acquired January 5, 2021
Phytoplankton Factory in the Argentine Sea
- Terra - MODIS
- Landsat 8 - OLI
- Data Date: January 2, 2021 - January 5, 2021
- Visualization Date: January 7, 2021
The Goldilocks zone typically refers to the habitable area around a star where conditions are right for the existence of liquid water and possibly life. But on Earth, the South Atlantic Ocean has its own kind of Goldilocks zone. In spring and summer, conditions in the Argentine Sea off Patagonia often become just right for phytoplankton, and populations of the plant-like organisms explode into enormous blooms.
In late 2020, satellite images started to show the colorful signature of phytoplankton blooms off the coast of Argentina and around the Falkland Islands (Islas Malvinas). Vivid greens and blues still swirled in the sea on January 5, 2021, when the Moderate Resolution Imaging Spectroradiometer (MODIS) on NASA’s Terra satellite acquired this natural-color image (above).
The Operational Land Imager (OLI) on Landsat 8 acquired the image below on January 2, 2021. It shows a detailed view of phytoplankton in Grande Bay, off of Argentina’s Santa Cruz province. Part of the Santa Cruz River is visible at the top-left.
acquired January 2, 2021
Rivers like the Santa Cruz carry nutrients from the land and deliver them to the ocean, promoting phytoplankton growth. (Suspended sediment could be contributing some of the color visible in these images.) Another source of nutrients is dust from Patagonia, which strong westerly winds can carry offshore and drop on the ocean surface.
But phytoplankton blooms are also stimulated by the ocean’s complex circulation patterns and abundant fronts—where separate water masses (with distinct temperatures, saltiness, and nutrients) meet. At the Brazil-Malvinas Confluence, for example, warm, saltier tropical waters flow south and meet the cooler, fresher waters flowing north from the Southern Ocean. Along a front, the rising of a less-dense water mass can carry nutrients up to the surface, where phytoplankton also have ample sunlight to fuel their growth.
Without a physical sample, it’s not possible to say for sure which type of phytoplankton are present in these images. Scientists found dinoflagellates (Prorocentrum minimum) while collecting samples during an intense bloom in spring 2005; diatoms (Chaetocceros debilis) dominated a bloom in early summer 2003. Both phytoplankton groups tend to appear various shades of green in satellite images. In December 2008, scientists also found a dense bloom of coccolithophores (Emiliania huxleyi), which tend to turn the ocean a chalky green-blue.
Notice the color gradients across the images. Bright green areas could be a mix of dinoflagellates, diatoms, and coccolithophores; in the bluer areas, coccolithophores likely dominate. Coccolithophores can continue to grow in waters where iron has been depleted, whereas diatoms need both silicate and iron.
Whichever species were blooming, their abundance indicates the biological richness along Patagonia’s continental shelf, which is the site of some of the world’s richest fisheries.
- Almandoz, G. O. et al. (2007) The genus Pseudo-nitzschia (Bacillariophyceae) in continental shelf waters of Argentina (Southwestern Atlantic Ocean, 38–55°S). Harmful Algae 6 (1), 93–103.
- Balch, W. M. et al. (2019) Coccolithophore distributions of the North and South Atlantic Ocean. Deep Sea Research Part I: Oceanographic Research Papers 151 (2019), 103066.
- Balch, W. M. et al. (2016) Factors regulating the Great Calcite Belt in the Southern Ocean and its biogeochemical significance. Global Biogeochemical Cycles 30 (8), 1124–1144.
- Balch, W. M. et al. (2014) Surface biological, chemical, and optical properties of the Patagonian Shelf coccolithophore bloom, the brightest waters of the Great Calcite Belt. Limnology and Oceanography 59 (5), 1715–1732.
- Carreto, J. I. et al. (2018) Mycosporine-like amino acids and xanthophyll-cycle pigments favour a massive spring bloom development of the dinoflagellate Prorocentrum minimum in Grande Bay (Argentina), an ozone hole affected area. Journal of Marine Systems 178 (2018), 15–28.
- Lutz, V. A. et al. (2010) Primary production in the Argentine Sea during spring estimated by field and satellite models. Journal of Plankton Research 32 (2), 37–56.
- NASA Earth Observatory (2019, April 30) Seeing the Sea Through the Years.
- NASA Earth Observatory (2018, December 23) Summer Bloom in the Argentine Sea.
- Piola, A. R. et al. (2018) Physical Oceanography of the SW Atlantic Shelf: A Review. Plankton Ecology of the Southwestern Atlantic, 37–56.
- Woods Hole Oceanographic Institution (2018, July 16) Forecasting Where Ocean Life Thrives. Accessed January 7, 2021.
NASA Earth Observatory images by Lauren Dauphin, using Landsat data from the U.S. Geological Survey and using MODIS data from NASA EOSDIS LANCE and GIBS/Worldview. Story by Kathryn Hansen, with image interpretation from Barney Balch (Bigelow Laboratory for Ocean Sciences), Ana Dogliotti (Institute for Astronomy and Space Physics-CONICET/UBA), and Vivian Lutz (CONICET/INIDEP).
This image record originally appeared on the Earth Observatory. Click here to view the full, original record.