Lena Fischer scite author profile

Deforestation generates forest fragments within modified matrices with frequently detrimental outcomes for species persistence. In historically fragmented forests, however, species have evolved under fragmented conditions and might be more resistant to matrix modification. We examined the effect of contemporary matrix modification on forest regeneration potential in historically fragmented scarp-forest fragments in KwaZulu-Natal, South Africa. We compared tree, seedling and sapling richness, abundance and composition in four forest-fragment types varying in size and matrix modification: large and small forest fragments surrounded by indigenous grassland and small forest fragments enclosed by eucalypt and sugarcane plantations. Additionally, seedlings and saplings were classified according to their origin as local/immigrant to assess matrix permeability for seed dispersers. Trees and saplings were slightly, and seedlings were strongly affected by matrix modification: seedling richness and abundance were significantly lower in fragments with sugarcane compared to fragments with grassland matrix. Furthermore, all stage classes revealed compositional differences with more light-tolerant species occurring in fragments with modified matrices. We suggest that human activities associated with matrix modification have altered abiotic factors favouring light-tolerant species. Changes in biotic interactions seemed to be less important as immigrant recruitment occurred in all fragments implying matrix permeability. Our findings demonstrate that contemporary matrix modification might threaten forest regeneration potential in historical scarp-forest fragments. Reduced seedling recruitment might indicate a time lag in local species extinction, as trees regenerate slowly. We recommend using both recruitment stages as early warning indicators. Further, including small scarp-forest fragments into protected area networks will minimise human impact associated with matrix modification.

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Forest-fragment quality rather than matrix habitat shapes herbivory on tree recruits in South Africa

Botzat

Fischer

Farwig

2013

J. Trop. Ecol.

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Abstract:Forest fragmentation can alter herbivory on tree recruits with possible consequences for regeneration. We assessed effects of forest-fragment quality (tree diversity, vegetation complexity, relative abundance of pioneer trees) and matrix habitat on arthropods and herbivory in KwaZulu-Natal, South Africa. We compared arthropod abundances and herbivory on woody seedlings and saplings among four forest-fragment types differing in size and matrix (large fragments and small fragments surrounded by natural grassland, eucalypt and sugarcane plantations; nplots = 24) using analyses of covariance. We recorded 3385 arthropods and inspected 897 seedlings (71 species) and 876 saplings (91 species). Relative abundance of predators increased with fragment quality; that of herbivores decreased. Herbivory responses to fragment quality varied: seedling herbivory decreased with relative abundance of pioneers and sapling herbivory increased with vegetation complexity. Matrix effects were low with little variation in relative abundance of predators (0.39–0.53) and herbivores (0.22–0.32), proportion of seedling (8.3–11.0%) and sapling herbivory (12.4–14.3%) among the forest-fragment types. These findings indicate that herbivory on tree recruits is mediated by forest-fragment quality rather than matrix habitat. Future studies should evaluate whether contrasting effects of fragment quality on arthropods and herbivory are caused by weak trophic interactions and variable herbivore compositions.

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Lena Fischer

Regeneration potential in South African forest fragments: extinction debt paid off or hampered by contemporary matrix modification?

Forest-fragment quality rather than matrix habitat shapes herbivory on tree recruits in South Africa

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