The rise of Noctiluca scintillans at the base of the Arabian Sea food chain threatens fisheries in Oman and other countries bordering the sea. (Joaquim Goes)

A growing “dead zone” in the middle of the Arabian Sea has allowed plankton uniquely suited to low- oxygen water to take over the base of the food chain. Their rise to dominance over the last decade could be disastrous for the predator fish that sustain 120 million people living on the sea’s edge.

Noctiluca scintillans, an unusual dinoflagellate that eats other plankton and draws energy from the sun via microscopic algae living within its cells. Noctiluca’s thick blooms color the Arabian Sea an emerald green each winter, from the shores of Oman on the west, to India and Pakistan on the east. Scientists at Columbia University’s Lamont-Doherty Earth Observatory and their colleagues are the first to document the rapid rise of greenan unusual dinoflagellate that eats other plankton and draws energy from the sun via microscopic algae living within its cells.thick blooms color the Arabian Sea an emerald green each winter, from the shores of Oman on the west, to India and Pakistan on the east.

Nature Communications , the researchers show how the millions of green algae living within Noctiluca’s cells allow it to exploit an oxygen-starved dead zone the size of Texas. They hypothesize that a tide of nutrient-rich sewage flowing from booming cities on the Arabian Sea is expanding the dead zone and feeding Noctiluca’s growth. In a study published this week in, the researchers show how the millions of green algae living withincells allow it to exploit an oxygen-starved dead zone the size of Texas. They hypothesize that a tide of nutrient-rich sewage flowing from booming cities on the Arabian Sea is expanding the dead zone and feedinggrowth.

Winter blooms of Noctiluca are so vast they can be seen from space. (Norman Kuring, NASA)



“These blooms are massive, appear year after year, and could be devastating to the Arabian Sea ecosystem over the long-term,” said the study’s lead author, Helga do Rosario Gomes , a biogeochemist at Lamont-Doherty. Until recently, photosynthetic diatoms supported the Arabian Sea food chain. Zooplankton grazed on the diatoms, a type of algae, and were in turn eaten by fish. In the early 2000s, it all changed. The researchers began to see vast blooms of Noctiluca and a steep drop in diatoms and dissolved oxygen in the water column. Within a decade, Noctiluca had virtually replaced diatoms at the base of the food chain, marking the start of a colossal ecosystem shift. Green Noctiluca lives in the tropics while its close relative, red Noctiluca scintillans , whose blooms can sometimes kill fish with their high ammonia content, prefers temperate waters. Green Noctiluca is remarkably willing to eat anything. It feeds on other plankton, living or dead, flushing diatoms and other plankton into its gullet with a flick of its flagellum. It also draws energy from the millions of green algae, or “endosymbionts,” living within its transparent cell walls. The algae fix carbon from sunlight and pass the energy, like rent, on to their host.

When Noctiluca isn’t feasting on plankton, it grabs free energy from the millions of green algae living within its cells. (Joaquim Goes)

A varied diet gives Noctiluca its edge. “They can swim down to find nutrients, up to find light, and they can eat other small organisms,” said Sharon Smith, a plankton ecologist at the University of Miami who works in the Arabian Sea but was not involved in the study. To understand the key to Noctiluca ’s success, the researchers spent three successive winters aboard the Indian research ship Sagar Sampada, starting in 2009. Sailing off the coast of Goa, they sampled blooms and performed experiments.Putting Noctiluca and itsdiatom competitors in oxygen-starved water they found that Noctiluca’s carbon-fixation rate rose by up to 300 percent while the diatoms’ fell by nearly as much. They also found Noctiluca grew faster in light than in dark, thanks to its sun-loving endosymbiont-algae, which are thought to have evolved 1.3 billion years ago on an oxygen-scarce Earth. The researchers tried to also identify Noctiluca’s predators. They had heard reports of Omani fishermen seeing more gelatinoussalps, jellyfish and sea turtles. Could they be eating the Noctiluca? Scooping up several salps from the sea, the researchers dropped them into buckets of seawater thick with Noctiluca blooms. In an hour, the water became visibly clearer. By measuring the drop in chlorophyll, the researchers estimated that one salp can polish off about two-thirds of a bucket of Noctiluca in an hour. “They chowed on Noctiluca , like rabbits in a lettuce patch,” said Gomes. “This is a creature that few other marine animals want to eat.”

The Arabian Sea fishery may already be in decline. In Goa, India, women sort through the morning catch. (Joaquim Goes)

Noctiluca is too big for the crustacean grazers that normally feed on diatoms, leading to concerns that it could spawn an alternate food chain lacking the predator fish people like to eat. Many fisheries in the Arabian Sea are already on a slow decline. Eighty-five percent of fishermen surveyed in the fishing-dependent states of Tamil Nadu and Maharashtra in Indiareported a smaller catch from 20 years and 12 years earlier, according to a 2014 study in the journal Oryx . Similarly, a rise in puffer fish off the coast of the Indian state of Kerala has been attributed to a crash in predator cobia fish since 2007, according to a 2013 study in Current Science . In Oman, the catch of large fish fell 18 percent in 2013 from the year before, the Times of Oman reported.

Whether Noctiluca or overfishing is to blame, one major factor stands out: massive sewage flows into the Arabian Sea as the coastal population has exploded. As the study authors point out, Mumbai’s population has doubled to 21 million in the last decade. The region now sends 63 tons of nitrogen and 11 tons of phosphorus into the Arabian Sea each day. Karachi’s 15 million people send 70 percent of their wastewater into the sea untreated. Much of the fertilizer used to boost yields on farms in South Asia also eventually washes into rivers that drain into the sea.