Variations of the natural abundances of nitrogen and carbon isotopes in Triticum aestivum, with special reference to phloem and xylem exudates

T. YONEYAMA; L. L. HANDLEY; C. M. SCRIMGEOUR; D. B. FISHER; J. A. RAVEN

doi:10.1046/j.1469-8137.1997.00809.x

Abstract

This work explored whether the natural abundances of carbon and nitrogen isotopes could be used to describe the movement of C and N within wheat plants; we also considered whether isotopic analyses of aphids or their honeydew would substitute for direct analysis of phloem exudate.

The δ13C of ears and roots (sinks) most closely matched those of the sugars+organic acids fraction (sources) in both growth stages; phloem δ13C matched that of leaf blade sugars. Xylem exudate δ13C matched no other putative (and measured) source in the ear-forming stage and matched that of whole roots and ears in the grain-filling stage. The δ15N of grain and roots (sinks) resembled that of leaf amino acids (sources) in the ear-forming stage. In the grain-filling stage, ear δ15N continued to resemble that of leaf amino acids, and δ15N of roots most closely resembled that of whole leaves. In the grain-filling stage, phloem δ15N fell between that of leaf blade amino acids and that of whole leaves and was 15N-depleted relative to internal and external NO3−-N. In both growth stages, xylem exudate δ15N was less than that of soil NO3−-N and and more than that of residual soil N after mineral N extraction. The isotopic values are generally in agreement with data from other approaches, such as isotope labelling; they show NO3−-N reduction in both shoots and roots of wheat and significant N recycling (root-shoot-phloem-root) and C movement.

Aphids might serve as a substitute for isotopic analysis of phloem δ15N, having the same value as their food source. Their excreta was 15N-enriched relative to phloem.

Crossref Citations

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Schulze, W. Schulze, E.D. Schulze, I. and Oren, R. 2001. Quantification of insect nitrogen utilization by the venus fly trap Dionaea muscipula catching prey with highly variable isotope signatures. Journal of Experimental Botany, Vol. 52, Issue. 358, p. 1041.

Adams, M. A. and Grierson, P. F. 2001. Stable Isotopes at Natural Abundance in Terrestrial Plant Ecology and Ecophysiology: An Update. Plant Biology, Vol. 3, Issue. 4, p. 299.

Evans, R.Dave 2001. Physiological mechanisms influencing plant nitrogen isotope composition. Trends in Plant Science, Vol. 6, Issue. 3, p. 121.

Geßler, Arthur Schrempp, Stefan Matzarakis, Andreas Mayer, Helmut Rennenberg, Heinz and Adams, Mark A. 2001. Radiation modifies the effect of water availability on the carbon isotope composition of beech (Fagus sylvatica). New Phytologist, Vol. 150, Issue. 3, p. 653.

Werner, Roland A. and Schmidt, Hanns-Ludwig 2002. The in vivo nitrogen isotope discrimination among organicplant compounds. Phytochemistry, Vol. 61, Issue. 5, p. 465.

Dawson, Todd E. Mambelli, Stefania Plamboeck, Agneta H. Templer, Pamela H. and Tu, Kevin P. 2002. Stable Isotopes in Plant Ecology. Annual Review of Ecology and Systematics, Vol. 33, Issue. 1, p. 507.

Cernusak, L. A. Pate, J. S. and Farquhar, G. D. 2002. Diurnal variation in the stable isotope composition of water and dry matter in fruiting Lupinus angustifolius under field conditions. Plant, Cell & Environment, Vol. 25, Issue. 7, p. 893.

KEITEL, C. ADAMS, M. A. HOLST, T. MATZARAKIS, A. MAYER, H. RENNENBERG, H. and GEßLER, A. 2003. Carbon and oxygen isotope composition of organic compounds in the phloem sap provides a short‐term measure for stomatal conductance of European beech (Fagus sylvatica L.). Plant, Cell & Environment, Vol. 26, Issue. 7, p. 1157.

Davidson, Diane W. Cook, Steven C. Snelling, Roy R. and Chua, Tock H. 2003. Explaining the Abundance of Ants in Lowland Tropical Rainforest Canopies. Science, Vol. 300, Issue. 5621, p. 969.

Ferrio, J.P. Voltas, J. and Araus, J.L. 2003. Use of carbon isotope composition in monitoring environmental changes. Management of Environmental Quality: An International Journal, Vol. 14, Issue. 1, p. 82.

Lopes, Marta S. Nogués, Salvador and Araus, José L. 2004. Nitrogen source and water regime effects on barley photosynthesis and isotope signature. Functional Plant Biology, Vol. 31, Issue. 10, p. 995.

A. Hobbie, Erik and Werner, Roland A. 2004. Intramolecular, compound‐specific, and bulk carbon isotope patterns in C3 and C4 plants: a review and synthesis. New Phytologist, Vol. 161, Issue. 2, p. 371.

Tillberg, Chadwick V. 2004. Friend or foe? A behavioral and stable isotopic investigation of an ant–plant symbiosis. Oecologia, Vol. 140, Issue. 3, p. 506.

Gessler, A. Rennenberg, H. and Keitel, C. 2004. Stable Isotope Composition of Organic Compounds Transported in the Phloem of European Beech ‐ Evaluation of Different Methods of Phloem Sap Collection and Assessment of Gradients in Carbon Isotope Composition during Leaf‐to‐Stem Transport. Plant Biology, Vol. 6, Issue. 6, p. 721.

Savidge, William B. and Blair, Neal E. 2004. Seasonal and within-plant gradients in the intramolecular carbon isotopic composition of amino acids of Spartina alterniflora. Journal of Experimental Marine Biology and Ecology, Vol. 308, Issue. 2, p. 151.

Geßler, A. Duarte, H. M. Franco, A. C. Lüttge, U. de Mattos, E. A. Nahm, M. Rodrigues, P. J. F. P. Scarano, F. R. and Rennenberg, H. 2005. Ecophysiology of selected tree species in different plant communities at the periphery of the Atlantic Forest of SE—Brazil III. Three legume trees in a semi-deciduous dry forest. Trees, Vol. 19, Issue. 5, p. 523.

Bahar, Bojlul Monahan, Frank J. Moloney, Aidan P. O'Kiely, Padraig Scrimgeour, Charlie M. and Schmidt, Olaf 2005. Alteration of the carbon and nitrogen stable isotope composition of beef by substitution of grass silage with maize silage. Rapid Communications in Mass Spectrometry, Vol. 19, Issue. 14, p. 1937.

Mooney, Kailen A. and Tillberg, Chadwick V. 2005. TEMPORAL AND SPATIAL VARIATION TO ANT OMNIVORY IN PINE FORESTS. Ecology, Vol. 86, Issue. 5, p. 1225.

Spence, Kenneth O. and Rosenheim, Jay A. 2005. Isotopic enrichment in herbivorous insects: a comparative field-based study of variation. Oecologia, Vol. 146, Issue. 1, p. 89.

Badeck, Franz‐W. Tcherkez, Guillaume Nogués, Salvador Piel, Clément and Ghashghaie, Jaleh 2005. Post‐photosynthetic fractionation of stable carbon isotopes between plant organs—a widespread phenomenon. Rapid Communications in Mass Spectrometry, Vol. 19, Issue. 11, p. 1381.

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Variations of the natural abundances of nitrogen and carbon isotopes in Triticum aestivum, with special reference to phloem and xylem exudates

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Variations of the natural abundances of nitrogen and carbon isotopes in Triticum aestivum, with special reference to phloem and xylem exudates

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