Browsing by Author "Mukundamago, Mukundi"
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- ItemRestoration of Cape Flats Sand Fynbos : the significance of pre-germination treatments and moisture regime(Stellenbosch : Stellenbosch University, 2016-03) Mukundamago, Mukundi; Esler, Karen J.; Gaertner, Mirijam; Holmes, Patricia M.; Stellenbosch University. Faculty of Agrisciences. Dept. of Conservation Ecology and EntomologyENGLISH ABSTRACT: The seed ecology of the Cape Flats Sand Fynbos (CFSF) vegetation’s species in Blaauwberg Nature Reserve, in Western Cape South Africa, was investigated within the context of a broader restoration ecology project “Blaauwberg Ecological Restoration Project”1. Cape Flats Sand Fynbos (CFSF) vegetation is considered as a critically endangered vegetation type due to agricultural development, urban transformation, and degradation caused by invasive alien Acacia species. The City of Cape Town is clearing alien plants at Blaauwberg Nature Reserve (BBNR) in an attempt to restore this remaining CFSF fragment. These efforts are associated with challenges, since alien stands have depleted indigenous soil-stored seedbanks. The premise for this seed ecology study was that restoration of degraded CFSF is possible through applied management programmes based on the methodology and practice of active restoration. Active restoration is necessary in order to establish the major indigenous plant guilds and to revive areas that have been degraded due to the effects of the alien plants. Pre-germination treatments including smoke-derived compounds have been known to promote seed germination; however, after a burn in Blaauwberg Nature Reserve, seeds sown in the field had low germination. One reason for the low germination of re-introduced indigenous species could be a lack of pre-germination treatments prior to sowing or drought thereof. The research on the implementation of seed ecology study was carried out in anticipation of three major outcomes. First, to determine pre-germination treatments that can improve germinability of seeds of selected indigenous target species to be used in large-scale restoration projects. Second, to assess the value of smoke as a germination cue for indigenous CFSF species; more specifically, it focuses on the germination of indigenous species following different smoke treatments. Lastly, to assess soil moisture as a potential limiting factor for seed germination and seedling establishment in lowland sand fynbos. In general, the research investigated the effect of desiccation on seed emergence and the survival of seedlings. Seed and soil collections were performed in Blaauwberg Nature Reserve, Western Cape, South Africa and in natural vegetation remnants along the N7 between July 2012 and January 2013. Seeds were collected, cleaned, sorted, and then stored. The main plant guilds that were selected are, Restioids, Ericoids, Proteoids, annual forbs and geophytes. Portions of seeds were set aside for different experiments (i.e. pre-germination treatments, viability test, smoke test and desiccation test). The results of the first study of viability test, germination rate, and germination period were analysed. Species showed varying responses to the different treatments with only the smoke water treatment having a consistent positive effect on seed germination for all functional groups. Only the annual, Senecio elegans, had a negative response to smoke water pre-germination treatment. A positive response was observed in Thamnochortus punctatus and Erica plumosa with the application of combination of smoke water and heat. Another positive response was noticed in Babiana villosula with the application of scarification pre-germination treatment. Additional analyses of germination period, germination lag phase and duration showed the same pattern as germinability wherein species had significant differences in germinability when there was no significant differences on germination period and vice versa. A comparison of different viability tests (i.e. x-ray, tetrazolium and cut test) indicated that the cut test is more efficient in determining viability. Nonetheless, it is recommended to collect seeds when they are naturally dispersing since cut test is not practical in the field wherein small seeds are collected. Pre-germination treatments should be applied on target species in all restoration applications to maximise germinability and establishment. The study shows that although pre-germination treatment responses are species-specific smoke water pre-germination treatment could be used for all functional groups. Other treatments can be applied for specific species. The second study showed that plant-derived smoke had the ability to enhance seed germination of a number of plant species. Plant-derived smoke enhancement was species-specific. Some species’ germination increased significantly with pre-smoked seeds only, whereas others’ germination increased significantly with pre-smoked soil only and some other species germination increased significantly with a combination of pre-smoked soil and seeds. Based on these observations, it is recommended that seeds be pre-smoked before sowing in the field, especially in the absence of a prescribed burn. The third study focused on selected Cape Flats Sand Fynbos species that were tested for desiccation tolerance of both germinants and seedlings. I ran experiments in controlled growth chambers in parallel with desiccation tolerance investigation of seedlings of the target species in a greenhouse experiment. Results showed that almost all species germinated and they were all tolerant to desiccation. The results within the scope of this study will help shed some light on and further enhance existing active practical restoration efforts in Cape Flats Sand Fynbos. In order for such efforts to be effective, it is important to use appropriate pre-germination treatments to enhance germination. More importantly, it should be noted that drought or desiccation are unlikely causes of poor germination/ establishment. It is probable that enhanced nutrient levels or a change in the soil microbial community might be the reason for a lack of germination/establishment in the field. Amidst the observations made and the conclusions arrived at, it is recommended that further research should be conducted in the greenhouse alongside a field experiment to compare germination of Acacia saligna and indigenous CFSF species. This is because in the nursery trial, you can control some of the environmental variables such as soil nutrients and moisture and be able to investigate these factors on germination under soil conditions and the field experiment will have a variety of environmental factors involved.