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Investigating the most favourable seed establishment methods for restoring sand plain fynbos on old fields

Thesis submitted in fulfilment of the requirements for the degree
Master of Technology: Horticulture
in the Faculty of Applied Sciences
at the Cape Peninsula University of Technology, 2013 / Cape Flats Sand Fynbos (CFSF) is one of the most poorly conserved vegetation types in
the Cape Floral Kingdom, and a large proportion of unconserved land is degraded,
primarily as a result of transformation by agricultural, urban developments and invasion by
alien plants. Fynbos restoration is one of the most important management interventions,
both within the current conservation areas and in any future land remnants acquired for
conservation. Many extant remnants are fragmented and isolated, and if successful
restoration protocols are found, it may be possible to improve the conservation targets for
this critically endangered vegetation type. On old fields, where indigenous soil seed banks
have been lost due to alien plant invasion and anthropogenic action, it is essential to reintroduce
the longer-lived fynbos components that contribute to vegetation structure, in
order to facilitate the progress of the ecosystem on a more natural trajectory.
This research is built on an earlier study of optimal ground-preparation treatments for
restoring Sand Fynbos to old fields. This former study indicated that fossorial mammals
(molerats and gerbils) may occur in dense colonies on old fields and present an obstacle
to successful seedling establishment. The project aims to provide protocols for the
establishment of indigenous seedlings from harvested seed onto old fields, in order to
restore Sand Fynbos vegetation. Different pre-sowing treatments and sowing techniques
were tested on large field plots to determine the most efficient protocol. The objectives of
the research were: a) to investigate optimal pre-sowing treatments of indigenous seed for
restoring degraded Sand Fynbos vegetation in old field sites; b) to investigate optimal
sowing techniques on large field plots for restoring degraded Sand Fynbos vegetation in
old field sites with depleted indigenous seed banks; c) to provide guidelines and
disseminate information on optimal sowing protocols, and their costs, for restoring Sand
Fynbos vegetation in degraded areas and old fields. A further component of the research
was to calculate the costs of all treatments on a per hectare basis in order to assess the
cost-effectiveness of the different options.
Several different seed treatments may potentially increase the germination rate and
promote fynbos restoration. These are scarifying, smoke, smoke water, chemical, light and
temperature pre-sowing treatments. In order to keep the number of treatments (including
their interactions) to a manageable level, only soaking in smoke water extract and seed
coat scarification with course sand and grit were tested. A seed sample of each species
was x-rayed at the Millennium Seed Bank in the United Kingdom, to test for viability in the
seed samples, 52 % of the seed collected were empty, a typical indication of wild
harvested seed. All species were germinated at 10/25 °C and 16/8 hours light/dark
respectively. Scarification had a larger overall germination success, smoke water had very
little effect on CFSF species, it is rather that germination is related to temperatures during
a fire that result in seed coat splitting. It was recommended that further investigation using
more species across the Sand Fynbos vegetation be conducted on pre-germination
effects of heat and scarification.
The study site had been cleared of woody invasive alien vegetation and additional site
preparation included the application of a systemic herbicide to kill undesirable herbaceous
weeds, prescribed fire to clear the site of woody debris and destroy weed seeds, and the
local control of fossorial mammals (gerbils and molerats) by placing raptor perches and
owl nesting boxes around the site. This research found that the use of herbicide shortly
after the prescribed fire and once again prior to sowing was successful in controlling
herbaceous weeds and the indigenous grass Cynodon dactylon. The challenge to using
prescribed burning on old fields was low fuel loads, which resulted in a cool patchy. It is
suggested that cutting and spreading of alien plant biomass is tested as a solution,
however, the material must be evenly spread across the site and not stacked into piles
which can cause excessively hot fires and scorching of the soil. In order to better
understand soil conditions across the site, soil samples were collected prior to sowing, to
analyse for soil macronutrients, organic matter and pH. It was established that all the
excess nutrients added to the site from agriculture and pasturage over the years had
leached from the soil. However, the organic matter content of the soil was extremely low
and research needs to be done on the organic carbon content of the soils, how these
relate to soil micro biota (which species are present and their relationship with CFSF
species) and how best to enrich the site with humic matter for restoration and
establishment of Cape Flats Sand Fynbos. The field trial was set up in the Blaauwberg
Nature Reserve, a random split-plot block design, was replicated five times and used to
investigate the selected seedbed preparation and sowing techniques, namely: broadcast
sowing onto unprepared seedbed, broadcast with plank embedding of seed onto disked
seedbed, broadcast onto disked seedbed and hydro-seed with disked seedbed. Results
from the research found that the most successful methods for sowing seeds were the
hydro-seeding and broadcast with plank embed. These methods may have provided
better contact between the soil and seeds and better protection from predation and wind.
Economically the broadcast and embed was better as machinery was more efficient and
effective than manual labour. This study recommended that these two methods be
combined with the additional planting of rare and threatened species in clumps to
determine the benefits and interactions of each technique over the long term.

Identiferoai:union.ndltd.org:netd.ac.za/oai:union.ndltd.org:cput/oai:localhost:20.500.11838/840
Date January 2013
CreatorsCowell, Carly Ruth
ContributorsNdakademi, P Professor
PublisherCape Peninsula University of Technology
Source SetsSouth African National ETD Portal
LanguageEnglish
Detected LanguageEnglish
TypeThesis
Rightshttp://creativecommons.org/licenses/by-nc-sa/3.0/za/

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