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Soil, land care and environmental research
RESEARCH ARTICLE

Effect of soil type and rainfall on dicyandiamide concentrations in drainage from lysimeters

Mark Shepherd A B , Justin Wyatt A and Brendon Welten A
+ Author Affiliations
- Author Affiliations

A AgResearch Limited, Ruakura Research Centre, East Street, Private Bag 3123, Hamilton 3240, New Zealand.

B Corresponding author. Email: mark.shepherd@agresearch.co.nz

Soil Research 50(1) 67-75 https://doi.org/10.1071/SR11330
Submitted: 18 April 2011  Accepted: 16 January 2012   Published: 20 February 2012

Abstract

The nitrification inhibitor dicyandiamide (DCD) is mobile in drainage water, which has implications for its effectiveness in reducing nitrate leaching from urine patches. Lysimeters had been used to investigate the effect of soil type (clay, silt loam, or sandy loam) and precipitation (target ~1140 or 2280 mm/year) on the effectiveness of DCD to decrease nitrate leaching. This paper reports the associated effects on DCD in drainage water. DCD was applied in May and July at a rate of 10 kg/ha, and natural rainfall was supplemented with irrigation to ensure that the target precipitation was achieved for each treatment. The experiment was undertaken twice.

The pattern of DCD concentrations in drainage water suggested that movement of DCD in the silt loam and sandy loam soils was typical of convective–dispersive flow. Although there was some preferential flow of DCD from the soil surface to depth in the clay soil, DCD concentration profiles suggested that the main transport mechanism was also by convective–dispersive flow. There were significant soil-type and precipitation effects on DCD leaching (P < 0.05). The soil-type effect could be attributed to differences in drainage volume between soils. Combining data from the two experimental years, DCD leaching losses ranged from 12 to 46% of applied, with annual drainage in the range 422–1292 mm. DCD was detected in drainage up to 15 months after application, demonstrating the longevity of the compound.

The experiment demonstrates that leaching of DCD on all of the soil types tested can be substantial under high rainfall. This is likely to have implications for the effectiveness of DCD to decrease nitrogen losses from urine patches under such rainfall conditions, as well as being a source of nitrogen itself.

Additional keywords: DCD, dicyandiamide, leaching, soil type.


References

Abdel-Sabour MF, Massoud MA, Baveye P (1990) The effect of water movement on the transport of dicyandiamide, ammonium and urea in unsaturated soils. Zeitschrift für Pflanzenernährung und Bodenkunde 153, 245–247.
The effect of water movement on the transport of dicyandiamide, ammonium and urea in unsaturated soils.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaK3cXlvFSgsr0%3D&md5=e934a3b216f9fb15a02c9b1c01b8e03eCAS |

Amberger A (1989) Research on dicyandiamide as a nitrification inhibitor and future outlook. Communications in Soil Science and Plant Analysis 20, 1933–1955.
Research on dicyandiamide as a nitrification inhibitor and future outlook.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaK3cXhtlyisLg%3D&md5=d51b50bfa4b49081eedb664814e29952CAS |

Anon. (2004) Screening Information Dataset (SIDS) Initial Assessment Profile (SIAP) for Cyanoguanidine. United Nations Environment Programme Report. Available at: www.chem.unep.ch/irptc/sids/OECDSIDS/461585.pdf

Cameron KC, Smith NP, McLay CDA, Fraser PM, McPherson RJ, Harrison DF, Harbottle P (1992) Lysimeters without edge-flow: an improved design and sampling procedure. Soil Science Society of America Journal 56, 1625–1628.
Lysimeters without edge-flow: an improved design and sampling procedure.Crossref | GoogleScholarGoogle Scholar |

Corré WJ, Zwart KB (1995) Effects of DCD addition to slurry on nitrate leaching in sandy soils. Netherlands Journal of Agricultural Science 43, 195–204.

Hewitt AE (1993) ‘Methods and rationale of the New Zealand Soil Classification.’ Landcare Research Science Series No. 2. (Manaaki Whenua Press: Lincoln, NZ)

Kelliher FM, Clough TJ, Clark H, Rys G, Sedcole JR (2008) The temperature dependence of dicyandiamide (DCD) degradation in soils: a data synthesis. Soil Biology & Biochemistry 40, 1878–1882.
The temperature dependence of dicyandiamide (DCD) degradation in soils: a data synthesis.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD1cXnt1eksbo%3D&md5=437a9bc403d23884654fe791590f38e1CAS |

Kjellerup V (1988) Nitrogen effect of slurry mixed with nitrification inhibitors—lysimeter and field experiments. In ‘Agricultural waste management and environmental protection’. (Eds E Welte, I Szabolcs) pp. 143–148. (CIEC: Belgrade)

Kjellerup V (1991) Yield of dry matter, nitrogen uptake and leaching from slurry mixed with nitrification inhibitors. Tidsskrift for Planteavls Specialserie, Report No. S2139. Landbrugsministeriet Staten Planteavlsforsog, Askov.

McKinnon M (2009) Volcanic Plateau region – Geology and climate. Te Ara—the Encyclopedia of New Zealand, updated 30 Nov. 2009. Available at: www.TeAra.govt.nz/en/volcanic-plateau-region/2

Menneer JC, Ledgard S, Sprosen M (2008) Soil N process inhibitors alter nitrogen leaching dynamics in a pumice soil. Australian Journal of Soil Research 46, 323–331.
Soil N process inhibitors alter nitrogen leaching dynamics in a pumice soil.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD1cXns1Okt7o%3D&md5=63a6d7db7269da286f605f8d660b6b0eCAS |

Monaghan RM, Hedley MJ, Di HJ, McDowell RW, Cameron KC, Ledgard SF (2007) Nutrient management in New Zealand pastures—recent developments and future issues. New Zealand Journal of Agricultural Research 50, 181–201.
Nutrient management in New Zealand pastures—recent developments and future issues.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD2sXptFGqtb8%3D&md5=4fec61139efe7d6f4d69d99b7b3dad3aCAS |

Monaghan RM, Smith LC, Ledgard SF (2009) The effectiveness of a granular formulation of dicyandiamide (DCD) in limiting nitrate leaching from a grazed dairy pasture. New Zealand Journal of Agricultural Research 52, 145–159.
The effectiveness of a granular formulation of dicyandiamide (DCD) in limiting nitrate leaching from a grazed dairy pasture.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD1MXhtFOju73I&md5=8c005a9132c5b61e3c804af4d3612d30CAS |

Orange C (2009) Northland region—Facts and figures. Te Ara—the Encyclopedia of New Zealand, updated 2 Mar. 2009. Available at: www.TeAra.govt.nz/en/northland-region/16

Payne RW, Murray DA, Harding SA, Baird DB, Soutar DM (2009) ‘Genstat for Windows: Introduction.’ 12th edn (VSN International: Hemel Hempstead, UK)

Rijkse WC, Guinto DF (2010) Soils of the Bay of Plenty. Vol. 1. Western Bay of Plenty. Environment Bay of Plenty Environmental Publication No. 2010/11-1.

Schwarzer C, Haselwandter K (1996) Rapid quantification of the nitrification inhibitor dicyandiamide in soil samples, nutrient media and bacterial cell-free extracts. Journal of Chromatography. A 732, 390–393.
Rapid quantification of the nitrification inhibitor dicyandiamide in soil samples, nutrient media and bacterial cell-free extracts.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaK28XjtFegsLg%3D&md5=dbc681c2af3e1168ec7ec579715fe4f6CAS |

Shepherd M, Welten B, Ledgard S (2009) Effectiveness of dicyandiamide in reducing nitrogen leaching losses from two contrasting soil types under two rainfall regimes—a lysimeter study. In ‘Nutrient management in a rapidly changing world’. (Eds LD Currie, CL Lindsay) pp. 177–184. (Fertiliser and Lime Research Centre: Massey University, NZ)

Shepherd M, Wyatt J, Welten B, Ledgard S (2010) Form of nitrogen leaching from dairy cow urine and effectiveness of dicyandiamide: not all soils are equal. In ‘19th World Congress of Soil Science, Soil Solutions for a Changing World’. Brisbane, Qld. (CD-ROM) (Eds RJ Gilkes, N Prakongkep) pp. 32–35. (IUSS)

Singh J, Saggar S, Giltrap DL, Bolan NS (2008) Decomposition of dicyandiamide (DCD) in three contrasting soils and its effect on nitrous oxide emission, soil respiratory activity, and microbial biomass—an incubation study. Australian Journal of Soil Research 46, 517–525.
Decomposition of dicyandiamide (DCD) in three contrasting soils and its effect on nitrous oxide emission, soil respiratory activity, and microbial biomass—an incubation study.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD1cXht1WmsLrM&md5=a13aff925c26168b8dc872825d3c0db7CAS |

Singleton PL (1991) Soils of Ruakura—a window on the Waikato. DSIR Land Resources Scientific Report No. 5. DSIR, Lower Hutt, New Zealand.

Stevenson B (2010) Soil quality of dairy sites in Auckland rergion 2009. Prepared by Landcare Research for Auckland Regional Council. Auckland Regional Council Technical Report 2010/026.

Zhang HJ, Wu ZJ, Zhou QX (2004) Dicyandiamide sorption-desorption behaviour on soils and peat humus. Pedosphere 14, 395–399.