Progress Towards a Global Understanding of Plankton Dynamics: The Global Alliance of CPR Surveys (GACS)
Sonia Batten1, Anthony Richardson2, Chris Melrose3, Erik Muxagata4, Graham Hosie5, Hans Verheye6, Julie Hall7, Martin Edwards8, Philippe Koubbi9, Rana Abualhaija10, Sanae Chiba11, Willie Wilson5, Ramaiah Nagappa12 and Kunio Takahashi13, (1)Sir Alister Hardy Foundation for Ocean Science, Nanaimo, BC, Canada, (2)CSIRO, Australia, (3)NOAA, (4)FURG, Brazil, (5)SAHFOS, Plymouth, United Kingdom, (6)Dept Environmental Affairs, South Africa, (7)NIWA, New Zealand, (8)Sir Alister Hardy Foundation for Ocean Science, Plymouth, United Kingdom, (9)Université Pierre et Marie Curie, France, (10)EEWRC, The Cyprus Institute, Nicosia, Cyprus, (11)Japan Agency for Marine-Science and Technology, Environmental Biogeochemical Cycles Research Program, Research Institute for Global Change, Yokohama, Japan, (12)CSIR-National Institute of Oceanography,, India, (13)NIPR, Japan
Abstract:
The Continuous Plankton Recorder (CPR) was first used in 1931 to routinely sample plankton and its continued deployment now sustains the longest-running, and spatially most extensive marine biological sampling programme in the world. Towed behind, for the most part commercial, ships it collects plankton samples from the surface waters that are subsequently analysed to provide taxonomically-resolved abundance data on a broad range of planktonic organisms from the size of coccolithophores to euphausiids. Plankton appear to integrate changes in the physical environment and by underpinning most marine food-webs, pass on this variability to higher trophic levels which have societal value. CPRs are deployed increasingly around the globe in discrete regional surveys that until recently interacted in an informal way. In 2011 the Global Alliance of CPR Surveys (GACS) was launched to bring these surveys together to collaborate more productively and address issues such as: methodological standardization, data integration, capacity building, and data analysis. Early products include a combined global database and regularly-released global marine ecological status reports. There are, of course, limitations to the exploitation of CPR data as well as the current geographic coverage. A current focus of GACS is integration of the data with models to meaningfully extrapolate across time and space. In this way the output could be used to provide more robust synoptic representations of key plankton variables. Recent years have also seen the CPR used as a platform in itself with the inclusion of additional sensors and water samplers that can sample the microplankton. The archive of samples has already been used for some molecular investigations and curation of samples is maintained for future studies. Thus the CPR is a key element of any regional to global ocean observing system of biodiversity.