Chouly Ou scite author profile

Chouly Ou

4Publications

69Citation Statements Received

163Citation Statements Given

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Affiliations

Virginia Tech, Texas A&M University

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Seasonal hydrology shifts production sources supporting fishes in rivers of the Lower Mekong Basin

Winemiller

2016

Can. J. Fish. Aquat. Sci.

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Seasonal hydrology is assumed to be an important reason why the Lower Mekong Basin supports highly productive and biodiverse inland fisheries. We used C and N stable isotope ratios of tissue samples to estimate primary production sources supporting fish biomass in the Mekong and three large tributaries in Cambodia. We used a Bayesian mixing model to estimate relative contributions of four alternative production sources — seston, benthic algae, riparian grasses, and riparian macrophytes. There was little seasonal variation in isotopic signatures of riparian plants, but benthic algae and seston showed large seasonal shifts in carbon ratios. Seston and benthic algae were the most important production sources supporting fish biomass overall during the dry season, and riparian vegetation was the most important source during the wet season. Sources contributed differentially to biomass of trophic and habitat guilds, especially during the dry season. A dam on the upper Sesan River has changed hydrology, channel geomorphology, and other factors and, compared with the other three rivers, its fish biomass appears to derive from algae to a greater extent.

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Body size–trophic position relationships among fishes of the lower Mekong basin

Montaña

Winemiller

2017

R. Soc. open sci.

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Body size is frequently claimed to be a major determinant of animal trophic interactions, yet few studies have explored relationships between body size and trophic interactions in rivers, especially within the tropics. We examined relationships between body size and trophic position (TP) within fish assemblages in four lowland rivers of the Lower Mekong Basin in Cambodia. Stable isotope analysis (based on δ15N) was used to estimate TP of common fish species in each river, and species were classified according to occupation of benthic versus pelagic habitats and major feeding guilds. Regression analysis yielded strong correlations between body size and TP among fishes from the Sesan and Sreprok rivers, but not those from the Mekong and Sekong rivers. The Mekong fish assemblage had higher average TP compared with those of other rivers. The relationship between body size and TP was positive and significantly correlated for piscivores and omnivores, but not for detritivores and insectivores. The body size–TP relationship did not differ between pelagic and benthic fishes. Body size significantly predicted TP within the orders Siluriformes and Perciformes, but not for Cypriniformes, the most species-rich and ecologically diverse order in the Lower Mekong River. We conclude that for species-rich, tropical fish assemblages with many detritivores and invertivores, body size would not be an appropriate surrogate for TP in food web models and other ecological applications.

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Functional and trophic diversity of fishes in the Mekong-3S river system: comparison of morphological and isotopic patterns

Montaña

Keppeler

et al. 2020

Environ Biol Fish

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Supplementary material from "Body size–trophic position relationships among fishes of the lower Mekong basin"

Ou¹,

G.²,

Kirk³

2016

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Chouly Ou

Seasonal hydrology shifts production sources supporting fishes in rivers of the Lower Mekong Basin

Body size–trophic position relationships among fishes of the lower Mekong basin

Functional and trophic diversity of fishes in the Mekong-3S river system: comparison of morphological and isotopic patterns

Supplementary material from "Body size–trophic position relationships among fishes of the lower Mekong basin"

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