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“…Concentration of DNA was quantified using a Nanodrop ND-1000 spectrophotometer. The mitochondrial cytochrome b gene region was amplified by PCR and sequenced using universal primers Glu-5 and Cb2-3 (Palumbi 1996) following the protocol reported by Scott et al (2009). Sequences were visualized and edited using CodonCode Aligner version 3.7.1.1.…”

Section: Methodsmentioning

confidence: 99%

“…Genomic DNA was isolated from individual eggs using the Puregene (Gentra Systems) protocol reported by Scott et al (2009). Concentration of DNA was quantified using a Nanodrop ND-1000 spectrophotometer.…”

Section: Methodsmentioning

confidence: 99%

The Mussel–Fish Relationship: A Potential New Twist in North America?

Wisniewski

Bockrath²,

Wares³

et al. 2013

Trans Am Fish Soc

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North American freshwater mussels are critically imperiled organisms that generally require fish hosts in order to complete their life cycle. Although numerous studies have focused on the parasitic relationship between mussels and fishes, few have examined the benefits that mussels provide to other organisms. During sampling of Altamaha River, Georgia, we observed foreign eggs occurring within body cavities of native mussels across a 253‐km reach of the river basin. Eggs were recovered from 6% of the 757 mussels examined among seven sites. Foreign eggs were present in 17% and 18% of examined mussels at two sites. Using molecular techniques, eggs were identified as American Shad Alosa sapidissima. This discovery appears to be the first documented occurrence of native fish eggs in live North American mussels. Further research into the nature and mechanism of this symbiosis is warranted to assess whether this relationship is amensalistic, mutualistic, or commensalistic as American Shad and many freshwater mussels are species of conservation concern. A commensalistic or mutualistic relationship between these taxa may result in restoration activities affecting one species facilitating restoration of others.

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