A sign warning of water pollution on the Waimakariri River, 2004

Water pollution in New Zealand is an increasing concern for those who use and care for waterways and for New Zealand regulatory bodies.[1] An increase in population is linked to an increase in water pollution, due to a range of causes such as rural land use, industrial use and urban development.[2] Fresh water quality is under pressure from agriculture, hydropower, urban development, pest invasions and climate change.[3] While pollution from point sources has been reduced, diffuse pollution such as nutrients, pathogens and sediments development and from stormwater in towns is not under control. There are more than 800 water quality monitoring sites around New Zealand that are regularly sampled.[4]

As of January 2019, Auckland is the region with New Zealand's most polluted waterways, with 62% of rivers and lakes graded poor by the Ministry for the Environment for swimming, and 0% of rivers and lakes graded as good.[5]

In 2018, waterways across New Zealand have been showing improvements across a number of water quality measures, as monitored by LAWA data.[6]

Water quality guidelines

Guideline standards for water quality are published by MfE.[7]

e.coli / 100ml
< 130 no calculated risk level
131–260 above NCRL
261–550 substantial elevation of Campylobactor infection
> 550 above level of significant risk of infection

Water pollution by sector

Agriculture

Agriculture is a major use of lowland areas of New Zealand and has affected water quality. The expansion of intensive dairy production has resulted in greater levels of nitrogen in soil, surface and groundwater.[8]

In 1993, the National Institute of Water and Atmospheric Research summarised available data on the quality of water in rivers. They concluded that "Some lowland river reaches in agriculturally developed catchments are in poor condition" reflecting "agriculturally derived diffuse and point source waste inputs in isolation or in addition to urban or industrial waste inputs". The key contaminants identified in lowland rivers were dissolved inorganic nitrogen, dissolved reactive phosphorus, sediment and coliforms. Small streams in some dairy farming areas such as the Waikato and Canterbury were identified as being in relatively poor condition.[9]

Sediment from erosion of hills and river banks is also a source of pollution of waters. The sediments loading from high intensity, increasing frequency storm and high rainfall events has led to millions of tonnes of sediment changing fluvial systems in NZ waterways. This sediment contains high organic contents from forest litter which is changing sedimentation patterns and increasing organic bed loads and deposition in NZ lakes and shallow coastal waters.

Since 2005 increased dairy farming rates of grazing animals have outstripped riparian planting and the ability of some Regional councils to manage and mitigate impacts on the quality of water, and there is some evidence of urea use leading to nitrogen levels in waterways. Horticulture, arable farming and plantation forestry generally have less effect than dairy farming.[4]

In 2001 Fish and Game New Zealand started the high-profile dirty dairying campaign to highlight the effect of pollution from farming intensification on the ecological health of freshwater environments. As a reaction to this campaign Fonterra, the largest dairy company in New Zealand, along with a number of government agencies instigated the Dairying and Clean Streams Accord to address water pollution due to dairy farming. The aim of the Accord is to limit the access of stock to waterways. Fonterra exports the majority of its produce, and encourages farmers to limit environmental impacts as a method of getting environmentally aware consumers to purchase their products. The increase in research into sustainable farming and reducing fertilizer use, increasing the planting of native shrubs, grasses, flaxes and trees along the margins of streams. These techniques help intercept run off of manure, sediments and fertilizer and use them to enhance growth of the planted zones.

Over the past decade, regional councils have increasing imposed more regulatory requirements on farmers to reduce their environmental impacts. A number of councils - including Environment Canterbury, Horizons Regional Council and Hawke's Bay Regional Council require most farms to have Farm Environment Plans in place, with some farms in Otago and Waikato also required to have Farm Environment Plans in place. The plans require farmers to manage environmental risks around activities such as farm dairy effluent, erosion, discharges into waterways (through planting and fencing intensively stocked areas), irrigation and the application of nutrients. Some councils have also imposed nutrient limits on farmers.

In 2016, a controversial video by Greenpeace highlighted the contribution of dairy farming to river pollution, stating that over 60 percent of monitored rivers are unsafe to swim in.[10] This video advertisement was appealed by DairyNZ, but the Advertising Standards Authority found in favour of Greenpeace.[11]

The changes to introduce stricter environmental controls on farmers have been cited as contributing to recent trends showing waterway improvements by Horizons Regional Council and Environment Canterbury.[12][13] They have also been cited as contributing to analysis completed by the Cawthorne Institute showing waterway quality is now improving for many water quality measures based on an analysis of LAWA sites.[14]

Domestic

Surface water drain cover in Rotorua showing advisory fish symbol

Urban runoff is polluted with detergents, waste oil, litter and fecal matter. Some stormwater drains have a fish logo painted on the curb to highlight stormwater pollution.

Industry

Industrial processing frequently involves the discharge of process waste-water to waterways. For example, Fonterra has been discharging wastewater containing milk condensate into the Tui River, a tributary of the Mangatainoka River, and is applying for resource consents to continue doing so.[15] The Tasman Pulp and Paper Mill, now owned by Norske Skog, has been discharging waste into the Tarawera River since 1955.[16]

Recreation

High numbers of visitors to parks and other areas where there are no toilets is increasing the chance of pollution from human waste. In alpine areas, where anaerobic digestion of fecal matter is slow, the Department of Conservation have sewerage holding tanks on the toilets at backcountry huts. The sewerage is flown out by helicopter for treatment elsewhere. Freedom camping, a popular activity in some areas, is suspected of causing water pollution due to the incorrect disposal of human waste.

Urban areas

The most significant source of water pollution in urban areas is due to sewerage. Broken sewers and faulty connections allow sewerage to enter stormwater systems.[4] Also, during flooding sewerage pumping stations are inundated with the floodwaters and sewerage is released.

Water run-off from roads contains pollutants such as zinc, copper, lead and hydrocarbons from vehicle wear, vehicle emissions and from the road surface itself.[4] Urban areas have large amounts of paved surface therefore there is a higher likelihood that water contaminated with organic matter will not be filtered through soils.

Sediment run-off from exposed soils in new subdivisions does occur and if it occurs due to breaches of the resource consent prosecution may result. To limit sediment run-off during earthworks straw bales and stormwater settling ponds are used. These are completely inadequate in high rainfall events where the interceptors are overwhelmed and silt laden waters flow into streams and rivers.

Water pollution by region

Regional councils have the responsibility to address water use and misuse issues as set out in the Resource Management Act, a significant Act of Parliament that regulates natural and physical resources such as land, air and water. Differing land use and climate means that water pollution varies across the regions.

Water trends for selected regions (as of 2004)[17]
Region Allocation and abstraction Water
quantity
Surface water quality Groundwater
quality
Future
demand
Surface water Ground water Surface water Ground water Micro biological Inorganic Micro biological Inorganic Proposed irrigation schemes
Canterbury Increasing Increasing Uncertain Uncertain Uncertain Uncertain Uncertain Decreasing Increasing
Hawke's Bay Increasing Increasing Steady Decreasing Uncertain Uncertain Uncertain Decreasing Increasing
Waikato Increasing Increasing Uncertain Uncertain Decreasing Decreasing Uncertain Decreasing Steady
Southland Steady Increasing Steady Steady Uncertain Uncertain Decreasing Uncertain Uncertain

The above table is an aggregate of water trends in the regions and it shows no trends in water quality improvement or the related issue of water abstraction. However, there are observed improvements in water quality for some water bodies in some cases.

Bay of Plenty

The Tarawera River, nicknamed "the black drain", has had a history of water pollution, predominantly due to industrial activity. In 2009, the Tasman Mill gained permission to continue polluting the river for the next 25 years.[18]

Between 1950 and 1989, the Whakatane Sawmill dumped contaminated sawdust, bark, scrap timber, and chemicals in and around Whakatane and the Rangitaiki Plains, including the Kopeopeo Canal, which has been called New Zealand's most polluted waterway.[19] These wastes came from the timber treatment mill, where PCP had been used as a wood preservative. The PCP was contaminated with dioxin and furan (PCDD/PCDFs), resulting in dioxin-contaminated sediment. Remediation efforts on the canal (sparked initially by Ngāti Awa campaigner Joe Harawira) received international recognition in 2019.[20]

Canterbury

Historically much of Canterbury has been dry land and arable farming but there has been a huge increase in dairy farming in the region. Dairy farming in Canterbury requires large amounts of irrigation since the average rainfall is too low to support dairy cow pastures.

The Ōpāwaho / Heathcote River has been subjected to a number of recent pollution incidents.

Environment Canterbury recently introduced strict new environmental requirements for the region's farmers, requiring most farms to develop Farm Environment Plans showing how farms will take action to mitigate risks like nutrient leaching, soil erosion, effluent risks and protect waterways through actions such as fencing off waterways and undertaking riparian planting. The plans are independently audited. Since the introduction of these new rules, waterways are now showing improvement s across a number of measures.

Southland

In Southland effluent from dairy sheds used for more than 50 cows needs a resource consent. Environment Southland recommends effluent is spread at a rate of eight hectares per 100 cows and should not applied to wet soils.[21] In 2012, Otago Regional Council carried out 19 prosecutions for incidents of pollution, twice as many as in 2011. The majority of the pollution incidents were of dairy effluent.[22]

Taranaki

In Taranaki, there are 1400 dairy sheds where the dairy effluent drains into streams instead of being sprayed to land, according to data from Taranaki Regional Council's 2012 State of the Environment report.[23] In 2012, the president of the New Zealand Freshwater Sciences Society expressed surprise at the number of consented dairy discharges to streams, given most other regional councils prosecute dairy farmers who allow dairy effluent to enter waterways.[24] In 2019, Taranaki Regional Council reported that freshwater quality had deteriorated, with only two of the fifteen sites tested meeting the standards for swimmability.[25]

Waikato

The Waikato has had a long history of dairy farming and has some of the most productive soils in the country. Water quality, especially as shown by the indicators of conductivity and pH, in the Waikato region is deteriorating.[26]

The Waikato River has a high level of pollution due to various point and non-point sources.

West Coast

The West Coast receives a high rainfall so any potential pollution will be diluted to some degree.

Until recently untreated sewerage was being discharged into the Grey River but government funding was made available to build a sewerage treatment plant.

See also

References

  1. Piddock, Gerald (2 January 2019). "Water pollution the number one concern for New Zealanders in new poll". Stuff.
  2. Our Freshwater 2020. Ministry for the Environment and Stats NZ. 16 April 2020.
  3. Gluckman, Sir Peter (12 April 2017). "New Zealand's Fresh Waters" (PDF). Prime Minister’s Chief Science Advisor.
  4. 1 2 3 4 Environment Aotearoa 2015. Ministry for the Environment. October 2015. ISBN 978-0-478-41298-7.
  5. "Rivers and lakes in Auckland Region". Ministry for the Environment. Retrieved 16 January 2019.
  6. Taunton, Esther (29 April 2018). "Freshwater quality improving nationwide, report shows". Stuff.
  7. Microbiological water quality guidelines for marine and freshwater recreational areas, MfE, June 2003, pp. H26
  8. "Environmental pressures rising in New Zealand". OECD. 21 March 2017.
  9. Smith, CM; Wilcock, RL; Vant, WN; Smith, DG; Cooper, AB (April 1993). "Freshwater quality in New Zealand and the influence of forestry, population driven land subdivision horticulture and large scale pastoral land uses such as agriculture". Consultancy Report No. MAF056. National Institute of Water and Atmospheric Research.
  10. Save Our Rivers (video). Greenpeace NZ. 2016. Archived from the original on 20 December 2021.
  11. "Greenpeace wins advert battle". The New Zealand Herald. 8 January 2017.
  12. "Improved water quality in Horizons Region shows more rivers more suitable for swimming". Horizons Regional Council. 15 February 2018.
  13. "Monitoring shows Canterbury's fresh water quality improving". Environment Canterbury. 14 November 2017.
  14. "New Zealand river water quality trends show cause for optimism". LAWA. 16 April 2018.
  15. Ray, Adam (18 May 2012). "Discharge hearing over Tui river". 3 News. Retrieved 4 November 2012.
  16. "Iwi not giving up fight against Tasman mill discharges". Radio New Zealand. 18 December 2010. Retrieved 18 December 2010.
  17. PCE (October 2004). Growing for good: Intensive farming, sustainability and New Zealand's environment. Wellington: Parliamentary Commissioner for the Environment. ISBN 1-877274-51-8. Retrieved 18 September 2008.
  18. "Mill gets 25-year pollution consent". The New Zealand Herald. 16 October 2009. Retrieved 6 September 2013.
  19. "case study for dioxin". croesus-projects-ltd.
  20. "International award for local clean-up project | Scoop News". www.scoop.co.nz.
  21. "Farm Dairy Effluent" (PDF). Environment Southland. Archived from the original on 14 October 2008. Retrieved 13 September 2008.
  22. Fox, Rebecca (31 August 2012). "Number of farmers prosecuted more than doubles in 12 months". Otago Daily Times. Retrieved 31 August 2012. In the past year, more than twice as many Otago farmers have been prosecuted for offences - mainly relating to dairy effluent and pugging - than the year before.
  23. Stewart, Rachel (10 December 2012). "Woe betide those who question our water quality". Taranaki Daily News. Retrieved 11 December 2012. Taranaki has 1400 cow sheds discharging effluent into streams.
  24. Harvey, Helen (11 December 2012). "Taranaki Farmers' Effluent Policy Surprises Scientist". Taranaki Daily News. Retrieved 11 December 2012. The New Zealand Freshwater Sciences Society president Waikato University Professor David Hamilton said many other regional councils prosecute anyone who discharges into waterways.
  25. Martin, Robin (11 June 2019). "Taranaki freshwater flunks latest report card". RNZ.
  26. The condition of rural water and soil in the Waikato region: risks and opportunities (PDF). 1825-0708. Environment Waikato. 2008. ISBN 978-0-9582940-0-3. Retrieved 11 September 2008.

Further reading

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