Numerous monitoring efforts are underway to improve understanding of ocean acidification and its impacts on coastal environments, but there is a need to develop a coordinated approach that facilitates spatial and temporal comparisons of drivers and responses on a regional scale. Toward that goal, the California Current Acidification Network (C-CAN) held a series of workshops to develop a set of core principles for facilitating integration of ocean acidification monitoring efforts on the US West Coast. The recommended core principles include: (1) monitoring measurements should facilitate determination of aragonite saturation state (Ωarag) as the common currency of comparison, allowing a complete description of the inorganic carbon system; (2) maximum uncertainty of ±0.2 in the calculation of Ωarag is required to adequately link changes in ocean chemistry to changes in ecosystem function; (3) inclusion of a variety of monitoring platforms and levels of effort in the network will insure collection of high-frequency temporal data at fixed locations as well as spatial mapping across locations; (4) physical and chemical oceanographic monitoring should be linked with biological monitoring; and (5) the monitoring network should share data and make it accessible to a broad audience.
Core Principles of the California Current Acidification Network: Linking Chemistry, Physics, and Ecological Effects
- Author(s): Karen McLaughlin, Stephen B. Weisberg, Andrew G. Dickson, Gretchen E. Hofmann , Jan A. Newton, Deborah Aseltine-Neilson, Alan Barton , Sue Cudd , Richard A. Feely , Ian W. Jefferds , Elizabeth B. Jewett , Teri King , Chris J. Langdon, Skyli McAfee, Diane Pleschner-Steele, Bruce Steele
- Oceanography
- October 2, 2015
Citation: McLaughlin, K., S.B. Weisberg, A.G. Dickson, G.E. Hofmann, J.A. Newton, D. Aseltine-Neilson, A. Barton, S. Cudd, R.A. Feely, I.W. Jefferds, E.B. Jewett, T. King, C.J. Langdon, S. McAfee, D. Pleschner-Steele, and B. Steele. 2015. Core principles of the California Current Acidification Network: Linking chemistry, physics, and ecological effects. Oceanography 28(2):160–169, https://doi.org/10.5670/oceanog.2015.39.