SEARCH

SEARCH BY CITATION

References

  • Aerts R, de Caluwe H, Beltman B. 2003. Plant community mediated vs. nutritional controls on litter decomposition rates in grasslands. Ecology 84: 13983208.
  • Allen SE. 1989. Chemical analysis of ecological materials, 2nd edn. Oxford, UK: Blackwell Scientific Publications.
  • Ameloot E, Verheyen K, Hermy M. 2005. Meta-analysis of standing crop reduction by Rhinanthus spp. and its effect on vegetation structure. Folia Geobotanica 40: 289310.
  • Ameloot E, Verlinden G, Boeckx P, Verheyen K, Hermy M. 2008. Impact of hemiparasitic Rhinanthus angustifolius and R. minor on nitrogen availability in grasslands. Plant and Soil 311: 255268.
  • Bardgett RD, Smith RS, Shiel RS, Peacock S, Simkin JM, Quirk H, Hobbs PJ. 2006. Parasitic plants indirectly regulate below-ground properties in grassland ecosystems. Nature 439: 969972.
  • Bloemhof HS, Berendse F. 1995. Simulation of the decomposition and nitrogen mineralization of aboveground plant material in two unfertilized grassland ecosystems. Plant and Soil 177: 157173.
  • Callaway RM, Pennings SC. 1998. Impact of a parasitic plant on the zonation of two salt marsh perennials. Oecologia 114: 100105.
  • Cameron DD, Coats AM, Seel WE. 2006. Differential resistance among host and non-host species underlies the variable success of the hemi-parasitic plant Rhinanthus minor. Annals of Botany 98: 12891299.
  • Cameron DD, Geniez JM, Seel WE, Irving LJ. 2008. Suppression of host photosynthesis by the parasitic plant Rhinanthus minor. Annals of Botany 101: 573578.
  • Cameron DD, Hwangbo JK, Keith AM, Geniez JM, Kraushaar D, Rowntree J, Seel WE. 2005. Interactions between the hemiparasitic angiosperm Rhinanthus minor and its hosts: from the cell to the ecosystem. Folia Geobotanica 40: 217229.
  • Cameron DD, Seel WE. 2007. Functional anatomy of haustoria formed by Rhinanthus minor: linking evidence from histology and isotope tracing. New Phytologist 174: 412419.
  • Cameron DD, White A, Antonovics J. 2009. Parasite-grass-forb interactions and rock-paper-scissor dynamics: predicting the effects of the parasitic plant Rhinanthus minor on host plant communities. Journal of Ecology 97: 13111319.
  • Cechin I, Press MC. 1994. Influence of nitrogen on growth and photosynthesis of a C3 cereal Oryza sativa, infected with the root hemiparasite Striga hermonthica. Journal of Experimental Botany 45: 925930.
  • Davies DM, Graves JD, Elias CO, Williams PJ. 1997. The impact of Rhinanthus spp. on sward productivity and composition: implications for the restoration of species-rich grasslands. Biological Conservation 82: 8793.
  • Ewald NC, John EA, Hartley SE. 2011. Responses of insect herbivores to sharing a host plant with a hemiparasite: impacts on preference and performance differ within feeding guild. Ecological Entomology 36: 596604.
  • Fibich P, Lepš J, Berec L. 2010. Modelling the population dynamics of root hemiparasitic plants along a productivity gradient. Folia Geobotanica 45: 425442.
  • Gibson CC, Watkinson AR. 1991. Host selectivity and the mediation of competition by the root hemiparasite Rhinanthus minor. Oecologia 86: 8187.
  • Gibson CC, Watkinson AR. 1992. The role of the hemiparasitic annual Rhinanthus minor in determining grassland community structure. Oecologia 89: 6268.
  • Irving LJ, Cameron DD. 2009. You are what you eat: interactions between root parasitic plants and their hosts. Advances in Botanical Research 50: 87138.
  • Jiang F, Jeschke WD, Hartung W. 2004. Solute flows from Hordeum vulgare to the hemiparasite Rhinanthus minor and the influence of infection on host and parasite nutrient relations. Functional Plant Biology 31: 633643.
  • Jiang F, Jeschke WD, Hartung W, Cameron DD. 2008. Does legume nitrogen fixation underpin host quality for the hemiparasitic plant Rhinanthus minor? Journal of Experimental Botany 59: 917925.
  • Koukoura Z, Mamolos AP, Kalburtji KL. 2003. Decomposition of dominant plant species litter in a semi-arid grassland. Applied Soil Ecology 23: 1323.
  • Lamont B. 1983. Mineral nutrition of mistletoes. In: Calder M, Bernhardr P, eds. The biology of mistletoes. New York, NY, USA: Academic Press, 185204.
  • Levang-Brilz N, Biondini ME. 2003. Growth rate, root development and nutrient uptake of 55 plant species from the Great Plains Grasslands, USA. Plant Ecology 165: 117144.
  • March WA, Watson DM. 2007. Parasites boost productivity: effects of mistletoe on litterfall dynamics in a temperate Australian forest. Oecologia 154: 339347.
  • March WA, Watson DM. 2010. The contribution of mistletoes to nutrient returns: evidence for a critical role in nutrient cycling. Austral Ecology 35: 713721.
  • Pate JS. 1995. Mineral relationships of parasites and their hosts. In: Press MC, Graves JD, eds. Parasitic plants. London, UK: Chapman & Hall, 80102.
  • Phoenix GK, Booth RE, Leake JR, Read DJ, Grime JP, Lee JA. 2003. Effects of enhanced nitrogen deposition and phosphorus limitation on nitrogen budgets of semi-natural grasslands. Global Change Biology 9: 13091321.
  • Poulin R. 2010. Network analysis shining light on parasite ecology and diversity. Trends in Parasitology 26: 492498.
  • Press MC. 1998. Dracula or Robin Hood? A functional role for root hemiparasites in nutrient poor ecosystems. Oikos 82: 609611.
  • Press MC, Graves JD. 1995. Parasitic plants. London, UK: Chapman & Hall.
  • Press MC, Phoenix GK. 2005. Impacts of parasitic plants on natural communities. New Phytologist 166: 737751.
  • Pywell RF, Bullock JM, Walker KJ, Coulson SJ, Gregory SJ, Stevenson MJ. 2004. Facilitating grassland diversification using the hemiparasitic plant Rhinanthus minor. Journal of Applied Ecology 41: 880887.
  • Quested HM, Callaghan TV, Cornelissen JHC, Press MC. 2005. The impact of hemiparasitic plant litter on decomposition: direct, seasonal and litter mixing effects. Journal of Ecology 93: 8798.
  • Quested HM, Cornelissen JHC, Press MC, Callaghan TV, Aerts R, Trosien F, Riemann P, Gwynn-Jones D, Kondratchuk A, Jonasson SE. 2003a. Decomposition of sub-arctic plants with differing nitrogen economies: a functional role for hemiparasites. Ecology 84: 32093221.
  • Quested HM, Press MC, Callaghan TV. 2003b. Litter of the hemiparasite Bartsia alpina enhances plant growth: evidence for a functional role in nutrient cycling. Oecologia 135: 606614.
  • Quested HM, Press MC, Callaghan TV, Cornelissen JHC. 2002. The hemiparasitic angiosperm Bartsia alpina has the potential to accelerate decomposition in sub-arctic communities. Oecologia 130: 8895.
  • R Core Development Team. 2011. R: a language and environment for statistical computing. Vienna, Austria: R Foundation for Statistical Computing.
  • Smith RS, Shiel RS, Bardgett RD, Millward D, Corkhill P, Evans P, Quirk H, Hobbs PJ, Kometa ST. 2008. Long-term change in vegetation and soil microbial communities during the phased restoration of traditional meadow grassland. Journal of Applied Ecology 45: 670679.
  • Smith RS, Shiel RS, Millward D, Corkhill P. 2000. The interactive effects of management on the productivity and plant community structure of an upland meadow: an 8-year field trial. Journal of Applied Ecology 37: 10291043.
  • Spasojevic MJ, Suding KN. 2011. Contrasting effects of hemiparasites on ecosystem processes: can positive litter effects offset the negative effects of parasitism? Oecologia 165: 193200.
  • del-Val E, Crawley MJ. 2005. What limits herb biomass in grasslands: competition or herbivory? Oecologia 142: 202211.
  • Watson DM. 2009. Parasitic plants as facilitators: more Dryad than Dracula? Journal of Ecology 97: 11511159.
  • Watson DM, Herring M. 2012. Mistletoe as a keystone resource: an experimental test. Proceedings of the Royal Society B 279: 38533860.
  • Watson DM, McGregor HW, Spooner PG. 2011. Hemiparasitic shrubs increase resource availability and multi-trophic diversity of eucalypt forest birds. Functional Ecology 25: 889899.
  • Westbury DB. 2004. Rhinanthus minor L. Journal of Ecology 92: 906927.