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Soil, land care and environmental research
RESEARCH ARTICLE

Multiple soil element and pH interactions constrain plant performance on tropical soils with a long history of fire

Stan J. Rance A B , David M. Cameron A , Carl R. Gosper https://orcid.org/0000-0002-0962-5117 B C E and Emlyn R. Williams D
+ Author Affiliations
- Author Affiliations

A Adjunct Fellow at the School of Environment, Science and Engineering at Southern Cross University, Lismore, NSW 2480, Australia

B CSIRO Land and Water, Private Bag 5, Wembley, WA 6913, Australia

C Biodiversity and Conservation Science, Department of Biodiversity, Conservation and Attractions, Locked Bag 104, Bentley Delivery Centre, WA 6983, Australia

D Statistical Consulting Unit, ANU Canberra ACT 2600, Australia

E Corresponding author. E-mail: carl.gosper@dbca.wa.gov.au

Soil Research 58(4) 335-345 https://doi.org/10.1071/SR19169
Submitted: 20 June 2019  Accepted: 1 March 2020   Published: 20 April 2020

Abstract

Agriculture and forestry in savanna soils worldwide are often constrained by multiple soil limitations. We measured the effect of fertilisation on growth of Pinus caribaea var. hondurensis in order to improve savanna soil productivity in the Northern Territory, Australia. Growth responses to nitrogen, potassium, sulfur and a combined trace element treatment (abbreviated to N × K × S × T) with basal phosphorus (P) application on three soils, and N × P × K × S × T on another three soils, were examined in glasshouse factorial experiments. Without P, there was little response to N, S or T. Growth was usually greatest on N + P + S treatments. The P applications increased soil pH and growth, while N and S applications decreased pH. Growth was consistently poor at soil pH < ~5.2; a pH where exchangeable cations can be leached from the soil and aluminium can become more mobile. Responses to P, N, S and K, and likely also to zinc, were consistent with savanna soils with a long history of nutrient losses due to fire and weathering. Establishing productive plantations or agriculture will require detailed knowledge of soil properties, careful attention to soil pH and balanced fertiliser applications so as not to produce perverse outcomes. Long-term protection from fires could improve soil conditions, to be balanced against the risks of crop loss through unplanned fire.

Additional keywords: cations, forestry, N × P × S interaction, savanna soils, soil limitation.


References

Aldrick JM, Robinson CS (1972) Report on the land units of the Katherine-Douglas area, N.T. 1970. Land Conservation Section, Animal Industry and Agriculture Branch, Northern Territory Administration, Darwin.

Alves C, Vicente A, Nunes T, Gonçalves C, Fernandes AP, Mirante F, Tarelho L, Sánches de la Campa AM, Querol X, Caseiro A, Monteiro C, Evtyugina M, Pio C (2011) Summer 2009 wildfires in Portugal: emission of trace gases and aerosol composition. Atmospheric Environment 45, 641–649.
Summer 2009 wildfires in Portugal: emission of trace gases and aerosol composition.Crossref | GoogleScholarGoogle Scholar |

Arndt W, Phillips LJ (1961) Fertilizer responses of annual crops at Katherine, N.T. Division of Land Research and Regional Survey Technical Paper No. 15, Commonwealth Scientific and Industrial Research Organization, Melbourne.

Ash A, Watson I (2018) Developing the north: learning from the past to guide future plans and policies. The Rangeland Journal 40, 301–314.
Developing the north: learning from the past to guide future plans and policies.Crossref | GoogleScholarGoogle Scholar |

Barnard RO, Fölscher WJ (1980) Nutrient interactions in acid tropical soil. Tropical Agriculturist 57, 333–341.

Barrow NJ (1987) The effects of phosphate on zinc sorption by a soil. Journal of Soil Science 38, 453–459.
The effects of phosphate on zinc sorption by a soil.Crossref | GoogleScholarGoogle Scholar |

Barrow NJ, Whelan BR (1998) Comparing the effects of pH on the sorption of metals by soil and by goethite, and by uptake of plants. European Journal of Soil Science 49, 683–692.
Comparing the effects of pH on the sorption of metals by soil and by goethite, and by uptake of plants.Crossref | GoogleScholarGoogle Scholar |

Bateman W (1955) Forestry in the Northern Territory. Forestry and Timber Bureau (Australia) Leaflet No. 72.

Beringer J, Hutley LB, Tapper NJ, Cernusak LA (2007) Savanna fires and their impact on net ecosystem productivity in north Australia. Global Change Biology 13, 990–1004.
Savanna fires and their impact on net ecosystem productivity in north Australia.Crossref | GoogleScholarGoogle Scholar |

Black CA (1965) ‘Methods of Soil Analysis.’ (American Society of Agronomy: Madison, WI, USA)

Bond WJ (2008) What limits trees in C4 grasslands and savannas? Annual Review of Ecology, Evolution, and Systematics 39, 641–659.
What limits trees in C4 grasslands and savannas?Crossref | GoogleScholarGoogle Scholar |

Brady NC (1984) ‘The nature and properties of soil.’ (Macmillan: New York)

Cameron DM, Rance SJ, Williams ER (1981) Fertilizer responses of Pinus caribaea var. hondurensis on a tropical red earth. Australian Forest Research 11, 35–45.

Cameron DM, Rance SJ, Williams ER (1982) Effects of fertilizers on growth, form and concentration of nutrient in the needles of Pinus caribaea var. hondurensis in the Northern Territory. Australian Forest Research 12, 105–119.

Cameron DM, Gutteridge RC, Rance SJ (1991) Sustaining multiple production systems 1. Forest and fodder trees in multiple use systems in the tropics. Tropical Grasslands 25, 165–172.

Certini G (2005) Effects of fire on properties of forest soils: a review. Oecologia 143, 1–10.
Effects of fire on properties of forest soils: a review.Crossref | GoogleScholarGoogle Scholar | 15688212PubMed |

Chapman HD, Pratt PF (1961) ‘Methods of analysis for soils, plants and waters.’ (University of California: Berkeley)

Chaudhry FM, Loneragan JF (1972) Zinc absorption by wheat seedlings. II. Inhibition by hydrogen ions and by micronutrient cations. Soil Science Society of America Journal 36, 327–331.
Zinc absorption by wheat seedlings. II. Inhibition by hydrogen ions and by micronutrient cations.Crossref | GoogleScholarGoogle Scholar |

Cochran WG, Cox GM (1957) ‘Experimental designs.’ (John Wiley & Sons: New York)

Cook GD (1994) The fate of nutrients during fires in a tropical savanna. Australian Journal of Ecology 19, 359–365.
The fate of nutrients during fires in a tropical savanna.Crossref | GoogleScholarGoogle Scholar |

Cook GD (2001) Effects of frequent fires and grazing on stable nitrogen isotope ratios of vegetation in northern Australia. Austral Ecology 26, 630–636.
Effects of frequent fires and grazing on stable nitrogen isotope ratios of vegetation in northern Australia.Crossref | GoogleScholarGoogle Scholar |

Corbeels M, McMurtrie RE, Pepper DA, Mendham DS, Grove TS, O’Connell AM (2005) Long-term changes in productivity of eucalypt plantations under different harvest residue and nitrogen management practices: A modelling analysis. Forest Ecology and Management 217, 1–18.
Long-term changes in productivity of eucalypt plantations under different harvest residue and nitrogen management practices: A modelling analysis.Crossref | GoogleScholarGoogle Scholar |

Day KJ (1977) Fertility studies on three red earth soils of the Daly Basin, Northern Territory. Land Conservation Section, Animal and Industry and Agriculture Branch, Department of the Northern Territory, Darwin, N.T.

de Souza MC, Rossatto DR, Cook GD, Fujinuma R, Menzies NW, Moreellato LPC, Habermann G (2016) Mineral nutrition and specific leaf area of plants under contrasting long-term fire frequencies: a case study in a mesic savanna in Australia. Trees 30, 329–335.
Mineral nutrition and specific leaf area of plants under contrasting long-term fire frequencies: a case study in a mesic savanna in Australia.Crossref | GoogleScholarGoogle Scholar |

Foy CD, Chaney RL, White MC (1978) The physiology of metal toxicity in plants. Annual Review of Plant Physiology 29, 511–566.
The physiology of metal toxicity in plants.Crossref | GoogleScholarGoogle Scholar |

Gammage B (2011) ‘The biggest estate on earth: how Aborigines made Australia.’ (Allen & Unwin: Crows Nest)

Gerritsen R (2010) Evidence for indigenous Australian agriculture. Australasian Science 31, 35–37.

Grove TS, O’Connell AM, Dimmock GM (1986) Nutrient changes in surface soils after an intense fire in jarrah (Eucalyptus marginata Donn ex Sm.) forest. Australian Journal of Ecology 11, 303–317.
Nutrient changes in surface soils after an intense fire in jarrah (Eucalyptus marginata Donn ex Sm.) forest.Crossref | GoogleScholarGoogle Scholar |

Hope G, Hughes PJ, Russell-Smith J (1985) Geomorphological fieldwork and the evolution of the landscape of Kakadu National Park. In ‘Archaeological Research in Kakadu National Park, Special Publication 13.’ (Ed R Jones R) pp. 229–240. (Australian National Parks and Wildlife Service: Canberra)

Isbell RF, Smith GM (1976) Some properties of red, yellow and grey massive earths of North Queensland. CSIRO Australia Division of Soils Technical Paper No. 30, 1–52.

Isbell RF, Jones RK, Gillman GP (1976) Plant nutrition studies on some yellow and red earth soils in northern Cape York Peninsula. I. Soils and their nutrient status. Australian Journal of Experimental Agriculture and Animal Husbandry 16, 532–541.
Plant nutrition studies on some yellow and red earth soils in northern Cape York Peninsula. I. Soils and their nutrient status.Crossref | GoogleScholarGoogle Scholar |

Kanniah KD, Beringer J, Hutley LB (2010) The comparative role of key environmental factors in determining savanna productivity and carbon fluxes: a review, with special reference to northern Australia. Progress in Physical Geography 34, 459–490.
The comparative role of key environmental factors in determining savanna productivity and carbon fluxes: a review, with special reference to northern Australia.Crossref | GoogleScholarGoogle Scholar |

Lim FY, Sundralingam P (1974) Some preliminary results of fertilizer application on the growth of a 6 year old Pinus caribaea Mor. var. hondurensis stand. Malaysian Forestry 37, 120–126.

Loneragan JF, Grove TS, Robson AD, Snowball K (1979) Phosphorus toxicity as a factor in zinc-phosphorus interactions in plants. Soil Science Society of America Journal 43, 966–972.
Phosphorus toxicity as a factor in zinc-phosphorus interactions in plants.Crossref | GoogleScholarGoogle Scholar |

McKenzie N, Jacquier D, Isbell R, Brown K (2004) ‘Australian soils and landscapes: an illustrated compendium.’ (CSIRO Publishing: Collingwood)

Mendham DS, Ogden GN, Short T, O’Connell TM, Grove TS, Rance SJ (2014) Repeated harvest residue removal reduces E. globulus productivity in the 3rd rotation in south-western Australia. Forest Ecology and Management 329, 279–286.
Repeated harvest residue removal reduces E. globulus productivity in the 3rd rotation in south-western Australia.Crossref | GoogleScholarGoogle Scholar |

Murphy J, Riley JP (1962) A modified single solution method for the determination of phosphate in natural waters. Analytica Chimica Acta 27, 31–36.
A modified single solution method for the determination of phosphate in natural waters.Crossref | GoogleScholarGoogle Scholar |

Neary DG, Klopatek CC, DeBano LF, Ffolliott PF (1999) Fire effects on belowground sustainability: a review and synthesis. Forest Ecology and Management 122, 51–71.
Fire effects on belowground sustainability: a review and synthesis.Crossref | GoogleScholarGoogle Scholar |

Norman MJT (1963) The short term effects of time and frequency of burning of native pastures at Katherine, N.T. Australian Journal of Experimental Agriculture and Animal Husbandry 3, 26–29.
The short term effects of time and frequency of burning of native pastures at Katherine, N.T.Crossref | GoogleScholarGoogle Scholar |

O’Connell AM, Grove TS, Dimmock GM (1979) The effects of a high intensity fire on nutrient cycling in jarrah forest. Australian Journal of Ecology 4, 331–337.
The effects of a high intensity fire on nutrient cycling in jarrah forest.Crossref | GoogleScholarGoogle Scholar |

Office of Northern Australia (2015) ‘Our north, our future: white paper on developing Northern Australia.’ (Australian Government, Department of Industry, Innovation and Science: Canberra)

Orians GH, Milewski AV (2007) Ecology of Australia: the effects of nutrient-poor soils and intense fires. Biological Reviews of the Cambridge Philosophical Society 82, 393–423.
Ecology of Australia: the effects of nutrient-poor soils and intense fires.Crossref | GoogleScholarGoogle Scholar | 17624961PubMed |

Pascoe B (2014) ‘Dark emu: black seeds agriculture or accident?’ (Magabala Books, Aboriginal Corporation: Broome, Australia)

Pellegrini AFA (2016) Nutrient limitations in tropical savannas across multiple scales and mechanisms. Ecology 97, 313–324.
Nutrient limitations in tropical savannas across multiple scales and mechanisms.Crossref | GoogleScholarGoogle Scholar |

Raison RJ (1980a) A review of the role of fire in nutrient cycling in Australian native forests, and of methodology for studying the fire-nutrient interaction. Australian Journal of Ecology 5, 15–21.
A review of the role of fire in nutrient cycling in Australian native forests, and of methodology for studying the fire-nutrient interaction.Crossref | GoogleScholarGoogle Scholar |

Raison RJ (1980b) Possible forest site deterioration associated with slash-burning. Search 11, 68–72.

Raison RJ, Khanna PK, Woods PV (1985a) Mechanisms of element transfer to the atmosphere during vegetation fires. Canadian Journal of Forest Research 15, 132–140.
Mechanisms of element transfer to the atmosphere during vegetation fires.Crossref | GoogleScholarGoogle Scholar |

Raison RJ, Khanna PK, Woods PV (1985b) Transfer of elements to the atmosphere during low-intensity prescribed fires in three Australian subalpine eucalypt forests. Canadian Journal of Forest Research 15, 657–664.
Transfer of elements to the atmosphere during low-intensity prescribed fires in three Australian subalpine eucalypt forests.Crossref | GoogleScholarGoogle Scholar |

Raison RJ, O’Connell AM, Khanna PK, Keith H (1993). Effect of repeated fires on nitrogen and phosphorus budgets and cycling processes in forest ecosystems. In ‘Fire in Mediterranean ecosystems.’ (Eds L Trabaud, R Prodon) pp 347–363. (CEC: Brussels)

Rance SJ, Cameron DM, Williams ER (1982) Correction of crown disorders of Pinus caribaea var. hondurensis by application of zinc. Plant and Soil 65, 293–296.
Correction of crown disorders of Pinus caribaea var. hondurensis by application of zinc.Crossref | GoogleScholarGoogle Scholar |

Rance SJ, Cameron DM, Williams ER (1983) Nutritional requirements and interactions of Khaya senegalensis on tropical red and yellow earths. Communications in Soil Science and Plant Analysis 14, 167–183.
Nutritional requirements and interactions of Khaya senegalensis on tropical red and yellow earths.Crossref | GoogleScholarGoogle Scholar |

Richards BN, Wilson GL (1963) Nutrient supply and mycorrhiza development in Caribbean Pine. Forest Science 9, 405–412.

Robson A (1989) Plant nutrition in Australia. Agricultural Science 2, 46–50.

Rossiter-Rachor NA, Setterfield SA, Douglas MM, Hutley LB, Cook GD (2008) Andropogon gayanus (Gamba grass) invasion increases fire-mediated nitrogen losses in the tropical savannas of Northern Australia. Ecosystems 11, 77–88.
Andropogon gayanus (Gamba grass) invasion increases fire-mediated nitrogen losses in the tropical savannas of Northern Australia.Crossref | GoogleScholarGoogle Scholar |

Russell-Smith J, Whitehead PJ, Cook GD, Hoare JL (2003b) Response of Eucalyptus-dominated savanna to frequent fires: lessons from Munmarlary, 1973–1996. Ecological Monographs 73, 349–375.
Response of Eucalyptus-dominated savanna to frequent fires: lessons from Munmarlary, 1973–1996.Crossref | GoogleScholarGoogle Scholar |

Russell-Smith J, Yates C, Edwards A, Allan GE, Cook GD, Cooke P, Craig R, Heath B, Smith R (2003a) Contemporary fire regimes in northern Australia, 1997–2001: change since aboriginal occupancy, challenges for sustainable management. International Journal of Wildland Fire 12, 283–297.
Contemporary fire regimes in northern Australia, 1997–2001: change since aboriginal occupancy, challenges for sustainable management.Crossref | GoogleScholarGoogle Scholar |

Scholes RJ, Archer SR (1997) Tree-grass interactions in savannas. Annual Review of Ecology and Systematics 28, 517–544.
Tree-grass interactions in savannas.Crossref | GoogleScholarGoogle Scholar |

Spillett PG (1972) ‘Forsaken settlement: An illustrated history of the settlement of Victoria, Port Essington, North Australia 1838–1849.’ (Landsdowne Press: Melbourne)

Stocker GC (1966) Effects of fires on vegetation in the Northern Territory. Australian Forestry 30, 223–230.
Effects of fires on vegetation in the Northern Territory.Crossref | GoogleScholarGoogle Scholar |

Torello-Raventos M, Feldpausch TR, Veenendaal E, et al (2013) On the delineation of tropical vegetation types with an emphasis on forest/savanna transitions. Plant Ecology & Diversity 6, 101–137.
On the delineation of tropical vegetation types with an emphasis on forest/savanna transitions.Crossref | GoogleScholarGoogle Scholar |

Tucker BM (1974) Laboratory procedures for cation exchange measurements on soils. CSIRO Division of Soils Technical Paper No. 23.

van Cuylenburg HRM, Dunlop CR (1973) Land units of the 17 Mile Plain, Melville Island, N.T. Technical Bulletin No. 16 Animal Industry and Agriculture Branch, N.T. Administration, Darwin.

Verma BC, Swaminathan K, Sud KC (1977) An improved turbidimetric procedure for the determination of sulphate in plants and soils. Talanta 24, 49–50.
An improved turbidimetric procedure for the determination of sulphate in plants and soils.Crossref | GoogleScholarGoogle Scholar | 18962021PubMed |

Walker J, Raison RJ, Khanna PK (1986) Fire. In ‘Australian soils: the human impact.’ (Eds JS Russell, RF Isbell) pp 185–216. (University of Queensland Press in association with the Australian Society of Soil Science: St Lucia)

Walkley A, Black IA (1934) An examination of the Degtjareft method for determining soil organic matter, and a proposed modification of the chromic acid titration method. Soil Science 37, 29–38.
An examination of the Degtjareft method for determining soil organic matter, and a proposed modification of the chromic acid titration method.Crossref | GoogleScholarGoogle Scholar |

Walter H, Mueller-Dombois D (1971) ‘Ecology of tropical and subtropical vegetation.’ (Oliver & Boyd: Edinburgh)

Wanthongchai K, Bauhus J, Goldammer JG (2008) Nutrient losses through prescribed burning of aboveground litter and understorey in dry dipterocarp forests of different fire history. Catena 74, 321–332.
Nutrient losses through prescribed burning of aboveground litter and understorey in dry dipterocarp forests of different fire history.Crossref | GoogleScholarGoogle Scholar |

Wells MR, Harrison CJ (1978) Land units of the Howard Springs-Humpty Doo area. Land Conservation Unit, Territory Parks and Wildlife Commission, Darwin NT. Internal Report LC 78/8.

Wells MR, van Cuylenburg HRM (1978) Land units of the areas adjacent to the Tuyu and Yapilika forestry plantations, Melville Island, N.T. 1978. Land Conservation Unit, Territory Parks and Wildlife Commission, Darwin NT. Internal Report LC 78/9.

Wetselaar R, Arndt W (1960) The maintenance of soil fertility in dryland agriculture in the Katherine-Darwin region Northern Territory, Australia. In ‘Proceedings of the Fourth Pan Indian Ocean Science Congress, Section D, Agricultural Sciences, 1960’. (The Secretariat, Pan Indian Ocean Science Association: Karachi, Pakistan)

Williams MAJ, Hooper ADL, Storey R (1969) Land systems of the Adelaide – Alligator Area. In ‘Lands of the Adelaide – Alligator area, Northern Territory.’ (Eds R Story, MAJ Williams, ADL Hooper, RE O’Ferrall, JR McAlpine) pp. 24–48. (CSIRO Land Research Series No. 25: Melbourne)

Winter WH, Gillman GP (1976) Plant nutrition studies on some yellow and red earth soils in northern Cape York Peninsula. 2. Phosphorus: plant response and soil retention. Australian Journal of Experimental Agriculture and Animal Husbandry 16, 542–548.
Plant nutrition studies on some yellow and red earth soils in northern Cape York Peninsula. 2. Phosphorus: plant response and soil retention.Crossref | GoogleScholarGoogle Scholar |