News Release

Jellyfish under attack!

First parasitic spillover of a burrowing sea anemone to jellyfish discovered in the Mediterranean Sea

Peer-Reviewed Publication

University of Haifa

Cilia movement of the Edwardsiella carnea spherical parasitic planula

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Cilia movement of the Edwardsiella carnea spherical parasitic planula (x400).

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Credit: Researchers

Many marine organisms, like sea anemones, struggle to spread across the ocean, especially if they lack long, mobile larval stages. Unlike their jellyfish relatives, sea anemones do not have a medusa stage, making their dispersal challenging. Their only mobile stage is a tiny larva called a planula. In many species of sea anemones, the planula persists for only a short period before it settles on the seafloor and transforms into a polyp—a soft, tube-like animal with a central mouth surrounded by tentacles. This brief window reduces the ability of sea anemones to settle in new areas far from where they originated.
Some sea anemones, like the burrowing anemone Edwardsiella carnea, have developed a unique way to overcome the challenges of ocean dispersal. These anemones parasitize jelly-like marine animals called comb jellies (or ctenophores) to spread more easily through the ocean. The polyps of this species release eggs and sperm into the water, where fertilization happens. The fertilized eggs develop into planulae, which can infect comb jellies by either burrowing into their tissues or being swallowed. Inside the comb jelly, the planula grows into a worm-like form, which can then be released and settle on the seafloor to develop into a polyp. Comb jellies can host one or many of these parasitic anemones at the same time, and carry the parasitic planulae for long distances, across the ocean.
A new study led by Prof. Tamar Guy-Haim from the Israel Oceanographic and Limnological Research (IOLR) and Ben-Gurion University, and the doctoral student Anastasiia Iakovleva, along with Dr. Arseniy R. Morov from the Guy-Haim Lab in IOLR and Prof. Dror Angel from the University of Haifa, has uncovered the first documented cases of parasitic burrowing anemone planulae in scyphozoan medusae (“true jellyfish”). The study, published last Friday in Scientific Reports, identified Edwardsiella carnea planulae in the Mediterranean barrel jellyfish (Rhizostoma pulmo) and the invasive nomad jellyfish (Rhopilema nomadica), using both morphological and molecular-genetic analyses. These findings indicate a “parasitic spillover”—an ecological phenomenon that occurs when a parasite, typically associated with one host species, begins to infect a new host.
This finding is particularly astonishing because parasite-host relationships are usually evolutionarily conserved, meaning parasites typically infect species they have co-evolved with over long periods, often developing very specific ways to survive and thrive within those hosts. It is rare for a parasite to switch to a different species in an
evolutionarily separate group. To explain their findings, the researchers proposed that the sea anemone's host choice is driven by the availability of gelatinous zooplankton during seasonal jellyfish blooms rather than due to evolutionary ties.
This research highlights how parasites can adapt to new hosts in rapidly changing marine ecosystems, especially under an exacerbating climate change that is evident in the Mediterranean Sea. The implications of this host switch could be significant, especially as jellyfish blooms have become more frequent and intense in this region in recent decades. Further research is planned to investigate the broader impact of this parasitism on jellyfish populations, particularly regarding their reproduction, growth, and survival.


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