Publication Date

1-1-2025

Document Type

Article

Publication Title

Aquatic Invasions

Volume

20

Issue

1

DOI

10.3391/ai.2025.20.1.145912

First Page

33

Last Page

51

Abstract

Hymeniacidon perlevis is a cosmopolitan sponge with a seasonal life cycle. We investigated seasonal and interannual dynamics of H. perlevis in Elkhorn Slough estuary, where it is an introduced species, and explored correlations between sponge cover and environmental conditions. We used sponge cover to estimate the potential effects of H. perlevis on its environment, and how those could vary across its seasonal life cycle. We found that recruitment is currently restricted to the upper estuary and while it varies annually, the frequency and density of sponge recruits have generally increased from 2007 to 2023. A seasonal life cycle was confirmed for Elkhorn Slough populations, consistent with other temperate populations of the species, with sponge cover peaking in October and declining to a minimum from March to May. Timelagged Spearman-ranked cross-correlations suggest that sponge cover correlated with warmer temperatures and lower dissolved oxygen at all sites, with a time lag of 2–4 months. Precipitation from severe winter storms in 2023 also coincided with declines in sponge cover. Over the course of two years, we estimated that H. perlevis biomass and potential for water filtration are greatest in fall—corresponding with peak cover, and weakest to nonexistent in the spring. Understanding the seasonal and interannual dynamics of the H. perlevis population in Elkhorn Slough can inform future approaches to manage or mitigate its ecological impacts.

Funding Number

CSUCOAST-HOEJAC-SJSU-AY2021

Funding Sponsor

Council on Ocean Affairs Science and Technology, California State University

Keywords

Elkhorn Slough, estuary, non-indigenous species, phenology, Porifera, recruitment, seasonal dynamics

Comments

© 2025 Jackson T. Hoeke, Kerstin Wasson, Amanda S. Kahn

Creative Commons License

Creative Commons License
This work is licensed under a Creative Commons Public Domain Dedication 1.0 License.

Department

Moss Landing Marine Laboratories

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