Land use influences stream nitrate uptake in the Lake Taupo catchment

Matheson, Fleur E.; Tank, J. L.; Costley, K. J.

doi:10.1080/00288330.2011.562143

Cited by 3 publications

(5 citation statements)

References 28 publications

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“…Hence a minimum concentration of 80% of saturated concentration is required by the Resource Management Act (1991). In most studies, concentrations of DO in mature forests were above this concentration (Collier and Bowman 2003;Collier and Halliday 2000;Matheson et al 2011;Pruden et al 1990). An exception of 72% was recorded in a forested Northland stream by Baillie et al (2005), which the authors attributed to the warmer thermal regimes in this region.…”

Section: Mature Forest Phase: Canopy Closure To Forest Maturitymentioning

confidence: 99%

“…A preliminary study by Fish (1968) found very low levels of Cu (often below detection (Collier and Bowman 2003;Cooper et al 1987;Fahey and Stansfield 2006;Friberg et al 1997;Harding and Winterbourn 1995;Macaskill et al 1997;Matheson et al 2011;Parkyn et al 2006;Thompson et al 2009;Thompson and Townsend 2004b;Townsend et al 1997;Young et al 2005). The wider range of NO 3 -N/ NO x -N concentrations compared with TN is influenced by studies that measured that measured concentrations of NO 3 -N at the high end of the range and either did not measure TN or measured TN at a lower sampling intensity than NO 3 -N. Death et al 2003;Friberg and Winterbourn 1997;Harding and Winterbourn 1995;Parkyn et al 2006;Quinn et al 1997;Quinn et al 2004;Shearer and Young 2011;Stark and Maxted 2007;Townsend et al 1997.…”

Section: Mature Forest Phase: Canopy Closure To Forest Maturitymentioning

confidence: 99%

“…Invertebrate communities were characterised by high abundances of more pollution tolerant taxa such as Chironomidae, (Fahey and Stansfield 2006;Friberg et al 1997;Macaskill et al 1997;Matheson et al 2011;Parkyn et al 2006;Thompson and Townsend 2004b;Townsend et al 1997;Young et al 2005). The anomaly of a wider range of NO 3 -N/NO x -N concentrations than TN concentrations in planted forest streams ( Figure 4a) was influenced by Fahey & Stansfield's (2006) Hawke's Bay study and probably due to the lower sampling intensity of TN, capturing a smaller range of concentrations compared with NO 3 -N (sample size for NO 3 -N and TN, 62-64 and 3-4 respectively).…”

Section: ) (Eyles and Fahey 2006)mentioning

confidence: 99%

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Water quality in New Zealand’s planted forests: a review

Baillie

Neary

2015

N.Z. j. of For. Sci.

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This paper reviewed the key physical, chemical and biological water quality attributes of surface waters in New Zealand's planted forests. The purpose was to: a) assess the changes in water quality throughout the planted forestry cycle from afforestation through to harvesting; b) compare water quality from planted forests with other land uses in New Zealand; and c) identify knowledge gaps and opportunities for future research. Afforestation of pasture land significantly improved a wide range of water quality attributes such as stream temperature, nutrient and sediment concentrations and microbial contamination within 4-6 years of planting. Water quality in mid-rotation to mature forests, a large proportion of the forestry cycle, was highly variable but characterised by cool water temperatures, low concentrations of sediment and nutrients, with aquatic invertebrate communities indicative of high water quality. Impacts of timber harvesting on water quality attributes were greatest when clear-cut harvesting up to the stream edge. Harvest impacts were mediated by the retention of intact riparian buffers and to a lesser extent by retention of moderate quantities of logging slash across small stream channels. Temporal and spatial factors influenced the magnitude of response to harvesting activities and duration of the recovery period. Land-use comparisons generally showed improving water quality from pasture to planted forest to indigenous forest. Continued research to identify management systems that mitigate impacts on water quality, particularly during harvesting, remains a priority. Consistent approaches to water quality monitoring will improve the ability to report on water quality in planted forests. Future water quality research in New Zealand's planted forests needs to encompass emerging contaminants of national and international concern such as pesticides and pharmaceuticals. As New Zealand moves toward increasing productivity from planted forests, use of potential interventions such as intensified herbicide and fertiliser use, will need to be within sustainable freshwater limits. A future challenge is to quantify the economic value of freshwater ecosystems services provided by New Zealand's planted forests. This review showed that with continued prudent stewardship and ongoing improvements in management practices, particularly during harvesting, New Zealand's planted forests can provide a sustainable source of well-maintained and high quality water resources.

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Section: Mature Forest Phase: Canopy Closure To Forest Maturitymentioning

confidence: 99%

Section: Mature Forest Phase: Canopy Closure To Forest Maturitymentioning

confidence: 99%

Section: ) (Eyles and Fahey 2006)mentioning

confidence: 99%

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Water quality in New Zealand’s planted forests: a review

Baillie

Neary

2015

N.Z. j. of For. Sci.

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“…); (iii) periphytic biofilms can reduce summer stream nitrate loads up to 59%, particularly in shallower, faster‐flowing streams with higher water column P availability (Matheson et al . ); and (iv) vegetated drains have some capacity for nutrient retention (Nguyen & Sukias ). However, in streams with high nutrient concentrations, in‐stream plants may not be able to reduce nutrient loads (O'Brien et al .…”

Section: Riparian Sciencementioning

confidence: 99%

“…Bankside experimental systems demonstrated declines in instream nutrient uptake by periphyton with increased levels of shading (Quinn et al 1997;Matheson et al 2012) and provided confirmation of the summer-time nutrient uptake potential of watercress (Sukias & McKergow 2010). In situ short-term nutrient addition experiments have shown the following: (i) low-nutrient uptake rates in low-nutrient tussock streams (Simon et al 2005); (ii) nutrient uptake is correlated with periphyton chlorophyll a (Niyogi et al 2004); (iii) periphytic biofilms can reduce summer stream nitrate loads up to 59%, particularly in shallower, faster-flowing streams with higher water column P availability (Matheson et al 2011); and (iv) vegetated drains have some capacity for nutrient retention (Nguyen & Sukias 2002). However, in streams with high nutrient concentrations, in-stream plants may not be McColl (1978), Smith (1992), Hicks (1992), Williamson et al (1996), Davies-Colley (1997) (Tables S1-S3) able to reduce nutrient loads (O'Brien et al 2014).…”

Section: Wa Ter Qua Litymentioning

confidence: 99%

Riparian management: A restoration tool for New Zealand streams

McKergow¹,

Matheson²,

Quinn³

2016

Eco Management Restoration

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Summary Many New Zealanders are planning and implementing riparian management, and riparian fencing and planting are now standard best practice tools for water quality and habitat restoration. New Zealand has a long history of action, with the first catchment riparian schemes and science dating back to the 1970s. As a result of this, there is now solid scientific evidence that demonstrates the value of a range of management actions including the following: riparian zones and buffers for livestock exclusion (fencing with or without planting), nutrient processing, shading small streams for temperature control, providing leaf and wood input to stream ecosystems, and enhancing fish and invertebrate habitat. In the last decade or so, on‐ground action has accelerated significantly with the introduction of dairy industry and government agreed targets. In 2015, 96% of dairy cows had been excluded from waterways >1 m wide and >30 cm deep on land that cows graze during the milking season providing impetus for on‐ground action to spread into other pastoral industries. Tools for planning, managing and implementing successful riparian restoration have proliferated, informed by on‐ground successes and failures. Despite this, there remain challenges for individuals or communities planning riparian restoration. Careful case‐by‐case assessment is recommended to ensure that plans match design to local landscape constraints and can realistically contribute to improved water quality or habitat outcomes.

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Patterns of nitrate retention in agriculturally influenced streams and rivers

Hill

2023

Biogeochemistry

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Land use influences stream nitrate uptake in the Lake Taupo catchment

Cited by 3 publications

References 28 publications

Water quality in New Zealand’s planted forests: a review

Water quality in New Zealand’s planted forests: a review

Riparian management: A restoration tool for New Zealand streams

Patterns of nitrate retention in agriculturally influenced streams and rivers

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