This study investigates the effects of forest fragmentation and matrix type on the diversity
and distribution of epigaeic invertebrates in selected Afromontane forests of the KwaZulu-Natal
midlands. The consequences of area reduction and matrix transformation, due to commercial
forestry, for epigaeic invertebrate diversity, and the role of small forest fragments in their
conservation, are particularly examined. Data are used to provide guidelines for the
management and conservation of Afromontane forest and adjacent land use.
Epigaeic invertebrates were sampled using pitfall-trapping quadrats set along gradsect
lines in eleven Afromontane mistbelt mixed Podocarpus forests, five of which were surrounded
by commercial pine, and five surrounded by the natural grassland matrix. The two sets of five
forests were approximately matched in pairs by area (0.5ha to 215ha) and compared for
differences in the epigaeic invertebrate communities to determine potential effects of
fragmentation and landscape transformation on these communities. A large tract of forest
(Leopards Bush Private Nature Reserve, 705ha, hereafter Leopards Bush) situated within the
continuous Karkloof forest, served as the control. Trapping intensity increased with forest area.
Invertebrates were identified to morphospecies, and where possible, further identification was carried out by specialists.
A total of 61 282 epigaeic invertebrates, representing 168 morphospecies, were
collected. There was a significant positive species-area effect evident in the Balgowan complex
(grassland matrix), but not in the Gilboa complex (pine matrix). There was thus a confounding
influence of the pine matrix in the Gilboa, since the matrix represented the single most important
difference between the two forest complexes. In afforested landscapes it is thus crucial to
conserve the largest intact forest fragments to preserve overall epigaeic invertebrate species richness. Density compensation was evident in the Balgowan complex but not in the Gilboa
complex. Recolonisation dynamics may play a small role in the regional persistence of a
species within forest in a pine matrix, and persistence would be ensured by the preservation of
a small number of large forest fragments containing large, extinction-resistant populations. The
establishment of ecologically functional grassland corridors (i.e. wide enough to maintain
"natural" ecological processes) between mistbelt mixed Podocarpus forest fragments would
facilitate dispersal of epigaeic invertebrates between forest fragments.
The results of this study indicated that edge effects were experienced deeper in the
forests than the expected 32m suggested by Kotze and Samways (1999) and thus any changes
to the epigaeic invertebrate communities induced by edge effects had already taken place inthese forests.
Cluster analyses revealed that twenty-two percent (n = 37) of invertebrate species
recorded were common to all forests and these shared species were generalist feeders. The
effect of matrix type on diversity of epigaeic invertebrate communities was most notable for
large forests (i.e. over 30 ha). Large fragments with core areas unaffected by edge-induced
disturbance would support more forest dependent species than small fragments due to a lower
susceptibility to invasions. Although not significantly nested, epigaeic invertebrate communities in both forest
complexes tended toward nestedness. Isolation of forest fragments appeared to play a lesser
role than patch area in determining the invertebrate community composition. Assuming that
communities are extinction-dominated, community convergence in small fragments has
probably already occurred, with invasions from the matrix confounding patterns of deterministic
extinction of forest-dependent epigaeic invertebrate species.
A habitat disturbance gradient was evident from the relatively undisturbed control
(Karkloof quadrats) to the more disturbed pine dominated Gilboa quadrats, with intermediate
disturbance values for the Balgowan (natural grassland matrix) fragments. The undisturbed
Karkloof forest was characterised by a deep, abundant leaf litter layer, dense sub-canopy, and
an abundance of seedlings indicating high rates of natural regeneration. Leaf litter depth was
the most important variable in explaining the variation of epigaeic invertebrate species. A
"shopping basket" of eight selected ecological indicators are mostly unrelated species. In
general, this study supports the wealth of evidence advocating the use of epigaeic
invertebrates, especially Carabid and Staphylinid beetles, as ecological indicators. In this study,
eight species were identified by canonical correspondence analysis as ecological indicators that were sensitive to forest disturbance. This suite of species in the mistbelt mixed Podocarpus forests of the KwaZulu-Natal midlands will provide an accurate indication of forest condition in summer when abundance data is used. / Thesis (M.Sc.)-University of Natal, Pietermaritzburg, 2001.
| Identifer | oai:union.ndltd.org:netd.ac.za/oai:union.ndltd.org:ukzn/oai:http://researchspace.ukzn.ac.za:10413/10220 |
| Date | 13 December 2013 |
| Creators | Bourquin, Sven. |
| Contributors | Lawes, Michael J. |
| Source Sets | South African National ETD Portal |
| Language | en_ZA |
| Detected Language | English |
| Type | Thesis |
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