Abstract
Heterotrophic gains of carbon from various host species by the root hemiparasitic shrub Olax phyllanthi (Labill) R.Br. were assessed using techniques based on carbon isotope discrimination (δ13C) on C3 and C4 hosts and C:N ratios of xylem sap and dry matter of host and parasite. Heterotrophic benefits (H) to Olax based on δ13C values were 30% and 19% from two nonnative C4 hosts (Portulaca oleracea and Amaranthus caudatus respectively) compared with 13% and 15% from these hosts when computed on the basis of C:N ratios of host xylem sap and C and N increments of Olax dry matter. Nitrate was the source of N available to pot cultures of the above species and estimates based on C:N ratios assumed that all N accumulated by Olax had come from nitrate absorbed by the host. Equivalent estimates of H for Olax, grown in nitrogen-free pot culture with the native N2-fixing host Acacia littorea as its sole source of N, indicated 63% and 51% dependence on host carbon when assessed in terms of xylem sap composition of host parasite respectively. Comparisons of xylem sap solutes of Olax and a range of partner hosts indicated marked selectivity in haustorial uptake and transfer of nitrate, amino compounds, organic acids and sugars. Possible implications of variations between hosts in absolute levels of C and inorganic and organic forms of N in xylem are discussed in relation to evidence of much better growth performance of Olax on Acacia littorea and other N2-fixing legumes than on non-fixers.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Davidson NJ, True KC, Pate JS (1989) Water relations of the parasite: host relationship between the mistletoe Amyema linophyllum (Fenzl) Tieghem and Casuarina obesa Miq. Oecologia 80:321–330
Ehleringer JR, Schulze ED, Ziegler H, Lange OL, Farquhar GD, Cowan IR (1985) Xylem-tapping mistletoes: water or nutrient parasites? Science 227:1479–1481
Graves JD, Press MC, Stewart GR (1989) A carbon balance model of the Sorghum-Striga hermonthica association. Plant Cell Environ 12:101–107
Graves JD, Wylde A, Press MC, Stewart GR (1990) Growth and carbon allocation in Pennisetum typhoides infected with the parasitic angiosperm Striga hermonthica. Plant Cell Environ 13:367–73
Hellmuth EO (1971) Eco-physiological studies on plants in arid and semi arid regions in Western Australia. IV. Comparison of the field physiology of the host, Acacia grasbyi and its hemiparasite, Amyema nestor under optimal and stress conditions. J Ecol 59:351–363
Hollinger DY (1983) Photosynthesis and water relations of the mistletoe, Phoradendron villosum and its host, the California valley oak, Quercus lobata. Oecologia 60:396–400
Kuo J, Pate JS, Davidson NJ (1989) Ultrastructure of the haustorial interface and apoplastic continuum between host and the root hemiparasite Olax phyllanthi (Labill.) R. Br. (Olacaceae). Protoplasma, 150:27–39
Kuijt KJ (1969) The biology of parasitic flowering plants. University of California Press, Berkeley, pp 24–66
Küppers M, Küppers BIL, Neales TF, Swan AG (1992) Leaf gas exchange chracteristics, daily carbon and water balances of the host mistletoe pair Eucalyptus behriana F.Muell. and Amyema miquelii (Lehm.ex.Miq.) Tiegh. at permanantly low plant water status in the field. Trees 7:1–7
Marshall JD, Ehleringer JR, Schulze ED, Farquhar GD (1994) Carbon isotope composition, gas exchange and heterotrophy in Australian mistletoes. Funct Ecol 8:237–241
Pate JS (1995) Water relations, gas exchange, and mineral nutrition of parasitic flowering angiosperms and their hosts-predictions of response to global climate change. In: Moreno JM, Oechel WC (eds) Anticipated effects of a changing global environment on mediterrannean-type ecosystems. (in press)
Pate JS, Peoples MB, Storer PJ, Atkins CA (1985) The extra-floral nectaries of cowpea (Vigna unguiculata (L) Walp.). II. Nectar composition, origin of nectar solutes, and nectary functioning. Planta 166:28–38
Pate JS, Davidson NJ, Kuo J, Milburn JA (1990a) Water relations of the root hemiparasite Olax phyllanthi (labill) R.Br. (Olacaceae) and its multiple hosts. Oecologia 84:186–193
Pate JS, Pate SR, Kuo J, Davidson NJ (1990b) Growth, resource allocation and haustorial biology of the root hemiparasite Olax phyllanthi (Olacaceae). Ann Bot 65:437–449
Pate JS, True KC, Kuo J (1991a) Partition of dry matter and mineral nutrients during a reproductive cycle of the mistletoe Amyema linophyllum (Fenzl) Tieghem parasitizing Casurina obesa Miq. J Exp Bot 42:427–439
Pate JS, True KC, Rasins E (1991b) Xylem transport and storage of amino acids by S. W. Australian mistletoes and their hosts. J Exp Bot 42:441–451
Pate JS, Woodall G, Jeschke WD, Stewart GR (1994). Root xylem transport of amino acids in the root hemiparasite shrub Olax phyllanthi (Labill). R.Br. (Olacaceae) and its multiple hosts. Plant Cell Environ 17:1263–1273
Press MC (1989) Autotrophy and heterotrophy in root hemi parasites. Trends Ecol Evol 4:258–263
Press MC, Shah N, Tuohy JM, Stewart GR (1987) Carbon isotope ratios demonstrate carbon flux from C4 host to C3 parasite. Plant Physiol 85:1143–1145
Press MC, Graves JD, Stewart GR (1988) Transpiration and carbon acquisition in root hemiparasites. J Exp Bot 39:1009–1114
Raven JA (1983) Phytophages of xylem and phloem: a comparison of animal and plant sap feeders. Adv Ecol Res 13:136–239
Schulze ED, Ehleringer JR (1984) The effect of nitrogen supply on growth and water use efficiency of xylem-tapping mistletoes. Planta 162:268–275
Schulze ED, Turner NC, Glatzel G (1984) Carbon, water and nutrient relations of two mistletoes and their hosts:a hypothesis. Plant Cell Environ 13:293–299
Schulze ED, Lange OL, Zeigler H, Gebaur G (1991) Carbon and nitrogen isotope ratios of mistletoes growing on nitrogen and non nitrogen fixing hosts and on CAM plants in the Namib desert confirm partial heterotrophy. Oecologia 88:457–462
Thumfort PP, Pate JS, Rasins E, Ghisalberti EL (1993) S-ethyl cystine; an amino acid from Olax phyllanthi. Phytochemistry 34:657–659
Ullmann I, Lange OL, Zeigler H, Ehleringer J, Schulze ED, Cowan IR (1985) Diurnal courses of leaf conductances and transpiration of mistletoes and their hosts in Central Australia. Oecologia 67:577–587
Winkler FJ, Wirth E, Latzko E, Schmidt HL, Hoppe W, Wimmer P (1978) Influence of growth conditions and development on δ13C-values in different organs and consituents of wheat, oat and maize. Z Pflanzenphysiol 87:255–263
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Tennakoon, K.U., Pate, J.S. Heterotrophic gain of carbon from hosts by the xylem-tapping root hemiparasite Olax phyllanthi (Olacaceae). Oecologia 105, 369–376 (1996). https://doi.org/10.1007/BF00328740
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00328740