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Dunstan Rohe
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The Dunstan Rohe is part of the Clutha/Mata-au Freshwater Management Unit (FMU).
Under national legislation, regional councils must manage waterways at an appropriate scale for setting freshwater objectives and limits. We set five Freshwater Management Units (FMUs) for the region, and divided the Clutah/Mata-Au River into five rohe (areas) as it is the largest river in the country, by catchment and volume.
The Dunstan Rohe runs from the outlets of lakes Wānaka, Whakatipu and Hāwea down to Clyde Dam. It includes the Kawarau, Nevis, Shotover, Upper Clutha/Mata-au, Hāwea, Cardrona, Arrow and Lindis rivers. Many smaller tributaries of the Clutha/Mata-au are also included such as the Lowburn, Amisfield Burn, Bannock Burn and Luggate Creek.
Outflows of lakes Wānaka and Whakatipu are unregulated whereas the outflow of Lake Hāwea is controlled by the Hāwea Dam. This rohe also includes Lake Dunstan, a run of river hydro-electricity reservoir created by the Clyde Dam.
Diverse landforms include the rugged Kawarau gorge, tracts of native bush in the remote Shotover catchment and extensive agriculture and fruit-growing areas.
Māori were drawn inland to this area by the mahika kai network, important for transporting people and resources such as pounamu to the coast. The area later supported gold mining and agricultural endeavours, creating a rich cultural heritage of structures and sites.
South of Lake Dunstan, Cromwell is the largest urban centre. The economic focus of the area is tourism and agriculture, the latter ranging from viticulture and orchards to sheep and beef farming.
Freshwater policies for the Dunstan Rohe may affect areas beyond this. We have combined the Dunstan Rohe and the neighbouring Upper Lakes Rohe when considering socio-economic information. These communities have close economic ties – for example, residents often live in one area and work or spend time in the other.
In 2018, the Upper Lakes Rohe and Dunstan Rohe were home to around 47,400 residents (21% of Otago’s population). In the previous 12 years, the population in these rohe increased by 19,300 people (or 69%) from 28,000 residents in 2006. This rapid population growth increases pressure on water use (water takes and discharges of pollutants or contaminants) and its infrastructure. Overall, these rohe have relatively low social deprivation, measured in terms of income, home ownership, employment, access to transport and communications, and access to internet.
The local communities and the economy in the Upper Lakes and Dunstan rohe rely heavily on water resources. The most populated towns are built around the lakes. Tourism, the most important industry sector in the rohe, relies on freshwater (including snow, which is essential for the ski resorts). Agricultural activities, mainly dry stock (including deer and with little/no dairy in the Upper Lakes Rohe) and horticulture/viticulture operations, depend on freshwater supplies.
An understanding of Māori history and the Māori economy is essential when developing policy and assessing its impact. Pre-European Māori history shapes today’s Aotearoa, and the Māori economy is integral to the national economic system. A report prepared by Aukaha, with support from ORC, provides a Kāi Tahu assessment of the socio-economic impacts of freshwater management in Otago.
Exotic grasslands, primarily for farming, cover 37% of the rohe, and 23% is conservation land. Sheep and beef are the dominant farming type (45%), followed by mixed livestock farming including sheep, beef and deer (15%), and sheep (5%). Dairy, nurseries, vineyards and orchards take up 1% of the land area.
Over the past 30 years, the conservation estate has increased by 293%, urban development by 108% and nurseries/vineyards/orchards by 33%. Dry-stock farming has decreased by 25%, although it is still the most common land use in the Dunstan area.
Most frequent soil types are Brown (53%), Pallic (29%) and Semi-arid (11%). Most Brown and Semi-arid soils are moderately or well-drained and permeable. However, in some areas, Brown soils have poor drainage, including parts of the Lindis, Nevis and Luggate catchments. Semi-arid soils extend from the Lindis river catchment down to Bannock Burn. Raw soils occur in 4% of the rohe in alpine rock areas where erosion is active – for example, Centaur peaks and Mount Aurum.
Dunstan Rohe land use summary
The cClimate in the Dunstan Rohe is very diverse, with and includes some of the wettest, driest, warmest, and coldest places in New Zealand. Annual rainfall in the headwaters of the Shotover River is more than 3000mm per year, while in parts of the Upper Clutha Mata-au Valley, rainfall is less than 400mm per year. There is a steep rainfall gradient from west to east, with the Shotover headwaters being only about 50 km from the low-rainfall Upper Clutha Mata-au area.
Air temperatures ranging from -10oC to 36oC have been recorded in the Upper Clutha Mata-au Valley. Temperatures of less than -10oC are likely in the headwaters of the Shotover River, where it is close to permanent snow and ice.
There is abundant water in rivers where rainfall or snow melt is plentiful, including theThe Shotover, Kawarau and Clutha Mata-au rRivers have abundant water thanks to plentiful rainfall or snow melt in their headwaters headwaters. However, much less water in smaller rivers and streams in the Upper Clutha Mata-au Valley have much less water, with having only about 10% of the rainfall in the Shotover headwaters.
Very little water is taken from the Shotover and Nevis rRivers, but there is significant water use in the Upper Clutha Mata-au Valley from the Clutha Mata-au river, and the Hāwea and Dunstan lakes. Here, irrigation is the lifeblood of farming, and some streams run dry in summer.
Water quality is generally very good. However, there is pressure on water quality in drier catchments that have high water use or high population growth rates. ORC monitors the water quality and ecology of rivers and streams. The combined results can show the health of a river or stream, and long-term data is analysed to show trends in water quality. Many sites in this rohe have been monitored for less than five years, so we only have interim results for the state of water quality and trends.
Six of the 16 river sites monitored did not meet the required standard for at least one measurement, according to the National Policy Statement for Freshwater Management (2020). Upper Cardona, Quartz Reef Creek, Mill Creek, Lindis at Lindis Peak and Clutha Mata-au at Luggate did not meet the national bottom line for suspended fine sediment (visual clarity). The bacteria E. coli is measured to indicate safety for human contact. E. coli results did not meet the national bottom line at Upper Cardrona and Kawarau at Chards. Aquatic insect life did not meet the national bottom line at Mill Creek. Two of the three monitored lakes, Lake Hayes and Lake Johnson, did not meet the national bottom line for chlorophyll-a, a measure of algae levels in the water. This result is consistent with the nutrient-enriched state of these lakes.
Despite most sites’ very good water quality, some degrading trends were identified. In particular, the Cardrona River had 10-year degrading trends for E. coli, nutrients (nitrogen and phosphorus) and an aquatic insect life metric. Luggate Creek had 10-year degrading trends for E. coli, nitrogen and turbidity (poor visibility). Mill Creek had improving trends for nutrients and E. coli, but a degrading trend for turbidity.
Dunstan area Water Quality State and Trends Technical Report
Introduction to water quality
Dunstan Rohe water quality summary
Groundwater has been greatly affected by glacial advances and retreats, which created several large basins that hold relatively deep gravel aquifers and shallow alluvial ribbon aquifers near rivers – the Hāwea basin, Wānaka & Cardrona basin, Whakatipu basin, Cromwell Terrace aquifer, Lower Tarras/Bendigo aquifer, and the Lowburn alluvial aquifer.
Groundwater use is high, with around 1,000 completed bores registered with the ORC. Primary groundwater uses are for domestic and stock water, irrigation, community supply and monitoring. The Dunstan Rohe has around 240 resource consents to draw groundwater, with a total annual consented volume of about 89.874 million m3.
ORC monitors groundwater quality in 16 State of the Environment (SoE) bores across the Dunstan Rohe. The results suggest good groundwater quality with low E. coli and nitrate concentrations below the Drinking Water Standards limits in most bores. However, several bores – including some in Wānaka, the Wakatipu basin and Lower Tarras – have had elevated E. coli, nitrate and Dissolved Reactive Phosphorus (DRP) concentrations.
These are likely to reflect the rapid development of the area. Arsenic concentrations in most monitoring bores are generally below the limit, although elevated concentrations were measured in some bores. These are likely to be caused by the local schist geology. As schist is common across the rohe, groundwater users should regularly test their bore water.
The Dunstan Rohe includes rare and threatened ecosystems and species. Rare and vulnerable ecosystems associated with freshwater include ephemeral wetlands, inland saline ecosystems, lake margins and wetlands.
These ecosystems contribute a lot to national biodiversity, but are often threatened by changes in land use and invasive species. Often, little is known about their extent and/or condition.
Many species depend on freshwater and ecosystems including fishes, invertebrates, plants, and birds. Many native freshwater species are under threat and their numbers continue to decline.
We have identified 65 threatened freshwater-dependent species. The rohe provides habitat for native fishes including three non-migratory galaxias, four migratory galaxias (whitebait), two eel and five bullies. Some of these fish are threatened, for example, the lamprey and all non-migratory galaxias.
Freshwater invertebrates are koura, mussels and threatened stoneflies. Threatened freshwater-dependent plants are Chenopodium detestans and Triglochin palustris. Many birds also depend on these ecosystems, temporarily or permanently, including the threatened Australasian crested grebe and black-fronted tern.
Exotic fishes in the Dunstan Rohe are goldfish, perch and four salmonids.
Ten sites are recognised as Regionally Significant Wetlands. These are swamp (4 sites), fen (3), marsh (2), and bog (1).
On the delta where the Upper Clutha Mata-au runs into Lake Dunstan, the Bendigo Wetland (244 hectares) has developed swampy, willow-edged river margins. This wetland provides a habitat for diverse wildlife and is especially valuable for birds and angling.
Further upstream, above Luggate, the Campbells Reserve Pond Margins (one hectare) is a small marsh, spring-fed from seepage off the terraces above. Butterfield Wetland (two hectares), on an old Hawea River terrace, is of similar origin, with a raupō-edged pond.
Two sites in the Nevis Valley, Nevis Red Tussock Fen (44 hectares) and Schoolhouse Flat Red Tussock Fen (nine hectares), have communities of red tussock and various carex species distributed according to the soil wetness.
At the head of the Nevis, in its Roaring Lion catchment, is New Zealand’s largest string bog system, which also extends into the Nokomai catchment, Southland. This system combines terraced tarns, fens, bogs and snowbanks. In the Queenstown area, Lake Hayes Margins (17 hectares) has lake fringes of raupō, crack- and grey-willows, and some carex swamp.
Moke Creek Swamp (one hectare) and Moke Lake Bog (12 hectares) have both bog and swamp types. In one of the heads of the Shotover, the Polnoon, the Church Hill Wetland Complex (103 hectares) occupies a fault-derived basin with glacial moraines, bogs, fens, tarns and ephemeral wetlands.
Two additional sites are Queenstown Hill (a Conservation Covenant-protected site of cushion bog and tarn communities) and the head of Pisa Range Roaring Meg, with sedge and cushion bogs and tarns.
October 2023
Amir Levy, Sam Yeo, Marc Ettema
PDF | 2 MB
This memorandum summarises the main Policy recommendations stemming from Lincoln Agritech’s Hāwea Basin transient numerical groundwater flow modelling report (LAL, 2023).
May 2023
Lincoln Agritech
PDF | 56 MB
Otago Regional Council (ORC) has commissioned Lincoln Agritech Ltd to undertake the development of a groundwater conceptual model and numerical transient modelling of groundwater flow in the Hāwea Basin, Queenstown Lakes District.
November 2023
Matt Dumont
PDF | 3 MB
This document describes the Hawea Model report
January 2020
2020051CH
PDF | 1 MB
December 2017
PDF | 1 MB
June 2020
2020181CH
PDF | 3 MB
May 2022
C02577507
PDF | 5 MB
March 2023
C02577507
PDF | 6 MB
December 2022
PDF | 501 KB
October 2023
PDF | 935 KB
This science summary gives an easy-to-understand snapshot of the Dunstan rohe, looking at things like land use, waterways, soil, climate, and biodiversity to help guide local environmental planning.
March 2017
PDF | 1 MB
March 2024
PDF | 3 MB
November 2023
PDF | 583 KB
June 2023
PDF | 599 KB
December 2023
PDF | 26 MB
February 2017
A978677
PDF | 187 KB
January 2016
PDF | 2 MB
October 2014
PDF | 9 MB
November 2022
PDF | 1 MB
September 2024
Aukaha (1997) Ltd
PDF | 4 MB
This report provides a Kāi Tahu assessment of the socio-economic impacts of freshwater management in Otago, which speaks to the development of a new Land and Water Regional Plan for Otago (LWRP).
Contact your rohe Catchment Advisor for advice and assistance on sustainable land management practices that protect Otago’s waterways.
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Email customerservices@orc.govt.nz
Tel 0800 474 082
