2014
DOI: 10.1002/aqc.2501
|View full text |Cite
|
Sign up to set email alerts
|

Fragmentation and drying ratchet down Great Plains stream fish diversity

Abstract: Stream fragmentation alters the structure of aquatic communities on a global scale, generally through loss of native species. Among riverscapes in the Great Plains of North America, stream fragmentation and hydrologic alteration (flow regulation and dewatering) are implicated in the decline of native fish diversity. This study documents the spatio–temporal distribution of fish reproductive guilds in the fragmented Arkansas and Ninnescah rivers of south‐central Kansas using retrospective analyses involving 63 y… Show more

Help me understand this report

Search citation statements

Order By: Relevance

Paper Sections

Select...
3
1
1

Citation Types

6
150
0

Year Published

2014
2014
2020
2020

Publication Types

Select...
8

Relationship

2
6

Authors

Journals

citations
Cited by 108 publications
(160 citation statements)
references
References 68 publications
6
150
0
Order By: Relevance
“…Major declines in baseflow lead to the loss of longitudinal connectivity that over time has important consequences for the persistence of many riverine populations (Bunn and Arthington 2002). This effect is particularly evident with repeated stream drying in fragmented stream systems of the Great Plains (Perkin et al 2014). Decreased flows in arid streams exacerbate the influence of non-native predators on fish populations, perhaps by creating less favorable habitat conditions for flow-adapted native species, though the possible mechanisms remain unclear (Propst et al 2008).…”
Section: Interactions Of Water Quality and Quantitymentioning
confidence: 98%
“…Major declines in baseflow lead to the loss of longitudinal connectivity that over time has important consequences for the persistence of many riverine populations (Bunn and Arthington 2002). This effect is particularly evident with repeated stream drying in fragmented stream systems of the Great Plains (Perkin et al 2014). Decreased flows in arid streams exacerbate the influence of non-native predators on fish populations, perhaps by creating less favorable habitat conditions for flow-adapted native species, though the possible mechanisms remain unclear (Propst et al 2008).…”
Section: Interactions Of Water Quality and Quantitymentioning
confidence: 98%
“…These taxa represent diverse phylogenies (two cyprinids, one ictalurid, and one percid), feeding behaviors (i.e., water-column and benthic foragers), and spawning modes (i.e., crevice-spawning, broadcast-spawning, nest-guarding, and gravel spawning). Whereas species traits have proven useful in identifying fishes that are most responsive to environmental change in other contexts (Craven et al 2010;Carlisle et al 2011;Mims and Olden 2012;Perkin et al 2015), there are no obvious unifying traits among these declining taxa. At the same time, three of the declining taxa have one or more congeners (i.e., species with likely similar traits) that do not show evidence of decline at the Conasauga River sites.…”
Section: Possible Causes and Management Implications Of Species Declinesmentioning
confidence: 99%
“…A major difference between fishes belonging to this guild and most pelagic-spawning fishes is the ability to inhabit and reproduce within reservoirs, which has likely helped to buffer pelagic-substrate spawning fishes against the effects of fragmentation and dewatering throughout the Great Plains (Perkin et al 2014a). In fact, reservoirs are implicated in the expansion of N. atherinoides upstream of reservoirs (Pflieger and Grace 1987; Hoagstrom and Turner 2013), which provides some clue as to the mechanism behind the enigmatic pattern by which N. atherinoides is vulnerable to the effects of fragmentation but has also shown long-term increases in abundance for some Great Plains streams (Perkin et al 2014a, b). Finally, C. lutrensis was widely persistent even among the most highly fragmented and dewatered stream fragments included in this study and might not be expected to respond to fragmentation at such broad spatial extents, though there is evidence that the species is vulnerable to the effects of isolation at smaller scales (Matthews and Marsh-Matthews 2007).…”
Section: Discussionmentioning
confidence: 99%
“…However, in this species high variance in reproductive success among spawning aggregations caused by the interaction of fragmentation and pelagic early life-history is likely responsible for the small effective to census size ratio observed in H. amarus (Aló and Turner 2005; Turner et al 2006; Osborne et al 2005). In the most vulnerable species considered here ( H. placitus ) and those that share its pelagic life-history (but that were not detected in short fragments; Perkin et al 2014a) it is plausible that stochastic forces such as drought ultimately determine the fate of populations rather than negative genetic impacts (Kelsch 1994; Perkin et al 2014b). Numerous studies have demonstrated that factors including short life-span combined with increased isolation from other populations and occasional absence of reproduction/or recruitment (e.g., caused by absence of spawning cues such as spring runoff, Bonner and Wilde 2000), cause strong fluctuations in population size and thereby increase extinction risk (Leigh 1981; Pimm et al 1988; Sjogren 1991).…”
Section: Discussionmentioning
confidence: 99%
See 1 more Smart Citation