Longfin Smelt (Spirinchus thaleichthys) was an important forage fish in the San Francisco Estuary (SFE) but was listed as threatened under the California Endangered Species Act in 2009. This has inspired research within the SFE at the southern edge of their distribution. However, populations also exist in other estuaries along the coast, which are far less described despite their potential importance in a metapopulation. We surveyed Longfin Smelt populations along the northern California coast for larval recruitment. We conducted surveys in 2019 and 2020 to (1) identify estuaries north of SFE where spawning occurs, and (2) evaluate how habitat features (e.g., salinity, temperature, dissolved oxygen, turbidity) influenced Longfin Smelt larvae abundance. We detected larvae in four of 16 estuaries we surveyed, and all were large estuaries north of Cape Mendocino. No larvae were detected in eight coastal estuaries in closer proximity to the SFE. Larvae catch probability increased with turbidity and decreased with salinity with no significant influence of temperature and dissolved oxygen. In the wet winter of 2019, we observed lower densities of larvae in Humboldt Bay and the Eel River and detected no Longfin Smelt in the Klamath and Mad Rivers, while in the dry winter of 2020, we detected larvae in two additional estuaries. Elevated freshwater outflow in 2019 possibly increased transport rates to sea, resulting in observed low larval recruitment. Our results sugget that, although populations of Longfin Smelt exist in large estuaries north of Cape Mendocino, coastal estuaries in proximity to the SFE were either under sampled or are not permanently inhabited by Longfin Smelt. Longfin Smelt in the SFE may therefore lack resilience normally afforded by metapopulations. Increased monitoring over their coastal range under varying hydrologic conditions is needed to assess gene flow between populations.