Can spatial and temporal differences in fish assemblage structure inform conservation of an endangered sucker in a large western reservoir?

Author:

Pennock Casey A.1ORCID,Albrecht Brandon2,Rogers Ronald J.2,McKinstry Mark C.3

Affiliation:

1. Department of Watershed Sciences Utah State University Logan Utah USA

2. BIO‐WEST, Inc. Logan Utah USA

3. U.S. Bureau of Reclamation, Upper Colorado River Regional Office Salt Lake City Utah USA

Abstract

AbstractObjectiveConversion of lotic to lentic habitat after river impoundment can lead to habitat loss and threats from introduced species to native aquatic organisms. Some native species can persist in reservoirs despite these alterations. Some of the largest reservoirs in North America were constructed in the Colorado River basin and are used by endangered Razorback Sucker Xyrauchen texanus. This species successfully spawns in several reservoirs and recruits to adulthood in Lake Mead, whereas recruitment in other reservoirs and altered river habitats is limited or nonexistent. Hypothesized mechanisms for the general lack of recruitment include flow and habitat alteration as well as competition and predation from nonnative fishes.MethodsWe analyzed 16 years of netting data from Lake Mead to assess spatial and temporal patterns in fish assemblage structure and the size structure of Razorback Sucker across four sites.ResultThere was a substantial shift in assemblage structure across all sites after the establishment of Gizzard Shad Dorosoma cepedianum in 2010–2011 and an apparent decline in Threadfin Shad D. petenense. Captures of juvenile Razorback Sucker (<450 mm total length in Lake Mead) were higher at sites where overall fish abundance was also higher, suggesting that all fishes might be responding to similar spatial and temporal environmental variation. We identified differences in Razorback Sucker size structure that varied over time and among sites, largely driven by the presence of juvenile Razorback Sucker at some sites in some years.ConclusionRazorback Sucker was among the top‐10 most abundant species at all sites sampled, but assemblages were dominated by abundant nonnative fishes. Razorback Sucker continue to recruit in Lake Mead in the face of abundant and diverse nonnative fishes, but the adult population size remains relatively small (<1000). Further investigation of limiting factors will be necessary to understand which actions might be successful at improving recruitment conditions.

Funder

Bureau of Reclamation

Publisher

Wiley

Subject

Aquatic Science,Ecology, Evolution, Behavior and Systematics

Reference62 articles.

1. Fish assemblages in Neotropical reservoirs: Colonization patterns, impacts and management

2. Use of Inflow Areas in Two Colorado River Basin Reservoirs by the Endangered Razorback Sucker (Xyrauchen texanus)

3. Albrecht B. Shattuck Z. &Rogers R.(2013).Razorback Sucker studies on Lake Mead Nevada and Arizona 2011–2012(Annual Report). Bureau of Reclamation Lower Colorado River Multi‐Species Conservation Program.

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