Spelling suggestions: "subject:"abalones. browth"" "subject:"abalones. bgrowth""
1 |
Growth of juvenile abalone under aquaculture conditionsDlaza, Thembinkozi Steven January 2006 (has links)
The aim of this research was, first to test the suitability of different seaweeds and formulated feeds as food for post-weaning juvenile South African abalone and secondly, to test the effects of basket design on the growth of grow-out juvenile abalone in both flow-through and re-circulation systems.
|
2 |
Growth of juvenile abalone under aquaculture conditionsDlaza, Thembinkozi Steven January 2006 (has links)
The aim of this research was, first to test the suitability of different seaweeds and formulated feeds as food for post-weaning juvenile South African abalone and secondly, to test the effects of basket design on the growth of grow-out juvenile abalone in both flow-through and re-circulation systems.
|
3 |
Population structure, growth and recruitment of two exploited infralittoral molluscs (Haliotis midae and Turbo sarmaticus) along the south east coast, South AfricaProudfoot, Lee-Anne January 2007 (has links)
The two most frequently exploited species along the south east coast of South Africa are the gastropods, Haliotis midae (abalone) and Turbo sarmaticus (alikreukel). H. midae is a high valued commercial species, and suffers intense levels of illegal fishing. T. sarmaticus however, has no commercial value but is the preferred food item for impoverished subsistence communities. Owing to the fact that no legal commercial fishery exists for either species along the south coast, very few studies have been undertaken, especially in the heavily exploited infralittoral. Infralittoral size frequency distributions for both species revealed significant variation in density and size among sites of varying exploitation pressure. Densities ranged between 0 – 2.23 m⁻² (H. midae) and 0.03 – 4.93 m⁻² (T. sarmaticus) and maximum shell lengths ranged from 49.4 – 153.5 mm (H. midae) and 28.3 – 104.4 mm (T. sarmaticus). Relatively high densities and large sizes were found in marine reserves and secluded areas, and low densities and small sizes at sites near to large population centres and within the former Ciskei homeland region. Mean size of the largest 10% of the population, total density and sexually mature density were significantly related to exploitation predictors for both species. In addition, densities of H. midae juveniles were significantly related to exploitation predictors, suggesting that recruitment may be suppressed at the most exploited sites. Exploitation of T. sarmaticus tended to be localized with refuge and subtidal populations persisting. H. midae exploitation was however, far more extensive and intense. Growth of H. midae was investigated using three methods; mark-recapture, cohort analysis and growth banding analysis at Kowie Rocks, Port Alfred. The most useful of these methods for determining growth was a new technique described for growth banding analysis; which was validated using cohort analysis and measurements of shells of known age. This technique was less time consuming and labour intensive than previously described methods. Abalone growth was best described by the Schnute (1981) growth function. Systematic geographic variation in growth was observed for 10 sites along the South African coastline. Significant differences in growth among sites existed for animals between 0-4 years (P < 0.0001) and 4-6 years (P < 0.0001), and in the mean maximum sizes attained (P < 0.001). In general, abalone from the south east/east coast were found to have faster growth rates, smaller mean maximum sizes and attained sexual maturity earlier than those along the south west/ west coast. Haliotis midae recruit and juvenile densities were found to differ significantly among sites of varying exploitation pressure (P < 0.0001) and among months for recruit densities (P < 0.001). Exploited sites had low recruit and juvenile densities compared to unexploited sites and peak recruitment occurred during October/ November 2005. Recruit densities were significantly related to infralittoral adult densities during two of the three sampling months (P<0.05), when recruitment was low. No relationship was observed during the period of high recruitment, with all sites receiving high recruit densities. It was concluded that variation in recruit densities was the result of a combination of both density-dependent relationships (i.e. local spawner density and temporal variability in recruitment intensity) and the possible dispersal capabilities of H. midae. In addition, it was concluded that at present recruitment overfishing was not occurring along the south east coast. Post-recruitment mortality rates were variable but relatively constant, with hypothetical percentage survival and density curves revealing high rates and similar mortality curves among sites. Variation in juvenile densities was consequently a result of initial recruit densities and not variation in post-recruitment mortality. T. sarmaticus populations were found to be regionally sustainable and persisted along the south east coast due to adjacent intertidal and subtidal refuge populations. However, H. midae populations are becoming decimated along the south east coast. From the information obtained in this study new management proposals were suggested and discussed, such as closed areas and region-based management fisheries together with stock enhancement. These suggestions may prove to be feasible alternatives to present management strategies.
|
4 |
Water quality, abalone growth and the potential for integrated mariculture on a South African abalone Haliotis midae L. farmYearsley, Rowan David January 2008 (has links)
Abalone Haliotis midae farming in South Africa is highly intensive, employing pump-ashore, flow-through systems. Despite the known sensitivity of abalone to water quality, there is only a rudimentary understanding of water quality dynamics on South African abalone farms and its effects on abalone production. Furthermore, the potential for reusing the relatively dilute abalone farm effluent to culture other animal species has not been investigated. This study investigated the dynamics of water quality and growth on a South African abalone farm and assessed the suitability of the effluent for the culture of silver kob Argyrosomus inodorus and bloodworm Arenicola loveni loveni. Monitoring of water quality and abalone growth in abalone tanks revealed that oxygen concentrations decreased, while H⁺ ion and free-ammonia (NH₃) concentration increased in a gradient between the inflow and outflow. Abalone growth was positively correlated with oxygen concentration and negatively correlated with free-ammonia and H⁺ ion concentration. The oxygen (O) concentration of the farm influent was dependent upon the influents’ temperature (T) and was described by the relationship O (mg L⁻¹) = 11.244 – 0.208T (r²=0.74). Linear regression analysis of data collected from abalone farm tanks revealed that the concentration of total ammonia at the outflow of abalone tanks (μg TAN L⁻¹) was dependant upon temperature (°C), flow-rate (L s⁻¹ kg⁻¹ H. midae), abalone size (g) and length of time since the tank was last cleaned (d) (n = 125, r² = 0.80). The production of total ammonia (μg TAN s⁻¹ kg⁻¹) was related to temperature, abalone size and days that the tanks remained un-cleaned (n = 125; r² = 0.81). A diurnal cycle of respiration was evident in abalone tanks with higher oxygen consumption and H+ ion production at night. The oxygen concentration of farm effluent was related to temperature, farm biomass and flow rate by means of a linear regression equation (n = 40; r² = 0.69). The results demonstrated the importance of optimising the flow-rate per unit of biomass for various temperatures and sizes of abalone. As abalone size and temperature cannot be controlled under farm conditions, the flow-rate per unit of biomass which the abalone culture system receives will determine the quality of the culture water. The specific growth rate (0.48 ± 0.01 % BW d⁻¹), mortality (1.8 ± 0.5 %), feed conversion ratio (3.0 ± 0.2) and protein efficiency ratio (1.0 ± 0.1) of silver kob kept in either abalone farm effluent or control seawater for 120 days did not differ significantly (t-test, P>0.05). A 90 day growth trial indicated that abalone farm effluent is a suitable culture medium for bloodworm. Bloodworm supplied with control seawater lost weight at 0.19 ± 0.04 % BW d-1, while those given abalone effluent grew at 0.39 ± 0.07 % BW d⁻¹. Mortality was 6 ± 3 % in effluent and 11 ± 8 % in seawater. The bloodworm were efficient at processing solid waste. Abalone farm effluent initially contained 7.7 ± 13 mg L⁻¹ more suspended solids than control seawater, which contained 3.5 ± 0.5 mg L⁻¹, but after passing through bloodworm systems the concentration in abalone effluent was reduced to only 1.4 ± 3.5 mg L⁻¹ above that in control seawater. Therefore, abalone farm effluent could be reused as a culture medium for both silver kob and bloodworm. Future work is needed to investigate aspects of the feasibility of such systems such as growth rates at different sizes and stocking densities.
|
5 |
Induction of triploidy in the South African abalone, Haliotis midae, by the use of hydrostatic pressureDe Beer, Mathilde 12 1900 (has links)
Thesis (MSc)--University of Stellenbosch, 2004. / ENGLISH ABSTRACT: The indigenous abalone, Haliotis midae has been a successfully cultured aquaculture
species in South Africa since 1990. It has a slow growth rate and takes from two to five
years to reach market size. Like for most other commercially important abalone species,
the slow growth rate of H. midae is a cause of concern with regard to the profitability of
farming and global competitiveness of the species.
Ploidy manipulation of the maternal genome, a universally growing practice in shellfish
culture, is considered a promising method to improve the growth rate of abalone - a
desirable trait in aquaculture organisms from a commercial perspective. This
manipulation technique is employed to achieve sterility, which results in limited gonad
development. The consequent re-allocation of resources to somatic growth results in
improved growth.
The purpose of this study was to establish a viable method for the induction and
validation of triploidy, on a commercial scale, in the South African abalone, H. midae. The
focus was on hydrostatic pressure as a method of induction and flow cytometry as the
method of validation.
The results obtained confirm hydrostatic pressure as an effective method for the
induction of triploidy in H. midae, delivering high percentages of triploidy (>80%) over a
wide range of pressures and times, in 48 hour-old larvae. Hydrostatic pressure had a
negative effect on survival in 20 hour-old larvae. Flow cytometry was validated as a
reliable, fast and accurate, though expensive, method for identification of triploidy in
H. midae.
As an outcome of this study a manual of “Procedures for the Induction and Validation
of Triploidy in the abalone” is presented (Appendix 1) together with recommendations for
further studies on triploidy in the South African abalone, H. midae. / AFRIKAANSE OPSOMMING: Die inheemse perlemoen, Haliotis midae, is sedert 1990 ‘n suksesvol gekweekte
akwakultuur spesie in Suid-Afrika. ‘n Kenmerk van die spesie is die stadige groeitempo
van tussen twee en vyf jaar ten einde bemarkbare grootte te bereik. Soos vir die
meerderheid perlemoen van kommersiële belang, is hierdie stadige groeitempo rede tot
kommer met betrekking tot die winsgewende kweek en wêreldwye mededingendheid van
die spesie.
Die manipulasie van ploïdie van die moederlike genoom is ‘n toenemende praktyk in
skulpvisboerdery en word gereken as ‘n belowende metode om die groeitempo van
perlemoen te verbeter. Hierdie manipulasietegniek word gebruik om steriliteit te verkry
wat manifesteer as onderdrukte ontwikkeling van die geslagsklier. Die gevolg is die
herkanalisering van bronne na somatiese groei.
Die doel van hierdie studie was om ‘n lewensvatbare metode vir die induksie van
triploïdie op ‘n kommersiële skaal in die Suid-Afrikaanse perlemoen, H. midae, te vestig.
Daar is op hidrostatiese druk as metode vir die induksie en vloei-sitometrie as metode vir
die geldigverklaring van triploïdie gefokus.
Die resultate van hierdie studie bevestig dat hidrostatiese druk ‘n effektiewe metode
vir die induksie van triploïdie in H. midae is. Hoë persentasies van triploïdie (>80%) is oor
‘n wye reeks van drukke en tye in 48 uur oue larwes verkry. Daar is gevind dat
hidrostatiese drukbehandeling ‘n negatiewe effek op die oorlewing van 20 uur oue larwes
het. Vloei-sitometrie is bevestig as ‘n betroubare, vinnig en akkurate, maar duur metode
vir die identifikasie van triploïdie in H. midae.
As ‘n uitvloeisel van die studie word ‘n handleiding “Procedures for the Induction and
Validation of Triploidy in the abalone” (Appendix 1) aangebied tesame met aanbevelings
vir verdere studies rakende triploïdie in die Suid-Afrikaanse perlemoen, H. midae.
|
6 |
Microsatellite genotyping of contributing broodstock and selected offspring of Haliotis midae submitted to a growth performance recording schemeRuivo, Nicola Ribeiro 12 1900 (has links)
Thesis (MSc)--University of Stellenbosch, 2007. / ENGLISH ABSTRACT: The indigenous abalone Haliotis midae is one of the most remarkable and highly exploited species
of marine molluscs in South Africa. It is the only species of southern African Haliotidae to be
commercially reared and has been successfully cultured for almost two decades. Its short history of
domestication along with market demands and the need to develop efficiency in the production
process has resulted in an increased interest in the possible genetic improvement of this species.
The unhurried growth rate associated with H. midae is a cause of particular concern to the industry,
predominantly with regards to profitability and competitiveness in the market place. A modest
amount of work has so far been directed at establishing a means of enhancement for selective
breeding on the commercial level. Genetics plays a key role in the establishment of successful
improvement programmes in various aquaculture species. The aim of this study was to develop
species-specific microsatellite markers for the abalone and subsequently perform parentage
assignment on farm produced animals entered into a growth performance recording scheme.
Animals were obtained from the hatcheries of three commercial abalone farms situated in the
Walker Bay region in the Western Cape.
Microsatellites were isolated using the enrichment-based FIASCO method, and characterised into
perfect, imperfect and compound repeats according to the structural nature of their repetitive units.
From the partial gDNA libraries obtained and 365 screened colonies, a total of 54 loci were located.
PCR primers were designed for 36 markers and the 15 primer pairs that displayed loci with the
highest level of polymorphism were subsequently chosen for fluorescent labelling. The markers
were tested on a subset of 32 wild H. midae individuals to determine their usefulness and efficiency
in genotyping. Five markers, along with five others that were previously designed, were chosen for
assigning parentage to the animals submitted to the performance recording scheme. Three thousand
offspring from each of the three participating farms were equally divided and reared at five different
locations. From each location 20 fast growing and 20 slow growing juveniles, as well as the
broodstocks, were sampled and genotyped using the ten chosen microsatellite loci. Two farms had
60% of offspring unambiguously assigned to a single parental couple. Assignments showed
patterns of dominant male and female brooders, but no trend in brooders specifically contributing to
fast or slow growing offspring. Parentage assignment for the third farm was, however, unsuccessful
due to lack of broodstock data. In future, screening of all available broodstock will ensure
acquisition of relevant pedigree information. The results obtained in this study are an initial step in
the development of a genetic improvement programme for commercial Haliotis midae. / AFRIKAANSE OPSOMMING: Die inheemse skulpvis Haliotis midae is een van die mees merkwaardige en hoogs oorbenutte
mariene slakspesies in Suid-Afrika. Dit is die enigste suidelike Afrika Haliotidae spesie wat
kommersieel benut word en dit word al meer as twee dekades suksesvol geteel. Die spesie se kort
domestiseringsgeskiedenis, toenemende mark aanvraag en die behoefte om meer effektiewe
produksie daar te stel, het gelei tot toenemende belangstelling in die moontlike genetiese
verbetering van die spesie. Die stadige groeitempo geassosieer met H. midae is veral ‘n punt van
kommer vir die industrie, veral in terme van winsgewendheid en kompetering in die markplek.
Minimale werk is sover gedoen in die daarstelling van verbetering deur selektiewe teling op ‘n
kommersiële skaal. Genetika speel ’n sleutelrol in die daarstelling van suksesvolle
verbeteringsprogramme van verskeie akwakultuur spesies. Die doel van hierdie studie was om
spesie-spesifieke mikrosatelliet merkers vir perlemoen te ontwikkel en vervolgens
ouerskapsbepaling van kommersiële diere, wat deelneem aan ‘n groeiprestasie aantekenstelsel, uit
te voer. Diere is voorsien deur die teelstasies van drie kommersiële perlemoenplase geleë in die
Walker Bay omgewing in die Wes-Kaap.
Mikrosatelliete is geïsoleer deur die verrykings-gebaseerde FIASCO metode, en gekarakteriseer as
perfekte, onderbroke of saamgestelde herhalings gebaseer op die strukturele aard van die herhalings
eenhede. Vanaf die gedeeltelik gDNA biblioteke wat bekom is en 365 gesifte kolonies, is ‘n totaal
van 54 loki opgespoor. PKR inleiers is ontwerp vir 36 merkers en die 15 inleierpare, wat loki met
die hoogste polimorfisme geamplifiseer het, is vervolgens geselekteer vir fluoreserende merking.
Die merkers is getoets op ’n kleiner groep van 32 natuurlike H. midae individue om hulle
bruikbaarheid en genotiperingseffektiwiteit te bepaal. Vyf merkers is saam met vyf reeds
ontwikkelde merkers gekies vir ouerskapsbepaling van die diere in die prestasie aantekenstelsel.
Drieduisend nageslag diere vanaf elkeen van die drie deelnemde plase is gelykop verdeel en
grootgemaak op die vyf verskillende lokaliteite. ‘n Monster van 20 vinnig groeiende en 20 stadig
groeiende jong perlemoen, sowel as broeidiere, is vanaf elke lokaliteit geneem en gegenotipeer deur
middel van die 10 geselekteerde mikrosatelliet loki. Sestig persent van twee van die plase se
nageslag is onteenseglik toegesê aan ‘n enkele ouerpaar. Ouerskapstoekenning het patrone van
dominante vroulike en manlike broeidiere getoon, maar geen tendens in terme van bydrae tot vinnig
en stadig groeiende nageslag kon gevind word nie. Ouerskapstoekenning vir die derde plaas was
onsuksesvol as gevolg van ’n gebrek aan data vir die broeidiere. In die toekoms sal genotipering
van alle beskikbare broeidiere die daarstelling van relevante stamboominligting verseker. Die
resultate verkry in hierdie studie verteenwoordig ‘n eerste stap in die ontwikkeling van ’n genetiese
verbeteringsprogram vir kommersiële Haliotis midae.
|
7 |
Water quality dynamics in an experimental serial-use raceway and its effects on growth of South African abalone, Haliotis midaeNaylor, Matthew Aubrey January 2012 (has links)
An understanding of species specific water quality requirements is essential for efficient production of aquaculture products, an aspect not well documented for the land-based culture of the South African abalone, Haliotis midae. In order for the industry to remain competitive in international markets, efficient use of water supplies and the development of water reuse technology is needed. This study assessed the changes in water quality between tanks in a tiered serial-use raceway in relation to accumulated biomass and water flow and estimated the flow index (FI) (L h⁻¹ kg⁻¹) at which growth becomes significantly affected. The effect of dietary protein level, supplementation of pure oxygen and addition of sodium hydroxide (NaOH⁻) on water quality and fundamental production parameters in the serial-use raceways was also assessed. The serial-use raceways were used as a tool to create a range of water quality conditions at which the growth, feed conversion ratio (FCR) and condition factor (CF) of "cocktail" size (60 – 70 mm) H. midae could be monitored. The metabolic activity of the abalone resulted in a deterioration in water quality between tanks in series. pH (r² = 0.99; p < 0.001) and dissolved oxygen concentration (r² = 0.99; p < 0.001) were positively correlated with flow index (pH = 7.38 FI°·°² ; dissolved oxygen = 6.92 FI°·°⁴), while free ammonia nitrogen (FAN) (r² = 0.99, p < 0.001) and nitrite (NO²⁻ - N) (r² = 0.93, p < 0.001) were negatively correlated with flow index (FAN = 8.02 FI⁻°·⁷¹). Nitrite concentrations increased over time indicating colonisation of Nitrosomonas bacteria on the basket surfaces. A flow index of 7.2 – 9.0 L h⁻¹ kg⁻¹ was estimated as the minimum to avoid significant reductions in weight and shell length gain and increases in FCR values. Total ammonia nitrogen (TAN) and FAN concentrations were significantly correlated to dietary protein (P) (t = 6.63, p < 0.0001 and t = 6.41, p < 0.0001, respectively) and flow index (t = 5.42, p < 0.0001 and t = 3.9, p < 0.0002, respectively) and could be estimated using the models TAN = 9.73 P – 110.3 log (FI), and FAN = 0.132 P – 1.10 log (FI). Mean FAN concentrations were 67 and 41 % lower in tanks fed a diet containing 22 and 26 % protein respectively, when compared to tanks fed a 33 % protein diet. Supplementation with pure oxygen (103 ± 8 % saturation) improved shell length gain (t = 3.45, p = 0.026) in abalone exposed to high FAN (2.43 ± 1.1 μg L⁻¹) and low pH (7.6 ± 0.13), relative to a treatment with no oxygen supplementation (92 ± 6 % saturation). Addition of a sodium hydroxide solution resulted in elevated mean pH in treatment raceways when compared to control raceways. The increased pH resulted in significantly higher weight gain (g abalone⁻¹) (F₁·₁₂ = 4.51; p = 0.055) and shell length gain (mm abalone⁻¹) (F₁·₁₂ = 4.56; p = 0.054) at an α-error level of < 5.5 %. In two trials, weight gain and shell length gain were significantly correlated to pH (p < 0.001), and multiple regression of pH, dissolved oxygen and FAN consistently revealed pH to be the best predictor of growth. It is therefore suggested that decreasing pH is the first limiting water quality variable for abalone in serial-use raceways. As a decrease in water pH is linked to respiration by the abalone and subsequent increase in dissolved carbon dioxide (CO₂) concentration, future studies should examine the effects of CO₂ on H. midae metabolic rate, calcification rate and health. The results of this study will contribute toward our understanding of the specific water quality requirements for H. midae in commercial aquaculture systems, and influence the design and management procedures for abalone water reuse systems.
|
8 |
Growth and gonad size in cultured South African abalone, Haliotis midaeRiddin, Nicholas Alwyn January 2013 (has links)
According to farm records, cultured Haliotis midae (50-70 g.abalone⁻¹) were growing 10% slower in winter when compared to summer. This reduction in growth rate also coincided with enlarged gonads. Initial trials showed that there were differences in mean monthly growth rates ranging from 1.97 – 5.14 g abalone⁻¹ month⁻¹, and gonad bulk index (GBI) also varied between months (GBI range: 26.88 ± 12.87 to 51.03 ± 34.47). The investment of energy into gonad tissue growth did not compromise whole body growth as the abalone continued to gain weight throughout the reproductive periods, probably due to gonadal growth. Growth of this size class of abalone was not influenced by water temperature or day length, suggesting favourable on-farm culture conditions (regression analyses, p > 0.05). There is no need to implement a seasonal dietary regime. Cultured H. midae were fed artificial diets with different protein sources, including only soya, only fishmeal, a combination of soya and fishmeal, and these were compared to kelp-fed abalone. Kelp-fed abalone grew slower than those fed artificial feeds (p>0.05). Gonad growth was the greatest when soya meal was included in the diet (average GBI: 74.91 ± 23.31), while the average gonad size of abalone fed the fishmealbased diet had gonads which were 38% smaller, and kelp-fed abalone had gonads which were 75% smaller than those of the abalone fed on diets containing soya meal. The increased gonad mass in abalone fed on diets including soya meal could be attributed to phytoestrogenic activity, as a result of the presence of isoflavones found in the soya plant; this remains to be tested. The use of soya in brood stock diet development is advised. The influence of dietary protein to energy ratio (1.41 – 2.46 g MJ⁻¹) on growth and gonad size was tested. Protein and energy levels within the ranges tested (22 and 33% protein; 13.5 and 15.6 MJ kg⁻¹) did not interact to influence growth rates of cultured H. midae. GBI increased from 50.67 ± 4.16 to 83.93 ± 9.35 units as a function of dietary protein to energy ratio (y = 42.02 x⁰·⁸¹; r² = 0.19; regression analysis: F₁¸₃₈ = 8.9; p = 0.005). In addition, protein level influenced gonad size, with gonad growth being greater in abalone fed the high protein diet (factorial ANOVA: F₁¸₃₂ = 7.1, p = 0.012). Canning yields were reduced by 7% when the protein content was increased, while increasing the quantity of dietary energy improved canning yields by ~ 6% (one-way ANOVA: F₁¸₂₈ = 14.4, p= 0.001). The present study provided evidence that although growth rates are varying seasonally, reproductive investment is not hindering weight gain. Gonad growth can be influenced if desired by farms, depending on the level of soya inclusion, as well as the protein to energy ratio in the diet. Monthly variation in growth and gonad size, as well as the influence of diet on gonad growth were highlighted, and the implications for farm application and further research were discussed.
|
9 |
A quantitative genetic analysis of the effect of crossbreeding on the growth rate of the South African abalone, Haliotis midaeVorster, Gysbert 04 1900 (has links)
Thesis (MSc)--University of Stellenbosch, 2003. / ENGLISH ABSTRACT: The genetic status of H. midae broodstock in the South African aquaculture industry reflects
that of random samples originating from undomesticated wild populations. The nature of
growth in abalone is very slow, taking between three and four years to reach a marketable size
of between 60 to 100 grams. It is therefore of paramount importance to improve this trait in
order to ensure global competitiveness and economic viability within the industry. Improving
this negative characteristic through conventional selection methods is a long-term venture and
alternative means that would yield instantaneous results had to be considered. Crossbreeding
was identified as an alternative, short-term strategy to improve growth rate.
A crossbreeding experiment was performed between two populations of the abalone,
Haliotis midae, from the East (E) and West (W) Coast of South Africa. This was done to
investigate the occurrence of heterosis for growth among the crossbred genotypes
(East x West, West x East). Fifteen males and females from both the East and the West Coast
populations were mated in a complete dialelle crossbreeding experiment to produce four
progeny groups (WW, EE, EW and WE). Progeny groups were evaluated for weight (bW) and
length gain (bL) over a specific growth period of 9 months.
The results provided no evidence of significant differences in weight (P = 0.085) or
length gain (P = 0.244) between the four progeny groups, giving no indication of significant
heterosis for weight and length gain among the crossbred progenies of these East and West
Coast populations. It is recommended that further efforts to obtain improved growth rate in
the abalone, Haliotis midae, through crossbreeding only be considered in light of clear
evidence of substantial genetic differentiation between such populations. / AFRIKAANSE OPSOMMING: Die huidige status van perlemoen, soos dit voorkom in akwakultuur bedrywighede in Suid
Afrika, weerspieël dié van ‘n ewekansige monster vanuit wilde, natuurlike populasies.
Perlemoen is inherent ‘n stadig groeiende organisme wat tussen drie en vier jaar neem om tot
‘n bemarkbare grote van 60 tot 100 gram te groei. Dit is dus uiters noodsaaklik om hierdie
eienskap te verbeter ten einde die bedryf ekonomies lewensvatbaar en mededingend op
wêreld markte te maak. Konvensionele seleksie as ‘n metode om hierdie negatiewe eienskap
te verbeter is ‘n langtermyn onderneming wat die identifisering van ‘n korttermyn metode,
wat ondmiddellike resultate lewer, noodsaak. Kruisteelt is geïdentifiseer as geskikte
korttermyn oplossing aangesien dit onmiddellike resultate lewer.
‘n Kruisteel eksperiment is uitgevoer tussen twee populasies van die perlemoen,
Haliotis midae, van die Ooskus (E = East) en die Weskus (W = West) van Suid Afrika. Dit is
gedoen om die omvang van heterose vir groeitempo in die gekruisde nageslag (East x West,
West x East) te bepaal. Fyftien mannetjies en wyfies van beide die Oos- en Weskus
populasies is met mekaar gepaar in ‘n volledige dialleel kruising om vier nageslag groepe
(WW, EE, EW en WE) te vorm. Die nageslag is geëvalueer ten opsigte van massa (bW) en
lengte (bL) toename oor ‘n spesifieke groei tydperk van 9 maande.
Die eksperimentele resultate dui daarop dat die vier nageslag groepe nie betekenisvol
van mekaar verskil het ten opsigte van massa (P = 0.085) en lengte (P = 0.244) toename nie
en dat daar dus geen aanduiding van heterose vir massa en lengte toename in die nageslag van
kruisings tussen die Ooskus en Weskus populasies bestaan nie. Daar word aanbeveel dat
kruisteling as ‘n metode van genetiese verbetering van groeitempo in Haliotis midae slegs
oorweeg word in die lig van nuwe molekulêre bewyse van genoegsame genetiese
differensiasie tussen sulke populasies.
|
Page generated in 0.045 seconds