Phosphorus allocation and utilization in three grass species with contrasting response to N and P supply
Article first published online: 28 JUN 2008
Volume 137, Issue 2, pages 293–302, October 1997
How to Cite
RYSER, P., VERDUYN, B. and LAMBERS, H. (1997), Phosphorus allocation and utilization in three grass species with contrasting response to N and P supply. New Phytologist, 137: 293–302. doi: 10.1046/j.1469-8137.1997.00807.x
- Issue published online: 28 JUN 2008
- Article first published online: 28 JUN 2008
- (Received 12 December 1996; accepted 23 May 1997)
- 1993. A simple model to explain the dominance of low-productive perennials in nutrient poor habitats. Oikos: 66: 144–147. , .
- 1985. Theory for growth of plants derived from the nitrogen productivity concept. Physiologia Plantarum 64: 17–28. .
- 1988. Ideal nutrient productivities; and nutrient proportions in plant growth. Plant, Cell and Environment 11: 613–620. .
- 1994. Growth response and phosphorus uptake of rye with long and short root hairs: interactions with mycorrhizal infection. Plans and Soil 167: 247–254. , , .
- 1987. Nitrogen-use-efficiency: a biologically meaningful definition. Functional Ecology 1: 293–296. ,
- 1991. Effects of nutrient enrichment in Dutch chalk Grassland. Journal of Applied Ecology 28: 28–41.
- 1991. Exploitation of phosphate from fertile soil microsites by three Great Basin perennials when in competition. Functional Ecology 5: 757–764. , , .
- 1987. Plant responses to multiple environmental factors. BioScience 37: 49–57. , , , .
- 1989. Cause and effect of differences in specific leaf area. In: LambersH, CambridgeML, KoningsH. PonsTL, eds. Causes and Consequences of I Variation in Growth Kate and Productivity of Higher Plants. The Hague : SPB Academic Publishing, 125–140.
- 1986. Auswirkungen und Beseitigung von Düngung-seinflüssen auf Streuwiesen. Veröffentlichungen des Geo-botanischen Institutes ETH, Stiftung Rübel, Zurich 89.
- 1988. Nutrition and growth of birch seedlings at varied relative phosphorus addition rates. Physio-logia Plantarum 72: 227–235. ,
- 1972. The quantitative analysis of plant growth. Oxford : Blackwell Scientific Publications. .
- 1986. The photosynthesis-nitrogen relationship in wild plants. In: GivnishTJ, ed. On the Economy of Plant Form and Function. Cambridge : Cambridge University Press, 25–55. , .
- 1991. Phosphorus efficiency in plants. II. Significance of root radius, root hairs and cation-anion balance for phosphorus influx in seven plant species. Plant and Soil 132: 261–272. , ,
- 1994. Carbon and nitrogen content ot congeneric annual and perennial grass species: relationships with growth. Plant, Cell and Environment 17: 399–407. ,
- 1988. Modelling the relative growth rate as a function of plant nitrogen concentration. Physiologia Plantarum 72: 185–189.
- 1989. Solubilization of rock phosphate by rape. I. Evaluation of the role of the nutrient uptake pattern. Plant and Soil 113: 155–160. , , .
- 1979. Nitrogen stress in birch seedlings. II. N, P, K, Ca and Mg nutrition. Physiologia Plantarum 45: 149–157.
- 1979. Statistische Methoden und Hire Anwendungen. 7 Auflage. Göttingen , Germany : Vandenhoeck & Ruprecht.
- 1989. Analyses of growth based on net assimilation rate and nitrogen productivity. Their physiological background. In: LambersH, CambridgeML, KoningsH, PonsTL, eds. Causes and Consequences of Variation in Growth Rate and Productivity of Higher Plants. The Hague , Netherlands : SPB Academic Publishing. 1–17. , , , ,
- 1994. Are chlorophylls good indicators of nitrogen and phosphorus levels. Journal of Plant Nutrition 17: 979–990. , ,
- 1995. Mineral nutrition of higher plants, 2nd edn London : Academic Press.
- 1994. Characterisation of the type and extent of nutrient limitation in grassland vegetation using a bioassay with intact sods. Plant and Soil 163: 217–224. , .
- 1994. Photosynthetic nitrogen-use efficiency of inherently slow- and fast-growing species: Possible explanations for observed differences. In: RoyJ, GarnierE, eds. A Whole Plant Perspective on Carbon-Nitrogen Interactions. The Hague , Netherlands : SPB Academic Publishing, 61–77. , ,
- 1990. Leaf area ratio and net assimilation rate of 24 wild species differing in relative growth rate. Oecologia 83: 553–559. ,
- 1990. Carbon and nitrogen economy of 24 wild species differing in relative growth rate. Plant Physiology 94: 621–627. , ,
- 1995. Photosynthetic rates in relation to leaf phosphorus content in pioneer versus climax tropical rainforest species. Oecologia 102: 120–125. , , , ,
- 1988. Role of phosphorus and nitrogen in photosynthetic and whole plant carbon gain and nutrient use efficiency in eastern white pine. Oecologia 77: 25–33. , .
- RoyJ, GarnierE., (eds.) 1994. A whole plant perspective on carbon-nitrogen interactions. The Hague , Netherlands : SPB Academic Publishing.
- 1995. Root and leaf attributes accounting for the performance of fast- and slow-growing grasses at different nutrient supply. Plant and Soil 170: 251–265. ,
- 1996, Competitive ability of three ecologically contrasting grass species at low nutrient supply in relation to their maximal relative growth rate and tissue density. Bulletin of the Geobotanical Institute ETH 62: 3–12. ,
- 1996. Leaf and root turnover of three ecologically contrasting grass species in relation to their performance along a productivity gradient. Oikos 75: 398–406. ,
- 1983. Light environment within the leaf I. Optical properties of paradermal sections of Camellia leaves with special reference to differences in the optical properties of palisade and spongy tissues. Plant and Cell Physiology 24: 1493–1501. ,
- 1985, The resource-ratio hypothesis of plant succession. American Naturalist 125: 827–852.
- 1996. Growth analysis and photoassimilate partitioning. In: ZamskiE, SchafferAA. eds. Photoassimilate Distribution m Plants and Crops. Source–sink Relationships. New York : Marcel Dekker, 1–20.
- 1993. Contribution of physiological and morphological plane traits to a species competitive ability at high and low nitrogen supply. Oecologia 94: 434–440. , , ,
- 1983. Species composition and above ground phytomass in chalk grassland with different management. Vegetatio 52: 171–180. .
- 1993. Changes in chalk-grassland structure and species richness resulting from selective nutrient additions. Journal of Vegetation Science 4: 203–212. , ,