Published 25 August 2020 Among global coastal regions, the Northern California Current System (N-CCS) is already experiencing effects from ocean acidification and hypoxia during the summer, primarily due to the region’s seasonal upwelling, current systems, and high productivity. Oxygen, pH, and temperature conditions are expected to become more stressful
Month: August 2020
Temperature and salinity, not acidification, predict near-future larval growth and larval habitat suitability of Olympia oysters in the Salish Sea
Jake A. Lawlor & Shawn M. Arellano Scientific Reports volume 10, Article number: 13787 (2020) Abstract Most invertebrates in the ocean begin their lives with planktonic larval phases that are critical for dispersal and distribution of these species. Larvae are particularly vulnerable to environmental change, so understanding interactive effects of environmental
Locating gaps in the California Current System ocean acidification monitoring network
Rae Taylor-Burns, Courtney Cochran, Kelly Ferron, Madison Harris, Courtney Thomas, Alexa Fredston, Bruce E Kendall, 2020 Abstract Ocean acidification is a global issue with particular regional significance in the California Current System, where social, economic, and ecological impacts are already occurring. Although ocean acidification is a concern that unifies the
Rapid deep ocean deoxygenation and acidification threaten life on Northeast Pacific seamounts
Anthropogenic climate change is causing our oceans to lose oxygen and become more acidic at an unprecedented rate, threatening marine ecosystems and their associated animals. In deep‐sea environments, where conditions have typically changed over geological time scales, the associated animals, adapted to these stable conditions, are expected to be highly