Friday, September 10, 2021

Doing Poseidon’s work: How citizen scientists are restoring NSW’s endangered seagrass meadows


Citizen scientist volunteers known as the ‘storm squad’ collected seagrass fragments to successfully rehabilitate populations of NSW’s endangered Posidonia australis

Peer-Reviewed Publication

UNIVERSITY OF NEW SOUTH WALES

Giulia planting 

IMAGE: UNSW SCIENCE'S GIULIA FERRETTO PLANTING POSIDONIA AUSTRALIS INTO OLD BOAT MOORING SCARS IN PORT STEPHENS. view more 

CREDIT: PHOTO: GRUMPY TURTLE CREATIVE.

An endangered seagrass which supports seahorses, blue swimmer crabs and snapper is being successfully rehabilitated thanks to the help of citizen scientists and UNSW scientists.

A study led by UNSW Science PhD student Giulia Ferretto and published in Biological Conservation, enlisted the help of 80 citizen scientists to restore Posidonia australis in Port Stephens.

“We have been restoring Posidonia in mooring scars in Port Stephens, the second most impacted estuary by boat moorings in NSW,” Ms Ferretto says.

“We launched Operation Posidonia – a collaboration between UNSW, Sydney Institute of Marine Science, the NSW Department of Primary Industries, and UWA – in 2018 and engaged over 5000 people through our social media channels and guided seagrass meetings with local groups and high schools.

“Over two years, our ‘army’ of volunteer citizen scientists – a ‘Storm Squad’ of beach goers, dog walkers and kayakers – collected a total of 1500 naturally detached Posidonia shoots washed up on the beach after storms, strong winds and high tides.” Ms Ferretto says when conditions were favourable, a one-hour beach walk could collect as many as 30 viable seagrass fragments.

The shoots were kept in large floating boxes before being replanted by divers in a variety of underwater locations, including the scars caused by boat mooring.

Ms Ferretto says most transplanted fragments produced new shoots after only a few months and are beginning to re-establish on their own, expanding in nearby areas.

“We found that fragments planted in winter survived better that those planted in summer, with some replanted areas reaching 70 per cent survival after one year,” Ms Ferretto says.

“This is a great result considering that otherwise those fragments wouldn’t have had another chance than drying up at sun.”

The team is now expanding Operation Posidonia in Lake Macquarie and Botany Bay, two of the estuaries where Posidonia is formally listed as endangered.

The method of collecting washed up, naturally detached fragments of Posidonia (from heaps known as wrack), was adapted from an Italian study which also used Posidonia.

“One of the main problems with restoring an endangered plant is obtaining the material for the revegetation,” Ms Ferretto says.

CAPTION

A healthy Posidonia australis seagrass meadow (L) and a fragmented seagrass meadow due to boat mooring scars in Shoal Bay, Port Stephens (R).

CREDIT

Photos: Grumpy Turtle Creative (L) and DPI Fisheries NSW Spatial Data Portal (R).

USAGE RESTRICTIONS

Credit must be given to the creator. Only noncommercial uses of the work are permitted. No derivatives or adaptations of the work are permitted.


Posidonia [species] have an interesting distribution, they are only found in Australia and in the Mediterranean Sea.

“The idea of using storm-generated fragments for restoration was initially developed by a group of scientists in Italy and applied to [their] local seagrass, Posidonia oceanica.

“We then combined this idea with the use of citizen science to speed up the collection of the fragments.”

Posidonia australis is a foundation species of seagrass which creates a complex and three-dimensional habitat that supports and sustains hundreds of other species, Ms Ferretto says.

“It provides food and shelter to many species of fish and invertebrates, which live amongst seagrass leaves to look for food or find protection from predators,” she says.

“Some of the more ‘famous’ species supported by Posidonia are the White’s seahorse (which is also endangered) and commercially important species like blue swimmer crabs, bream, snapper and luderick.”

“Seagrass meadows are also extremely effective at capturing and sequestering carbon and can slow down climate change by storing carbon more efficiently than terrestrial forests, as well stabilising sediments and protecting our shorelines from erosion.”

She says the trouble is that Posidonia’s preferred habitat – of clear waters and sheltered coves – is also the preferred habitat for recreational boating.

The traditional mooring of these boats, which involves a chain and concrete ‘block’ that harrows the seagrass bed, creates raw ‘sand scars’, which join up to form larger uninhabitable zones.

Some of these mooring sites, around Port Stephens, have been replaced by less destructive environmentally friendly moorings and it’s these sites that the team is restoring.

She says the response from the Port Stephens community to the project was awesome.

“The planting moment for me was the best part, especially when the marine life just started to swim around us divers,” she says.

“There was one site, in particular, where every time we’d dive there, there was a group of cuttlefish following us from the moment we would jump in till the end of the dive, as if they were checking if we were doing a good job.

“Turning around after a long dive and seeing that patch that before had only sand now having beautiful green Posidonia leaves gave me a wonderful sensation every time.”

The citizen scientist call-out was part of ‘Operation Posidonia’, a collaboration between UNSW, Sydney Institute of Marine Science, the NSW Department of Primary Industries, and the University of Western Australia.

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