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First Lab Reproduction of Coral Offers New Hope for Threatened Sea Life
American scientists have reported the first successful sexual reproduction of Atlantic coral in a laboratory setting.
Researchers at the Florida Aquarium1 in Tampa recently announced their results. They described them as a “scientific breakthrough.”
Scientists believe the reproduction method could help save Atlantic corals in danger of disappearing completely.
Corals are groups of small organisms called polyps. These polyps live within a hard skeleton made of limestone2. Millions of corals grow together to form coral reefs. The reefs support many kinds of sea life. Coral reefs also support fishing activities and protect inland waterways.
Corals can reproduce either asexually or sexually. Asexually, new small polyps break off from parent polyps to expand or begin new colonies. This process is also known as fragmentation.
In sexual reproduction, some corals produce sperm3 and eggs and release them into the water. The eggs and sperm join to form free-floating larvae4. The larvae are either fertilized6 within the body of a polyp or in the water in a process called spawning8.
The laboratory experiment at the Florida Aquarium involved inducing corals to release their eggs and sperm in laboratory tanks.
Scientists in other countries have reported similar success, but the Florida Aquarium’s experiment was a first for the United States. The Florida team cooperated with researchers from the Britain-based Horniman Museum and Gardens, which has successfully induced spawning of different kinds of Pacific coral.
In order for the experiment to be a success, scientists had to control the tank to create conditions as similar as possible to a natural ocean environment. The Florida Aquarium team spent months doing this.
The effort included changing the temperatures in summer and winter and using technology to recreate sun and moon activity. Such conditions serve as biological signs for the organisms that it is time to spawn7.
Keri O’Neil is a senior coral scientist at the Florida Aquarium. She said the “massive and fully9 synchronized10 spawning” was a success because it happened at exactly the predicted time for wild spawning. She added that by creating the right conditions, “you can change the game for coral restoration.”
“We’ll be able to do this for dozens of species, and it opens up a world of new possibilities,” O’Neil told Reuters news agency.
The scientists plan to use the method to spawn new coral colonies to help repopulate Florida’s struggling coral reefs. The reef system is one of the largest in the world. But it has suffered years of damage from climate change, pollution and disease.
Amelia Moura is the science program manager for the Florida-based Coral Restoration Foundation. The organization carries out its own major fragmentation programs. This involves “farming” large numbers of corals that are later “outplanted” to the reef.
Moura told VOA there are many causes for the widespread destruction of Atlantic coral. All, however, are linked to climate change.
“Our corals, like many around the world, are at risk of warming waters and ocean acidification - all which come under the large umbrella of climate change.”
In addition, she said Florida coral is also currently suffering from “a massive disease outbreak” likely related to poor quality water flowing into the ocean.
Moura said it was “really exciting” to learn about the successful spawning of Atlantic coral. She said the results were especially important because they happened with pillar coral. This kind of coral has a more complex reproductive process than other species.
She added that there are very few adult colonies of this coral species still living. So, the new laboratory spawning can make a huge difference in coral restoration efforts in Florida and elsewhere.
“This new influx11 of genetic12 material is really critical for the success of the species long-term.”
I’m Bryan Lynn.
Words in This Story
breakthrough – n. an important discovery
larvae – n. the form some organisms take before they develop into a different form
fertilize5 – v. to cause an egg to start to develop into a young animal or baby
induce – v. take efforts to try and make something happen
synchronized – adj. happening in a well-planned, organized way
restoration – n. repairing something to the way it used to be
acidification – n. the process of becoming acidic
umbrella – n. something that includes a number of similar things
exciting – adj. causing great happiness and enthusiasm
influx – n. the arrival of a large number of people or things
1 aquarium | |
n.水族馆,养鱼池,玻璃缸 | |
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2 limestone | |
n.石灰石 | |
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3 sperm | |
n.精子,精液 | |
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4 larvae | |
n.幼虫 | |
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5 fertilize | |
v.使受精,施肥于,使肥沃 | |
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6 Fertilized | |
v.施肥( fertilize的过去式和过去分词 ) | |
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7 spawn | |
n.卵,产物,后代,结果;vt.产卵,种菌丝于,产生,造成;vi.产卵,大量生产 | |
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8 spawning | |
产卵 | |
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9 fully | |
adv.完全地,全部地,彻底地;充分地 | |
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10 synchronized | |
同步的 | |
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11 influx | |
n.流入,注入 | |
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12 genetic | |
adj.遗传的,遗传学的 | |
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