First evidence of an extant freshwater sponge fauna in Jackson Lake, Grand Teton National Park, Wyoming (USA)

ABSTRACT

Skeletal remains of freshwater sponges are important microfossils that may be preserved in the sediments of inland waters, but much is still unknown about the sponge fauna of the Nearctic, which limits their use in paleoenvironmental reconstructions. Here, we report the first evidence of an extant freshwater sponge fauna in Jackson Lake, Grand Teton National Park, Wyoming (USA). Two sponge species were identified living in shallow littoral and shoreline environments: Eunapius fragilis (Leidy 1851) and Ephydatia muelleri (Lieberkühn 1856). The spicules of  Eunapius fragilis present high morphological variability, in contrast to gemmuloscleres reported in specimens from lakes and rivers in southern South America and eastern North America. Ephydatia muelleri also exhibits morphological differences in comparison to published examples, chiefly related to the spines on megascleres. The megascleres of Ephydatia muelleri are straight or slightly curved, sharpening gradually toward the apices, with completely smooth surfaces (13%), surfaces with minimal spines (65%), or highly spined surfaces in the central area (22%). These morphological differences in the Ephydatia muelleri megascleres suggest the potential for ecophenotypic effects in Jackson Lake. Furthermore, the morphological and ecological variability of Eunapius fragilis and Ephydatia muelleri observed in Jackson Lake suggest the need for further studies of the Nearctic to understand if a species complex exists or if morphological dissimilarities are indicative of true taxonomic differences and therefore multiple new species. This study expands the biogeography of freshwater sponges and provides the first documentation of benthic sessile filter feeders in Jackson Lake, a key source of ecosystem services.

KEYWORDS:

• biogenic silica
• freshwater lake
• Grand Teton National Park
• Nearctic
• porifera

Acknowledgements

G. Rasbold thanks the grant 2020/07726-0, São Paulo Research Foundation (FAPESP). We are grateful for field and lab assistance of H. Johnson, A. Helfrich, S. Johnson, C. Cearley, B. Hodelka, and D. Moecher.

Disclosure statement

No potential conflict of interest was reported by the author(s).

Additional information

Funding

Portions of this research were funded by the US-National Science Foundation (award # 1932808). GGR thanks the grant CNPq 204880/2018-1, National Council for Scientific and Technological Development (Brazil), which supported research travel to the University of Kentucky.