Abstract

This study investigated the autogenic recovery potential of native vegetation after clearing of dense stands of invasive alien trees in two critically endangered vegetation types in South Africa's Cape Floristic Region: Cape Flats Lowland Fynbos and Swartland Alluvium Fynbos. Sampling was done in areas previously occupied by the invasive tree Acacia saligna and plantations of Pinus radiata and in a fynbos reference site. Treatments varied in terms of the length of invasion and management histories.Plots previously under pines recovered well in terms of indigenous perennial species richness, but indigenous species cover decreased with increasing number of planting rotations. Areas cleared of acacia recovered poorly in terms of indigenous species cover (after one cycle of invasion), and indigenous species richness exhibited a declining trend with increasing cycles of invasion. Proteoid overstorey was lost in all previously invaded/planted plots and this element will need to be re-introduced to areas after one cycle of invasion regardless of the invasive species. Acacias changed some abiotic variables after two cycles of invasion.Follow-up clearing generally promoted better vegetation recovery in terms of overall species richness and structure but care should be taken not to damage indigenous ericoid shrubs. Overall, acacia invasion caused a greater change in biodiversity and vegetation structure than pine plantations.

Highlights

  • Invasive alien plants can transform ecosystems by changing species composition, ecosystem structure and ecosystem functioning, and by fragmenting natural areas, driving degradation and negatively impacting biodiversity (Downey and Richardson 2016 and references therein)

  • We examined the following hypotheses: (i) a greater change in biodiversity, and vegetation structure and ecosystem functioning will occur in acacia-invaded than pine plantation areas; (ii) management and invasion history, will affect the ability for autogenic recovery of cleared areas in terms of biodiversity, and vegetation structure and ecosystem functioning and (iii) changes in abiotic variables will affect biodiversity, and vegetation structure and ecosystem functioning, by influencing ecosystem-level feedbacks

  • Alien species cover was significantly lower and indigenous species cover was significantly higher in Swartland Alluvium Fynbos (SAF) than Cape Flats Sand Fynbos (CFSF)

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Summary

Introduction

Invasive alien plants can transform ecosystems by changing species composition, ecosystem structure and ecosystem functioning, and by fragmenting natural areas, driving degradation and negatively impacting biodiversity (Downey and Richardson 2016 and references therein). The removal of invasive alien species that have changed the properties of invaded ecosystems (i.e. transformer species sensu Richardson et al (2000b)) can have unexpected results (Richardson et al 2000b; Hobbs et al 2006). Transformer species often leave legacy effects, such as increased nitrogen levels in the soil (Yelenik et al 2004). These can lead to secondary invasions that capitalize on the increased soil nutrient availability left by the aliens (Loo et al 2009)

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