Your search keyword '"Daniel D. Magoulick"' showing total 3 results

1. Effect of Stream Permanence on Predation Risk of Lotic Crayfish by Riparian Predators

Author

Daniel D. Magoulick and Allyson N. Yarra

Subjects

0106 biological sciences, River otter, geography.river, geography, River ecosystem, geography.geographical_feature_category, biology, Ecology, 010604 marine biology & hydrobiology, Context (language use), biology.organism_classification, Crayfish, 010603 evolutionary biology, 01 natural sciences, Predation, Neovison, Lontra, Ecology, Evolution, Behavior and Systematics, Riparian zone

Abstract

Given the importance of crayfish in stream ecosystems, gaining insight into the role of stream permanence in maintaining predator–prey interactions is critical. Our objectives were to determine the influence of stream permanence and season on crayfish predation and assess the role of stream permanence and crayfish density on the presence of predators, while accounting for imperfect detection. We conducted surveys of crayfish density, mammalian scat, and environmental variables within 10 intermittent and 10 permanent streams in the Ozark Highlands. We used occupancy modeling to assess the relationship between predator presence, crayfish density, and environmental variables. Stream permanence did not play a role in determining relative frequency of occurrence or percent volume of crayfish prey in mammalian diets. However, percent volume and relative frequency of crayfish prey found in scats differed by season, with both highest in spring and summer. The relative frequency and percent volume of fish prey showed a significant interaction of season by stream permanence, which may be the first instance of this observation. Procyon lotor (Raccoon) had the highest detection probability (p = 0.39), whereas Neovison vison (American Mink; p = 0.15) and Lontra canadensis (River Otter; p = 0.03) had low detection probabilities. Further study into predator–prey interactions in the context of hydrology, particularly when related to imperiled groups like freshwater crayfishes, is needed since climate change is expected to alter hydrologic patterns.

Published

2020

2. Effects of Predators on Fish and Crayfish Survival in Intermittent Streams

Author

Matthew P. Dekar and Daniel D. Magoulick

Subjects

Campostoma, Habitat, biology, Ecology, Central stoneroller, Stream pool, Crayfish, biology.organism_classification, Substrate (marine biology), Ecology, Evolution, Behavior and Systematics, Predation, Mesocosm

Abstract

Predation from aquatic and terrestrial predators are important factors structuring the size and depth distribution of aquatic prey. We conducted mesocosm and tethering experiments on Little Mulberry Creek in northwest Arkansas during low flows to examine the effects of predators on fish and crayfish survival in intermittent streams. Using shallow artificial pools (10 cm deep) and predator exclusions, we tested the hypothesis that large-bodied fish are at greater risk from terrestrial predators in shallow habitats compared to small-bodied individuals. Twenty-four circular pools (12 open top, 12 closed top) were stocked with two size classes of Campostoma anomalum (Central Stoneroller) and deployed systematically in a single stream pool. In addition, we used a crayfish tethering experiment to test the hypothesis that the survival of small and large crayfish is greater in shallow and deep habitats, respectively. We tethered two size classes of Orconectes meeki meeki (Meek's Crayfish) along shallow and deep transects in two adjacent stream pools and measured survival for 15 days. During both experiments, we monitored the presence or absence of predators by visual observation and from scat surveys. We demonstrated a negative effect of terrestrial predators on Central Stoneroller survival in the artificial pools, and larger individuals were more susceptible to predation. In contrast, small crayfish experienced low survival at all depths and large crayfish were preyed upon much less intensively during the tethering study, particularly in the pool with larger substrate. More studies are needed to understand how stream drying and environmental heterogeneity influence the complex interactions between predator and prey populations in intermittent streams.

Published

2013

3. Invasive Crayfish Orconectes neglectus Threatens Native Crayfishes in the Spring River Drainage of Arkansas and Missouri

Author

Robert J. DiStefano and Daniel D. Magoulick

Subjects

Fishery, Riffle, Habitat, Common species, Ecology, Range (biology), Biodiversity, Introduced species, Biology, Crayfish, Ecology, Evolution, Behavior and Systematics, Invasive species

Abstract

Invasive species are one of the major threats to biological diversity. Invasive species of crayfish are known to negatively impact native species in aquatic ecosystems. We recently found that an Ozark endemic crayfish, Orconectes neglectus, has been introduced into the Spring River drainage of southern Missouri and northern Arkansas and appears to have the potential to negatively impact the native communities. We used quantitative kick netting along the Spring River and selected tributaries to determine the distribution and abundance of O. neglectus and its potential to impact native crayfish species. The native crayfishes Orconectes eupunctus, a species of special concern, and Cambarus hubbsi appear to no longer occur throughout much of their former range in the Spring River drainage where O. neglectus is now abundant. Orconectes eupunctus, C. hubbsi, and O. neglectus mainly used fast-flowing riffle and run habitats with a mix of gravel, cobble, and boulder, whereas the other common species collected, Orconectes punctimanus and Orconectes ozarkae, were more generalists in habitat use and were found at all sampled sites. Orconectes eupunctus and C. hubbsi were positively associated with each other, but negatively associated with O. neglectus, despite their similar habitat use. These results provide evidence that O. neglectus is expanding its range, possibly to the detriment of O. eupunctus and C. hubbsi. An intensive field survey and manipulative experiments would be required to confirm the disappearance of the native species, and the mechanisms involved.

Published

2007