Scientists have discovered the largest plant on Earth – estimated to be at least 4,500 years old

Tape weeds (Posidonia australis)

Ribbon grass, Posidonia australis, meadow in Shark Bay, Western Australia. Credit score: Rachel Austin, College of Western Australia

Australian scientists imagine they’ve found the world’s largest plant – and estimate it’s a minimum of 4,500 years previous.

Choose researchers from The College of Western Australia (UWA) And the Flinders College.

The invention of a single plant or “clone” of seaweed Posidonia australis The sunny shallow waters of the Shark Bay World Heritage space of ​​Western Australia are detailed in a brand new examine revealed in Proceedings of the Royal Society B.

Lead writer, evolutionary biologist Dr Elizabeth Sinclair, of the College of Western Australia’s Faculty of Organic Sciences and the UWA Oceanic Institute, says the undertaking started when scientists wished to grasp the genetic variety of Shark Bay’s seagrass meadows, and which crops to gather for seagrass to revive.

“They’re typically requested what number of totally different crops develop in seagrass meadows, and this time we have used genetic instruments to reply that,” says Dr. Sinclair.

College of Western Australia pupil researcher Jane Idjilo and lead writer of the examine says the staff sampled seaweed buds from varied altering environments in Shark Bay, and created a “fingerprint” utilizing 18,000 genetic markers.

Share Bay Western Australia

Shallow and brackish waters of Shark Bay. Credit score: Angela Rossen

“We had been amazed by the reply – there was just one!” Mrs. Edgeloe stated. “That is it, just one plant has been expanded over 180 kilometers in Shark Bay, making it the biggest recognized plant on Earth.

“200 km positioned2 From the meadows of tape weeds it seems to have expanded from a single colonial seedling.

co-author[{” attribute=””>Flinders University ecologist Dr. Martin Breed was part of the research group. He says the study presents a real ecological conundrum.

“This single plant may in fact be sterile; it doesn’t have sex. How it’s survived and thrived for so long is really puzzling. Plants that don’t have sex tend to also have reduced genetic diversity, which they normally need when dealing with environmental change,” says Dr. Breed, from the College of Science and Engineering at Flinders University.

“Our seagrass has seen its fair share of environmental change too. Even today, it experiences a huge range of average temperatures; from 17 to 30 °C. Salinities from normal seawater to double that. And from darkness to extreme high light conditions. These conditions would typically be highly stressful for plants. Yet, it appears to keep on going.

“How does it do it? Well, we reckon its genes are very well-suited to its local, but variable, environment and it also has subtle genetic differences across its range that help it deal with the local conditions,” Dr. Breed says.

Dr. Sinclair said what makes this seagrass plant unique from other large seagrass clones, other than its enormous size, is that it has twice as many chromosomes as its oceanic relatives, meaning it is a polyploid.

“Whole genome duplication through polyploidy – doubling the number of chromosomes – occurs when diploid ‘parent’ plants hybridize. The new seedling contains 100 percent of the genome from each parent, rather than sharing the usual 50 percent,” Dr. Sinclair says.

“Polyploid plants often reside in places with extreme environmental conditions, are often sterile, but can continue to grow if left undisturbed, and this giant seagrass has done just that.

“Even without successful flowering and seed production, it appears to be really resilient, experiencing a wide range of temperatures and salinities plus extreme high light conditions, which together would typically be highly stressful for most plants.”

The researchers have now set up a series of experiments in Shark Bay to understand how this plant survives and thrives under such variable conditions.

For more on this discovery, see World’s Largest Plant Stretches 112 Miles in Western Australia’s Shark Bay.

Reference: “Extensive polyploid clonality was a successful strategy for seagrass to expand into a newly submerged environment” by Jane M. Edgeloe, Anita A. Severn-Ellis, Philipp E. Bayer, Shaghayegh Mehravi, Martin F. Breed, Siegfried L. Krauss, Jacqueline Batley, Gary A. Kendrick and Elizabeth A. Sinclair, 1 June 2022, Proceedings of the Royal Society B.
DOI: 10.1098/rspb.2022.0538

The research was made possible through a collaboration between UWA, Flinders University and Kings Park Science (WA Department of Biodiversity Conservation and Attractions). It was funded by the Australian Government’s National Environmental Science Program Marine Biodiversity Hub and the Australian Research Council.