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The interference potential of nine selected South African spring wheat cultivars with selected weed speciesNambili, Julia Nghituvali 12 1900 (has links)
Thesis (MScAgric (Agronomy))--Stellenbosch University, 2008. / The development of herbicide resistance in weeds is one of the major factors hampering
profitable crop production worldwide. In South Africa resistance to herbicides in weeds is also
a big problem, in particular in the Winter Rainfall Region of the country. The lack of sufficient
different mode of action herbicide groups that can be rotated in these conditions necessitate the
implementation of integrated weed management programmes to curb the development and
spread of herbicide resistance. One of the alternative physical weed management strategies is
to maximize crop competition to the weed population. One aspect of such a strategy is to plant crop cultivars that have greater interference potential than others.
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'n Ondersoek na die ontstaan van onkruiddoderweerstand in Bromus diandrus RothFourie, Johan Hendrik Petrus 04 1900 (has links)
Thesis (MScAgric)--University of Stellenbosch, 2005. / ENGLISH ABSTRACT: Ripgut brome (Bromus diandrus Roth.) is a weed that causes great problems
in the most wheat and grain producing areas and also in livestock practices.
Until recently (1995) there were no registered chemicals for the management
of ripgut brome in wheat, in South Africa. After the registration of sulfosulfuron
and iodosulfuron + mesosulfuron for the management of ripgut brome in
wheat, these two herbicides were widely used and in the case of wheat
monocultures, it was used repeatedly. During the last few years, reports of
ripgut brome that were suspected to be resistant to these chemicals,
increased. With the development of herbicide resistance it is of great
importance to investigate methods to confirm resistance and also to control it.
The goal of this study was firstly, to confirm resistance in ripgut brome and
secondly to compare growth and development of resistant ripgut brome
popualtions to that of susceptible ripgut brome populations. The dormancy of
Bromus seed was also investigated as were effective methods to break seed
dormancy. Lastly, quicker methods to confirm resistance were investigated.
A short summary of the experiments follows.
In the first experiment the degree of resistance of three different ripgut brome
populations were determined, by using the pot spray method. One population
each of B. pectinatus and B. rigidus were also included in the study. The
seed of the Bromus populations were germinated after which it was planted in
plastic pots and were placed in the glasshouse until the three to four leaf
stage. Subsequently the plants were treated with the following four herbicides:
sulfosulfuron, iodosulfuron + mesosulfuron, imazamox and haloxyfop-R
methyl ester, at seven concentrations namely, the recommended dosage, one
quarter, one half, twice, four times and eight times the recommended dosage.
After six weeks the percentage survival and the dry mass of the plants were
determined. Results showed that the three ripgut brome populations had
different degrees of resistance to sulfosulfuron and iodosulfuron +
mesosulfuron, varying from no resistance to moderate resistance to strong
resistance. There was no resistance to imazamox and haloxyfop-R methyl ester. The B. rigidus population exhibited strong resistance or tolerance
(natural resistance) to the two sulfonylureum herbicides.
In the second experiment the seed of the same Bromus populations were
germinated and planted in plastic pots that were filled with three litres of river
sand to determine the growth, development and seed production of the plants.
The number of leaves for each plant as well as the plant height were
measured weekly, until the plants became reproductive. The two resistant
populations grew much faster than the susceptible population and they also
produced taller plants. The susceptible population produced more leaves, but
seed production was delayed considerably. This probably relates more to the
plant’s adaptation to their enviroment, than to adaptation due to resistance.
The susceptible population was collected from a natural environment, while
the others were collected from wheat fields.
In the third experiment the seed dormancy of the Bromus populations was
investigated. The effect of different treatments on the dormancy of the seed
was also investigated. The treatments that were applied were gibberrellic
acid, fumigation with ammonia gas and an ammonia treatment combined with
a cold treatment. Seed dormancy in all populations was short-lived and the
cold treatment was an effective way of stimulating fresh seed to germinate.
The last experiment was performed to develop a quicker method for the
evaluation of resistance in Bromus spp. In this experiment the petridish
method was investigated. Only sulfosulfuron and iodosulfuron + mesosulfuron
were used, because resistance to them was proven earlier. Different
concentrations of the herbicides were applied to the dishes with the seed and
were exposed to a cold treatment before being placed in a germination
chamber. The seed in al the treatments germinated and it was decided to let
the seed grow for two weeks in the petri dishes to observe whether the
herbicides may have a detrimental effect on the growth of the small seedlings.
After two weeks there were no differences between treatments and the
experiment was terminated. The study showed that resistance is present in some of the Bromus
populations and that there are biological differences between populations with
different degrees of resistance. However, the fact that the susceptible
population comes from a completely different environment than the other
populations, complicate matters and further studies are required to obtain a
clearer picture. / AFRIKAANSE OPSOMMING: Predikantsluis (Bromus diandrus Roth.) is ‘n onkruid wat in die meeste koringen
garsproduserende gebiede, asook in sommige vee praktyke, probleme
veroorsaak. Tot redelik onlangs (ongeveer 1995) was daar in Suid-Afrika
geen middels geregistreer wat predikantsluis in koring kon beheer nie. Nadat
sulfosulfuron en iodosulfuron + mesosulfuron vir predikantsluisbeheer in
koring geregistreer is, is die twee middels op groot skaal, en in die geval van
koring monokultuurstelsels, aanhoudend toegedien. Gedurende die afgelope
paar jaar is berigte ontvang dat beheer van predikantsluis met die middels nie
meer so doeltreffend is nie, moontlik as gevolg van onkruiddoderweerstand
wat ontwikkel het. Met die ontstaan van onkruiddoderweerstand is dit
belangrik om praktyke en maniere te vind om weerstand vinniger te bevestig
en doeltreffend te bestuur. Die doel van hierdie studie was eerstens om
weerstand in predikantsluis te bevestig en tweedens om die groei en
ontwikkeling van plante afkomstig van vermoedelike weerstandbiedende
predikantsluis populasies te vergelyk met plante uit ‘n vatbare populasie. Die
saadproduksie en dormansie van die saad is ook ondersoek asook effektiewe
metodes om dormansie te breek. Laastens is ondersoek ingestel na ‘n
vinniger manier (petribakkie metode) om weerstand te bevestig. Hieronder
volg ‘n oorsig oor die vier eksperimente wat uitgevoer is.
In die eerste proef is die mate van weerstand van drie verskillende
predikantsluis populasies bepaal, deur van die gewone potspuit metode
gebruik te maak. Daar is ook een populasie elk van Bromus pectinatus en
vermoedelik Bromus rigidus ingesluit in die studie. Die sade van die
verskillende populasies is toegelaat om te ontkiem en daarna is dit in
plastiese potjies geplant en in ‘n glashuis geplaas totdat die drie tot vier
blaarstadium bereik is. Die plante is daarna gespuit met die volgende vier
middels: haloksifop-R-metielester (Gallant Super), imasamoks (Cysure),
iodosulfuron + mesosulfuron (Cossack) en sulfosulfuron (Monitor), teen sewe
konsentrasies elk, nl. teen die aanbevole dosis, asook teen een kwart van,
een helfte van, twee keer, vier keer en agt keer die aanbevole dosis. Na ses
weke is die persentasie oorlewendes en die droëmassa van die plante bepaal. Resultate het getoon dat die drie predikantsluis populasies
verskillende grade van weerstand teen die twee sulfonielureums
(sulfosulfuron en iodosulfuron + mesosulfuron) toon, dit wil sê van geen tot
matig tot sterk weerstandbiedend. Daar is egter geen weerstand teen
haloksifop-R-metielester (Gallant Super) en imasamoks (Cysure)
waargeneem nie. Die B. rigidus populasie het sterk weerstand of toleransie
(natuurlike weerstand) teen die sulfonielureum middels getoon.
In die tweede proef is saad van dieselfde Bromus populasies ontkiem en
oorgeplant in plastiese potte gevul met 3 liter riviersand om die groei en
ontwikkeling en saadproduksie van die plante te evalueer. Die aantal blare
per plant en hoogte van die plante is weekliks bepaal totdat die plante
reproduktief geraak het. Hierna is die metings gestaak om te voorkom dat die
saadproduksie van die plante benadeel word. Die resultate het getoon dat die
twee weerstandbiedende predikantsluis populasies vinniger groei as die
vatbare populasie en ook langer plante vorm, terwyl die vatbare populasie
vinniger en meer blare vorm, maar langer neem om saad te vorm. Hierdie
waarnemings hou egter waarskynlik meer verband met die oorsprong van die
populasies as met die graad van weerstandbiedendheid. Die vatbare
populasie is versamel in natuurlike veld vêr van enige landerye terwyl die
ander populasies almal uit graanlande afkomstig is.
In die derde proef is saaddormansie van die Bromus populasies ondersoek.
Daar is ook ondersoek ingestel na verskillende behandelings om dormansie
te breek. Die behandelings wat toegepas is, is ‘n gibberelienesuur
behandeling teen verskillende konsentrasies, beroking met ammoniak vir
verskillende tye en ‘n ammoniak behandeling tesame met ‘n koue
behandeling. Die resultate het getoon dat saaddormansie van die Bromus
populasies van korte duur is, maar dat kouebehandeling effektief is om
ontkieming van vars saad te stimuleer.
Die vierde proef is uitgevoer om vas te stel of daar vinniger evaluasiemetodes
is vir die evaluasie van weerstand in Bromus spp., deur van die petribakkie
metode gebruik te maak. In hierdie proef is slegs die middels iodosulfuron + mesosulfuron (Cossack) en sulfosulfuron (Monitor) gebruik, omdat daar ‘n
mate van weerstand teen hulle waargeneem is in die eerste proef. Die
middels is teen verskillende konsentrasies in petribakkies gevoeg, tesame
met die sade en toe blootgestel aan ‘n kouebehandeling voordat dit in ‘n
ontkiemingskabinet geplaas is vir ontkieming. Die sade in al die behandelings
het ontkiem en daar is besluit om die saailinge uit die ontkiemingskabinet te
haal en vir twee weke te laat groei sodat daar bepaal kon word of die middels
‘n effek op die groei van die plantjies het. Na twee weke kon geen verskil in
die groei van die plantjies waargeneem word nie en die proef is beëindig.
Die studie het getoon dat daar wel weerstand in sommige van die Bromus
populasies voorkom, en dat biologiese verskille voorkom tussen
predikantsluis populasies met verskillende grade van weerstand. Die feit dat
die vatbare populasie uit ‘n heeltemaal verskillende omgewing kom as die
ander populasies, maak definitiewe afleidings moeilik. Daar sal opvolgstudies
uitgevoer moet word om van die onduidelikhede op te klaar.
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Invloed van bemesting op die opbrengs en kwaliteit van uie (Allium cepa L.)Langenhoven, Petrus 03 1900 (has links)
Thesis (MScAgric (Agronomy)--University of Stellenbosch, 1999. / The Western Cape is one of the most important onion producing regions in South
Africa. It is well suited for the production of intermediate daylength onion cultivars.
Annually about 2500 ha are planted with a yield of about 120 000 tons. Only 9 000 tons
was exported in 1998 and of these 9 000 tons 4.9% was rejected due to poor quality. In
South Africa there are no guidelines for the production of intermediate daylength onions.
It is very important to have fertiliser guidelines, because optimal yields of good quality
can be achieved with a good fertiliser program. Produce with exceptional quality can
boost exports and at the same time stabilize local markets. However fertilisers are very
expensive and could be damaging to the environment ifused incorrectly.
To produce fertiliser guidelines N, P and K field trials were planted at three
differen~ localities (Koue Bokkeveld, Stellenbosch and Caledon). The localities were
chosen according to the difference in climate and soil texture, and these are important
onion growing areas. The minimum and maximum temperature for the Koue Bokkeveld,
Stellenbosch and Caledon was 11123, 12/25 and 13/27 °C respectively. At all the
localities 3 nitrogen-, 4 phosphorus- and 4 potassium levels were used. Treatments were
factorially arranged in a randomised block design, with two replicates. At Stellenbosch a
N fertiliser trial was planted with four N levels and four N application methods. The
treatments were factorially arranged in a completely randomised block design, with three
replicates. N, P and K was applied as limestone ammonium nitrate, single superphosphate
and potassium sulphate. Marketable and unmarketable bulbs were quantified at harvest.
Weight loss during storage was determined over a six month period and storage disorders
were evaluated.
It was clear that high N levels, especially on soil with a high potential for
releasing N, had a negative effect on yield and keeping quality. At Caledon a significant
reduction in yield took place with the highest N level. High N levels also had a
significant effect on weight loss at Stellenbosch and Caledon. The same trend with high
N levels occurred in the N fertiliser trial. Weight loss was increased with the late
application ofN in the growing season. In spite of the fact that the P levels were high (58
- 66 mg.kg-I) in the different soils, the onions reacted very well to phosphorus fertiliser.
As a result of the higher P levels there was more foliage in the leaf canopy and the bulbs
were larger. This P reaction only occurred in the Koue Bokkeveld and at Caledon. At
Stellenbosch yield was not improved with P fertilisation and bulbs were of poor quality.
The highest P level resulted in the greatest weight loss in storage. K had an effect where
the K status and clay content of the soil was low. High potassium levels improved yield
and keeping quality remarkably in the Koue Bokkeveld. Some interactions also occurred.
The percentage unmarketable bulbs were influenced by a P and K interaction. An
increase in double bulbs was responsible for the increase in the percentage unmarketable
bulbs. At the lowest P level, higher K levels decreased the percentage unmarketable
bulbs. Alarming proportions were reached when high K levels were combined with the
highest P level. The P and K interaction also had an effect on the percentage sprouting. K
did not have any effect' on sprouting at low P levels. A combination of the highest P level
and the lowest K level produced the highest percentage sprouting. The interaction
between N and P, like the P and K interaction had an effect on the percentage sprouting.
The highest N level in combination with the highest P level increased the percentage
sprouting significantly.
The N, P and K field trials showed that the optimum N level is less than 130 kg
N.ha-l on a soil with 16 % clay. On a sandy soil it can be as high as 160 kg N.ha•l The
optimum P level varied from 30 to 130 kg P.ha-l Where a poor P reaction was observed
the Ca and S status in the soil was low. It is possible that the drastic P reaction with
superphosphate (10.5 % P, 20.3 % Ca, 12.1 % S) in the Koue Bokkeveld can be a result
of the application of Ca and S. On the shale soil at Caledon, with a K status of 288
mg.kg-\ the optimum K level is less than 75 kg K.ha-l On the sandy soil of the Koue
Bokkeveld, with a K status of 43 mg.kg•l
, the optimum K level was 200 kg K.ha•l
. The N
fertilisation trial was done on a soil with an optimum N level of 115 kg N.ha-l (10 %
clay). It was demonstrated that the standard N application method (40 % N with planting
and the rest divided in three equal applications of 20 % N on 2, 4 and 7 weeks after
planting) is still an acceptable practice.
Follow-up trials are being done to determine the exact optimum level of
fertilisation.
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The effect of Phosphorus on the growth, plant mineral content and essential oil composition of Buchu (Agathosma betulina)De Villiers, Chris Johan 12 1900 (has links)
Thesis (MScAgric (Agronomy)--University of Stellenbosch, 2007. / An increase in the demand of buchu (Agathosma betulina) oil has lead to an increase in the commercial cultivation of buchu in fields and also in hydroponic systems. A nutrient solution for hydroponically grown buchu is still required to ensure optimal growth and yield. ASNAPP (Agribusiness in Sustainable Natural African Plant Products) South Africa has done some trials to achieve optimal EC and pH in the nutrient solution. Phosphate concentrations in the nutrient solution might play a significant role due to reports by a variety of researchers on the sensitivity of Protea plants to phosphate. Buchu and Proteas are both part of the Fynbos biome and are found in regions with similar soil (sandy soils with a low pH and mineral contents) and climatic conditions.
Two separate experiments were conducted to determine the effect of increasing phosphate concentrations (ranging from 0.00 to 1.40 me L-1) in the nutrient solution on buchu growth. The first experiment was done in a plastic covered structure with a pad and fan and the objective of this trial was to determine the effect of increasing phosphate concentrations in the nutrient solution on the general growth, biomass production, oil composition, mortality rate and chemical composition of the buchu plants. The second experiment was done in a glasshouse with mechanical temperature control and the aim of this trial was to determine the response of buchu to increasing concentrations of P at two different root temperatures. A chemical analysis of the plants was done and the general growth, yield and root mass were recorded to determine the response of buchu plants to the phosphate and temperature treatments.
In the greenhouse experiment an optimum growth and yield response of buchu plants was found at a phosphate concentration of 0.7 me L-1 in the nutrient solution. Phosphate concentrations lower or higher than 0.7 me L-1 lead to a decrease in growth and yield. An increase in the phosphate concentration in the nutrient solution lead to a general increase in N, P, K, Ca, Mg and B content in the buchu plants and a decrease in Fe content. The mortality rate of the buchu plants increased with an increase in the phosphate concentration from 0.0 to 1.4 me L-1 in the nutrient solution. The phosphate concentration in the nutrient solution only made a significant difference on one major component of the buchu oil which was Ψ-Diosphenol, but no general trend with Ψ-Diosphenol content and P concentration could be found and the significant difference in Ψ-Diosphenol observed in this trial may only have been due to genetic variation between the plants.
The effect of the different root temperatures in the glasshouse experiment was very clear. The buchu plants grown at the high root temperature (20°C) produced a higher yield and better overall growth than the plants grown at lower (10°C) temperatures. The buchu plants grown at 20°C had a significantly higher N, K, Na and B content than plants grown at 10°C. Buchu plants grown at 10°C showed no significant response in terms of growth and yield to the phosphate concentration in the nutrient solution, but plants grown at 20°C exhibited growth and yield peaks at phosphate concentrations of 0.35 and 1.4 me L-1. The peak observed in the plants growth at high phosphate concentrations is unexplainable and can possibly be ascribed to the limitation of the plants per experimental unit and/or amount of replications. The increase in P concentration in the nutrient solution caused a general increase in N, P and K content in the buchu plants. A significant interaction between the phosphate concentration and root temperature was observed for the P, Mn en Zn contents of the plants which meant that the buchu plants respond differently towards phosphate concentrations at different root temperatures.
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The influence of different production systems, planting densities and levels of shading on the yield, quality and growth potential of ‘Chandler’ strawberry plants (Fragaria ananassa) grown in coirDe Villiers, Johannes Jacobus 12 1900 (has links)
Thesis (MScAgric (Agronomy))--Stellenbosch University, 2008. / The use of hydroponic strawberry production systems is increasing worldwide.
Although higher planting densities are possible in vertical production systems, these
higher planting densities may have a negative effect on individual plant yield and fruit
quality due to lower light levels when compared to conventional (horizontal)
production systems. Optimum planting densities will for this reason be affected by
light intensities inside the greenhouse and configuration of the vertical production
systems.
Two experiments were conducted in a plastic cladded greenhouse, fitted with a wetwall
and fan cooling system, at the Department of Agronomy, University of
Stellenbosch, South Africa during the period of April 2007 to November 2007 (late
autumn to early summer). Mean daily maximum temperatures exceeded 26 oC during
most of the 14 week harvest period (22 August to 30 November 2007), while
photosynthetic active radiation (PAR), measured at 12h00 on cloudless days, inside
the greenhouse increased from about 200 μMol m-2 s-1 to about 460 μMol m-2 s-1
during this period. The first experiment compared the effect of two vertical production
systems (vertical system and ‘A-shape’ system), subjected to different planting
density (16.7, 23.3 and 33.3 plants m-2) and shading (0%, 20%, 50%) treatments, as
measured on selected yield, quality and growth factors. The second experiment
studied the effect of different planting density (3.3, 5.6 and 10 plants m-2) and shading
(0%, 20%, 50%) treatments on the same yield, quality and growth factors in a
conventional production system. A comparison with regard to these factors was also
made between the highest planting densities of the conventional-, vertical- and
‘A-shape’ system.
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The influence of different calcium levels, irrigation methods and storage temperatures on the yield, quality and growth potential of G0 mini-tubersDe Villiers, Andre Jaco 12 1900 (has links)
University of Stellenbosch. Faculty of Agrisciences. Dept. of Agronomy. / Thesis (MScAgric (Agronomy)--University of Stellenbosch, 2007. / Calcium (Ca) is an important plant nutrient with many functions, such as strengthening of cell walls and maintaining membrane stability and cell integrity. A greenhouse experiment was conducted using an aeroponic production system, to evaluate the influence of different Ca: K & Mg ratios (consisting of a control [100% Ca], and three treatments in which the Ca levels were changed to 33%, 66% and 133% of the control, while the K and Mg levels were adjusted to compensate for the change in Ca) and two different irrigation methods (irrigation on roots only, and irrigation on roots and stolons) on tuber yield and mineral concentration. The treatment that received the highest Ca: K & Mg ratio had significantly more larger tubers than the lowest Ca treatment, although there was no significant difference in total tuber number between treatments. The high Ca treatment also had a significantly higher Ca concentration in the skin than the low Ca treatment. The site of irrigation did not have a significant effect on the total tuber number per plant, or on the Ca content of the tubers that were produced.
The tubers produced in the first experiment were divided into two weight classes, and stored at three different temperatures. The percentage weight loss during storage was determined by weighing the tubers before, and again after storage. The firmness of the tubers was also measured after storage. Tubers were then stored in a dark room at room temperature to allow sprouts to develop. The sprouts of each tuber were counted and weighed. Weight loss was the lowest for tubers stored at 3oC. Firmness of the tubers increased as the Ca: K & Mg ratio of the nutrient solution used during production was increased. Number of sprouts was the highest for tubers stored at 6oC. Sprout number was also significantly higher for the larger tubers compared to the smaller ones. Total sprout weight was the highest for the tubers stored at 6oC, and was also the highest for the larger tubers.
After sprouts started to develop, the tubers were planted again in the greenhouse, in sawdust and irrigated with a complete Steiner nutrient solution at 1.5 mS cm-1. After these plants were harvested, the leaf area and dry weight of the leaves were determined. The first generation tubers were counted and weighed. The only factor that had a significant influence on the growth of the plants, was the size of the seed tubers that were used. The larger seed tubers produced plants that had significantly higher leaf areas, dry weight of leaves, as well as higher yields than that of the plants produced from the smaller seed tubers.
From the results of this study, it can be concluded that Ca has a definite positive effect on the quality of seed potatoes as well as the size of the tubers that are produced. This study also supported that seed tubers should be stored at low temperatures, around 3oC, to maintain the highest quality, while larger tubers proved to out-yield smaller ones.
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A study of greenhouse production techniques for evergreen disasPienaar, D. 03 1900 (has links)
Thesis (MScAgric (Agronomy)--University of Stellenbosch, 2005. / The seven evergreen Disa species are indigenous to South Africa. These orchids grow on mountain ranges subject to winter rainfall and are found on stream banks, around waterfalls and in other damp areas. Although the Disa genus accommodates more than 130 species, by far the most commonly grown is Disa uniflora and hybrids stemming from this species. Disas have great potential as cut flowers and pot plants, but production techniques need to be further investigated since cultivation methods vary greatly between hobbyists. This study evaluated the effect of N-source, shading, root medium temperature, electrical conductivity (EC), irrigation method, foliar feeding at different plant growth stages and substrate on the growth of evergreen Disa hybrids in a controlled environment. Results showed that Disa plants can be classified as being ammonium tolerant. Disa unidiorosa performed best with 40% of the applied N in the NH4 form, while D.kewensis was more tolerant towards a higher level of NH4 and grew best at 60% NH4. Shading levels (56% and 69%) were compared and did not differ regarding the growth of plants. A cooled root medium was found to have a negative effect on root growth and a positive effect on leaf length. High EC levels produced heavier mother plants with a bigger root:shoot ratio and a bigger stem diameter. Biomass accumulation was the best in plants receiving ‘Drip’ irrigation, compared to ‘Ebb-and-Flood’ irrigation treatments. Plants in the vegetative reproducing stage were more susceptible to leaf abscission and new leaves formed at a low rate compared to small- and potential flowering plants. Where foliar feeding is concerned plants seemed to benefit more by the presence of NH4NO3 than urea. There were no significant differences in root development between substrates in the ‘hardening-off’ phase. ‘Hydroton’ (clay pebbles) was not suitable as substrate for the cultivation of Disa plants. The growth and flowering properties of plants were optimal with sphagnum moss and peat but were negatively affected when the pH of acid peat:sand mixtures were increased. More research is needed before Disas can be cultivated on a commercial scale, while the effect of the treatments on flowering properties has to be investigated.
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The effect of shoot heterogeneity on the physiology and grape composition of Shiraz/Richter 99 grapevinesCloete, Hanle 12 1900 (has links)
Thesis (MScAgric)--Stellenbosch University, 2004. / ENGLISH ABSTRACT: The effect of shoot heterogeneity on vegetative and reproductive growth parameters, vine
physiology and grape composition was investigated in a ShirazlRichter 99 vineyard.
Comparisons between underdeveloped (typically shorter and less ripened at véraison) and
normally developed shoots in both shaded (non-manipulated) and well-exposed (manipulated)
canopies were made. Compared to underdeveloped shoots, normal shoots had a larger total leaf
area, due to the higher occurrence of secondary shoots as well as larger leaves on primary and
secondary shoots. Since the photosynthetic activity of the leaves from normal shoots was higher
than those from underdeveloped shoots, higher levels of carbohydrates were produced and
stored in the former. Starch was more evenly distributed over the length of the whole shoot in
normally developed shoots compared to underdeveloped shoots. Normally developed shoots
were longer and thicker in diameter than underdeveloped shoots. The larger clusters of the
normally developed shoots are evidence of their more favourable total leaf area per gram berry
mass. Berries from the normally developed shoots were smaller at five weeks after véraison than
those from underdeveloped shoots, displaying a higher skin to pulp ratio and therefore higher
anthocyanin and total phenolic extraction potential for winemaking. The smaller clusters and
fewer berries per cluster found for the underdeveloped shoots indicate an imbalance between
vegetative and reproductive growth initiated during the vegetative growth phase and continued
during the ripening period.
The peculiar absence of statistically significant differences in grape composition between
normally and underdeveloped shoots indicates that assimilates needed for berry ripening of the
latter originated in organs other than the leaves [e.g. from adjacent normal shoots and the rest of
the permanent structure of the vine (cordon, trunk, roots)]. The larger differences in berry size
that occurred between shoot types in the shaded compared to the well-exposed canopies may be
evidence for this. The photosynthetic activity of shoots was lower in shaded than in exposed
canopies. The total carbohydrate production of the normal shoots in shaded canopies seemed
insufficient to supply in the ripening needs of the shoot itself, their own clusters as well as the
ripening of stem tissue and clusters of the underdeveloped shoots in the canopy. This is
illustrated by the lower levels of starch that accumulated in the normal shoots from shaded
compared to that of exposed canopies. Vine shoot heterogeneity clearly leads to visible and
physiological imbalances that would impact negatively on grape and wine quality as well as
production costs and should therefore be avoided on any terroir. / AFRIKAANSE OPSOMMING: In hierdie studie is die effek van heterogene lootontwikkeling in die lower van 'n ShirazlRichter 99
wingerd ondersoek. Vergelykings is getref tussen normale en onderontwikkelde lote in
beskadude en blootgestelde lowers ten opsigte van hul vegetatiewe en reproduktiewe groeieienskappe,
fisiologiese aktiwiteit en druifsamestelling en -gehalte. 'n Groter totale
blaaroppervlak het by die normaalontwikkelde lote voorgekom as gevolg van die groter aantal
sekondêre lote en groter primêre en sekondêre blare. Aangesien die blare van die normaal
ontwikkelde lote fotosinteties meer aktief was as dié van onderontwikkelde lote, het die
eersgenoemde lote groter hoeveelhede koolhidrate geproduseer en gestoor. Styselopberging het
meer eweredig oor die lengte van die normale lote plaasgevind. Laasgenoemde lote was ook
heelwat langer en dikker in deursnee as die onderontwikkelde lote. Die gunstiger totale
blaaroppervlak per korrelmassa verhouding van die normale lote is duidelik weerspieêl in die
groter trosse, terwyl die kleiner korrels (en dus die groter dop:pulp verhouding) op 'n groter
potensiaal vir kleur- en fenolekstraksie tydens die wynbereidingsproses dui. Die kleiner trosse en
kleiner aantal korrels per tros wat by die onderontwikkelde lote gevind is, dui op 'n wanbalans
tussen die vegetatiewe en reproduktiewe groei van die loot wat tydens die vegetatiewe groeifase
van die wingerdstok geïnisieer is en tydens die rypwordingsperiode voortgesit is.
Die vreemde afwesigheid van enige statisties betekenisvolle verskille in druifsamestelling tussen
die normale en onderontwikkelde lote dui daarop dat die verbindings wat vir die rypmaking van
trosse op onderontwikkelde lote aangewend is, waarskynlik van ander wingerdorgane (bv.
naasliggende lote, kordonarms, stam, wortels) as die spesifieke loot se blare afkomstig was. Die
waarneming dat die korrelgroottes van normale en onderontwikkelde lote meer van mekaar
verskil het in die beskadude as blootgestelde lowers, kan moontlik as bewys hiervoor dien. Die
fotosintetiese aktiwiteit van beide loottipes was laer in die skaduryke lowers. Die koolhidrate wat
deur normaalontwikkelde lote in skadu-Iowers geproduseer is, was oênskynlik onvoldoende vir
die rypmaking van die loot self, die spesifieke loot se trosse, asook die trosse en lootweefsel van
naasliggende onderontwikkelde lote. Hierdie bewerings word gerugsteun deur die laer vlakke
van styselakkumulasie wat by die normale lote in beskadude lowers gevind is. Aangesien
heterogene lootontwikkeling en -groei duidelike sigbare en fisiologiese wanbalanse in die
wingerdstok tot gevolg het wat negatief op druifsamestelling, wyngehalte en produksiekoste
inwerk, behoort dit in kommersiêle wingerde vermy te word.
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Improved potato (Solanum tuberosum) seed production through aeroponics systemTshisola, Steve Ndondji 04 1900 (has links)
Thesis (MScAgric)--Stellenbosch University, 2014. / ENGLISH ABSTRACT: The potato can be considered as one of the most important food crops in many African countries. The potential of this crop is reflected in the large increase in area of production where Africa showed the highest rate of growth within the developing world over the past twenty years. The multiplication rate of potatoes is very low compared to other crops. Therefore it is essential to investigate methods of increasing the number of minitubers produced from disease free in-vitro plantlets. There is a number of potato propagation procedures that are currently being used worldwide to multiply seed potatoes. As aeroponics is still a relatively new technique that has not been researched extensively for the production of minitubers, a study relating to the production practises including the nutritional requirements of potato minitubers produced in a aeroponic system were undertaken.
Potato plantlets, cv BP1, were grown aeroponically at two different densities (20 and 30 plants/m2) and four harvest intervals (7, 10, 14 and 18 days). The interaction between harvesting intervals and plant densities did not influence plant growth, minituber quality or yield. Best results were realised when harvesting every 7 days with a higher total tuber number over the growing period. Harvest interval also influenced the phosphorus and copper concentration in minitubers. To study the effect of Calcium (Ca) application rate, potato plantlets of cultivars Up-to-date, Mnandi, Buffelspoort and BP1 were grown at four different Ca levels (8.40, 6.75, 5.10 and 3.45 meq/L). The interaction between Ca application levels and cultivars significantly influenced the percentage stolon branching. BP1 had more stolons at the lowest Ca application level and Buffelspoort had more stolons at the full Ca application levels. However, low Ca treatments produced the highest yield. The minituber number and weight harvested were three times more for Mnandi.
An aeroponic study on the irrigation frequency (20, 30, 40 and 50 minutes interval) was conducted on four potato cultivars (Up-to-date, Mnandi, Buffelsoort and BP1). Significant differences were noted in the interaction between irrigation frequencies and cultivars for the percentage tuberised plants and stolon and tuber dry mass. When irrigated every 40 minutes, 48% of the Buffelspoort plants produced tubers. Plant height was also significantly affected by the interaction between irrigation frequencies and potato cultivars, with Mnandi producing taller plants when irrigated every 30 minutes. Total tuber number and tuber fresh and dry weight was higher at the irrigation frequency of 20 minutes. The interaction between irrigation frequencies and cultivars on the response to macro and trace elements was not significant for sodium and iron but was for phosphorus, potassium, calcium, zinc and aluminium.
A field study was conducted in a greenhouse where potato seed of BP1 obtained from the first trial were graded into different sizes (Small: >20, medium: 20–40 and large: > 40 mm of diameter) and stored at 3 different temperatures (3, 16 and 25oC) for 2 supplementary months before being planted. Sprouting capacity was mostly influenced by temperature regardless of other factors applied to potato seed minitubers such as harvest intervals and sizes. The higher storage temperature of 25oC resulted in tubers with a higher number of sprouts, longer sprouts and with a higher sprouting capacity. / AFRIKAANSE OPSOMMING: Aartappels is een van die belangrikste voedselgewasse in baie lande in Afrika. Die potensiaal van die gewas word gereflekteer in die groot toename in produksie areas, met Afrika wat die vinnigste van al die ontwikkelende lande gegroei het die laaste 20. In vergelyking met ander gewasse is die tempo van planvermeerdering by aartappels baie stadig. Dit is dus essensieel om metodes te ondersoek wat sal help om die aantal miniknolle wat per in vitro plantjie verkry kan word te verhoog. Daar is heelparty plant vermeerderings prosedures wat tans wêreldwyd gebruik word om saad aartappels te vermeerder. Aangesien aeroponika nog steeds ʼn relatiewe nuwe tegniek is wat nog nie ekstensief ondersoek is vir die verbouing van miniknolle nie, is ‘n studie geloods om te kyk na die produksie praktyke, wat insluit die voedingsbehoeftes van aartappel miniknolle in ʼn aeroponika sisteem.
Aartappel plantjies, kultivar, BP1, is aeroponies verbou by twee plant digthede (20 en 30 plante/m2) en vier oesintervalle (7, 10, 14 en 18 dae). Die interaksie tussen oesintervalle en plantdigtheid het geen effek gehad op plant groei, miniknol kwaliteit of opbrengs nie. Die beste resultate is verkry waar die knolle elke 7 dae geoes is met ‘n hoër totale aantal knolle oor die groeiseisoen. Die oesinterval het ook ‘n effek gehad op die fosfaat en koper konsentrasie van die miniknolle. Om die effek van die Kalsium (Ca) toedieningspeil te ondersoek is aartappel plantjies; kultivars Up-to-date, Mnandi, Buffelspoort en BP1 gekweek by vier verskillende Ca peile (8.40, 6.75, 5.10 en 3.45 meq/L). Die interaksie tussen Ca toedienings peile en kultivars het ‘n beduidende effek gehad op die persentasie stolon vertakking. BP1 het meer stolons gehad by die laagste Ca toedieningspeil en Buffelspoort het meer stolons gehad by die volle Ca toedieningspeil. Die hoogste opbrengste is egter waargeneem by die laagste Ca toedieningspeil. Die aantal miniknolle en oes massa was drie keer meer vir Mnandi.
‘n Aeroponiese studie op die besproeiingsfrekwensie (20, 30, 40 en 50 minuut intervalle) is gedoen met vier aartappel kultivars (Up-to-date, Mnandi, Buffelsoort en BP1). Beduidende verskille is opgemerk in die interaksie tussen besproeiings frekwensie en kultivars vir die persentasie plante met knolle en stolon en knol droë massa. Met besproeiings elke 40 minute het 48% van die Buffelspoort plante knolle produseer. Plant hoogte is ook beduidend beïnvloed deur die interaksie tussen besproeiingsfrekwensie en aartappel kultivar met Mnandi plante wat hoër was wanneer dit elke 30 minute besproei is. Die totale aantal knolle en knol vars- en droë massa was hoër wanneer daar elke 20 minute besproei is. Die interaksie tussen besproeiings frekwensie en kultivars op die makro- en mikro element inhoud van die knolle was nie beduidend vir natrium en yster nie, maar wel vir fosfaat, kalium, kalsium, sink en aluminium. ‘n Potproef is gedoen in ‘n kweekhuis waar aartappel saad van BP1 verkry vanaf die eerste proef nadat knolle verdeel is in verskillende grootte klasse (klein: < 20mm, medium: 20-40mm en groot: >40mm) en gestoor is by drie verskillende temperature (3, 16 en 25oC) vir 2 addisionele maande voor plant. Spruit ontwikkelings kapasiteit was meestal beïnvloed deur temperatuur ten spyte van ander behandelings soos oes intervalle en knol grootte. Die hoër bergings temperatuur 25oC het aanleiding gegee tot knolle met ‘n hoër aantal spruite, langer spruite en ‘n hoër spruit ontwikkelings kapasiteit.
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Nitrogen management strategies for mixed pastures in the Winelands sub-region of the Western CapeBester, Carien 04 1900 (has links)
Thesis (MScAgric)--Stellenbosch University, 2014. / ENGLISH ABSTRACT: Three different pasture mixtures were established under irrigation at the Elsenburg research farm with the aim of devising nitrogen (N) management strategies for pastures in the Winelands sub-region of South Africa. The pasture mixtures were as follows: i) a mixed grass pasture consisting of perennial ryegrass (Lolium perenne), tall fescue (Festuca arundinaceae) and cocksfoot (Dactylis glomerata); ii) a grass-clover pasture consisting of perennial ryegrass, tall fescue, cocksfoot and red and white clover (Trifolium pratense and Trifolium repens); and iii) a grass-lucerne pasture consisting of perennial ryegrass, tall fescue and lucerne (Medicago sativa). The effect of fertiliser N on selected nutritive characteristics was also evaluated. The grass-legume pastures were subjected to two management strategies: the once-off application of N and the consecutive application of N over the autumn-early spring period.
The reaction of the mixed grass pasture to applied N was mostly characterised by an interaction between the season of N application and N application rate. The productivity of the pasture in terms of the primary dry matter production (PDMP) and the total dry matter production (TDMP) was highest in spring and summer with the application of 60 – 80 kg N ha-1, and decreased in autumn and winter. There was a strong response of the winter residual dry matter production (RDMP) to N, which indicated that not all applied N was utilised during the first regrowth cycle, which might present a risk of nitrate being leached below the root zone. The botanical composition of the mixed grass pasture was determined by season of N application, and not N application rate. The tall fescue content was low over all seasons, presumably due to poor establishment and strong competition from accompanying species. In the cooler months perennial ryegrass and tall fescue was the dominant species, while in the warmer months cocksfoot was the main species. Nitrogen application also had a significant effect on the quality of the pasture, most notably the crude protein (CP) content. The response of the CP content was characterised by a strong interaction between season of N application and N application rate. Crude protein levels in excess of 22 % were recorded in autumn and winter with the application of 40 – 80 kg N ha-1. Other characteristics remained within the expected range.
The response of the grass-clover and grass-lucerne pastures in terms of productivity and nutritive characteristics were mainly determined by the season of N application, and not N application rate. Productivity tended to be highest in autumn and early spring for both the once-off and the consecutive N application strategies, emphasizing the effect of temperature on pasture growth.
The effect of season of N application and the N application rate on the botanical composition of the respective pastures were inconsistent over the two years of the study. The clover content tended to decrease in response to increasing rates of N, while the grass fraction was stimulated. Lucerne productivity decreased from autumn through winter and reached minimum levels in early spring, and was unaffected by fertiliser N rate. The legume component in both the grass-clover and grass-lucerne pastures remained above recommended levels of 20 – 40 % for optimum animal production, even when N was applied consecutively.
The nutritive characteristics measured (dry matter (DM) content, CP, in vitro organic matter digestibility (IVOMD)) remained within the expected range, except the total CP content which was very high in the first year (> 30 %), although N application rate did not have a significant effect. Based on these findings, preliminary recommendations for N fertilisation (on low carbon soils) for a mixed grass pasture is 40 kg N ha-1 during autumn and winter and 60 kg N ha-1 in spring and summer. Based on the poor response of the grass-legume pastures to applied N it is doubtful whether fertilisation will lead to an economical advantage, but low rates of approximately 40 kg N ha-1 could be beneficial in a grass-clover pasture during autumn and late winter/early spring based on the relatively strong response of PDMP to N during this period. / AFRIKAANSE OPSOMMING: Drie verskillende weidingsmengsels is onder besproeiing te Elsenburg proefplaas gevestig met die doel om stikstof (N) bestuurstrategieë te ontwikkel vir aangeplante weidings in die Wynland distrik van die Wes-Kaap van Suid Afrika. Die weidingsmengsels was as volg: i) ‘n gemengde gras weiding bestaande uit meerjarige raaigras (Lolium perenne), langswenkgras (Festuca arundinaceae) en kropaargras (Dactylis glomerata), ii) ‘n gras-klawer weiding bestaande uit meerjarige raaigras, kropaargras, langswenkgras, wit - en rooi klawer (Trifolium pratense en Trifolium repens), en iii) ‘n gras-lusern weiding bestaande uit meerjarige raaigras, langswenkgras en lusern (Medicago sativa). Die effek van stikstof bemesting op sekere kwaliteitsaspekte van die onderskeie weidings was ook geëvalueer. Die gras-peulplant weidings was onderworpe aan twee bestuurstrategieë, naamlik die eenmalige toediening van N en die agtereenvolgende toediening van N bemesting tydens die herfs – lente periode.
Die reaksie van die gemengde gras weiding op N bemesting was hoofsaaklik gekenmerk deur ‘n interaksie tussen die N bemestingspeil en die seisoen van N toediening. Die produktiwiteit van die weidings i.t.v. die primêre droeëmateriaal produksie (PDMP) en die totale droeëmateriaal produksie (TDMP) was die hoogste in die lente en somer met die toediening van 60 – 80 kg N ha-1 en het in herfs en winter afgeneem. Daar was n sterk respons van die winter residuele droeëmateriaal produksie (RDMP) teenoor N, wat aandui dat nie alle toegediende N tydens die eerste hergroei periode benut was nie en dus ‘n moontlike risiko van loging inhou. Die botaniese samestelling van die gemengde gras weiding was deur die seisoen van N toediening bepaal, en nie die N bemestingspeil nie. Die langswenkgras inhoud was baie laag in alle seisoene, vermoedelik a.g.v. swak vestiging en sterk kompetisie van gepaardgaande spesies in die mengsel. Tydens die koeler seisoene van die jaar was meerjarige raaigras en langswenkgras die dominerende spesies, terwyl kropaargras tydens die warmer maande gedomineer het.
Stikstof toediening het ook ‘n betekenisvolle effek op die kwaliteit van die weiding gehad, veral die ru-proteien (RP) inhoud. Die respons van RP was weereens gekenmerk deur ‘n betekenisvolle interaksie tussen die seisoen van N toediening en die N peil. Ru- proteien vlakke hoër as 22% was tydens herfs en winter waargeneem met die toedieningspyle van 40 – 80 kg N ha-1. Ander kwaliteits- eienskappe het binne normale perke gebly.
Die respons van die gras-klawer en gras-lusern weidings in terme van produktiwiteit en kwaliteitseienskappe was hoofsaaklik deur die seisoen van N toediening bepaal, en nie deur die N bemestingspeil nie. Die produktiwiteit was die hoogste tydens herfs en vroeë lente vir beide die eenmalige en die herhaalde N toedieningsstrategieë. Hierdie bevindinge beklemtoon die belangrike effek van temperatuur op die groei en produksie van weidingsgewasse.
Die effek van seisoen van N toediening en N peil op die botaniese samestelling van die gras-peulgewas weidings was inkonsekwent oor die twee jare van die studie. Die klawer-fraksie was geneig om af te neem soos wat die N peil toegeneem het, terwyl die gras-fraksie toegeneem het. Die lusern-inhoud het van herfs tot lente afgeneem en was ongeaffekteer deur die N peil. Die peulgewas-inhoud van beide weidingsmengsels was deurentyd hoër as die voorgeskrewe minimum vlak van 20 – 40%, selfs met opeenvolgende N-toediening.
Die kwaliteitseienskappe gemeet in die studie (droeëmateriaal (DM) inhoud, RP en in vitro organiese materiaal verteerbaarheid (IVOMV)) het binne normale perke gebly, behalwe die totale ru-proteien (TRP) inhoud wat baie hoog was tydens die eerste jaar (>30%), alhoewel dit nie deur die N peil beinvloed was nie. Aan die lig van bogenoemde bevindinge is die voorlopige aanbeveling vir N- bemesting (op lae koolstof gronde) van ‘n gemengde grasweiding 40 kg N ha-1 tydens die herfs en winter en 60 kg N ha-1 tydens lente en somer. Gebasseer op die swak respons van die gras-peulgewas weidings op toegediende N, is dit twyfelagtig of N toediening enige ekonomiese voordeel vir die boer sal inhou. Gebaseer op die relatiewe sterk respons van die gras-klawer PDMP op toegediende N tydens herfs en laat winter/vroeë lente kan dit moontlik voordelig wees om lae N-vlakke van ongeveer 40 kg ha-1 tydens hierdie seisoene toe te dien.
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