1989a, b), suggesting an influence of learning in patch selection

1989a, b), suggesting an influence of learning in patch selection (Dumont 1997). Besides a spatial and qualitative dimension of selective grazing, there is also a temporal dimension that influences the structure of the sward and helps to establish

a mosaic of more or less frequently defoliated patches. Thus, the previous meal an animal had seems to have an influence on the preference for the next one (Dumont 1997; Mote et al. 2008). From experiments on extensive grazing it was AZD5582 mw concluded that there was a strong diurnal pattern of selectivity: Dumont et al. (2007) found a marked preference of cattle for short, highly digestible bites in the morning and an increased consumption of bite types requiring a greater rumination effort during the second half of the day. Bites of short mixed vegetation consisting of grasses and herbs were generally grazed preferentially, ON-01910 molecular weight regardless of the offer and time of day (Dumont et al. 2007). Plant species on a pasture usually exhibit two defence strategies: resistance to (avoidance) and tolerance of herbivory (Briske 1996). Resistance

refers to the Mocetinostat ability of a plant to reduce the amount of damage. This means reducing the probability and intensity of defoliation by morphological traits like thick hair, sharp leaf blades (silica) and chemical defences. This group is classified as facultative weeds and weed grasses if they are potentially edible (Opitz von Boberfeld 1994). Among these are Holcus lanatus, Deschampsia caespitosa and Ranunculus repens. Also unwanted poisonous and non-edible plants like Equisetum palustre, Cirsium palustre or Juncus effusus show this defence mechanism and may compete successfully for space and nutrients if no agronomic measures are taken (Moretto and Distel 1997, 1999). Tolerance is the ability of a plant to react to defoliation

by rapid regrowth and recovery without a reduction in fitness. In this Anacetrapib case, growing points for regeneration are located below the grazing level at the shoot basis or along stolons and storage roots may contribute to survival after intense defoliation (Herben and Huber-Sannwald 2002). Disturbances by the grazer can shift the competition conditions among plants, as varying defoliation frequencies lead to different optima in adaptation to grazing. Generally, intensive grazing will induce the formation of a dense, well-tillered sward (Frame 1992; Matthew et al. 2000; Nelson 2000). As a result, the vegetation composition usually differs between tall and short sward areas (e.g. Correll et al. 2003) and indicator species for the extremes in grazing, i.e. selective undergrazing and selective overgrazing, can be determined (Opitz von Boberfeld 1994). Treading The treading of grazing animals can have two effects: it may cause compaction of the topsoil and it can create open gaps without vegetation cover. According to Jacob (1987), the tread of a cattle of 600 kg causes a pressure of 4–5 kg cm−2 on the topsoil.

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