ABSTRACT
The seaweeds of the Namibian coast have received little attention from researchers
despite the fact that there is a successful industry based on seaweed exploitation. Beach
cast Graci/aria verrucosa (Hudson) Papenfuss is collected (9000-15000 t (wet) y-1) in
the Luderitz area for the production of agar, Laminaria schinzii Foslie was harvested
for a short period from April 1987 to March 1989 and there is an increasing interest in
utilizing other seaweed species on the coast.
The natural beds of Graci/aria verrucosa in the Luderitz area were mapped and
biomass estimated in summer (August 1991) and winter (January1992) and beach cast
collections were analyzed to ascertain patterns. The distribution of G. verrucosa was
influenced by sediment type with most occurring on firm (constituting at least 60%
106-212 um) sediments. The largest surface area and biomass of the beds occurred in
the northern portion of the Lagoon/Bay system, where the largest biomass of beach
cast occurs. Most of the beds occur between 4-8m depth.
Beach cast follows a distinct pattern at most sites in the northern, more wave exposed
portion of the Bay/ Lagoon system, being highest in autumn/winter when swell is
generally highest. In the southern half of the Bay/Lagoon system beach cast did not
follow an annual pattern. Though the southern porti9n of the system is more wave
'
protected, strong wind driven currents operate which were recorded at 0.44 m s-1
during 40 km h-1 south winds. The northern portion of the system is deeper than· the
southern and thus most of the beds in the northern portion occur deeper than in the
southern portion. It is postulated that the deeper beds are less susceptible to wave and
wind chop action and can attain a large biomass before the plant reaches a size that the
point of attachment can no longer hold (usually during large winter swell).
Gracilaria fragments were grown on ropes to investigate various aspects of growth.
The optimal depth for growth was found to be 0.5-2.5m and the highest (specific
growth rate 11-12 % d-1) growth rate occurred in summer and extended throughout
autumn in years where high temperatures occurred in autumn. Low growth rates
occurred in winter (8 % d-1). Growth rate varied with different seeding weights; large
seeding weights had lower growth rates over 11 days, 12.1 % d-1and5.7% d-1 for
lOg and 70g seeding weights respectively. The reduction was attributed to self shading
and fragmentation of the plants. Seasonal agar yield was highest in autumn/winter and
. lowest in summer/autumn and correlated negatively with,daylength. In plants grown at
various depths the agar yield correlated negatively with growth rate.
Using growth rate (incorporating the factors that effect it) and swell as variables, the
beach cast of Gracilaria verrucosa from 1988 to 1991 was simulated using a matrix
model. The model accounted for over 57% of the variation. By using the model as an
investigative tool it was found that the timing of swell as well as its size were very
important to the total annual beach cast. Largest simulated annual beach cast occurred
during the absence of large swell and the smallest annual beach cast occurred during a
year with large autumn swell. Warm water events increased growth rate and as a result
beach cast was higher. Given the temperatures for the first few months of a year the
beach cast for that year can be predicted for a range of different swell scenarios using
the model.
Seasonal growth rate of Laminaria schinzii varied from 5-13mm d-1, the period of
highest growth was in autumn/summer and lowest in winter and growth in the more
exposed site tended to be lower. Photoperiod was hypothesized to be the most
important controlling factor. Plants in more wave exposed sites had a lower frond
surface area, narrower and thicker fronds, and longer and heavier stipes than those
growing in sheltered sites; these differences were more marked in deep water. The
attachment strength of the plants did not vary with degree of exposure indicating that a
reduction in the surface area offered to wave action was the adaptive route chosen to
cope with wave exposure. In the presence of Ecklonia maxima (Osbeck) Papenfuss the
stipes of L. schinzii tended to be shorter and to have a more solid stipe, approaching
that of L. pallida Greville ex J. Ag.
Percentage cover of Porphyra capensis Kutzing, Aeodes orbitosa (Suhr) Schmitz,
Gigartina radula (~sper) J. Ag. Gigartina stiriata (Turner) J. Ag. and other dominant
intertidal seaweeds showed a marked seasonal growth pattern with a maximum in
summer/autumn and minimum in winter. Peak cover of Aeodes and Gigartina tended
to occur later on the more sheltered shore (Halifax) and throughout the year Aeodes
was more abundant on the more sheltered shore and Gigartina was more abundant on
the more exposed shore (Grossebucht). Sea temperature and light were the most
important factors influencing the seasonal pattern of percentage cover.
Molloy, F (2021). Studies on the Ecology and Production of Seaweeds of Economic and Potential Economic Importance on the Namibian Coast.. Afribary. Retrieved from https://track.afribary.com/works/studies-on-the-ecology-and-production-of-seaweeds-of-economic-and-potential-economic-importance-on-the-namibian-coast
Molloy, Fergus "Studies on the Ecology and Production of Seaweeds of Economic and Potential Economic Importance on the Namibian Coast." Afribary. Afribary, 15 May. 2021, https://track.afribary.com/works/studies-on-the-ecology-and-production-of-seaweeds-of-economic-and-potential-economic-importance-on-the-namibian-coast. Accessed 23 Nov. 2024.
Molloy, Fergus . "Studies on the Ecology and Production of Seaweeds of Economic and Potential Economic Importance on the Namibian Coast.". Afribary, Afribary, 15 May. 2021. Web. 23 Nov. 2024. < https://track.afribary.com/works/studies-on-the-ecology-and-production-of-seaweeds-of-economic-and-potential-economic-importance-on-the-namibian-coast >.
Molloy, Fergus . "Studies on the Ecology and Production of Seaweeds of Economic and Potential Economic Importance on the Namibian Coast." Afribary (2021). Accessed November 23, 2024. https://track.afribary.com/works/studies-on-the-ecology-and-production-of-seaweeds-of-economic-and-potential-economic-importance-on-the-namibian-coast