'Remarkable' marine animal forests found around Wellington's coast in central New Zealand

27 Sep 2024, 16:44 by Victoria University of Wellington

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Example photos of some animal-dominated biotic communities in Wellington Harbour. a Mixed filter-feeders bed. b Maoricolpus roseus bed (mollusks). c Magasella sanguinea bed (brachiopods). d Owenia petersenae bed (polychaetes). e Attached Suberites perfectus (sponges). f Attached Perna canaliculus (mollusks). Credit: Global Ecology and Conservation (2024). DOI: 10.1016/j.gecco.2024.e03140

Marine animal forests rich in sea life have been found in the shallow waters around Te Whanganui-a-Tara Wellington.

"Marine animal forests are habitats formed by big groups of invertebrates—creatures such as sponges, horse mussels, and brachiopods, which look a bit like clams.

"These remarkable communities are increasingly being recognized as biodiversity hotspots and we've got them on our doorstep," said Professor James Bell, a marine biologist at Te Herenga Waka—Victoria University of Wellington.

The forests were located by Professor Bell and colleagues Dr. Valerio Micaroni and Dr. Francesca Strano while studying life in the region's shallow waters. The research is published in the journal Global Ecology and Conservation.

The researchers identified numerous animal forests in Wellington Harbor, many at depths of less than 15 meters. Sites were located at Eastbourne, Evans Bay, Kaiwharawhara, the Miramar Peninsula, and Petone. Rich animal forests were also found in shallow waters at other areas, including the Kāpiti Coast and Mana Island.

"Finding animal-dominated ecosystems in such shallow waters is surprising as these are areas that are usually dominated by seaweeds," said lead researcher Dr. Micaroni.

Credit: Victoria University of Wellington

Sponges were one of the common species found in the forests. They included a massive potato-shaped sponge (Suberites australiensis) that grows up to 40 centimeters in diameter and forms dense sponge beds.

"These beds were home to a range of species, including mollusks, cnidarians, and red algae, as well as other sponges and fish. We also discovered what we think is a previously undescribed sponge species," Dr. Strano said.

The sponge beds in the harbor comprise a total area of 120,000 m². Researchers estimate the beds can filter between 500 million to 1 billion liters of water daily. This filtering plays an important role in transferring nutrients and food from the water column to the sea-floor, influencing overall water quality and supporting the sea-floor food chain.

Despite the ecological importance of these shallow-water forests, they are largely unprotected and face increasing threats from climate change, fishing, sedimentation, and pollution, Professor Bell said.

At most of the sites in Wellington Harbor, the researchers found litter on the sea-floor.

Surveying a sponge bed in Wellington Harbour. Credit: James Bell

"There was a lot of plastic items—such as bottles, packaging, and cups—as well as aluminum cans. Car parts and tires were found at half the sites, and fishing gear was found at three locations. Concrete blocks were also common," Professor Bell said.

Evans Bay was the worst site for marine litter, followed by Kaiwharawhara where large amounts of gravel had been dumped on areas of the seabed. The gravel dramatically altered the habitat, with animal communities significantly reduced and limited evidence they had been able to recover since the gravel was dumped.

"This example highlights the significant effects human activities can have on marine animal forests. It also highlights the need to protect these fragile ecosystems to avoid further biodiversity loss," said Dr. Megan Melidonis, senior coastal scientist at the Greater Wellington Regional Council. The council helped fund the research as part of work to explore and map the region's marine biodiversity.

"These forest communities play such a key role in marine food chains and in maintaining water quality. It is incredible to find them in a harbor adjacent to a major urban area," Dr. Melidonis said.

More information: Valerio Micaroni et al, Ecologically significant shallow-water (0–30 m) marine animal forests in central New Zealand, Global Ecology and Conservation (2024). DOI: 10.1016/j.gecco.2024.e03140

Journal information: Global Ecology and Conservation

Provided by Victoria University of Wellington