Greenshell™ mussel

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About Greenshell™ mussel

Scientific name: Perna canaliculus

Māori names: kuku, kūtai

Greenshell™ mussel (also known as green-lipped mussel) are indigenous to New Zealand and have a moderately complex life-cycle. In the wild, they can live for several years and grow to 20 cm or more (shell length) but most have become reproductively active by the time they reach 4-5 cm. Adults release their gametes into the open water. Eggs, sperm and subsequent larval stages are planktonic. They will drift in the sea for approximately three to four weeks before becoming able to settle. Newly settled individuals (spat) are small (0.3 – 1 mm shell length). Even after initial settlement, they remain capable of re-entering the drift until they reach approximately 6 mm shell length (approximately one month after initial settlement). In the wild, Greenshell™ mussel tend to settle first on fibrous material (seaweed and seagrass etc) in shallow/inter-tidal water and subsequently actively re-enter the drift before ultimately settling on firmer substrates (rocky- and biogenic reefs, often in deeper water)1

Sketch: Aarti Wadhwa

Why farm Greenshell™ mussel?

Shellfish are a nutritious food: high in trace elements, protein and poly-unsaturated fatty-acids, but low in cholesterol, saturated fats, and trans-fats3, 4,7. Shellfish production imposes a relatively small burden upon the local environment and the industry’s carbon and freshwater footprints are small in comparison with many other protein crops2,3. Furthermore, unlike many modern farming systems, mussel farms support provide habitat which enables a diverse range of other species to thrive5,6.

How are Greenshell™ mussel farmed?

Crop-mussels are grown on so-called long-line systems. Each long-line system is comprised of a taught ‘backbone’ strung across a line of surface floats and anchored to the seafloor at each end. At the sea-surface, the backbone usually extends across about 110 m and carries ‘dropper ropes’. The crop mussels are seeded onto the dropper, which is suspended from the backbone in a series of loops. Depending upon water-depth, each loop may extend to about 20 m. A backbone may carry approximately 2.5 – 3.5 km of dropper in total.

Whilst some spat are reared in dedicated culture facilities, the industry remains largely dependent upon wild-caught spat. Despite using dedicated spat-catching lines, the majority of the mussel crop stems from mussels grown from spat-encrusted seaweed which washes ashore along 90 Mile Beach (Te Oneroa a Tohe). The spat-encrusted seaweed (Te Hiku spat) is wrapped around the dropper and held in place using a degradable, mesh sock. As the seaweed and sock degrade, the spat migrate onto the dropper and bind to it by secreting collagen fibres (byssus fibres, or ‘beard’). Several months later, the juvenile mussels are stripped from the dropper and the crop is thinned and reseeded. This thinning and reseeding might be repeated again later in the cycle. Ultimately, mussels are usually harvested at around 8-10 cm shell-length (depending upon target market) – approximately 18-30 months after they were first seeded onto the crop-lines as spat (depending upon harvest size and growing conditions).

How is NIWA research helping sustainable Greenshell™ mussel aquaculture?

NIWA’s research aims to promote the continued development of an aquaculture industry that is both environmentally sustainable and economically successful. In the context of mussel farming, we are focussing on:

  • Seeking to reduce crop-losses (particularly, the very high losses that farmers often suffer in the first three months after spat are first seeded onto lines) 
  • Improve our abilities to make seasonal-scale forecasts of crop-performance (annual yield, mussel condition and fatty acid content)
  • Better predict how climate change will influence crop performance in future decades
  • Better measure and forecast the influences which mussel farming have on coastal water quality and food web structure

Our research is designed in collaboration with the clients whom we serve: aquaculture industry, regional councils and central government agencies. For example, we are represented on the Marine Farmers Association Research & Development Committee, The Marlborough District Council Smart+Connected Aquaculture working group and the Open Ocean Farming working group.

Notable recent achievements include:



  1. Alfaro, A.C., Jeffs, A.G., Gardner, J.P.A., Bollard Breen, B.A., Wilkin, J. (2011) Green-lipped Mussels in GLM 9. New Zealand Fisheries Assessment Report, 2011/48: 80.
  2. Meyhoff-Fry, J. (2012) Carbon footprint of Scottish Suspended Mussels and Intertidal oysters, SARF078: 55.
  3. MPI (2013) Overview of ecological effects of aquaculture: 81.
  4. PFR, P.F.R., NZMOH, M.o.H. (2016) New Zealand food composition data. Plant and Food Research & The Ministry of Health.
  5. Stenton-Dozey, J., Broekhuizen, N. (2019) Provision of ecological and ecosystem services by mussel farming in the Marlborough Sounds: A literature review in context of the state of the environment pre- and post-mussel farming (draft v2). National Institute of Water & Atmospheric Research Ltd, 2019020CH (project MFI19201): 145. 
  6. van der Schatte Olivier, A., Jones, L., leVay, L., Christie, M., Wilson, J., Malham, S.K. (2018) A global review of the ecosystem services provided by bivalve aquaculture. Reviews in Aquaculture: 1-23. 10.1111/raq.12301
  7. Venugopal, V., Gopakumar, K. (2017) Shellfish: Nutritive Value, Health Benefits, and Consumer Safety. Comprehensive Reviews in Food Science and Food Safety, 16(6): 1219-1242. 10.1111/1541-4337.12312



Principal Scientist - Ecosystem Modelling
Greenshell™ mussels, harvest size. [Photo: Pascale Otis]
Dropper with a developing crop of mussels. [Photo: Niall Broekhuizen]
Greenshell™ mussel spat washed up on shore on seaweed (Vidalia colensoi). [Photo: Ken Grange]
Mussel larvae experiment held at the Norhtland Marine Research Centre. [Photo: Alvin Setiawan]
Trials to determine how spat performance relates to diet composition. [Photo: Alvin Setiawan]
Research subject: Aquaculture