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Molecular analysis of genetic variation and relationships amongst abalone (Haliotis midae) at the I&J abalone hatchery at Danger Point, Gansbaai, R.S.A.Lambrechts, Daneel 12 1900 (has links)
Thesis (MSc)--Stellenbosch University, 2002. / ENGLISH ABSTRACT: The species Haliotis midae is the only abalone species of commercial importance to the
South African fisheries industry. The species is currently under substantial pressure due
to commercial harvest and illegal poaching, to the extent that genetic and biodiversity
may be under threat. The species is also being cultured in commercial systems for
supply to international markets. The South African production for 2002 amounted to
350 tons. The commercial production of abalone may also have implications with
regard to genetic diversity of natural and commercial populations.
The aim of this project was to assess the genetic diversity of the natural and commercial
populations of abalone at the I&J Abalone Farm, Danger Point, Gansbaai, in South
Africa, in order to make recommendation with regard to possible impact on natural
diversity as well as internal management systems. Distortion of natural genetic diversity
or a loss of internal diversity will have detrimental consequences.
Representative samples have been obtained from the surrounding natural population, as
well as the commercial populations, including the broodstock and various progeny
groups. Both mtDNA and AFLP molecular techniques were used to assess genetic
diversity.
Data analysis showed that the genetic profile of the commercial population display
sufficient genetic variation. The genetic structure of the commercial population also
displays no significant deviation from that of the surrounding natural population, i.e. the
population of origin. The results through give indication of a small, though
unsignificant loss of genetic variation from the broodstock to the subsequent progeny
groups.
The investigation conclude that the commercial populations of abalone at the I&J
Abalone Farm, Danger Point, Gansbaai, in its current format holds no threat to the
disruption of the genetic diversity of the surrounding natural population. Further, the
commercial population possesses sufficient genetic variation in view of future genetic
development. There is signs of a slight loss of genetic variation in the change over from
the broodstock to the progeny groups. This would necessitate careful and controlled
replacement of the original broodstock with new animals from the commercial progeny
groups as part of an ongoing process of domestication. / AFRIKAANSE OPSOMMING: Die spesie Haliotis midae is die enigste perlemoen spesie van kommersiële belang vir
Suid Afrikaanse visserye. Die spesie verkeer tans onder toenemende druk as gevolg van
kommersiële en onwettige vangste, tot so 'n mate dat genetiese en biodiversiteit
daardeur geaffekteer kan word. Die spesie word in toenemende mate kunsmatig
gekweek vir voorsiening aan internasionale markte. Suid Afrikaanse produksie vir 2002
beloop reeds sowat 350 ton per jaar. Die kunsmatige produksie van perlemoen het ook
moontlike implikasies op die genetiese diversiteit van natuurlike en kommersiële
populasies van die perlemoen, Haliotis midae.
Die doel van die projek was om die aard van genetiese diversiteit van die natuurlike en
kommersiële populasies van perlemoen by die I&J Perlemoen Plaas, Danger Point,
Gansbaai in Suid Afrika te ondersoek, ten einde aanbevelings te maak ten opsigte van
moontlike impak op natuurlike diversiteit asook ten opsigte van interne genetiese
bestuurstelsels. Versteuring van natuurlike diversiteit of verlies van interne diversiteit
hou nadelige gevolge in.
Verteenwoordigende monsters is versamel vanuit die omliggende natuurlike populasies,
sowel as van die kommersiële populasie op die plaas, insluitend die teelmateriaal en
verskillende nageslaggroepe. Beide mtDNA en AFLP-molekulêre tegnieke is gebruik
tydens die ontleding van genetiese diversiteit.
Dataontleding het aangetoon dat die genetiese profiel van die kommersiële populasie
voldoende genetiese variasie demonstreer. Die genetiese struktuur van die kommersiële
populasie toon verder geen betekenisvolle verskil met die omliggende natuurlike
populasie nie, dit wil sê met die populasie van oorsprong nie. Die resultate toon verder
'n geringe, dog nie betekenisvolle verlies van genetiese variasie wat waargeneem word
met oorgang van die teelmateriaal na die onderskeie nageslaggroepe.
Die bevindinge van die ondersoek is dus dat die kommersiële populasie op die I&J
Perlemoen Plaas, Danger Point, Gansbaai, in die huidige formaat, geen bedreiging
inhou vir die versteuring van die omliggende natuurlike genetiese diversiteit nie.
Verdere bevindinge is dat die kommersiële populasie oor voldoende genetiese
diversiteit beskik met die oog op toekomstige genetiese ontwikkeling. Daar is tekens
van 'n geringe afname in genetiese diversiteit met die oorgang vanaf die teelmateriaal
na die nageslaggroepe. Dit beklemtoon die belang van 'n gekontroleerde vervanging
van die oorspronklike teelmateriaal met nuwe teeldiere vanuit die kommersiële
populasie as deel van die domestikasieproses.
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Towards understanding the effects of stocking density on farmed South African abalone, Haliotis Midae / Towards understanding stocking density of farmed South African abalone Haliotis midaeNicholson, Gareth Hurst January 2014 (has links)
The profitability of abalone farms is heavily influenced by their production per unit of grow-out space. With farms having physically expanded to the maximum, and with increasing production costs, one of the most realistic ways for farms to increase their production is through optimizing stocking densities. The effect of stocking density on Haliotis midae performance is undocumented and optimal stocking densities for this species have not been determined. Experiments were conducted under farm conditions to investigate the effects of four different stocking densities (16 %, 20 %, 22 % and 24 % of available surface area) on growth, production and health of three different size classes of abalone (15-35 g, 45-65 g, and 70-90 g start weight). Each treatment was replicated four times and trials ran over a period of eight months with measurements being made at four month intervals. Abalone behaviour was observed during the trials in the experimental tanks. Weight gain per abalone decreased with an increase in density for all tested size classes (5.04 ± 0.18 to 2.38 ± 0.17; 5.35 ± 0.21 to 4.62 ± 0.29; 7.97 ± 0.37 to 6.53 ± 0.28 g.abalone-1.month-1 for the 15-35, 45-65 and 70-90 g classes respectively, with an increased density of 16 to 24 %). Individual weight gain of 15-35 g abalone was similar at stocking densities of 16 % and 20 % while weight gain of 45-65 g and 70-90 g abalone decreased when density was increased above 16 %. Biomass gain (kg.basket-1.month-1) was not affected by stocking density in the 15-35 g and 45-65 g size classes (1.29 ± 0.02 and 0.97 ± 0.02 kg.basket-1.month-1 respectively). However, the biomass gained by baskets stocked with 70-90 g abalone increased with stocking density (1.08 ± 0.02 to 1.33 ± 0.02 kg.basket-1.month-1) with an increased density of 16 to 24 %) and did not appear to plateau within the tested density range (16 to 24 %). Food conversion ratio did not differ significantly between densities across all size classes. Stocking density did not have a significant effect on abalone condition factor or health indices. The proportion of abalone above the level of the feeder plate increased with density (7.26 ± 1.33 to 16.44 ± 1.33 with an increased density of 16 to 24 %). As a proportion of abalone situated in the area of the basket, the same proportions were situated on the walls above the feeder plate and on the feeder plate itself irrespective of stocking density (p > 0.05). Higher proportions of animals had restricted access to feed at higher stocking densities (p = 0.03). The amount of formulated feed available on the feeder plate did not differ between stocking densities throughout the night (p = 0.19). Individual abalone spent more time above the feeder plate at higher stocking densities (p < 0.05). The percentage of time above the feeder plate, spent on the walls of the basket and on the feeding surface was not significantly different at densities of 20 %, 22 % and 24 % (p > 0.05) but abalone stocked at 16 % spent a greater percentage of time above the feeder plate on the feeding surface (83.99 ± 6.26 %) than on the basket walls (16.01 ± 6.26 %). Stocking density did not affect the positioning of abalone within a basket during the day or at night. Different size H. midae are affected differently by increases in stocking density in terms of growth performance. Findings from this research may be implemented into farm management strategies to best suit production goals, whether in terms of biomass production or individual weight gain. The fundamental mechanisms resulting in reduced growth at higher densities are not well understood, however results from behaviour observations suggest that competition for preferred attachment space and feed availability are contributing to decreased growth rates. With knowledge of abalone behaviour at different densities, innovative tank designs may be established in order to counter the reduction in growth at higher densities.
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Abalone poaching in the East london area, Eastern Cape Province, South AfricaNini, Nobuhle Aurelia January 2013 (has links)
Abalone poaching is a major problem in South Africa. The South African abalone, Haliotis midae, rates as an extreme example of high levels of illegal harvesting. The research aimed at examining the role of the different role players in preventing poaching of the species in the East London area of the Eastern Cape Province of South Africa and determining the challenges the officers faced as there was an increase in poaching in the area. To achieve this aim, the research techniques including questionnaires, interviews and focus groups were used. Fisheries compliance and enforcement faces challenges of the illegal harvesting of abalone since 1994. In the past 18 years (1994-2012), and more specifically in the past nine years (2004-2012), poaching of abalone has increased at an alarming rate along the East London coastline. The failure of the state to issue fishing rights and conduct effective sea-based compliance, combined with the incentives to fish abalone created the conditions for rapid emergence of illegal harvesting. The uncontrolled fishing had a dramatic effect on the stock, and the average size of abalone decreased significantly. The Eastern Cape Province abalone cultivation industries were developed due to the decline in harvesting of abalone. Government departments such as the Department of Agriculture, Forestry and Fisheries; the Department of Economic Development, Environmental Affairs and Tourism; the South African Police Services together with the Eastern Cape Parks and Tourism Agency have conducted joint operations to combat the illegal harvesting of abalone. These operations have led to many arrests of abalone poachers along the East London coastline. The quantity of confiscated abalone has increased from 2007 to 2011. The positive results achieved by the departments during joint operations showcase robust efforts to eradicate the environmental transgression in the East London Coastline. Joint operations are encouraged by all the departments to save the species for future generations. Workshops involving different stakeholders had to take place and the policies in place must have a bottom-up approach where communities are involved.
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