Your search keyword '"Sharpe DMT"' showing total 3 results

1. Biological invasions alter the structure of a tropical freshwater food web.

Author

Sharpe DMT, Valverde MP, De León LF, Hendry AP, and Torchin ME

Subjects

Animals, Fishes, Isotopes, Panama, Food Chain, Lakes chemistry

Abstract

Biological invasions are expected to alter food web structure, but there are limited empirical data directly comparing invaded versus uninvaded food webs, particularly in species-rich, tropical systems. We characterize for the first time the food web of Lake Gatun-a diverse and highly invaded tropical freshwater lake within the Panama Canal. We used stable isotope analysis to reconstruct the trophic structure of the fish community of Lake Gatun and to compare it to that of a minimally invaded reference lake, Lake Bayano. We found significant differences between the trophic structures of these two Neotropical lakes, notably that Lake Gatun's fish community was characterized by a longer food chain, greater isotopic diversity, a broader range of trophic positions and body sizes, and shifts in the isotopic positions of several native taxa relative to Lake Bayano. The degree of isotopic overlap between native and non-native trophic guilds in Lake Gatun was variable, with herbivores exhibiting the lowest (20%-29%) overlap and carnivores the greatest (81%-100%). Overall, our results provide some of the first empirical evidence for the ways in which multiple introduced and native species may partition isotopic space in a species-rich tropical freshwater food web., (© 2023 The Ecological Society of America.)

Published

2023

2. A new wave of marine fish invasions through the Panama and Suez canals.

Author

Castellanos-Galindo GA, Robertson DR, Sharpe DMT, and Torchin ME

Subjects

Animals, Panama, Biodiversity, Fishes

Published

2020

3. Variable vision in variable environments: the visual system of an invasive cichlid ( Cichla monoculus ) in Lake Gatun, Panama.

Author

Escobar-Camacho D, Pierotti MER, Ferenc V, Sharpe DMT, Ramos E, Martins C, and Carleton KL

Subjects

Animals, Environment, Introduced Species, Lakes, Opsins metabolism, Panama, Cichlids physiology, Light, Vision, Ocular, Visual Perception

Abstract

An adaptive visual system is essential for organisms inhabiting new or changing light environments. The Panama Canal exhibits such variable environments owing to its anthropogenic origin and current human activities. Within the Panama Canal, Lake Gatun harbors several exotic fish species including the invasive peacock bass ( Cichla monoculus ), a predatory Amazonian cichlid. In this research, through spectral measurements and molecular and physiological experiments, we studied the visual system of C. monoculus and its adaptive capabilities. Our results suggest that (1) Lake Gatun is a highly variable environment, where light transmission changes throughout the canal waterway, and that (2) C. monoculus has several visual adaptations suited for this red-shifted light environment. Cichla monoculus filters short wavelengths (∼400 nm) from the environment through its ocular media and tunes its visual sensitivities to the available light through opsin gene expression. More importantly, based on shifts in spectral sensitivities of photoreceptors alone, and on transcriptome analysis, C. monoculus exhibits extreme intraspecific variation in the use of vitamin A 1 /A 2 chromophore in their photoreceptors. Fish living in turbid water had higher proportions of vitamin A 2 , shifting sensitivities to longer wavelengths, than fish living in clear water. Furthermore, we also found variation in retinal transcriptomes, where fish from turbid and clear waters exhibited differentially expressed genes that vary greatly in their function. We suggest that this phenotypic plasticity has been key in the invasion success of C. monoculus ., Competing Interests: Competing interestsThe authors declare no competing or financial interests., (© 2019. Published by The Company of Biologists Ltd.)

Published

2019