Research & Monitoring – With Descriptor

What is the problem? 

New Zealand is one of the most geologically diverse countries in the world. Because of this there can be very different nutrient and emissions losses at a farm level - or even down to paddock level - because of the differences in characteristics such as topography, soil type, geology and slope within a location.   In some places, the landscape characteristics alone can be responsible for at least two times the variation in water quality and soil greenhouse gas emissions (GHG) relative to the type of land use on its own.  

Accurate spatial landscape data (topography, soils, geology) can empower landowners to make their own decisions on how to manage their land to minimise risks of pollution and maximise production. Currently, this information is difficult to obtain and expensive to tailor to a particular paddock, property or catchment. The data that is available is usually not presented in a usable format, is spread across different platforms and organisations, and is not relevant at paddock or property scale.   

Dr Clint Rissmann

Dr Clint Rissmann

Land & Water Science

How will this project address the problem? 

LandscapeDNA builds on the Waituna Physiographic project. Living Water commissioned Land & Water Science Ltd to map how water travels over land and below ground in the catchment, under different rainfall conditions. This information helped inform decisions on where to place catchment-scale interventions like constructed wetlands and peak run-off control structures.  

The physiographic approach has been further developed by Land & Water Science Ltd into the LandscapeDNA website, where a range of next-generation datasets and spatial information has been compiled into one platform.  The website explains the science behind the mapping and includes an actions section that identifies what on-farm actions and mitigations are recommended based on the physiographic environment. 

Many farms have farm environment plans (FEPs) that do not take this landscape data into consideration. LandscapeDNA information can be integrated into FEPs to support on-farm actions and understand how contaminants move through the water system. In addition all parties involved in the catchment can access the same data, on the same platform. This will enable better land management decisions to be made alongside the right interventions and mitigations in the right places and the ability to provide accurate costs of interventions.  Remaining financially viable whilst meeting regulatory expectations is at the forefront of challenges that catchments and land users face across the country.

The next stage of LandscapeDNA that Living Water is supporting is to develop a dashboard that provides automated reporting of environmental and spatial data from the many inputs within LandcapeDNA into an understandable format and at a spatially relevant scale i.e. at a paddock scale, a farm-scale and a catchment scale. This next phase will deliver a product that integrates accurate landscape information and farm financials to empower land users and rural professionals to mitigate land-use impacts on water quality efficiently and effectively.   

The project will initially complete trials in 2 or 3 catchments. The Wairoa catchment in Northland has been identified as a potential pilot site due to the many existing datasets available. Sign up to our newsletter if you would like to receive updates about the progression of this project. 

Landscape DNA timeline

Who could use this information? 

Catchment groups, landowners, regional and territorial councils, those working in catchment and land management 

Partners/More information  

Landscape DNA website 

Land & Water Science Limited Website 

Waituna Lagoon physiographics project 

Ararira water monitoring