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The impact of Pinus halepensis afforestation on Mediterranean spontaneous vegetation:do soil treatment and canopy cover matter? 被引量:2

The impact of Pinus halepensis afforestation on Mediterranean spontaneous vegetation:do soil treatment and canopy cover matter?
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摘要 We investigated central Mediterranean Pinus halepensis plantations under semi-arid climate in order to evaluate the combined effect of soil treatment and afforestation practices on spontaneous plant species composition, richness and evenness, and on the trend and speed of vegetation dynamics. Phytosociological releves of three different plot typologies, i.e. (1) soil-treatment and plantation, (2) only soil-treatment, (3) no soil-treatment and no plantation, were compared by (a) multivari- ate analysis and (b) with reference to species richness and evenness. Moreover, in order to compare vegetation dynamics within the planta- tions with those ones ongoing in semi-natural garrigue communities, we compared life form and syntaxonomic spectra between phytosociological relev6s taken at 8 years of distance. DCA showed that floristic species composition and similarity are influenced by the canopy cover of Pine trees as well as by soil-treatment practices. Although species richness and evenness are not clearly related to neither soil treatment nor Pine afforestation, canopy cover clearly plays a major role: in fact, the highest Ph cover rates correspond to the lowest values of understory species richness. This is true also if only species of biogeographical/conservation interest are considered. Regarding vegetation dynamics, sites with dense Pine canopy cover evolve much slower than the adjacent garrigue communities. The same factors invoqued to explain the patterns of floristic composition and similarity (i.e. allelopathy and competition for light, water and nutrients) may also explain the lowering of diversity of therophytes and the strong decline of the cover perfomed by both therophytes and hemicryptophytes underneath the canopy of dense Ph plantations. Thus, in sites where Ph cover exceeds about 80%, thinning is recommended not only in order to accelerate succession, but also to give a natural 'shape' to afforestations. We investigated central Mediterranean Pinus halepensis plantations under semi-arid climate in order to evaluate the combined effect of soil treatment and afforestation practices on spontaneous plant species composition, richness and evenness, and on the trend and speed of vegetation dynamics. Phytosociological releves of three different plot typologies, i.e. (1) soil-treatment and plantation, (2) only soil-treatment, (3) no soil-treatment and no plantation, were compared by (a) multivari- ate analysis and (b) with reference to species richness and evenness. Moreover, in order to compare vegetation dynamics within the planta- tions with those ones ongoing in semi-natural garrigue communities, we compared life form and syntaxonomic spectra between phytosociological relev6s taken at 8 years of distance. DCA showed that floristic species composition and similarity are influenced by the canopy cover of Pine trees as well as by soil-treatment practices. Although species richness and evenness are not clearly related to neither soil treatment nor Pine afforestation, canopy cover clearly plays a major role: in fact, the highest Ph cover rates correspond to the lowest values of understory species richness. This is true also if only species of biogeographical/conservation interest are considered. Regarding vegetation dynamics, sites with dense Pine canopy cover evolve much slower than the adjacent garrigue communities. The same factors invoqued to explain the patterns of floristic composition and similarity (i.e. allelopathy and competition for light, water and nutrients) may also explain the lowering of diversity of therophytes and the strong decline of the cover perfomed by both therophytes and hemicryptophytes underneath the canopy of dense Ph plantations. Thus, in sites where Ph cover exceeds about 80%, thinning is recommended not only in order to accelerate succession, but also to give a natural 'shape' to afforestations.
机构地区 Dipartimento DEMETRA
出处 《Journal of Forestry Research》 SCIE CAS CSCD 2012年第4期517-528,共12页 林业研究(英文版)
基金 funded by Regione Siciliana,Dipartimento Interventi Infrastrutturali,Area Studi e Programmazione
关键词 plant diversity UNDERSTORY vegetation dynamics PLANTATION plant diversity understory vegetation dynamics plantation
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