Biology of the Root-Parasitic Rhinanthoid Orobanchaceae / Biology of the Root-Parasitic Rhinanthoid Orobanchaceae

TĚŠITEL, Jakub

January 2011

Evolution, physiology and ecology of root-parasitic Rhinanthoid Orobanchaceae was investigated with special emphasis on understanding biology of hemiparasitism. The research was based on a wide range of methods including molecular hylogenetics, cultivation experiments, stable isotope analysis, electron icroscopy, geometric morphometrics and flow-cytometry.

Fire, Soil, Native Species and Control of <em>Phalaris arundinacea</em> in a Wetland Recovery Project.

Foster, Richard Douglas

01 May 2003

Southern Appalachian Phalaris arundinacea control was investigated by: 1) correlating cover and species richness with soil characteristics across transects; 2) burning and herbicide use to determine conditions facilitating native plant establishment; and 3) hemi-parasitic Pedicularis lanceolata tested as a biological control. Phalaris cover was correlated with subsoil consolidation; areas without Phalaris had consolidated subsoil while Phalaris at >50% cover established on loose soil. Phalaris cover inhibited species richness (r2=0.78). No soil characteristic predicted species richness. Herbicide reduced Phalaris cover and aerial biomass by 23% and 63% respectively, compared to controls. Burning was ineffective. Two summers after herbicide Phalaris subterranean biomass remained 32% less than control biomass. Monocot transplants established readily following herbicide but dicot transplants were less likely to survive. Pedicularis parasitized Phalaris. Pedicularis’ effect on a mixed species total (r2=0.735) was non-linear; implying greater effect on large plants. Non-parasitic native plant species competition reduced biomass of Phalaris by 40%.

wetland restoration

biological control

invasive species

Pedicularis lanceolata

Phalaris arundinacea

soil conditions

controlled burn

hemiparasitism

Biology

Life Sciences