Abstract
Organic acids have been hypothesized to perform many functions in soil including root nutrient acquisition, mineral weathering, microbial chemotaxis and metal detoxification. However, their role in most of these processes remains unproven due to a lack of fundamental understanding about the reactions of organic acids in soil. This review highlights some of the knowledge gaps and misconceptions associated with the behavior of organic acids in soil with particular reference to low-molecular-weight organic acids (e.g., citrate, oxalate, malate) and plant nutrient acquisition. One major concern is that current methods for quantifying organic acids in soil may vastly underestimate soil solution concentrations and do not reveal the large spatial heterogeneity that may exist in their concentration (e.g., around roots or microbes). Another concern relates to the interaction of organic acids with the soil's solid phase and the lack of understanding about the relative importance of processes such as adsorption versus precipitation, and sorption versus desorption. Another major knowledge gap concerns the utilization of organic acids by the soil microbial community and the forms of organic acids that they are capable of degrading (e.g., metal-complexed organic acids, adsorbed organic acids etc). Without this knowledge it will be impossible to obtain accurate mathematical models of organic acid dynamics in soil and to understand their role and importance in ecosystem processes. Fundamental research on organic acids and their interaction with soil still needs to be done to fully elucidate their role in soil processes.
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References
Barber S A 1995 Soil Nutrient Bioavailability: A Mechanistic Approach. John Wiley & Sons, New York. 426 pp.
Baziramakenga R, Simard R R and Leroux G D 1995 Determination of organic acids in soil extracts by ion chromatography. Soil Biol. Biochem. 27, 349–356.
Barbour W M, Hattermann D R and Stacey G 1991 Chemotaxis of Bradyrhizobium japonicum to soybean exudates. Appl. Environ. Microbiol. 57, 2635–2639.
Beyer L and Bolter M 2000 Chemical and biological properties, formation, occurrence and classification of Spodic Cryosols in a terrestrial ecosystem of East Antarctica (Wilkes Land). Catena 39, 95–119.
Boudot J P 1992 Relative efficiency of complexed aluminum, noncrystalline Al hydroxide, allophane and imogolite in retarding the biodegradation of citric acid. Geoderma 52, 29–39.
Brynhildsen L and Allard B 1994 Influence of metal complexation on the metabolism of citrate by Klebsiella-oxytoca. Biometals 7, 163–169.
Brynhildsen L and Rosswall T 1989 Effects of cadmium, copper, magnesium, and zinc on the decomposition of citrate by a Klebsiella sp. Appl. Environ. Microbiol. 55, 1375–1379.
Brynhildsen L and Rosswall T 1997 Effects of metals on the microbial mineralization of organic acids. Water Air Soil Poll. 94, 45–57.
Chapman P J, Shand C A, Edwards A C and Smith S 1997 Effect of storage and sieving on the phosphorus composition of soil solution. Soil Sci. Soc. Am. J. 61, 315–321.
Coody P N, Sommers L E and Nelson D W 1986 Kinetics of glucose uptake by soil microorganisms. Soil Biol. Biochem. 18, 283–289.
Courchesne F 1991 Electrolyte concentration and composition effects on sulfate sorption by 2 spodosols. Soil Sci. Soc. Am. J. 55, 1576–1581.
Darrah P R 1991 Measuring the diffusion-coefficient of rhizosphere exudates in 2. The diffusion of sorbing compounds. J. Soil Sci. 42, 421–434.
Delhaize E, Ryan P R and Randall P J 1993 Aluminum tolerance in wheat (Triticum aestivum L.). 2. Aluminum stimulated excretion of malic acid from root apices. Plant Physiol. 103, 695–702.
Delhaize E and Ryan P R 2003 Effects of altered citrate synthase and isocitrate dehydrogenase expression on internal citrate concentrations and citrate efflux from tobacco (Nicotiana tabacum L.) roots. Plant Soil 248, 137–144.
de Maagd P G J, Sinnige T L, Schrap S M, Opperhuizen A and Sijm D T H M 1998 Sorption coefficients of polycyclic aromatic hydrocarbons for two lake sediments: Influence of the bactericide sodium azide. Environ. Toxicol. Chem. 17, 1899–1907.
Drever J I and Stillings L L 1997 The role of organic acids in mineral weathering. Colloids Surfaces A: Physicochem. Eng. Aspects 120, 167–181.
Dutton M V and Evans C S 1996 Oxalate production by fungi – its role in pathogenicity and ecology in the soil environment. Can. J. Microbiol. 42, 881–895.
Erampalli D, Leung K, Cassidy MB, Kostrzynska M, Blears M, Lee H and Trevors J T 1999 Applications of the green fluorescent protein as a molecular marker in environmental microorganisms. J. Microbiol. Meth. 35, 187–199.
Farrar J F and Jones D L 2000 The control of carbon acquisition by roots. New Phytol. 147, 43–53.
Farrar J F, Hawes M, Jones D L and Lindow S 2002 How roots control the flux of carbon to the rhizosphere. Ecology (In press).
Francis A J, Dodge C J and Gillow J B 1992 Biodegradation of metal citrate complexes and implications for toxic-metal mobility. Nature 356, 140–142.
Gallmetzer M and Burgstaller W Citrate efflux in glucose-limited and glucose-sufficient chemostat culture of Penicillium simplicissium. Anton. Leeuw. Int. J. Gen. Mol. Microbiol. 79, 81–87.
Giesler R, Lundström US and Grip H 1996 Comparison of soil solution chemistry assessment using zero-tension lysimeters or centrifugation. Eur. J. Soil Sci. 47, 395–405.
Göttlein A, Hell U and Blasek R A 1996 System for microscale tensiometry and lysimetry. Geoderma 69, 147–156.
Grierson P F 1992 Organic-acids in the rhizosphere of Banksia integrifolia L.. Plant Soil 144, 259–265.
Grieve I C 1996 Effects of the centrifuge drainage method on total organic carbon concentrations in soil solutions from peaty soils. Goederma 74, 115–123.
Heyer H and Krumbein W E 1991 Excretion of fermentation products in dark and anaerobically incubated cyanobacteria. Arch. Microbiol. 155, 284–287.
Hoffland E 1992 Quantitative evaluation of the role of organic-acid exudation in the mobilization of rock phosphate by rape. Plant Soil 140, 279–289.
Hope G D and Syers J K 1976 Effects of solution:soil ratio on phosphate sorption by soils. J. Soil. Sci. 27, 301–306.
Jones D L 1998 Organic acids in the rhizosphere – a critical review. Plant Soil 205, 25–44.
Jones D L 1999 Amino acid biodegradation and its potential effects on organic nitrogen capture by plants. Soil Biol. Biochem. 31, 613–622.
Jones D L and Brassington D S 1998 Sorption of organic acids in acid soils and its implications in the rhizosphere. Eur. J. Soil Sci. 49, 447–455.
Jones D L and Edwards A C 1998 Influence of sorption on the biological utilization of two simple carbon substrates. Soil Biol. Biochem. 30, 1895–1902.
Jones D L, Darrah P R and Kochian L V 1996a Critical-evaluation of organic-acid mediated iron dissolution in the rhizosphere and its potential role in root iron uptake. Plant Soil 180, 57–66.
Jones D L, Prabowo A M and Kochian L V 1996b Kinetics of malate transport and decomposition in acid soils and isolated bacterialpopulations – the effect of microorganisms on root exudation of malate under Al stress. Plant Soil 182, 239–247.
Jones D L, Eldhuset T, deWit H A and Swensen B 2001 Aluminium effects on organic acid mineralization in a Norway spruce forest soil. Soil Biol. Biochem. 33, 1259–1267.
Karltun E 1998 Modelling SO4 2? surface complexation on variable charge minerals. II. Competition between SO4 2?, oxalate and fulvate. Eur. J. Soil Sci. 49, 113–120.
Kelly E F, Chadwick O A and Hilinski T E 1998 The effect of plants on mineral weathering. Biogeochemistry 42, 21–53.
Kielland K 1995 Landscape pattern of free amino acids in arctic tundra soils. Biogeochemistry 31, 85–98.
Killham K and Yeomans C 2001 Rhizosphere carbon flow measurement and implications: from isotopes to reporter genes. Plant Soil 232, 91–96.
Kuo S 1996 Phosphorus. In Methods of Soil Analysis. Part 3. Chemical Methods. Ed. D L Sparks. pp. 869–919. American Society of Agronomy and Soil Science Society of America, Madison, WI.
Krzyszowska A J, Blaylock M J, Vance G F and David M B 1996 Ion-chromatographic analysis of low molecular weight organic acids in spodosol forest floor solutions. Soil Sci. Soc. Am. J. 60, 1565–1571.
Li L and Stanforth R 2000 Distinguishing adsorption and surface precipitation of phosphate on goethite (?-FeOOH). J. Colloid Interf. Sci. 230, 12–21.
Lopez-Bucio J, de la Vega O M, Guevara-Garcia A and Herrera-Estrella L 2000 Enhanced phosphorus uptake in transgenic tobacco plants that overproduce citrate. Nature Biotechnol. 18, 450–453.
Lundström U S, Van Breemen N and Jongmans A G 1995 Evidence for microbial decomposition of organic acids during podzolization. Eur. J. Soil Sci. 46, 489–496.
Madsen E L and Alexander M 1985 Effects of chemical speciation on the mineralization of organic compounds by microorganisms. Appl. Environ. Microbiol. 50, 342–349.
Marschner H 1995 Mineral Nutrition of Higher Plants. Academic Press, London.
Micales J A 1997 Localization and induction of oxalate decarboxylase in the brown-rot wood decay fungus Postia placenta. Int. Biodeterioration Biodegrad. 39, 125–132.
Millet M, Wortham H, Sanusi A and Mirabel P 1997 Low molecular weight organic acids in fogwater in an urban area: Strasbourg (France). Sci. Tot. Env. 206, 57–65.
Norby R J and Jackson R B 2000 Root dynamics and global change: seeking an ecosystem perspective. New Phytol. 147, 3–12.
Otabbong E and Barbolina I 1998 Changes in solubility of various phosphorus fractions promoted by autoclaving soil and sewage sludge. Swed. J. Agr. Res. 28, 129–135.
Parker D R and Pedler J F 1998 Probing the ‘malate hypothesis’ of differential aluminium tolerance in wheat by using other rhizotoxic ions as proxies for Al. Planta 205, 389–396.
Piombo G, Babre D, Fallavier P, Cazevieille P, Arvieu J C and Callot G 1996 Oxalate extraction and determination by ionic chromatography in calcareous soils and in mycorrhized roots environment. Comm. Soil Sci. Plant Anal. 27, 1663–1677.
Pohlman A A and McColl J G 1986 Kinetics of metal dissolution from forest soils by soluble organic acids. J. Environ. Qual. 15, 86–92.
Rupa T R, Tomar K P, Rao C S and Rao A S 2001 Kinetics of phosphate sorption-desorption as influenced by soil pH and electrolyte. Agrochimica 45, 124–133.
Ryan P R, Delhaize E and Randall P J 1995 Characterization of Alstimulated efflux of malate from the apices of Al-tolerant wheat roots. Planta 196, 103–110.
Ryan P R, Delhaize E and Jones D L 2001 Function and mechanism of organic anion exudation from plant roots. Annu. Rev. Plant Physiol. Plant Mol. Biol. 52, 527–560.
Smethurst P J 2000 Soil solution and other soil analyses as indicators of nutrient supply: a review. For. Ecol. Manag. 138, 397–411.
Stevenson F J 1982 Nitrogen in Agricultural Soils. ASA-CSSASSSA, Madison WI. 940 pp.
Strobel B W 2001 Influence of vegetation on low-molecular-weight carboxylic acids in soil solution – a review. Geoderma 99, 169–198.
Ström L, Owen A G, Godbold D L and Jones D L 2001 Organic acid behaviour in a calcareous soil: sorption reactions and biodegradation rates. Soil. Biol. Biochem. 2125–2133.
Ström L, Owen A G, Godbold D L and Jones D L 2002a Organic acid mediated P mobilization in the rhizosphere and uptake by maize roots. Soil Biol. Biochem. (In press).
Ström L, Owen A G, Godbold D L and Jones D L 2002b Organic acid behaviour in a calcareous soil: Implications for rhizosphere nutrient cycling. Soil Biol. Biochem. (In press).
Takao S 1965 Organic acid production by basidiomycetes I. Screening of organic acid producing strains. Appl. Microbiol. 13, 732–737.
Tyler G 2000 Effects of sample pretreatment and sequential fractionation by centrifuge drainage on concentrations of minerals in a calcareous soil solution. Geoderma 94, 59–70.
Van Breemen N, Finlay R, Lundström U S, Jongmans A G, Giesler R and Melkerud P A 2000 Mycorrhizal weathering: A true case of mineral plant nutrition? Biogeochemistry 49, 53–67.
Van Hees P A W, Jones D L and Godbold D L 2002 Biodegradation of low molecular weight organic acids in coniferous forest podzolic soils. Soil Biol. Biochem. (In press).
Xia J H and Roberts J K M 1994 Improved cytoplasmic pH regulation, increased lactate efflux, and reduced cytoplasmic lactate levels are biochemical traits expressed in root-tips of whole maize seedlings acclimated to a low-oxygen environment. Plant Physiol. 105, 651–657.
Xie R J and Mackenzie A F 1991 Effects of autoclaving on surfaceproperties and sorption of phosphate and zinc in phosphatetreated soils. Soil Sci. 152, 250–258.
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Jones, D., Dennis, P., Owen, A. et al. Organic acid behavior in soils – misconceptions and knowledge gaps. Plant and Soil 248, 31–41 (2003). https://doi.org/10.1023/A:1022304332313
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DOI: https://doi.org/10.1023/A:1022304332313