AUTHOR=Quist Michael C. , Blackburn Shannon E. , Ulaski Marta E. , Jackson Zachary J. 

TITLE=Long-term patterns in growth of White Sturgeon in the Sacramento-San Joaquin River Basin, California

JOURNAL=Frontiers in Freshwater Science

VOLUME=Volume 3 - 2025

YEAR=2025

URL=https://www.frontiersin.org/journals/freshwater-science/articles/10.3389/ffwsc.2025.1577065

DOI=10.3389/ffwsc.2025.1577065

ISSN=2813-7124

ABSTRACT=IntroductionThe Sacramento-San Joaquin River system (SSJ) of California includes both riverine, delta, and estuarine habitats and is among the most modified aquatic ecosystems in the United States. Water development projects in the system are associated with declines of many native species, including White Sturgeon Acipenser transmontanus.MethodsWe used White Sturgeon pectoral fin rays collected from 1983 to 2016 throughout the SSJ to assess long-term changes in growth and associations with thermal and hydrological conditions (i.e., temperature, discharge, salinity). Age and growth were estimated from 1,897 White Sturgeon varying in fork length from 25 to 210 cm and from age 0 to 33.ResultsAge structure varied through time with the oldest fish generally sampled during the mid-1980s. Growth of White Sturgeon in 1951–1970 was slower than growth of fish in 1971–1990 and 1991–2012. Growth of White Sturgeon during 1991–2012 was ~10% higher than during other time periods.DiscussionLittle variation in growth was explained by environmental covariates, suggesting that annual growth was likely influenced by factors not measured in our study. Alternatively, population structure and movement behavior of White Sturgeon in the SSJ may be such that the scale (i.e., spatial or temporal) of available habitat covariates was mismatched to the scale at which growth of White Sturgeon responds. Increased growth in recent times may be partly due to density-dependent processes in association with substantial declines in White Sturgeon population abundance over the last several decades. This research provides important information on long-term patterns in growth that contributes to the conservation and management of White Sturgeon in the SSJ and beyond.