One product issued by NWS for: 3NM SW Oxnard CA
Marine Weather Statement
Marine Weather Statement National Weather Service Los Angeles/Oxnard CA 1100 AM PDT Sat Jun 22 2024 PZZ645-650-655-670-673-676-231000- Point Piedras Blancas to Point Sal westward out to 10 NM- East Santa Barbara Channel from Pt. Conception to Pt. Mugu CA including Santa Cruz Island- Inner waters from Point Mugu to San Mateo Pt. CA including Santa Catalina and Anacapa Islands- Point Piedras Blancas to Point Sal from 10 to 60 NM- Waters from Pt. Sal to Santa Cruz Island CA and westward 60 nm including San Miguel and Santa Rosa Islands- Outer waters from Santa Cruz Island to San Clemente Island to 60 NM offshore including San Nicolas and Santa Barbara Islands- 1100 AM PDT Sat Jun 22 2024 ...AREAS DENSE FOG THROUGH EARLY NEXT WEEK... ...POTENTIAL FOR A FEW WEEKEND THUNDERSTORMS... Areas of dense fog are expected over the coastal waters through early next week, even during the daytime hours. Mariners should be prepared for abrupt visibility changes down to one nautical mile or less. Reduce speeds and be on the lookout for exposed rocks and other vessels, including large ships in the shipping lanes. Use radar or GPS navigation if available, and consider remaining in harbor if such equipment is unavailable. In addition, remnant upper-level moisture from Tropical Cyclone Alberto will advance into Southern California and the adjacent coastal waters this weekend and will bring a slight chance (10 to 15 percent) of thunderstorms across the all of the coastal waters. The best chance of thunderstorms will be tonight, though storms cannot be ruled out as early as this afternoon or as late as Sunday afternoon. Any thunderstorms would be capable of producing dangerous cloud- to-water lightning strikes, gusty winds, small hail, and brief heavy rain. This is a highly uncertain situation, and those with interests over the coastal waters are encouraged to closely monitor the latest situation, and consider making alternative plans if the chances for thunderstorms were to increase. $$ RM/ASR