Can source–sink relations explain responses of tobacco to infection by the root holoparasitic angiospermOrobanche cernua?

Abstract

The achlorophyllous holoparasitic angiospermOrobanche cernuareduced biomass accumulation of its tobacco host, such that 73‐d‐old plants achieved 29% of the biomass of control plants. The difference in biomass between infected and uninfected tobacco could be accounted for directly by diversion of dry matter to the parasite. Thus, the smaller infected plants were responsible for the production of as much dry matter in host and parasite as their larger uninfected counterparts. The productivity of the infected system was maintained by: (a) sustained production of leaf area (a greater leaf area ratio); (b) increased specific leaf area, and (c) delayed senescence. When tobacco was inoculated with different densities of the parasite, the amount of dry matter accumulated by the parasite was not changed, suggesting that a finite amount of resource was available to the parasite. The response of the host to infection can be explained by simple source–sink interactions and the data are discussed with respect to other parasitic angiosperm–host systems which show different types of responses.