Long-term Observations Hold Key To Climate Change Impact Assessment

2016-01-28T16:31:51+00:00 January 14, 2016|
Around fifteen years of continuous data is sufficient to detect changes in the ocean that are a direct response to increases in atmospheric CO2, such as sea surface temperature and ocean acidity.

(Click to enlarge) Around fifteen years of continuous data is sufficient to detect changes in the ocean that are a direct response to increases in atmospheric CO2, such as sea surface temperature and ocean acidity. (Credit: Wikimedia Commons)

Most ocean data sets are far too short for the accurate detection of trends resulting from global climate change, according to research published in the journal Global Change Biology.

(From Science Daily) — This study, by scientists at the National Oceanography Centre (NOC), will help to make decisions about where, and for how long, we should monitor the ocean in order to spot climate trends in ocean biology.

Around fifteen years of continuous data is sufficient to detect changes in the ocean that are a direct response to increases in atmospheric CO2, such as sea surface temperature and ocean acidity. However, changes that are less directly related to increasing CO2 levels are harder to pick out from the ‘noise’ of natural variability. These include populations of tiny marine plants, known as phytoplankton, which are the base of the marine food web and help the ocean absorb CO2 from the atmosphere.

The lead author, Dr Stephanie Henson from the NOC, said that “Picking out some trends from natural variability is like listening for a soft sound in a noisy room. This research really highlights the importance of continuing long-term observations at a range of sites across the ocean, so we can better detect the way it is changing. Without long-term datasets, it’s difficult to understand how ocean biology may respond to global climate change. ”

Read the full article here: http://www.sciencedaily.com/releases/2016/01/160108134649.htm