Abstract
The aim of this work was to assess whether agroforestry species have the ability to acquire P from pools unavailable to maize. Tithonia diversifolia(Hemsley) A. Gray, Tephrosia vogelii Hook f., Zea mays and Lupinus albusL. were grown in rhizopots and pH change and depletion of inorganic and organic P pools measured in the rhizosphere. Plants were harvested at the same growth stage, after 56 days for maize and white lupin and 70 days for tithonia and tephrosia, and the rhizosphere sampled. The rhizosphere was acidified by tithonia (pH change −0.3 units to pH 4.8) and lupins (−0.2 units to 4.9), alkalinised by tephrosia (+0.4 units to pH 5.4), and remained unchanged with maize growth. Concurrent with acidification in the rhizosphere of tithonia there was a decline in resin-P (0.8 μg P g−1). However, there was also a decline in NaOH extractable inorganic P (NaOH-Pi) (5.6 μg P g−1 at the root surface) and organic P pools (NaOH-Po) (15.4 μg P g−1 at 1.5 mm from the root), which would not be expected without specific P acquisition mechanisms. Alkalinisation of tephrosia rhizosphere was accompanied by changes in all measured pools, although the large depletion of organic P (21.6 μg P g−1 at 5 mm from the root) suggests that mineralisation, as well as desorption of organic P, was stimulated. The size of changes of both pH and P pools varied with distance away from the rhizoplane. Decline of more recalcitrant P pools with the growth of the agroforestry species contrasted with the effect of maize growth, which was negligible on resin-P and NaOH-Pi, but led to an accumulation of P as NaOH-Po (14.2 μg P g−1 at 5 mm from the root). Overall the depletion of recalcitrant P pools, particularly Po, suggests that the growth of tithonia and tephrosia enhance desorption and dissolution of P, while also enhancing organic P mineralisation. Both species appear to have potential for agroforestry technologies designed to enhance the availability of P to crops, at least in the short term.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Asmar F, Gahoonia T S and Nielsen N E 1995 Barley genotypes differ in activity of soluble extracellular phosphatase and depletion of organic phosphorus in the rhizosphere soil. Plant Soil 172, 117-122.
Awad F, Romheld V and Marschner H 1994 Effects of root exudates on mobilisation in the rhizosphere and uptake of iron by wheat plants. Plant Soil 165, 213-218.
Barber S A 1995 Soil Nutrient Bioavailability: A Mechanistic Approach, 2nd Edition. Wiley, New York.
Barrow N J 1987 Reactions with Variable Charge Soils. Martinus Nijhoff, Dordrecht.
Dinkelaker B, Romheld V and Marschner H 1989 Citric acid excretion and precipitation of calcium citrate in the rhizosphere of white lupin. Plant Cell Environ. 12, 285-292.
Gachengo C N, Palm C A, Jama B and Othieno C 1999 Tithonia and senna green manures and inorganic fertilizers as phosphorus sources for maize in western Kenya. Agrofor. Syst. 44, 21-36
Gahoonia T S, and Nielsen N E 1998 Direct evidence on participation of root hairs in phosphorus uptake from soil. Plant Soil 198, 147-152.
Gahoonia T S, Claassen N and Jungk A 1992a Mobilisation of phosphate in different soils by ryegrass supplied with ammonium and nitrate. Plant Soil 140, 241-248.
Gahoonia T S, Claassen N and Jungk A 1992b Mobilisation of residual phosphate of different phosphate fertilisers in relation to pH in the rhizosphere of ryegrass. Fertil. Res. 33, 229-237.
Gardener W K, Barber D A and Pabery K G 1983 The acquisition of phosphorus by Lupin albus III: The probable mechanism by which phosphorus movement in the soil/root interface is enhanced. Plant Soil 70, 107-124.
Genstat 1987 Genstat 5 reference manual. Genstat 5 Committee of the Statistics Department Rothamsted Experimental Station. Clarendon Press, Oxford.
George T S, Gregory P J, Robinson J S, Buresh R J and Jama B 2001 Tithonia diversifolia: variations in leaf nutrient concentration and implications for biomass transfer. Agroforestry Systems 52, 199-205.
George T S, Gregory P J, Robinson J S, Buresh R J, and Jama B 2002 Utilisation of soil organic P by agroforestry and crop species in the field, western Kenya. Plant Soil 246, 53-63.
Hedley M J, Kirk G J D and Santos M B 1994 Phosphorus efficiency and the forms of soil phosphorus utilised by upland rice cultivars. Plant Soil 158, 53-62.
Helal H M 1990 Varietal differences in root phosphatase activity as related to the utilisation of organic phosphates. Plant Soil 123, 161-163.
Helal H M and Dressler A 1989 Mobilisation and turnover of soil phosphorus in the rhizosphere. Z. Pflanzenern. Bodenk. 152, 175-180.
Hinsinger P and Gilkes R J 1997 Dissolution of phosphate rock in the rhizosphere of five plant species grown in an acid p-fixing mineral substrate. Georderma 75, 231-249.
Hoffmann C, Ladewig E, Claassen N and Jungk A 1994 Phosphorus uptake of maize as effected by ammonium and nitrate nitrogen-measurements and model calculations. Z. Pflanzeneuahr. Bodenk. 157, 225-232.
Hubel F and Beck E 1993 In-situ determination of the P relations around the primary root of maize with respect to inorganic and phytate-P. Plant Soil 157, 1-9.
Jama B, Palm C A, Buresh R J, Niang A, Gachengo C, Nziguheba G and Amadalo B 2000 Tithonia diversifolia as a green manure for soil fertility improvement in western Kenya: a review. Agrofor. Syst. 49, 201-221.
Joner E J and Jakobsen I (1995) Uptake of 32P from labelled organic matter by mycorrhizal and non-mycorrhizal subterranean clover (Trifolium subterraneum). Plant Soil 172, 221-227.
Jungk A, Seeling B and Gerke J 1993 Mobilisation of different phosphate fractions in the rhizosphere. Plant Soil 155, 91-94.
Kamh M, Horst W J, Amer F, Mostafa H and Maier P 1999 Mobilisation of soil fertiliser phosphate by cover crops. Plant Soil 211, 19-27.
Kirchhof G and Pendar K 1993 Delta-T Scan User Manual. Delta-T Devices Ltd., Cambridge.
Lajtha K & Harrison A F 1995 Strategies of phosphorus acquisition and conservation by plant species and communities. In Phosphorus in the Global Environment. Ed. H. Tiessen. pp. 139-147. John Wiley & Sons, Chichester.
Livesley S J, Stacey C L, Gregory P J and Buresh R J 1999 Sieve size effects on root length and biomass measurements of maize (Zea mays) and Grevillea robusta. Plant Soil 207, 183-193.
Loss S P, Robson A D and Ritchie G S P 1993 H+/OH-excretion and nutrient uptake in upper and lower parts of lupin (Lupin angustifolius) root systems. Ann. Bot. 72, 315-320.
Marschner H 1986 Mineral Nutrition of Higher Plants. Academic Press, London.
Murphy J and Riley J P 1962 A modified single solution method for the determination of phosphate in natural waters. Anal. Chim. Acta 27, 31-36.
Niang A, Amadalo B, Gathumbi S and Obonyo C O 1996 Maize yield response to green manure application from selected shrubs and tree species in western Kenya: a preliminary assessment. East Afr. Agric. For. J. 62, 199-207.
Nurlaeny N, Marschner H and George E 1996 Effects of liming and mycorrhizal colonisation on soil phosphate depletion and phosphate uptake by maize and soybean grown in two tropical acid soils. Plant Soil 181, 275-285.
Parkinson J A and Allen S E 1975 A wet oxidation procedure suitable for the determination of nitrogen and mineral nutrients in biological materials. Commun. Soil Sci. Plant Anal. 6, 1-11.
Perez-Corona M E, van der Klundert I and Verhoeven J T A 1996 Availability of organic and inorganic phosphorus compounds as phosphorus sources for Carex species. New Phytol. 133, 225-231.
Petersen W and Bottger M 1991 Contribution of organic acids to the acidification of the rhizosphere of maize seedlings. Plant Soil 132, 159-163.
Rorison I H, Spencer R E and Gupta P L (1993) Mineral nutrients. In Methods in Comparative Plant Ecology. Eds. Hendry, G.A.F. and Grime, J.P. Chapman and Hall, London.
Sanchez P A, Buresh R J and Leakey R R B 1997 Trees, soils and food security. Phil. Trans. R. Soc. Lond. B: Biol. Sci. 352, 949-961.
Shang C, Stewart J W B and Huang P M 1992 pH effects on kinetics of adsorption of organic and inorganic phosphates by short range ordered aluminium and iron precipitates. Geoderma 53, 1-14.
Tarafdar J C and Marschner H 1994 Phosphatase activity in the rhizosphere and hyphosphere of VA mycorrhizal wheat supplied with inorganic and organic phosphorus. Soil Biol. Biochem. 26, 387-395.
Valles V, Lefvre M and Ponizovsky A A 1993 Alkalinisation of nutrient solutions by sorghum. Commun. Soil Sci. Plant Anal. 24, 379-388.
Zoysa A K N, Loganathan P and Hedley M J 1997 A technique for studying rhizosphere processes in tree crops: soil phosphorus depletion around camellia roots. Plant Soil 190, 253-265.
Zoysa A K N, Loganathan P and Hedley M J 1998 Effects of form of nitrogen supply of mobilisation of phosphorus from a phosphate rock and acidification in the rhizosphere of tea. Aust. J. Soil Res. 36, 373-387.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
George, T., Gregory, P., Robinson, J. et al. Changes in phosphorus concentrations and pH in the rhizosphere of some agroforestry and crop species. Plant and Soil 246, 65–73 (2002). https://doi.org/10.1023/A:1021523515707
Issue Date:
DOI: https://doi.org/10.1023/A:1021523515707