Register      Login
Soil Research Soil Research Society
Soil, land care and environmental research
Shopping Cart: ( empty )
You are here: Home > Journals > SR > SR04132
RESEARCH ARTICLE
Contents Vol 43(4)

Total soluble nitrogen in forest soils as determined by persulfate oxidation and by high temperature catalytic oxidation

C. R. Chen A D , Z. H. Xu A , P. Keay B and S. L. Zhang C
+ Author Affiliations
- Author Affiliations

A Faculty of Environmental Sciences, Griffith University, Nathan, Qld 4111, Australia.

B DPI Forestry Queensland, Fraser Road, Gympie, Qld 4570, Australia.

C Current address: College of Resources and Environment, Northwest Sci-Tech University of Agriculture and Forestry, Yangling, Shaanxi 712100, P. R. China.

D Corresponding author. Email: c.chen@griffith.edu.au

Australian Journal of Soil Research 43(4) 515-523 https://doi.org/10.1071/SR04132
Submitted: 7 September 2004  Accepted: 2 March 2005   Published: 30 June 2005

Abstract

Speedy and reliable measurements of soil soluble nitrogen (N) are critical for estimating N fluxes in forest ecosystems. The high temperature catalytic oxidation (HTCO) method was assessed and compared with persulfate oxidation (PO) to measure total soluble N in water, hot water, 2 m KCl, and 0.5 m K2SO4 extracts of 24 forest soils collected from south-east Queensland. All salt extracts were diluted 5-fold before measurement by the HTCO method to minimise the effects of salt precipitation on the surface of the Pt/Al2O3 catalysts that may impair oxidation efficiency. Drifts of sensitivity of signals in diluted KCl (0.4 m), K2SO4 (0.1 m), and water matrixes by the HTCO method were minor, with <2% in KCl matrix and <3% in K2SO4 and water matrices. Nitrogen recoveries from most standard N-containing compounds (5 mg/L) analysed by the HTCO method in all the matrices tested were >94%. The values of total soluble N in all extracts of soils obtained by both the PO and the HTCO methods were highly correlated. However, the HTCO method generally gave greater values than the PO method, particularly with high concentrations of N. We consider the HTCO method to be a simple, automated, rapid, quantitative, and reliable method for determining total soluble N in both water extracts and diluted salt extracts of forest soils.

Additional keywords: chemiluminescence, recovery, fumigation, water extracts, K2SO4 extracts, KCl extracts.


Acknowledgments

The access to the experimental sites of DPI Forestry, Queensland and Department of Primary Industries and Fisheries, Queensland, Horticulture and Forestry Sciences is acknowledged. The authors would like to thank Mr John Simpson, Tim Smith, and Mark Podberscek of Queensland Forest Research Institute for access to site information details and Mr John Simpson for his helpful comments on this manuscript.


References


Alavoine G, Nicolardot B (2001) High-temperature catalytic oxidation method for measuring total dissolved nitrogen in K2SO4 soil extracts. Analytica Chimica Acta 445, 107–115.
Crossref | GoogleScholarGoogle Scholar | open url image1

Álvarez-Salgado XA, Miller AEJ (1998) Simultaneous determination of dissolved organic carbon and total dissolved nitrogen in seawater by high temperature catalytic oxidation: conditions for precise shipboard measurements. Marine Chemistry 62, 325–333.
Crossref | GoogleScholarGoogle Scholar | open url image1

Badr E-S, Achterberg EP, Tappin AD, Hill SJ, Braungardt CB (2003) Determination of dissolved organic nitrogen in natural waters using high-temperature catalytic oxidation. Trends in Analytical Chemistry 22, 819–827.
Crossref | GoogleScholarGoogle Scholar | open url image1

Bremner JM, Mulvaney CS (1982) Nitrogen—total. ‘Methods of soil analysis. Part 2. Chemical and microbiological properties’. pp. 595–624. (Soil Science Society of America: Madison, WI)

Cabrera ML, Beare MH (1993) Alkaline persulfate oxidation for determining total nitrogen in microbial biomass extracts. Soil Science Society of America Journal 57, 1007–1012. open url image1

Cornell SE, Jickells TD, Cape JN, Rowland AP, Duce RA (2003) Organic nitrogen deposition on land and coastal environments: a review of methods and data. Atmospheric Environment 37, 2173–2191.
Crossref | GoogleScholarGoogle Scholar | open url image1

Currie WS, Aber JD, McDowell WH, Boone RD, Magill AH (1996) Vertical transport of dissolved organic C and N under long-term N amendments in pine and hardwood forests. Biogeochemistry 35, 471–505. open url image1

Doyle A, Weintraub MN, Schimel JP (2004) Persulfate digestion and simultaneous colorimetric analysis of carbon and nitrogen in soil extracts. Soil Science Society of America Journal 68, 669–676. open url image1

Ebina J, Tsutsui T, Shirai T (1983) Simultaneous determination of total nitrogen and total phosphorus in water using peroxodisulfate oxidation. Water Research 17, 1721–1726.
Crossref | GoogleScholarGoogle Scholar | open url image1

Hedin LO, Armesto JJ, Johnson AH (1995) Patterns of nutrient loss from unpolluted, old-growth temperate forests: evaluation of biogeochemical theory. Ecology 72, 493–509. open url image1

Isbell, RF (1996). ‘The Australian Soil Classification.’ (CSIRO Publishing: Melbourne)

Jones DL, Shannon D, Murphy DV, Farrar J (2004) Role of dissolved organic nitrogen (DON) in soil N cycling in grassland soils. Soil Biology and Biochemistry 36, 749–756.
Crossref |
open url image1

Keroleff F (1983) Simultaneous oxidation of nitrogen and phosphorus compounds by persulfate. ‘Methods of seawater analysis’. 2nd edn(Eds K Grasshoff, M Eberhardt, K Kremling) pp. 168–169. (Verlag Chemie: Weinheimer)

Kjeldahl JGC (1883) A new method for the determination of nitrogen in organic matter. Fresenius' Journal of Analytical Chemistry 22, 366–372.
Crossref |
open url image1

Maita Y, Yanada M (1990) Vertical distribution of total dissolved nitrogen and dissolved organic nitrogen in seawater. Geochemical Journal 24, 245–254. open url image1

Merriam J, McDowell WH, Currie WS (1996) A high-temperature catalytic oxidation technique for determining total dissolved nitrogen. Soil Science Society of America Journal 60, 1050–1055. open url image1

Murphy DV, Macdonald AJ, Macdonald AJ, Stockdale EA, Goulding KWT , et al . (2000) Soluble organic nitrogen in agricultural soil. Biology and Fertility of Soils 30, 374–387.
Crossref | GoogleScholarGoogle Scholar | open url image1

Näsholm T, Ekblad A, Nordin A, Giesler R, Högberg M, Högberg P (1998) Boreal forest plants take up organic nitrogen. Nature 392, 227–229.
Crossref | GoogleScholarGoogle Scholar | PubMed | open url image1

Qualls RG, Haines BL (1991) Fluxes of dissolved organic nutrients and humic substances in a deciduous forest. Ecology 72, 254–266. open url image1

Qualls RG, Haines BL, Swank WT, Tyler SW (2000) Soluble organic and inorganic nutrient fluxes in clearcut and mature deciduous forests. Soil Science Society of America Journal 64, 1068–1077. open url image1

Ross DJ (1992) Influence of sieve mesh size on estimates of microbial carbon and nitrogen by fumigation-extraction procedures in soils under pasture. Soil Biology and Biochemistry 24, 343–350.
Crossref | GoogleScholarGoogle Scholar | open url image1

Sparling GP, Vojvodić-vuković M, Schipper LA (1998) Hot-water soluble C as simple measure of labile soil organic matter: the relationship with microbial biomass C. Soil Biology and Biochemistry 30, 1469–1472.
Crossref | GoogleScholarGoogle Scholar | open url image1

Sparling GP, Zhu C, Fillery IRP (1996) Microbial immobilization of 15N from legume residues in soils of differing textures: measurement by persulphate oxidation and ammonia diffusion methods. Soil Biology and Biochemistry 28, 1707–1715.
Crossref | GoogleScholarGoogle Scholar | open url image1

Suzuki KK, Sugimura Y, Itoh T (1985) A catalytic oxidation method for the determination of total nitrogen dissolved in seawater. Marine Chemistry 26, 295–311. open url image1

Vance ED, Brookes PC, Jenkinson DS (1987) An extraction method for measuring soil microbial biomass C. Soil Biology and Biochemistry 19, 703–707.
Crossref | GoogleScholarGoogle Scholar | open url image1

Walsh TW (1989) Total dissolved nitrogen in seawater: a new high temperature-combusion method and a comparison with photo-oxidation. Marine Chemistry 26, 295–311.
Crossref | GoogleScholarGoogle Scholar | open url image1

Williams BL, Shand CA, Hii M, Ohara C, Smith S, Young ME (1995) A procedure for the simultaneous oxidation of total soluble nitrogen and phosphorus in extracts of fresh and fumigated soils and litters. Communications in Soil Science and Plant Analysis 26, 91–106. open url image1

Xu ZH, Simpson JA, Osborne DO (1995) Mineral nutrition of slash pine in subtropical Australia. I. Stand growth response to fertilization. Fertilizer Research 41, 93–100.
Crossref | GoogleScholarGoogle Scholar | open url image1

Yu Z, Kraus TEC, Dahlgren RA, Horwath WR, Zasoski RJ (2003) Mineral and dissolved organic nitrogen dynamics along a soil acidity-fertility gradient. Soil Science Society of America Journal 67, 878–888. open url image1

Yu Z, Zhang Q, Kraus TEC, Dahlgren RA, Anastasio C, Zasoski RJ (2002) Contribution of amino compounds to dissolved organic nitrogen in forest soils. Biogeochemistry 61, 173–198.
Crossref | GoogleScholarGoogle Scholar | open url image1

Zar, JH (1999). ‘Biostatistical analysis.’ 4th edn . (Prentice-Hall Inc.: Upper Saddle River, NJ)

Zhong Z, Makeschin F (2003) Soluble organic nitrogen in temperate forest soils. Soil Biology and Biochemistry 35, 333–338.
Crossref | GoogleScholarGoogle Scholar | open url image1

Zhu WX, Carreiro MM (2004) Temporal and spatial variations in nitrogen transformations in deciduous forest ecosystems along an urban-rural gradient. Soil Biology and Biochemistry 36, 267–278.
Crossref | GoogleScholarGoogle Scholar | open url image1