Facilitation has been reported for a wide range of plant communities, with evidence of interactions between prot g and nurse plants shifting during their ontogenetic cycles. This study showed that large Ampelodesmos mauritanicus tussocks can act as nurse for different species, but only after fire occurrence. Large tussocks are typically composed by an external belt of living tillers surrounding dead standing tillers in the inner area, thus being arranged as a "ring" shape. A low plant diversity in unburned sites, dominated by intact Ampelodesmos tussocks, was related to the intense aboveground competition due to space physical limitation by standing tillers, as well as to the reduction of light availability at ground level. In contrast, after burning, tussocks resprouted only in their external belts, leaving empty inner areas. During post-fire recovery, several species (e.g. Plantago spp., Trifolium spp., Carlina spp.) recolonize the bare soil among different tussocks. On the other hand, a moss (Funaria hygrometrica) and several herbaceous and woody plants (e.g. Spartium junceum, Calicotome villosa, Quercus pubescens subsp. pubescens) were selectively distributed within the ash-full central areas of burned Ampelodesmos tussocks. In summary, the study reported evidence of changing prevalence in the interplay of competition and facilitation effects between small and large Ampelodesmos tussocks, respectively. These results suggest a broad significance of the interactions between fire occurrence and ontogenetic phases of the dominant species in affecting the restoration dynamics of natural plant communities.

Fire occurrence and tussock size modulate facilitation by Ampelodesmos mauritanicus

INCERTI, Guido;
2013-01-01

Abstract

Facilitation has been reported for a wide range of plant communities, with evidence of interactions between prot g and nurse plants shifting during their ontogenetic cycles. This study showed that large Ampelodesmos mauritanicus tussocks can act as nurse for different species, but only after fire occurrence. Large tussocks are typically composed by an external belt of living tillers surrounding dead standing tillers in the inner area, thus being arranged as a "ring" shape. A low plant diversity in unburned sites, dominated by intact Ampelodesmos tussocks, was related to the intense aboveground competition due to space physical limitation by standing tillers, as well as to the reduction of light availability at ground level. In contrast, after burning, tussocks resprouted only in their external belts, leaving empty inner areas. During post-fire recovery, several species (e.g. Plantago spp., Trifolium spp., Carlina spp.) recolonize the bare soil among different tussocks. On the other hand, a moss (Funaria hygrometrica) and several herbaceous and woody plants (e.g. Spartium junceum, Calicotome villosa, Quercus pubescens subsp. pubescens) were selectively distributed within the ash-full central areas of burned Ampelodesmos tussocks. In summary, the study reported evidence of changing prevalence in the interplay of competition and facilitation effects between small and large Ampelodesmos tussocks, respectively. These results suggest a broad significance of the interactions between fire occurrence and ontogenetic phases of the dominant species in affecting the restoration dynamics of natural plant communities.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11390/1104390
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