Abstract
An occupied niche space implies resource use, and understanding the factors that lead to change in trophic niches is vital to assess food web structures. Quantifying niches and niche overlaps are important to assess interspecies resource partitioning and competition. In this study, stable carbon and nitrogen isotopes were used to characterize trophic niche width of and niche overlap among three commercially-important benthic-living fish (Carassius auratus, Pelteobagrus fulvidraco, and Silurus asotus) collected from northern and southern Poyang Lake. The separation of snails and mussels on the δ13C at southern part indicating the integration of terrestrial derived organic carbon, which led to larger trophic niche widths of fish in the south. The δ15N ratios of fishes were significantly higher in the northern Lake than in the southern part. Furthermore, the trophic overlaps were higher in the south than in the north. Trophic niche width of C. auratus was the smallest as their food sources were easy to acquire, and consumers tended to specialize and narrow their trophic niches when food resource is abundant. S. asotus, a predator species, was short of animal food sources due to heavy fishing pressure. Therefore, its diet broadened, and the trophic niche width was the largest.
Highlights
Hutchinson’s conceptualization of niche as an n-dimensional hypervolume is a crucial foundation for ecologists (Hutchinson 1957)
C. auratus, P. fulvidraco, and S. asotus were collected at two sites by local fishermen in each part of the lake
B. aeruginosa, and filter-feeding mussel, C. fluminea presented in 80.0% and 63.6% of sampled sites at northern and southern Poyang Lake
Summary
Hutchinson’s conceptualization of niche as an n-dimensional hypervolume is a crucial foundation for ecologists (Hutchinson 1957). Assessing the functional role of a specie depends on quantifying its trophic niche width, which represents. Quantifying niches and species niche overlaps is of interest to many ecologists. The isotopic signature of carbon (δ13C) provides information on the food source of the consumer, and the isotopic signature of nitrogen (δ15N) is associated with the trophic level (Peterson and Fry 1987). Xu et al (2012) found that Yellow catfish (Pelteobagrus fulvidraco) could adjust their foraging strategies to temporal changes in food availability in Taihu Lake. In summer, they tend to forage small fish and shrimp to balance the energy demand on growth and reproduction. A study on two coexisting planktivores (silver carp and bighead carp) in southern China revealed a trophic niche overlap between these
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