Does nitrogen affect the interaction between a native hemiparasite and its native or introduced leguminous hosts?

Associations between plants and nitrogen (N)-fixing rhizobia intensify with decreasing N supply and come at a carbon cost to the host. However, what additional impact parasitic plants have on their leguminous hosts’ carbon budget in terms of effects on host physiology and growth is unknown. Under gl...

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Bibliographic Details
Published in:The New phytologist 2017-01, Vol.213 (2), p.812-821
Main Authors: Cirocco, Robert M., Facelli, José M., Watling, Jennifer R.
Format: Article
Language:English
Subjects:
Acacia
Analysis of Variance
Animals
Bacteria
Biomass
Carbon
Cassytha
Electron transport
Electron Transport - drug effects
Fabaceae - parasitology
Greenhouses
Growth
hemiparasite
Herbivores
Host plants
Host-Parasite Interactions - drug effects
Hosts
Infections
Introduced Species
legume
Models, Biological
Nitrogen
Nitrogen - pharmacology
nodulation
Parasites
Parasites - physiology
Parasitic plants
Photosynthesis
Photosynthesis - drug effects
Plant Leaves - drug effects
Plant Leaves - physiology
Plant Root Nodulation - drug effects
Plant Shoots - drug effects
Plant Shoots - physiology
rhizobia
Species Specificity
Ulex europaeus
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Summary:Associations between plants and nitrogen (N)-fixing rhizobia intensify with decreasing N supply and come at a carbon cost to the host. However, what additional impact parasitic plants have on their leguminous hosts’ carbon budget in terms of effects on host physiology and growth is unknown. Under glasshouse conditions, Ulex europaeus and Acacia paradoxa either uninfected or infected with the hemiparasite Cassytha pubescens were supplied (high nitrogen (HN)) or not (low nitrogen (LN)) with extra N. The photosynthetic performance and growth of the association were measured. Cassytha pubescens significantly reduced the maximum electron transport rates and total biomass of U. europaeus but not those of A. paradoxa, regardless of N. Infection significantly decreased the root biomass of A. paradoxa only at LN, while the significant negative effect of infection on roots of U. europaeus was less severe at LN. Infection had a significant negative impact on host nodule biomass. Ulex europaeus supported significantly greater parasite biomass (also per unit host biomass) than A. paradoxa, regardless of N. We concluded that rhizobia do not influence the effect of a native parasite on overall growth of leguminous hosts. Our results suggest that C. pubescens will have a strong impact on U. europaeus but not A. paradoxa, regardless of N in the field.
ISSN:0028-646X
1469-8137
DOI:10.1111/nph.14181