Register      Login
Soil Research Soil Research Society
Soil, land care and environmental research
RESEARCH ARTICLE

Surface and sub-surface salinity in and around acid sulfate soil scalds in the coastal floodplains of New South Wales, Australia

Mark A. Rosicky A C , Peter Slavich B , Leigh A. Sullivan A and Mike Hughes B
+ Author Affiliations
- Author Affiliations

A Centre for Acid Sulfate Soil Research, Southern Cross University, Lismore, NSW 2480, Australia.

B New South Wales Agriculture, Wollongbar Agricultural Institute, Bruxner Highway, Wollongbar, NSW 2477, Australia.

C Corresponding author. Email: mrosic10@scu.edu.au

Australian Journal of Soil Research 44(1) 17-25 https://doi.org/10.1071/SR05027
Submitted: 25 February 2005  Accepted: 20 September 2005   Published: 10 February 2006

Abstract

Two-metre-deep soil profiles at 10 acid sulfate soil (ASS) scalds along the coast of New South Wales (NSW), Australia, were examined for salinity indicators. At 5 of the sites, permanently vegetated areas adjacent to the ASS-scalded land were also tested. Throughout the profiles, most sites had high soluble chloride (Cl) concentrations (≤17 mg/g soil) and high soluble sulfate (SO42−) concentrations (≤17 mg/g soil). Very low Cl : SO42− ratios (≤3) indicated active pyrite oxidation.

Soil salinity (measured as electrical conductivity, EC) was extremely high in the top 2 m of most of the ASS scalds when related to the growth requirements of the typical introduced pasture species that were planted in these areas following drainage. This allows salinity, in addition to the extremely low pH of the surface soils, to contribute to land denudation, which can instigate or perpetuate pyrite oxidation and ASS-related land scalding. Although the sites had shallow watertables and soil-moisture content was high, the surface soil (top 0.10 m) of the scalds had consistently higher soluble Cl and SO42− concentrations and EC than adjacent vegetated areas. All coastal ASS areas investigated, typically freshwater backswamps used for cattle grazing, were underlain by estuarine-derived sediments containing saline ground water. The results demonstrate that revegetation of ASS scalds must include investigation and management of salinity, in addition to acidity, within the soil profile and at the soil surface.

Additional keywords: pyrite oxidation, acid sulfate soil scald, acid sulfate soil salinity, backswamp management, backswamp drainage.


Acknowledgments

This research was funded by the Acid Sulfate Soil Program (ASSPRO), a NSW government initiative, and administered by the Acid Sulfate Soil Management Action Committee (ASSMAC). It forms part of a PhD research project, jointly supervised by Southern Cross University, Lismore, and Agriculture NSW, Wollongbar.


References


Ahern, CR , Stone, Y ,  and  Blunden, B (1998). ‘Acid sulfate soils assessment guidelines.’ (Acid Sulfate Soil Management Advisory Committee (ASSMAC): Wollongbar, NSW)

Bloomfield C, Coulter JK (1973) Genesis and management of acid sulfate soils. Advances in Agronomy 25, 265–326. open url image1

Bhumbla DR, Abrol IP (1978) Saline and sodic soils. ‘Soils and rice’. pp. 719–733. (The International Rice Research Institute: Los Baños, The Phillipines)

Clarkson DT (1966) Aluminium tolerance in species within the genus Agrostis. Journal of Ecology 54, 167–178. open url image1

Ducloux J, Guero Y, Fallavier P, Valet S (1994) Mineralogy of salt efflorescences in paddy field soils of Kollo, southern Niger. Geoderma 64, 57–61.
Crossref | GoogleScholarGoogle Scholar | open url image1

Environmental and Earth Sciences (1998) Management plan for acid sulphate soils, Glenworth Valley, New South Wales. Report No. 19810, Environmental and Earth Sciences, Sydney.

Fanning DS (1993) Salinity problems in acid sulfate coastal soils. ‘Towards the rational use of high salinity tolerant plants’. (Eds H Lieth, A Al Masoom) pp. 491–500. (Kluwer Academic Publishers: The Netherlands)

Fanning DS, Rabenhorst MC, Burch SN, Islam KR, Tangren SA (2002) Sulfides and sulfates. ‘Soil mineralogy with environmental applications’. Book Series No.7. pp. 229–260. (Soil Science Society of America: Madison, WI)

Genon JG, de Hepcee N, Delvaux B, Dufey JE, Hennebert PA (1994a) Redox conditions and iron chemistry in highland swamps of Burundi. Plant and Soil 166, 165–171.
Crossref | GoogleScholarGoogle Scholar | open url image1

Genon JG, de Hepcee N, Duffy JE, Delvaux B, Hennebert PA (1994b) Iron toxicity and other chemical soil constraints to rice in highland swamps of Burundi. Plant and Soil 166, 109–115.
Crossref | GoogleScholarGoogle Scholar | open url image1

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

Keller LP, McCarthy GJ, Richardson JL (1986) Mineralogy and stability of soil evaporites in North Dakota. Soil Science Society of America Journal 50, 1069–1071. open url image1

Kemsley R (1997) Investigating surface soil salt accumulation in the Gumma region of the Mid North Coast of NSW. Unpublished 3rd Year undergraduate project, Southern Cross University, Lismore, NSW.

Konsten CJM, van Breemen N, Suping S, Aribawa IB, Groenenberg JE (1994) Effects of flooding on pH of rice-producing acid sulfate soils in Indonesia. Soil Science Society of America Journal 58, 871–883. open url image1

Kuhn GM, Price GH, Strachan RA (2001) Analysis and interpretation of soil chemical properties. ‘Describing, analysing and managing our soil. Proceedings of the DAMOS ’99 Workshop’. The University of Sydney, 22–26 November 1999. (Ed.  SR Cattle , BH George ) pp. 25–39. (Australian Soil Science Society Inc (NSW), The University of Sydney Printing Service: Sydney)


Lachat, PL (1991). QuikChem Method 10-117-07-1-A (Cl) and Method 10-116-10-1-A (SO) (Lachat Instruments: Loveland, CO)

Lin C, Melville MD, Hafer S (1995a) Acid sulphate soil–landscape relationships in an undrained, tide-dominated estuarine floodplain, eastern Australia. CATENA 24, 177–194.
Crossref | GoogleScholarGoogle Scholar | open url image1

Lin C, Melville MD, White I, Wilson BP (1995b) Human and natural controls on the accumulation, acidification and drainage of pyritic sediments: Pearl River delta, China and coastal NSW. Australian Geographical Studies 33, 77–88. open url image1

Maas EV (1993) Plant growth response to salt stress. ‘Towards the rational use of high salinity tolerant plants’. Vol. 1,(Eds H Lieth, A Al Masoom) pp. 279–291. (Kluwer Academic Press Publishers: The Netherlands)

Maas EV, Hoffman GJ (1977) Crop salt tolerance—current assessment. Journal of The Irrigation and Drainage Division June 1977, 115–134. open url image1

Macdonald BCT, Smith J, Melville MD, White I (2002) Acid sulfate soil research in Australia. ‘Acid sulfate soils in Australia and China’. (Eds C Lin, MD Melville, LA Sullivan) pp. 1–17. (Science Press: Beijing)

Manning, JC (1992). ‘Applied principles of hydrology.’ (Macmillan Publishing Company: New York)

Melville MD, White I, Lin C (1993) The origins of acid sulphate soils. ‘Proceedings National Conference on Acid Sulphate Soils’. (Ed. R Bush ) pp. 19–25. (Tweed Shire Council, CSIRO, NSW Agriculture: Coolangatta, Qld)


Minh LQ, Tuong TP, van Mensvoort MEF, Bouma J (1998) Soil and water table management effects on aluminium dynamics in an acid sulphate soil in Vietnam. Agriculture Ecosystems and Environment 68, 255–262.
Crossref | GoogleScholarGoogle Scholar | open url image1

Mulvey P (1993) Pollution, prevention and management of sulphidic clays and sands. ‘Proceedings National Conference on Acid Sulphate Soils’. (Ed. R Bush ) pp. 116–129. (Tweed Shire Council, CSIRO, NSW Agriculture: Coolangatta, Qld)


Roy PS (1984) New South Wales estuaries: Their origin and evolution. ‘Coastal geomorpology in Australia’. (Ed. BJ Thom) pp. 99–121. (Academic Press Australia: Sydney)

Rosicky M, Sullivan LA, Slavich PG (2002) Characterisation and management of acid sulfate soil scalds on the New South Wales coast of southeast Australia. ‘Acid sulfate soils in Australia and China’. (Eds C Lin, MD Melville, LA Sullivan) pp. 177–194. (Science Press: Beijing)

Rosicky MA, Sullivan LA, Slavich PG, Hughes RM (2004) Soil properties in and around acid sulfate soil scalds in the coastal floodplains of New South Wales, Australia. Australian Journal of Soil Research 42, 595–602.
Crossref | GoogleScholarGoogle Scholar | open url image1

Sadio S, van Mensvoort MEF (1993) Saline acid sulphate soils in Senegal. ‘Selected Papers of the Ho Chi Minh City Symposium on Acid Sulphate Soils’. (Ed.  DL Dent , MEF vanMensvoort , LA Sullivan ) pp. 89–93. (International Institute for Land Reclamation and Improvement: Wageningen, The Netherlands)


Saffigna PG, Smith DJ, Holland GL, Brown GA, Carstens IW, Neumann WJ (1996) Separation and remediation of saline pyritic Tweed River sediments at Chinderah. ‘Proceedings 2nd National Conference on Acid Sulfate Soils’. (Robert J. Smith and Associates, Acid Sulfate Soils Management Advisory Committee (ASSMAC): Coffs Harbour, NSW)


Sammut J, Callinan RB, Fraser GC (1996) An overview of the ecological impacts of acid sulfate soils in Australia. ‘Proceedings 2nd National Conference on Acid Sulfate Soils’. (Robert J. Smith and Associates, Acid Sulfate Soils Management Advisory Committee (ASSMAC): Coffs Harbour, NSW)


Slavich PG, Petterson GH (1993) Estimating the electrical conductivity of saturated paste extracts from 1 : 5 soil : water suspensions and texture. Australian Journal of Soil Research 31, 73–81.
Crossref | GoogleScholarGoogle Scholar | open url image1

Smith J, Melville MD (2000) An assessment of spatial variations in actual acidity at McLeods Creek, Northeastern NSW, Australia. ‘Australian and New Zealand Second Joint Soils Conference’. (Ed.  JA Adams , AK Metherell , LA Sullivan ) pp. 281–282. (New Zealand Society of Soil Science: Lincoln University, New Zealand)


Soil Survey Staff (1998). ‘Keys to Soil Taxonomy.’ 8th edn . (US Department of Agriculture, National Resources Conservation Service, US Government Printing Office: Washington, DC)

Suarez DL, Lebron I (1993) Water quality criteria for irrigation with highly saline water. ‘Towards the rational use of high salinity tolerant plants’. Vol. 2,(Eds H Lieth, A Al Masoom, LA Sullivan) pp. 389–397. (Kluwer Academic Press Publishers: The Netherlands)

Walker PH (1961) Groundwater characteristics of the Kempsey district, NSW. CSIRO Division of Soils Report 1/61, Adelaide, S. Aust.

Walker PH (1963) A reconnaissance of soils in the Kempsey district, NSW. CSIRO Soils and Landuse Report Series No.44, Melbourne, Vic.

Walker PH (1972) Seasonal and stratigraphic controls in coastal floodplain soils. Australian Journal of Soil Research 10, 127–142.
Crossref | GoogleScholarGoogle Scholar | open url image1

Wang HL, Hedley MJ, Bolan NS, Horne DJ (1999) The influence of surface incorporated lime and gypsiferous by-products on surface and subsurface soil acidity. II. Root growth and agronomic implications. Australian Journal of Soil Research 37, 181–190.
Crossref |
open url image1