Long-spined Sea urchin deaths in the Caribbean Sea have been caused by a parasite, which has had catastrophic effects on coral reefs and other marine ecosystems.

Sea urchin has a great role in an aquatic environment
(Photo : PASCAL POCHARD-CASABIANCA/AFP via Getty Images)

Long-spined Sea urchins (Diadema antillarum) are essential herbivores that graze on algae, which, if left unchecked, would outcompete corals for space, cover them, block their light, and eventually kill them.

The sea urchins' consumption of algae helps to keep the marine ecosystem's corals healthy and in balance, as per Phys.Org.

The first deaths from Diadema mortalities were noted in St. Thomas, in the United States. late January 2022, Virgin Islands.

The illness had spread to Jamaica, the Mexican Caribbean, and the Lesser Antilles by late March.

The unexplained illness caused death rates in impacted areas to drop by 85% to 95% from pre-mortality levels.

Scientists have been working to find the source of the ailment.

Death causes sea urchins to lose their spines and separate from their anchors.

Long-spined Sea urchin populations in the Caribbean had a 98% reduction in the early 1980s due to an unidentified reason that nearly wiped them out. 

Three decades later, only 12% of their pre-epidemic populations were thought to have recovered.

Many coral reefs around the region suffered rapid degradation because of the die-off, and certain coral species have since become incredibly scarce.

Also Read: Sea Urchins Are Munching Kelp for Survival That Causes Ecological Imbalance

Protozoan parasite responsible for massive sea urchin deaths in Caribbean

As part of the current investigation, the research team gathered three different types of Diadema samples, including visually aberrant, infected people, healthy people from the same location, and entirely healthy people from an unaffected area that served as a control for comparison.

The preparation of tissue samples and their delivery to Hewson's lab at Cornell required a laborious process including customs and border laws.

Marine ecologist Ian Hewson, professor of microbiology at Cornell University and his colleagues then used cutting-edge molecular biological and veterinary pathological procedures to conduct tests to find viral or bacterial infections in the tissues, but the results were ambiguous.

He hurried to the labs and retrieved fluid samples from Diadema that field workers had taken, then he examined them under the microscope.

Although P. apodigitiformis was previously linked to enormous invertebrate mortality before, it has also been documented to infect fish.

In 60% of the cases, Hewson noted, animals given the ciliate developed illnesses and perished.

After that, they were able to isolate and identify the exact same P. apodigitiformis ciliate from the newly afflicted animals, demonstrating that it was the cause of the illness.

At least in maritime ecosystems, scientists are rarely able to demonstrate that a microbe is the true cause of sickness in a wildlife situation.

If sea urchins happen to lose its population

Despite not being thought of as a keystone species, sea urchins are essential to the preservation of healthy marine habitats.

The entire coral reef ecosystem may collapse if there were no sea urchins to eat the algae, as per Wildcoast costalsalvaje.

Because they consume dead organisms and aid in the conversion of waste materials into useful energy for other organisms, sea urchins are an essential component of our environment.

In an ecosystem, it is risky if echinoderm populations increase or drop too quickly; if a balance fails to occur, the ecology as a whole may collapse.

When sea urchin populations fall too much, predators that depend on them for food perish, which can have a negative impact on fisheries.

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