Dunstan Rohe

The Dunstan Rohe is part of the Clutha/Mata-au Freshwater Management Unit (FMU).

We are developing a Land and Water Regional Plan (LWRP) in partnership with Kāi Tahu whānui, and with feedback from the greater Otago community.

Join the kōrero on the proposed direction of the Plan to care for Otago’s lakes, rivers and streams and guide the activities that impact them.

We encourage you to look over our summary of proposed new rules and regulations.

The Arrow and Cardrona River catchments are part of the Dunstan Rohe. Local communities began identifying values and objectives and setting minimum flows and take limits for surface water and groundwater in these catchments before the Plan process began. This work will be incorporated in the Plan.

Click here to see a summary of community values collected for the Arrow River and its aquifers and the Cardrona River and its aquifers.

Freshwater Management Units

Better understand what Otago Freshwater Management Units (FMUs) are.

Arrow River Catchment

The Arrow River catchment and the Wakatipu Basin aquifers form part of the Dunstan Rohe.

Cardrona Catchment

The Cardrona catchment forms part of the Dunstan Rohe.

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.

Economic profile

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. ORC is partnering with Aukaha and Te Ao Marama to develop an overview of Kāi Tahu history and economy

Dunstan Rohe and Upper Lakes Rohe Economic Snapshot

Science profile

Proposed new rules and regulations for the Dunstan Rohe

We are developing a Land and Water Regional Plan (LWRP) in partnership with Kāi Tahu whānui, and with feedback from the greater Otago community.

Join the kōrero on the proposed direction of the Plan to care for Otago's lakes, rivers and streams and guide the activities that impact them.

We have a summary of proposed new rules and regulations that we encourage you to look over.

This summary provides an overview of the provisions relating to the Dunstan Rohe (area). This includes environmental outcomes, target attribute states and area-specific rules and limits. The rules and limits are in addition to those in the region-wide rules covered in the other summaries.

If you are unsure of any particular terms, there is a glossary of terms.

Recent content updates:

13 October 2023:
- Amended information on cultivation in Table 2 for clarity
25 September 2023:
- Added Dunstan Rohe boundary map

24 September 2023:
- Added timeframe for achieving the environmental outcomes for target attribute states

In its new Land and Water Regional Plan ORC must set environmental outcomes for the freshwater values identified in the Dunstan Rohe. An environmental outcome statement describes the desired future state that communities in the Dunstan Rohe and tangata whenua would like to see for a specific value.

The environmental outcome statements are very similar across all FMUs and rohe in Otago, which reflects the fact that the aspirations that tangata whenua and the different communities have for the environment are largely consistent across the region. Table 1 sets out the draft environmental outcomes for the Dunstan Rohe.

Table 1: Draft environmental outcomes

Value	Environmental Outcomes for Dunstan Rohe	Attributes
NPS-FM compulsory values (apply to every FMU/rohe)
Ecosystem health	Freshwater bodies support healthy freshwater ecosystems with thriving habitats for a range of indigenous species, and the life stages of those species, that would be expected to occur naturally.	Rivers: Ammonia Nitrate Suspended fine sediment E.Coli Dissolved reactive phosphorus Periphyton Macroinvertebrates (MCI/ASPM) Fish IBI E. Coli primary contact sites Macroinvertebrates (QMCI) score1 Deposited fine sediment Dissolved oxygen* Ecosystem metabolism* Lakes: Phytoplankton (Chlorophyll-a) Total nitrogen Total phosphorus Ammonia Cyanobacteria* Submerged plants (natives)* Submerged plants, (invasive)* Lake-bottom dissolved oxygen* Mid-hypolimnetic dissolved oxygen*
Human contact	Water bodies are clean and safe for human contact activities and support the health of people and their connections with water bodies.	Rivers: E. Coli Suspended fine sediment Periphyton E. Coli primary contact sites Lakes: Phytoplankton (Chlorophyll-a) Cyanobacteria (Biovolume cubic millimetres per litre)*
Threatened species	The freshwater habitats of threatened species are protected and support the persistence and recovery of threatened species over time.	All the attributes listed for Ecosystem Health above. Recency of presence National conservation category and status Regional conservation category and status Number of sub-populations
Mahika kai (food and resource gathering)	Mahika kai resources are restored to a condition in which populations of valued mahika kai species are self-sustaining and plentiful enough to support cultural take. Mana whenua are able to safely access, harvest and use these resources now and in the future.	All the attributes listed for Ecosystem Health above.
Other values (apply to every FMU/rohe)
Natural form and character	Freshwater bodies and their riparian margins, and any connected receiving environment including any estuaries and hāpua (lagoon) are able to behave in a way that reflects their natural form and character to the greatest extent practicable, and the natural form and function of unmodified water bodies is protected.	Rivers: Suspended fine sediment Periphyton Macroinvertebrates (QMCI) score* Deposited fine sediment* Lakes: Phytoplankton (Chlorophyll-a) Cyanobacteria* Submerged plants (natives)* Submerged plants, (invasive)* Lake-bottom dissolved oxygen* Mid-hypolimnetic dissolved oxygen*
Drinking water supply	Provided the health and wellbeing needs of water bodies and freshwater ecosystems are met, source water from waterbodies (after treatment) is safe and reliable for the drinking water supply needs of the community. Activities do not introduce or increase the concentration of contaminants in water, so that, after existing treatment, it no longer meets drinking water standards
Wāhi tūpuna	Cultural associations with wāhi tūpuna are maintained, visible, and whānau are able to access, use and relate to wāhi tūpuna now and in the future.	Coming soon.
Fishing	Fish are safe to eat; and Insofar as it is consistent with the protection of indigenous and threatened species, the spawning and juvenile rearing waters for trout and salmon are provided for.	Rivers: E. Coli Suspended fine sediment Periphyton Nitrate Suspended fine sediment Macroinvertebrates (MCI/ASPM) Fish IBI Macroinvertebrates (QMCI) score* Lakes: Phytoplankton (Chlorophyll-a) Cyanobacteria (Biovolume cubic millimetres per litre)*
Irrigation, cultivation and production of food and beverages	Provided the health and wellbeing of water bodies and freshwater ecosystems and human health needs are met, the cultivation and production of food, beverages and fibre is enabled.	Rivers: Suspended fine sediment Periphyton Water quantity
Wetlands	Wetlands are protected, and their ecosystem health, indigenous biodiversity, and hydrological functioning is restored where degraded.	Coming soon.
Taoka species (treasured species)	Thriving, connected habitats for indigenous species are restored and sustained for ever and their mauri is intact.	Coming soon.
Values that apply to specific FMU
Hydro-electric power generation	Existing hydro-electric generation activities are developed, operated, maintained and upgraded in a way that meets the environmental outcomes to the greatest extent practicable.

¹*Asterisk indicates that the baseline state of these compulsory attributes is not known, but monitoring is now being undertaken.

Environmental levels and take limits for the lakes in the Dunstan Rohe are shown in the table below.

Given their high values, it is proposed that a narrative take limit is set for all natural lakes in the Dunstan Rohe. This limit will prohibit any new takes, damming or diversions that could impact water levels in these lakes (except for takes that are permitted under the Resource Management Act 1991) and will ensure that these lakes will continue to behave in their natural or near natural state.

Alternative regimes are proposed for the rohe’s controlled lakes. Lake Dunstan will continue to be managed in accordance with its consented lake level conditions, while any takes from this lake will be subject to the take limits that apply to the Clutha River/Mata-Au. Downeys Dam will be subject to the minimum environmental flow and take limit set for Mill Creek.

Name	Environmental level(s)	Take limit
Natural lakes (unmodified)
Dukes Tarn  Lake Kirkpatrick  Lake Luna  Lake Te Kōhua  Little Lake McKay  Lochnager/Ōtaka  Sheehey Lake  Moke Lake/Punamāhaka/Waikā māhaka	Natural minimum water level	Narrative - no new taking, diversions, damming or discharges from the lake or upper catchment
Natural lakes (with current consents)
Lake Alta (Rastus Burn river catchment) Lake Hayes (Mill Creek catchment) Lake Johnson (Shotover River catchment) Lake McKay (Luggate Creek catchment)	Lake level managed by the minimum flow of the river catchment that the lake is located within	Narrative - no new taking, diversions, damming or discharges from the lake or upper catchment. Existing takes subject to the take limit of the river catchment that the lake is located within
Controlled lakes
Lake Dunstan	Consented levels	Subject to the Clutha River/Mata-Au catchment take limit
Downeys Dam (Mill Creek catchment)	Lake level managed by the minimum flow of the river catchment that the lake is located within	Subject to the take limit of the river catchment that the lake is located within

Environmental flows and take limits for the Dunstan Rohe’s rivers and streams are shown in the table below. Take limits and environmental flows are often set as a percentage of the 7-day Mean Annual Low Flow (7-day MALF). The 7-day MALF is a flow statistic that provides an indication of how low the flow gets in a typical year.

For smaller rivers or streams with a mean flow of 5,000 litres per second or less, such as the Cairnmuir Creek or Dairy Creek, a total take limit will be set as 20% of the 7-day MALF. For larger rivers with a mean flow of more than 5,000 l/s, such as the Nevis and Shotover, a take limit of 30% of the 7-day MALF is proposed.

Restrictions on water takes, diversions and damming activities in catchments of smaller rivers will be triggered when flows are at 90% of the 7-day MALF, whereas for larger rivers these restrictions will not kick in until flows are at 80% of the 7-day MALF.

Bespoke limits and environmental flows will be set in the Land and Water Regional Plan for various other rivers including the Arrow river, Cardrona river and Luggate Creek. For some bespoke catchments where a transition may be needed to achieve the environmental outcomes of the catchment and phase out over-allocation it is proposed to set a common consent duration expiry date for any new consent granted under the LWRP framework, the proposed common catchment date for rivers where this will apply in the Dunstan Rohe is 2033.

Finally, for a third category of streams and rivers, such as the Rastus Burn and Bendigo Creek, Otago Regional Council proposes to set interim take limits and environmental flows according to the default method above. These will be implemented through the resource consent replacement process. However, prior to this resource consent replacement process Council will assess whether there is a need to set bespoke minimum flows and take limits for these rivers through a plan change process. Given the current level of water use and allocation, these rivers will in effect be either fully allocated or over-allocated and any new taking of water will not be available.

Table 4 provides estimates of the actual minimum flows and take limits for different catchments based on the default method using the best available information to determine the 7-day MALF of each catchment. The numeric minimum flows and take limits will not be included in the LWRP. Instead, the LWRP will refer to the relevant % of 7-day MALF.

Table 4: Rivers managed by interim default minimum flows and take limits

Name		Environmental flow (l/s)	Take limit (l/s)		Further allocation available (estimate based on best available information)
River catchments with a mean flow ≤ 5,000 l/s and managed by default limits · Minimum flow set as 90% of 7-day MALF · Take limit set as 20% of 7-day MALF
Burn Cottage Creek		157	35		Yes
Burton Creek		140	31		Yes
Byford Creek		285	63		Yes
Cairnmuir Creek		180	40		Yes
Campbells Creek		168	37		Yes
Cascade Stream		119	26		Yes
Champagne Gully Creek		121	27		Yes
Crook Burn (2)		154	34		Yes
Dairy Creek		241	54		Yes
Dead Horse Creek		186	41		Yes
Devils Creek		206	46		Yes
Franks Creek		258	57		Yes
Gentle Annie Creek		173	38		Yes
Gibbston Back Road Creek		276	61		Yes
Goat Camp Creek		299	66		Yes
Italian Creek		221	49		Yes
Jackson Creek		216	48		Yes
Kidd Creek		75	17		Yes
Kingston Road Creek		313	70		Yes
Leaning Rock Creek		253	56		Yes
Long Gully Creek (1)		373	83		Yes
Long Gully Creek (2)		74	16		Yes
Maori Point Creek		85	19		Yes
McKenzie Creek		184	41		Yes
Mt Pisa Creek		284	63		Yes
Muddy Creek		331	74		Yes
Nine Mile Creek		175	39		Yes
Owens Creek		301	67		Yes
Paterson Road Creek		329	73		No
Pigeon Creek		118	26		Yes
Queensberry Hills Creek		202	45		Yes
Raupo Creek		128	29		Yes
Ripponvale Road Creek		83	18		Yes
School Creek		267	59		Yes
Sheepskin Creek (1)		184	41		Yes
Sonora Creek		269	60		Yes
Trig Burn		137	30		Yes
Walkers Creek		147	33		Yes
Weatherall Creek		218	48		Yes
River catchments with a mean flow > 5,000 l/s and managed by default limits · Minimum flow set as 80% of 7-day MALF · Take limit set as 30% of 7-day MALF
Shotover River	8594			3223		Yes
Nevis River	2863			1074		Yes

Table 5 provides estimates of the actual minimum flows and take limits for different catchments based on the default method using the best available information to determine the 7-day MALF of each catchment. The numeric minimum flows and take limits will not be included in the LWRP. Instead, the LWRP will refer to the relevant % of 7-day MALF.

Table 5: Rivers managed by bespoke minimum flows and take limits

Name		Environmental flow (l/s)	Take limit (l/s)	Further allocation available (estimate based on best available information)
River catchments managed by bespoke limits
Arrow River	1,000		700		No
Cardrona River – Upper Reach to Mt Barker	750 Nov – April 2,100 May - Oct		600 (max instantaneous rate of take restriction of 350 l /s)		No
Cardrona River – Mt Barker to SH6	0		0		No
Cardrona River – SH6 to confluence	340		30-35		No
Lindis River	550 Oct – May 1,600 Jun - Sept		1,612		No
Low Burn	80 Oct – March 100 April - Sept		140		No
Luggate Creek	450		320		No
Mill Creek	180		80		No

Table 6: Rivers managed by interim default minimum flows and take limits

Name		Environmental flow (l/s)	Take limit (l/s)	Further allocation available (estimate based on best available information)
River catchments – default limits set as interim and to be given effect to at the time of consent renewal unless bespoke limits set
Albert Burn (1)	158		35	No
Amisfield Burn	149		33	No
Bannock Burn	222		49	No
Bendigo Creek	276		61	No
Camp Creek (1)	324		72	No
Five Mile Creek (1)	277		62	No
John Bull Creek	207		46	No
Locharburn	132		29	No
Park Burn	367		81	No
Pipeclay Gully Creek	174		39	No
Poison Creek	252		56	No
Quartz Reef Creek	313		70	No
Rastus Burn	313		70	No
Roaring Meg	1069		238	No
Schoolhouse Creek	98		22	No
Scrubby Stream	129		29	No
Toms Creek	367		82	No

The Dunstan Rohe contains a large number of aquifers.

For some aquifers that are not hydraulically connected to surface water, such as the Mid Mill Creek Aquifer and Frankton Flats Aquifer, take limits will be set based on a proportion of the mean annual recharge of that aquifer (35%), while for others, such as the aquifers in the Hawea Basin and the Wanaka-Basin Cardrona Gravel Aquifer bespoke take limits will be set in the Land and Water Regional Plan.

National direction also requires Otago Regional Council also to set environmental levels for this type of aquifers, we do currently not have sufficient groundwater level monitoring data to set environmental levels in the plan when it will be notified. Therefore, environmental levels for these aquifers will be set at a later date.

For aquifers with a close hydraulic connection to a river or stream, such as the Cardrona or Lindis Alluvial Ribbon Aquifers, any taking of water will be subject to the take limits and environmental flows set for these rivers.

Table 7 provides an estimate of the actual takes limit for the aquifer based on the default method using the best available information to determine the aquifer’s Mean Annual Recharge (MAR). The numeric take limit will not be included in the LWRP. Instead, the LWRP will refer to the relevant % of the MAR.

Table 7: Aquifers managed by default take limits

Name

Environmental level(s)

Take limit (volume in m³/year)

Further allocation available (estimate based on best available information)

Aquifers managed by default limits

Take limit: 35% Mean Annual Recharge

Whakatipu Basin - Frankton Flats Aquifer

Not required to be included in the new LWRP at this time

147,000

Yes

Whakatipu Basin - Ladies Mile Aquifer

168,000

Yes

Whakatipu Basin - Morven Aquifer

94,500

Yes

Whakatipu Basin - Upper Mill Creek Aquifer

420,000

Yes

Whakatipu Basin - Mid Mill Creek Aquifer

357,000

Yes

Whakatipu Basin - Speargrass-Hawthorn Aquifer

161,000

Yes

Pisa Groundwater Management Zone

4,550,000

Yes

Queensbury Groundwater Management Zone

1,540,000

Luggate Groundwater Management Zone

4,060,000

Yes

Table 8 sets out the aquifer that will be managed by bespoke take limits. These include some new ground water allocation zones in the Hawea aquifer basin and some proposed wetland exclusion zones to protect the Butterfield and Campbell’s wetlands.

Table 8: Aquifers managed by bespoke take limits

Name	Environmental level(s)	Take limit (volume in m³/year)	Further allocation available (estimate based on best available information)
Aquifers managed by bespoke limits
Ardgour Valley Aquifer	Not required to be included in the new LWRP at this time	190,000	Yes
Bendigo Aquifer		29,000,000	Yes
Cromwell Terrace Aquifer		4,000,000	Yes
Lower Tarras Aquifer		18,800,000	Yes
Wanaka-Basin Cardrona Gravel Aquifer – Western Zone		1,300,000 + allowance for SW takes from Cardrona losing reach going to groundwater	Yes
Wanaka-Basin Cardrona Gravel Aquifer – Eastern Zone		35% MAR
Hawea Basin - Hawea Flat Zone		8,680,000	Yes
Hawea Basin - Grandview Zone		787,000	Yes
Hawea Basin - Terrace Aquifer - Hill		410,000	Yes
Hawea Basin -Terrace Aquifer -River		1,560,000	Yes
Hawea Basin - Sandy Point		462,399	No
Hawea Basin - Te Awa		297,000	No
Hawea Basin - Maungawera Flat		570,000	No
Hawea Basin - Maungawera Valley		726,000	No
Hawea Basin - Butterfield Exclusion Zone (wetland protection zone)		-	No
Hawea Basin - Campbell’s Exclusion Zone (wetland exclusion zone)		-	No

Table 9: Alluvial Ribbon Aquifers

Name	Environmental level(s)	Take limit	Further allocation available (estimate based on best available information)
Alluvial ribbon aquifers
Whakatipu Basin - Arrow-Bush Ribbon Aquifer	Groundwater level managed by minimum flow for Arrow River	Subject to take limit river for Arrow River catchment	No
Cardrona Alluvial Ribbon Aquifer	Groundwater level managed by minimum flow for Cardrona River catchment	Subject to take limit river for Cardrona River catchment	No
Lindis Alluvial Ribbon Aquifer	Groundwater level managed by minimum flow for Lindis River catchment	Subject to take limit river for Lindis River catchment	No
Lowburn Alluvial Ribbon Aquifer	Groundwater level managed by minimum flow for Lowburn River catchment	Subject to take limit river for Lowburn River catchment	No
Shotover Alluvial Ribbon Aquifer	Groundwater level managed by minimum flow for Shotover River catchment	Subject to take limit river for Shotover River catchment	No

Outstanding water bodies are water bodies that have one or more outstanding values. National direction requires the Otago Reginal Council to identify outstanding water bodies and protect their important values. The table below lists the outstanding water bodies in this rohe and describes their outstanding values.

Below is a map featuring all the water bodies in Otago.

You can zoom in and view the various water bodies in an area(s).

Water bodies are shown in a blue colour. Select an area to view the water body name.

(Note: if you are on a mobile device, after selecting a water body, tap on the arrow next to the 'X' icon to view more information.)

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Unique identifier	Site identifier	Values and characteristics
Ecology
ECL11	Punamāhaka / Waikāmāhaka / Moke Lake	Upland bully have only been reported rarely at Punamāhaka/Waikāmāhaka/Moke Lake. Punamāhaka/Waikāmāhaka/Moke Lake is recommended as outstanding with intact plants communities extending from the waters edge to depths of 40-50 metres deep. None of these lakes are subject to large water level fluctuations that can impact on shallow water plant communities (e.g., turf communities).
ECL12	Waiwhakaata / Lake Hayes	Considered as one of two most important breeding sites for Australasian crested grebe.The other is Lake Heron in Canterbury. Waiwhakaata/Lake Hayes continues to have a large number of sightings and supports breeding pairs.
ECL13	Te Papapuni/Nevis River	The Nevis galaxias occupies the Nevis River and tributaries and is restricted to this catchment.
Physical
PHY11	Kawarau gorge	Nationally Significant A spectacular steep gorge notable for the volume and fast flowing nature of its water. The gorge is continually being modified by landslides. Between Gibbston and Ripponvale on Kawarau River.
PHY12	Ōtaka / Lochnagar debris dam and lake	Regionally Significant. One of Aotearoa's best and larger examples of a debris-dammed lake caused by a large scale blockslide. No direct outlet, water flows through the dam with a subterranean outlet. Ōtaka/Lochnagar, Richardson Mountains in the headwaters of the Kimiākau/Shotover River.
PHY13	Lake Alta cirque	Regionally Significant. A classic lake-filled cirque with steep rocky sides and back, and patches of moraine over schist bedrock at the front lip. Lake Alta, Kawarau/Remarkables.
PHY14	Pisa Range cirques	Regionally Significant. Good examples of small cirque lakes and moraine. On east side of crest of Pisa Range, 1-2km south of Mt Pisa.
Recreation
REC42	Clutha River / Mata-au (Wānaka to Hāwea River)	Outstanding for recreation (Greenaway 2018). Nationally significant for jet boating and angling from multiple sources (QLDC District Plan, Sports F&G Management Plan for Otago, RiVAS). Regionally significant for rafting and used for packrafting.
REC43	Clutha River / Mata-au (Hāwea River to Te Wairere/Lake Dunstan)	Nationally significant for recreation (Greenaway 2018). Nationally significant for jet boating and angling from multiple sources (QLDC District Plan, Sports F&G Management Plan for Otago, RiVAS). Regionally significant for rafting and used for packrafting. Outstanding due to multiple significant recreation values.
REC44	Kawarau River	Protected by a Water Conservation Order. Recognised for rafting, jetboating, and kayaking. Nationally significant for jet boating and white water kayaking by a variety of sources (Proposed QLDC District Plan, Greenaway 2018, RiVAS)
REC45	Te Papapuni / Nevis River	Protected by a Water Conservation Order. Outstanding for recreation (Te Papapuni/Nevis River mainstem gorge from Nevis Crossing to Kawarau River confluence (recreational purposes, in particular fishing and kayaking), Te Papapuni/Nevis River mainstem above Nevis Crossing to source (recreational purposes, in particular fishing)). Nationally significant for white water kayaking and angling (RiVAS). Considered outstanding for packrafting.
REC46	Kimiākau / Shotover River	Protected by a Water Conservation Order. Outstanding for recreation (recreational purposes, in particular rafting, kayaking, and jetboating). Nationally significant for jet boating with very high commercial value, white water kayaking and rafting (RiVAS). Considered outstanding for packrafting.
Natural character
NAT8	Shotover	Active Bed Pristine or largely unmodified water bodies in Conservation Areas and reserves which encompasses the majority of the Richardson and Harris Mountains, including alpine tarns, streams and wetlands. Headwaters of the Kimiākau/Shotover River include Ōtaka/Lochnagar and Church Hill wetland complex. Steep upper catchments and streams largely weed-free and free of man-made structures. Shotover Gorge between McCarrons Beach and Arthurs Point is inaccessible and has low level of modification, while gravel extraction occurs in the section above. High water quality throughout the area with minor stock influence in the mid and lower Kimiākau/Shotover River (below the Branches excluded from outstanding water bodies). Historic gold mining has led to contamination of some streams around Skippers. Unmodified flow regimes throughout the area (however, historic remnants relating to water abstraction and gold mining). Margins Along incised steep streams predominantly native vegetation along margins with few small-scale modifications, such as tracks. Grey shrublands, particularly those in steep, shaded gullies unaffected by fire and browsing animals, are important wildlife habitats. Land use modification includes extensive grazing and limited 4WD tracks on high-country farmland along lower slopes in the mid Kimiākau/Shotover River catchment. Areas with more extensive modification around Skippers, including weed species such as lupins along river banks, are excluded from outstanding water body identification. Kimiākau/Shotover River Valley floor are excluded due to more intensive grazing and higher level of weed infestation, as well as gold mining. Context Within mountainous areas pristine, highly natural landscape context including the headwaters and alpine valley floors. Conservation areas in the catchment are adjacent to the highly natural area that falls within Tititea/Mount Aspiring National Park. Landscape Context on lower slopes in mid Shotover Valley includes extensively grazed land along the Skippers Road (gravel). Areas of tussockland and alpine herbfields on upper and mid mountain slopes. Beech forest remnants and shrublands are confined to gullies. Small-scale settlement with individual buildings associated with high-country farming and historic gold mining in mid Kimiākau/Shotover River Valley (Skippers) are excluded from the outstanding water bodies. Gold mining has led to historic landscape change in vicinity of waterways. Sensitive landscape due to its high natural character values and openness. Conservation areas around Skippers and in upper catchment visited by recreationists (popular 4WD route).
NAT9	Nevis	Active bed Pristine or largely unmodified water bodies in Kawarau/the Remarkables Conservation Area which encompasses the tops of Kawarau/the Remarkables Mountains and part of the Tāpuae O'Uenuku/Hector Ranges (eastern slopes within Te Papapuni catchment) including alpine tarns, streams and wetlands. Headwaters of the Te Papapuni encompass extensive alpine wetlands in the Garvie Mountains that drain into Roaring Lion Creek, containing meanders and oxbows in an upland valley with a mixture of bogs and fens on the valley floor. Steep riverine gorge habitats, and only habitat for the Nevis galaxias. Steep upper catchments and streams largely weed-free and free of man-made structures. Very high-water quality throughout the area with minor stock influence in the mid and lower Te Papapuni catchment (excluded from outstanding water bodies, apart from gorge section). Unmodified flow regimes throughout the area (lower Coal Creek, Drummond Creek and mid-lower Te Papapuni with water abstraction and gold mining excluded from outstanding water bodies). Margins Within conservation area and along incised steep streams predominantly native vegetation along margins with few small-scale modifications, such as tracks. Land use modification includes extensive grazing, limited presence of crack willow, and limited 4WD tracks on high-country stations along lower slopes along Nevis River. Fans of streams draining into Te Papapuni, are excluded due to more intensive grazing and higher level of weed infestation, as well as gold mining. Context Within Kawarau/the Remarkables Conservation Area and upper Garvie mountains pristine, highly natural landscape context including the mountainous headwaters and alpine valley floors. Landscape Context on lower slopes includes extensively grazed land along the Nevis Road (gravel). Areas of tussockland on upper and mid mountain slopes. Typical alpine ecosystems are well represented, although shrublands are confined to the wetter parts of the area or as remnants around rock tors. Very limited forest remnants in Nevis Gorge. Small-scale settlement with individual buildings associated with high-country farming and historic gold mining in mid Nevis Valley are excluded from the outstanding water bodies. Sensitive landscape due to its high natural character values and openness. Conservation area in upper catchment and Nevis Valley visited by recreationists (popular 4WD route).
NAT10	Pisa	Active Bed Intact small order streams and alpine wetlands and tarns within the plateau area of the Pisa Range. Several alpine fens in the upper reaches of the Roaring Meg catchment which are browsed during the summer months by sheep. Steep and confined catchments feeding the Kawarau River, Ōrau/Cardrona River, and Te Wairere/Lake Dunstan. No structures and limited modifications. Discharge to land permit current near Plank Creek. Waterways in modified areas around Snowfarm and lower Roaring Meg catchment are excluded from outstanding water bodies. Unmodified flow regimes due to absence of bores and water takes on the high-lying plateau area. Water quality is particularly high, as confirmed by ORC testing. Margin Margins in the steep streams in lower reaches of the catchment are predominantly lined with matagouri and mingimingi, as well as Olearia spp. hebe subalpina, desert broom, mountain lacebark, koromiko, wineberry and Hebe propinqua. Upper reaches are dominated by alpine fescue, snow tussock, and blue tussock. Alpine wetlands are predominantly surrounded by sedges. Limited structures and modifications including historic gold workings, vehicle tracks, and stock access. Hydro-generation on Roaring Meg and skiing/ vehicle testing area around Snowfarm are excluded from outstanding water body identification. Context Largely encompassed within the Pisa Conservation Area, the area is highly natural and largely undisturbed with the exception of sheep grazing. Upper reaches of the catchment are characterised by several schist tors and are clad in tall tussock grassland including snow tussock, golden speargrass and blue tussock. Immediate context includes the Snow Farm excluded from the area of ONC. No settlements and limited modification and structures with several vehicle tracks associated with high country farms, stock grazing, tramping tracks, and huts. Overall, the natural elements, patterns, and processes remain dominant and legible. The Pisa Conservation Area includes an open and vast landscape with a high level of perceived naturalness that offers visitors opportunities for exposed and remote experiences throughout the year. Modifications to the east of the upper Roaring Meg catchment include extensive earthworks around the Snowfarm area and hydro power generation in the lower catchment (near Kawarau confluence).
NAT11	Dunstan Mountains	Active bed Steep network of largely unmodified streams in the upper part of the Dunstan Mountains. Includes the upper reaches of the Quartz Reef and Devils Creeks. No structures or modifications to the active beds in these high-lying areas. Unmodified flow regimes due to absence of bores and water takes at higher elevation. Lower catchments of some streams include water abstraction and have been excluded. Very extensive grazing at these high elevations has minor influence on water quality. Margin Margins of incised streams are largely lined with exposed schist tors and associated vegetation including snow tussock, golden speargrass, and matagouri. Low intensity grazing by merino in the summer months within the upper reaches of the catchment, and throughout the year at lower altitude areas. No structures and limited modifications, including vehicle tracks associated with high-country farming activities. Context Located on the western slopes of the Dunstan Mountains and partially within the Bendigo Conservation Area, the area is an exposed and mountainous landscape, particularly near the summit ridges. Upper slopes are dominated cushionfields near the exposed summit areas, and snow tussocklands below. On the lower slopes, weed species are more common amongst areas of regenerating kanuka, golden speargrass, and short tussock. These include wilding conifers, and briar rose. No settlements, and limited structures and modifications including vehicle tracks and huts on the plateau area. Historic vegetation clearance caused by pastoral farming and fires. While the land is used for extensive grazing, the natural elements, patterns, and processes remain dominant and largely unimpeded. Opportunities for the public to experience the landscape’s largely natural, exposed and wild character within the Bendigo Conservation Area.
Natural features and landscapes
LAN25	Ōtaka / Lochnagar	Unmodified, glacially carved lake within the upper reaches of the Shotover catchment. Margins are clad in intact sub alpine and tall tussockland. Lake is highly expressive of its glacial formative processes.
LAN26	Kimiākau / Shotover River and tributaries	Largely intact braided river and wider catchment with historic modifications associated with gold mining. Margins within the upper reaches are less modified and clad in tall tussockland and sub alpine vegetation. Lower reaches include grassland, tall tussockland, and areas of regenerating native vegetation (manuka and kanuka). Highly memorable river within the Queenstown context for its history and vast catchment. River is highly expressive of its formative processes with legible braided river channels. Kimiākau is the Māori name for the Shotover River and was a kāinga mahinga kai (food-gathering place). The Shotover River is associated with 1860s Otago Gold Rush with remnants of this activity still present today.
LAN27	Punamāhaka / Waikāmāhaka / Moke Lake	Small, glacially carved lake forming the upper headwaters of Moke Creek.
LAN28	Arrow River	Rocky narrow riverbed characterised by the schist underlying geology. Margins of the river become more modified in the lower reaches with willows and grassland being the predominant vegetation. Upper reaches are clad in tall tussockland. Distinctive and memorable local feature for the township of Arrowtown. Haehaenui is the Māori name for the Arrow River. The Arrow River is associated largely with the Otago Gold Rush during the mid-1800s with remnants of mining within the active bed still present.
LAN29	Waiwhakaata / Lake Hayes	Intact, glacially carved lake.
LAN30	Kawarau River	Incised, narrow, semi braided river turning into a gorge near the confluence with the Swift Burn. Margins consist of several vegetation types including pasture, grassland, matagouri scrub, willows, and isolated areas of indigenous forest. Highly legible and coherent feature within the Gibbston Valley and eastern extent of the Whakatipu Basin. The Kawarau River was a traditional travel route between Lake Whakatipu and the Clutha River (Mata-au). The river is also recorded as a kāinga mahinga kai (food-gathering place) where weka, kākāpō, kea, and tuna (eel) were gathered.
LAN31	Lake Alta	Small, glacially carved lake forming the headwaters of the Rastus Burn. Margins are clad in coherent stands of tall tussockland, as well as scree slopes and bare rock. Distinctive, legible, and highly accessible local feature within the Remarkables ski field.
LAN32	Cardrona River	Relatively inconspicuous narrow river, transitioning to a braided river in the lower reaches of the Cardrona Valley. Several structures and modifications within the middle of the catchment associated with bores, earthworks, and groundwater takes. Margins within the upper reaches still contain extensive areas of tall tussockland. Lower reaches are more modified with farmland and exotic willow species. Highly legible and central feature within the Cardrona Valley.
LAN33	Te Papapuni / Nevis River	Narrow, and rocky active bed with limited structures and consents. Margins have been modified for grazing at the base of the valley however the upper reaches remain tall tussockland. The Nevis River forms the distinctive valley to the east of the Remarkables and is highly expressive of its tectonic formative processes (Department of Geology Otago University, n.d.). While the river forms part of Ben Nevis Station, there are still remnants of historic mining activity within the margins of the river. Wild and Scenic characteristics identified in Water Conservation Order: Kawarau (2013).
LAN34	Roaring Meg	Incised and steep rocky river with limited structures in the upper reaches. The Roaring Meg power station is located at the confluence with the Kawarau River, and the dam is located mid-reach. Margins within the upper reaches are clad in coherent stands of tall tussockland. Lower reaches are more modified with areas of grassland and exotic deciduous species. Highly legible and memorable stream within the Kawarau River catchment.
LAN35	Lindis River	Narrow, rocky riverbed with limited structures and consents. Margins within the upper reaches are clad in tall tussockland and grassland, while lower reaches are more modified with productive farmland. Highly memorable and legible feature within the Lindis Pass.
LAN36	Clutha River / Mata-au (Upper)	Natural incised gorge extending from the outlet of Lake Wānaka to Sandy Point. Margins of the river have been modified. Vegetation present includes exotic trees such as willows, regenerating native vegetation (manuka and kanuka), grassland, and farmland. Highly memorable and legible river feature within the Hāwea and Wānaka area.
LAN37	Clutha River / Mata-au (Te Wairere / Lake Dunstan)	Broad active bed due to raised river levels by the Clyde Dam. No other structures or consents present. Margins of the river have been modified. Vegetation present includes mixed exotic vegetation and grassland. Highly memorable and legible river feature within Cromwell and Clyde area.

Publications and reports

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