By analyzing a 20-year MODIS satellite data, it was found that 56% of the global surface ocean has been affected by climate change, with significant changes in color, especially in the ocean south of 40 degrees equator. Overall, low-latitude oceans have become greener in the past 20 years.
Strong natural variability has been thought to mask possible climate-change-driven trends in phytoplankton populations from Earth-observing satellites. More than 30 years of continuous data were thought to be needed to detect a trend driven by climate change(1). Here we show that climate-change trends emerge more rapidly in ocean colour (remote-sensing reflectance, R-rs), because Rrs is multivariate and some wavebands have low interannual variability. We analyse a 20-year Rrs time series from the Moderate Resolution Imaging Spectroradiometer (MODIS) aboard the Aqua satellite, and find significant trends in R-rs for 56% of the global surface ocean, mainly equatorward of 40 degrees. The climate-change signal in Rrs emerges after 20 years in similar regions covering a similar fraction of the ocean in a state-of-the-art ecosystem model2, which suggests that our observed trends indicate shifts in ocean colour-and, by extension, in surface-ocean ecosystems-that are driven by climate change. On the whole, low-latitude oceans have become greener in the past 20 years.
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