Rehabilitation and protection
This programme is developing techniques for protecting, enhancing and rehabilitating the biodiversity of freshwater ecosystems and the cultural value they provide.
Many of New Zealand’s aquatic ecosystems, and their ecosystem services, are in a degraded and often worsening state, causing concern to public and Maori, and threatening tourism and national branding. Protection and rehabilitation of aquatic ecosystems potentially has large economic, environmental, cultural and social benefits including: biodiversity, health and well-being of iwi (mahinga kai, kaitiakitanga, co-management); recreational use and resource recovery, ecosystem services, pure clean-green market advantage for primary products and tourism, and mitigation of urban and rural land-use and climate change impacts.
Our science aims to support the protection, enhancement and rehabilitation of freshwater and estuarine ecosystems. Our work is focusing on improving our understanding of aquatic biodiversity to support protection and conservation of vulnerable species. We are also working on better tools to reduce contaminant loading on aquatic systems and to overcome habitat bottlenecks to rehabilitation. Our research also includes evaluating techniques to overcome hysteresis, i.e. ecosystems not responding once the original stress factors which caused problems are removed.
The programme leader is Dr Fleur Matheson.
Taonga species, life history and genetics
- Determine how human alterations to river habitats and connectivity create habitat bottlenecks which compromise reproduction and colonisation success of freshwater organisms
- Undertake fundamental research into the cumulative effects of multiple stressors on the dynamics of cultural keystone species focusing on susceptible juvenile lifestages
- Use state-of-the-art satellite tracking to identify the oceanic spawning locations of New Zealand’s iconic freshwater fish species.
- Use next-generation DNA techniques to decipher the population genetics of native freshwater species and identify indicators of groundwater biodiversity and ecosystem health.
Citizen science & long-term monitoring
- Support and harness the collective power of citizen scientists to quantify the effects of stream restoration projects
- Use long-term ecological monitoring sites to quantify stream water quality and biodiversity responses to sustainable land management activities in forestry, dairy and drystock landscapes.
- Develop techniques to better target and enhance the performance of edge-of-field mitigation technologies for improved water quality and biodiversity outcomes
- Trial habitat manipulation techniques to understand and overcome the physical, chemical and/or biological barriers to restoration.
Current research projects
- Habitat bottlenecks for freshwater fauna (Contact: Dr Cindy Baker)
- Sustainable co-management and restoration of cultural keystone species (Contact: Dr Erica Williams)
- Tracking the oceanic spawning migrations of longfin eels (Contact: Dr Paul Franklin)
- Applying next-gen genetic techniques to freshwater biodiversity assessment (Contact: Dr James Shelley)
- Molecular indicators of groundwater biodiversity and ecosystem health (Contact: Dr Graham Fenwick)
- Riparian restoration investments and outcomes using a citizen science approach (Contact: Dr Richard Storey)
- Long-term stream responses to sustainable land management (Contact: Dr Andrew Hughes)
- SMARTer riparian and wetland strategies: Shade, Maps And Runoff Traps (Contact: Dr Fleur Matheson)
- Ruppia re-establishment in Te Waihora-Lake Ellesmere (Contact: Mary de Winton)
Primary NIWA Team
Dr Cindy Baker, Dr Sue Clearwater, Dr Eimear Egan, Dr Paul Franklin, Dr Eleanor Gee, Dr Elizabeth Graham, Dr Andrew Hughes, Dr Lucy McKergow, Dr James Shelley, Mr Brian Smith, Dr Chris Tanner, Dr Amanda Valois, Dr Piet Verburg, Dr Ben Woodward.
Key science collaborators
Bay of Plenty Regional Council
Department of Conservation
Greater Wellington Regional Council
Hawkes Bay Regional Council
Kusabs & Associates
Manaaki Whenua – Landcare Research
Ngāti Hāuā Mahi Trust
Tipa & Associates
University of Aarhus
University of Auckland
University of Canberra
University of Canterbury
University of Michigan
University of Otago
University of Ruhuna
University of Waikato
Waikato Regional Council
Waikato River Authority