Awhi mai awhi atu – kuku restoration
Mātauranga Māori and science are helping to solve a few questions in Ōhiwa Harbour:
What has caused the mussel beds to disappear?
Can we restore the mussel beds?
Is it possible to use natural fibres as mussel lines?
Which natural fibres are the strongest/best fit for this restoration project?
The questions form the basis of Awhi Mai Awhi Atu: Enacting a kaitiakitanga-based approach to EBM – a Sustainable Seas project.
Farmed mussels on longlines
Green-lipped mussels growing on longlines on a New Zealand mussel farm. The longline technique was modified by early mussel farmers in New Zealand from a Japanese technique for growing oysters. Virtually all farmed mussels in New Zealand are now grown in this way.
Tangaroa – Māori-led research
The Sustainable Seas National Science Challenge helps Aotearoa New Zealand enhance the value of our marine resources while ensuring they are safeguarded for future generations. One of its research themes is Tangaroa – Māori-led or partnered research that is informed by mātauranga and tikanga Māori. Projects in this theme enable direct benefits to the iwi and hapū involved.
The Awhi Mai Awhi Atu restoration project combines multiple aspects of mātauranga, which are helping lead researcher Associate Professor Kura Paul-Burke and her team re-establish kuku/kūtai/mussel beds in Ōhiwa Harbour.
Kaimoana in the eastern Bay of Plenty
The Ōhiwa Harbour and neighbouring beaches are important mahinga kai (food harvesting areas) for shellfish and seafood.
Kuku/mussel beds and ecosystem services
Kuku are a taonga species for the local iwi. They provide kaimoana and are important for expressing manaakitanga. Kuku have several important roles within marine ecosystems. Mussels are filter feeders – as they draw in seawater to trap phytoplankton, they also remove sediments and other substances that make the water murky. Kuku beds provide habitats for other sea creatures and act as nurseries for juvenile fish.
Mussel ropes
Awhi mai awhi atu means embrace here and embrace there, reflecting how mātauranga Māori and science work together to solve environmental issues. Lead researcher for the Awhi Mai Awhi Atu project Associate Professor Kura Paul-Burke explains how mātauranga and tikanga Māori are aiding kuku recovery.
Disappearing kuku beds
In 2007, Ōhiwa Harbour hosted a continuous 2 km reef of kuku beds with around 112 million juvenile kuku. By 2019, the number was down to just 80,000.
When the kuku beds first began to disappear, a rāhui was put down for 8 years as the losses were blamed on overfishing, but the kuku continued to disappear. Researchers considered other causes such as warming seas due to climate change. The likely culprit appears to be pātangaroa (sea stars). Sea stars eat mussels, and their numbers have increased dramatically. Kura sees this issue as a wicked problem. She says, “Pātangaroa have their own mana and their own mauri because they are from here. They are meant to be here.”
Using mātauranga and tikanga Māori to aid kuku recovery
Kura and the team used mātauranga ā iwi (local knowledge) to establish the size and shape of traditional mussel beds as well as the number of beds that had originally existed in the harbour. This information provided a valuable baseline for research.
Mussels are a major aquaculture species in Aotearoa. Mussel farmers have trialled numerous ways to seed mussel spat onto lines. They’ve found using fibrous plastic ropes is the best way to encourage spat to settle and grow into adults. However, the research team wanted to avoid microplastics entering the water and the kaimoana. To solve this problem, they are making mussel lines from natural materials. Kura enlisted weaving experts to create lines from harakeke, tī kōuka and kiekie (a woody climber) in hopes that kuku spat would attach to each. When the team went out to check the buoys and lines a few months later, they couldn’t find them. To their surprise, the mussel lines were so heavy with about 20,000 kuku per line that they were under the water!
Natural materials for mussel spat lines
Harakeke, tī kōuka and kiekie leaves have strong, durable fibres. The fibres are woven to create lines for mussel spat to grow on, eliminating the need for plastic ropes.
Tī kōuka was the hardiest material. Lines created with tī kōuka lasted up to 5 months before breaking from the buoys and settling on the harbour floor. The weavers are trying a new combination of materials – a core of pirita (supplejack) for strength with either tī kōuka, pīngao or neinei woven around it. Renowned weaving expert Whaea Roka Ngarimu-Cameron shared her mātauranga and expertise, so she and her students were invited to help the research team place the new lines in the harbour.
It’s lovely to use a traditional resource in a new way. I am very interested to see how the kuku like pīngao and neinei – and how long they last!
Whaea Roka Ngarimu-Cameron, weaving expert
The Awhi Mai Awhi Atu restoration project has set up four kuku restoration stations. They’ve discovered three early-stage kuku beds near where they had deployed their initial sets of lines. When the lines break off and fall, the kuku stay as a group and grow as a whānau, while the lines safely biodegrade.
Mātauranga Māori and the nature of science
The scientists involved in this project recognise that mussels are an important intergenerational source of mātauranga Māori. Mātauranga Māori was used as the baseline to assist scientific subtidal surveys of the traditional mussel populations in Ōhiwa Harbour. Researchers are continuing to use this combination of mātauranga and science methodology to measure mussel bed decline and restoration.
Related content and activities
Harakeke was once crucial for day-to-day living in Aotearoa, and it still holds significant value in te ao Māori. Read about harakeke in the articles Wetland plants and Harakeke under the microscope.
These articles f on plants highly valued as weaving resources:
Ecosystem-based management () is a key component of the e Seas National Science Challenge. The concept is explained in this article. A student activity uses components to consider how a local area of significance could be managed, or it can form the basis for planning a local environmental project.
The Hub has numerous resources on estuaries curated in the PLD article Estuaries – a context for learning.
Project Mātauranga is a television s that investigates Māori world views and methodologies within the scientific community.
Sustainable Seas collection
See the range of content that we have developed using resources from the Sustainable Seas National Science Challenge in this handy collection. Learn how to create, use and share collections here.
Useful links
For more on this S Seas project, see this article on their website. Discover other SSeas projects under the Tangaroa research theme.
Discover more information through these LEARNZ video’s: Mapping Mussels with Matauranga Māori and Meet Kura Paul-Burke, Marine Researcher.
A Sustainable Seas project is investigating whether the predatory sea stars may have bioactive properties. Watch this Newshub video.
The Seas Challenge has created a set of cards that introduce key of kaitiakitanga. The 11 Hui-te-ana-nui: Kaitiakitanga cards are available to download here. If you would like hard copies of the cards please contact sustainableseasNC@niwa.co.nz. Sustainable Seas notes that the content included in the summaries remain under the guardianship of the original knowledge sources.
Acknowledgement
This article has been developed using resources from theSeas National Science Challenge.
Sustainable Seas Challenge
The Sustainable Seas Challenge is one of 11 National Science Challenges funded by MBIE.
