Grazing impacts on plant community composition and on the environment are remarkable and the subject of intensive research in conservation and agricultural sciences.  Changes in rabbit grazing pressure have affected significantly Silwood Park vegetation; from the rapid formation of oak woodlands when rabbits almost disappeared due to the introduction of a viral disease in the 1950's, to the maintenance of open grassland habitats and extinction of plant species when the virus died out and rabbits returned to high population levels 20 years later.

Silwood Park host an experiment in the species-poor grassland of Nash's Field that investigates how grazing by the European rabbit (Oryctolagus cuniculus) affects plant recruitment under different levels of competition. Since September 1986, six plots are established in three areas of distinct initial vegetation and presumably different levels of rabbit grazing pressure.  Half of each plot is fenced to exclude rabbits and an area that includes fenced and unfenced parts of the plot is assigned for annual cultivation, providing a low competition treatment. A related experiment established in 1991 at Nash's field (plots K-S) investigates the effect of nutrient addition and herbivore removal on grassland diversity and productivity. 

This experiment was created by Professor Mick CrawleySince 1986 it has been supported by the Department of Life Sciences at Imperial College London and more recently by NERC grants to Dr. Thomas Bell



Nash's A-F google map

Detail information Nash's plots A-F

Experimental design

Nash's field disturbance experiments contain six 20 x 20 plots each one enclosing four 10 x 10 m subplots with a 2-factorial experiment:  +/- rabbit fencing and +/- soil cultivation.  Plots were laid out as pairs in three areas with initial distinctive vegetation and evidence of rabbit presence. Plots A and B, set in an area dominated by Anthoxanthum odoratum (sweet vernal grass), are close to a birch woodland that serve as refuge for rabbits. Plots C and D, to the east, are further away to this refuge area and thus expected to suffer lower grazing. These plots are located on a part of the grassland originally dominated by the grasses Agrostis capillaris (common bent) and Fetusca rubra (red fescue). Finally, plots E and F were set close to another potential refuge space for rabbits in an overgrown broom (Cytisus scoparius) patch and in an area dominated by Veronica chamaedrys  (germander speedwell).

In each plot a 20 x 10 m area is protected from rabbit grazing by a fence constructed of 1-cm wire mesh buried 5 cm deep, with the bottom 15 cm of wire turned outwards. The adjacent 20 x 10 m is left unfenced.  Half of the fenced and unfenced area is left unmanipulated and thus receive the high competition treatment.  The other half is cultivated annually between August and October receiving the low competition treatment.  Cultivation consists of cutting and removing the vegetation and then rotovating the ground to smooth soil.

Before the start of the experiment in September 1986, plots assigned for the low competition treatment (cultivated) were treated with herbicide, ploughed, rotavated and raked to eliminate perennial grasses. These procedures failed to eliminate some perennial species like Holcus mollis and Rumex acetosella from these plots


Data of plant species composition and biomass is available for each plot.

Find here the metadata file for this experiment (103KB)


Crawley MJ  (1990) Rabbit grazing, plant competition and seedling recruitment in acid grasslandJournal of Applied Ecology 27: 803–820.  

Crawley MJ. 1995. Alternate bearing, predator satiation and seedling recruitment in Quercus Robur L . Journal of Ecology 83: 683–696. 

Del-Val E, Crawley MJ  (2004) Importance of tolerance to herbivory for plant survival in a British grasslandJournal of Vegetation Science 15: 357–364. 

Del-Val E, Crawley MJ  (2005). Are grazing increaser species better tolerators than decreasers? An experimental assessment of defoliation tolerance in eight British grassland speciesJournal of Ecology 93: 1005–1016. 

Crawley MJ (2005). Silwood Park and its history. In: Crawley MJ, ed. The Flora of Berkshire. Harpenden, Hertfordshire, UK: Brambleby Books, 215–253.

Nash's Field plot A

Cultivated (left) and no cultivated (right) 10 x 10 m sub-plots in the unfenced (front) and fenced (back) section of Plot A, March 2016

Plot D March 2016

Cultivated (right) and no cultivated (left) 10 x 10 m subplots in the unfenced (front) and fenced (back) section of plot D, March 2016