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Studies With Triazoles to Alleviate Drought Stress in GreenHouse-Grown Maize (Zea mays) SeedlingsBatlang, Utlwang 06 June 2006 (has links)
In semi-arid environments, dry-land farming often exposes crops to drought stress. Although some plant species are well adapted to drought, most crops are not. Drought can reduce plant populations and limit growth and development in ways that have serious yield consequences. Planting at the beginning of the wet season, when rainfalls are often sporadic and unreliable, can expose young maize seedlings to severe drought. Through the use of plant growth regulators (PGR), maize seedlings can perhaps be altered to elicit responses that mimic drought adaptation mechanisms. A series of studies conducted in the laboratory and greenhouse looked at the response of maize seedlings (two hybrids that differed in their reported drought sensitivity) to severe drought and to PGR applications with or without drought. Results showed that drought stress altered plant morphology and key physiological parameters. Applications of three triazoles (paclobutrazol, uniconazole and tetraconazole) altered morphology and physiology in ways that might impart drought resistance. Paclobutrazol and uniconazole increased root:shoot ratio in laboratory studies and in the greenhouse. When compared to non-triazole-treated controls, uniconazole and paclobutrazol treatments caused water conservation in earlier stages of drought stress, and therefore afforded increased transpiration (and presumably less stress) at later stages. Uniconazole and tetraconazole increased photosynthesis of well-watered plants. Proline content was increased to a greater degree by these same two triazoles under drought stress conditions. It is hoped that knowledge obtained from these studies can be extended to drought-prone areas where maize dry-land farming is practiced. / Master of Science
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Physiological and gene expression responses to water stress in drought tolerant and drought sensitive maize cultivars.O'Regan, Brian Patrick. January 1996 (has links)
Physiological characteristics of the response to water stress of two maize cultivars, the
one drought resistant (PAN473) and the other drought sensitive (SR52), were compared.
Mature plants were grown in one of two treatments, control and water stress. The drought
resistant cultivar had a higher growth rate and a greater amount of roots in the lower soil levels
than the drought sensitive cultivar in the water stress treatment. There was no difference
between the cultivars in physiological characteristics in the control treatment, but in the water-stress
treatment the drought resistant cultivar had a higher transpiration rate during the onset
of water stress, and higher relative water content and levels of abscisic acid and proline
throughout the period of water stress. A comparison between the cultivars in their gene
expression response was done to determine if a correlation could be made with the difference
in physiological response. A differential screening of water stress cDNA libraries identified nine
different cDNA species which gave a signal with the water stress probe but not the control
probe. Three of these cDNAs were represented by more than one cDNA clone. The cDNAs
occurred in both libraries, therefore there was no difference between the cultivars in the
presence or absence of the water stress responsive genes. The three genes represented by these
cDNAs were named rws7, rws16 and rws5. All three genes showed increased transcription in
response to water stress in whole plants, and to desiccation and osmotic stress of detached
leaves. No increase in transcription was found in response to exogenously applied abscisic acid
or proline. No difference between the cultivars was observed in the pattern of transcription
response. Two of the three cDNA species that are represented more than once were
sequenced. Rws7 had an open reading frame. A BLAST search found no homologous amino
acid sequences, but the characteristics of the polypeptide suggest that it is a dehydrin. Rws 16
had a partial coding sequence. A BLAST search found two homologous amino acid sequences,
and both were chloride channel proteins. The remaining seven cDNA species were sequenced
at their 5' ends, and no complete homologous nucleotide sequences were found. / Thesis (Ph.D.)-University of Natal, Pietermaritzburg, 1996.
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Consumer acceptability and perceptions of maize meal in Giyani, South AfricaKhumalo, Teclah Paul 13 June 2008 (has links)
This study was concerned with the level of acceptability and perceptions of three types of commercially produced roller-milled white maize meal namely: sifted unfortified, sifted fortified and super fortified versus hammer-mill produced white and yellow maize meal (with and without fibre) among Shangaan consumers in Giyani in the Limpopo Province, South Africa (SA). The local households produce maize grain on a small scale or buy it from small scale farmers and take it to the local small scale millers for milling for a fee. The 48 participants for this project were female consumers (eighteen years old or older). The study was divided into two phases. The aim of the first phase was to determine the difference if any in acceptability of the sensory attributes of the various maize meal types. It employed a sensory evaluation technique which is a quantitative scientific method in which numerical data was collected and analysed in order to determine and compare consumer acceptability. The aim of the second phase was to discuss the perceptions of these consumers in relation to the products and employed focus-group interviews. During phase one maize meal porridge was prepared by local community volunteers under careful supervision in a standardized manner. The porridge was served warm: two samples at a time, marked with 3-digit random codes. None of the participants had any prior information pertaining to the samples they were tasting at any time. The identity of the samples were only revealed during the focus-group interviews (phase two). Consumers preferred (liked) white sifted fortified maize meal porridge on a double blind basis more than the white sifted unfortified maize meal porridge. Hammer-mill white and hammer-mill yellow maize porridge with fibre were equally disliked by participants. There was no significant difference in the acceptability of hammer-mill white compared to yellow maize meal without fibre. No significant difference was found in preference for aroma, colour, consistency and taste between white sifted unfortified and super fortified maize meal compared to white hammer-mill maize meal without fibre. The difference in taste preference can only be attributed to the fortificant that is added commercially to the maize meal. This is quite a significant finding and different to that measured prior to the implementation of the SA National Fortification Scheme, where no impact on taste was measured. Furthermore, consumers’ preference for fortified maize meal on a double blind bias is in contrast to previous findings of research indicating a degree of dislike among consumers regarding fortified maize meal, according to maize millers’ opinion. During phase two focus-group interviews were conducted immediately following phase one. The participants sat in a cluster for these interviews. The qualitative data was transcribed verbatim into text for analysis and discussion of results. At least 40 out of 48 consumers stated that they liked the hammer-mill yellow maize meal porridge in terms of aroma, colour, texture, taste and for its nutritional value. Those in Homu 14 village stated that if the price of roller-mill maize meal was similar to that of yellow maize meal they would buy both maize types as they liked them equally but those in Mahlathi would buy yellow maize meal for nutritional reasons. / Dissertation (MConsSci (General))--University of Pretoria, 2008. / Consumer Science / unrestricted
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Assessment of agro-ecosystem sustainability across varying scales in South Africa.Walker, Nicholas James. January 2005 (has links)
Maize production plays an important socio-economic role in rural communities of the Highveld
region of South Africa, yet it is becoming increasingly difficult to produce maize economically
with current agricultural policy conditions and existing management systems. This has direct
socio-economic impacts for both commercial farmer and small-scale farmer. Sustainable
commercial maize production is not only a question of yields, but also of protection of the
environmental resource base, social welfare, and the livelihoods of farmers per se as well as
the surrounding rural and urban communities. Sustainability for the small-scale farmer, on the
other hand raises questions of equity, economic viability and household food security.
Therefore, information is required to ascertain whether an existing agro-ecosystem can be
identified as sustainable, and what facets of that system make it sustainable or
unsustainable. To begin to answer these key questions it is important to state, and to some
extent attempt to standardise, the definitions of agricultural sustainability.
Agro-ecosystem sustainability with regard to maize production was assessed at the regional
scale of the Highveld of South Africa as well as at, the Quaternary Catchment scale and the
smallholder farm scale. Von Wiren-Lehr's (2001) goal orientated system was considered an
appropriate and practical system by which agro-ecosystem sustainability across a range of
scales could be investigated.
At the regional scale, optimum management strategies for each of the 497 Quaternary
Catchments in the Highveld region were devised, based on present climatic conditions and
using an index which was based on mean yields and yield variability. Economic returns and
their impact on sustainability were then also assessed under plausible future climate
scenarios.
At the Quaternary Catchment scales optimum management strategies were ascertained by
using a sustainability index. These strategies were then modelled under present and
plausible future climate scenarios. The results from the sustainability modelling showed that a
maize crop will benefit, especially with respect to mean grain yields, from an effective
doubling of atmospheric CO2 concentrations. However, this benefit can be counteracted when
there is a concurrent increase in temperature, particularly of 2°C or more.
At the smallholder scale, a range of management options was assessed. These options
included several types of tillage practices in combination with applications of either inorganic
fertiliser or manure. The management strategies were modelled under present climate
conditions and under plausible climate change scenarios for southern Africa. The
conventional tillage type (disc) was ranked highest under most of the climatic conditions
modelled, including present climate conditions. This was in contrast to actual yields from
smallholder farmers (-1 ha field size) in the Potshini area, near Bergville in the KwaZuluNatal
province of South Africa, who have experienced an increase in yield when conservation
tillage practices have been used on their land (Smith et al., 2004).
The sustainability of agro-ecosystems depends on the maintenance of the economic,
biophysical and social components that make up the system (Belcher et al., 2004). The
modelling performed for the Highveld region built on previous work and for the first time
incorporated daily temperatures and ISCW soil information into CERES-Maize. The intention
was to incorporate other agro-ecosystem functions, as well as yield, into the sustainability
assessment. Only limited research has previously been carried out in South Africa with
respect to modelling smallholder agro-ecosystems and sustainability. This research sought to
model the smallholder system along with the impacts that climate change would have on
sustainability and associated food security. / Thesis (Ph.D.)-University of KwaZulu-Natal, Pietermaritzburg, 2005.
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Investigation of heterotic patterns and genetic analysis of Downy mildew resistance in Mozambican lowland maize (Zea mays L.) germplasm.Fato, Pedro. January 2010 (has links)
In Southern Africa and Mozambique, tropical lowland accounts for 22% and 65%,
respectively, of area under maize production, but grain yield is compromised by downy
mildew disease (DM, which is caused by Peronosclerospora sorghi (Weston and Uppal)
Shaw), and lack of appropriate varieties, especially hybrids. Among other factors,
productivity can be enhanced by deploying DM resistant hybrids, which are higher yielding
than open pollinated varieties. Development of a viable hybrid-breeding programme
requires knowledge of genetic effects governing yield and DM resistance in inbreds, and
effective germplasm management requires heterotic groups and heterotic patterns to be
established. In addition, knowledge of farmer-preferred traits is required. Currently, such
information is not available to the hybrid-breeding programme in Mozambique. The
objectives of this study were, therefore; i) to identify farmers’ preferred variety traits and
major production constraints, ii) to determine combining ability effects of inbred maize S4
lines for grain yield and DM resistance, iii) to determine heterotic groups and heterotic
patterns among the elite inbred maize lines, and iv) to investigate gene effects governing
resistance to DM in breeding source inbred maize lines from the breeding programme in
Mozambique.
During 2007/08, 142 households were involved in a survey conducted in three
districts representing two maize agro-ecological zones in Mozambique. Formal surveys and
informal farmer-participatory methods were employed and data subjected to analysis in the
SPSS computer programme. Results indicated that there was a low utilization of improved
varieties, especially hybrids, with grain yield estimated at 0.7 t ha-1. Farmers were aware of
the major production constraints and could discriminate constraints according to their
importance for their respective communities. For the lowland environment, farmers
identified downy mildew, drought, and cutworm and stem borer damage as the main
constraints. In contrast, for the high altitude environments, they ranked ear rot, seed and
fertilizer availability, turcicum leaf blight, grey leaf spot diseases and low soil fertility among
the major constraints limiting productivity. The most important variety selection criteria were
grain yield, short growth cycle, white and flint grain with stress tolerance to drought, low soil
fertility, diseases, and grain weevils. These afore mentioned traits, would be priority for the
breeding programmes for the lowland and mid altitude environments in Mozambique.
To determine combining ability for downy mildew resistance, heterotic groups and
heterotic patterns, two testers (open-pollinated varieties) ZM523 (Z) and Suwan-1 (S), were
crossed with 18 lines to generate 36 top crosses for evaluation. Crosses were evaluated at
two sites under DM. Preponderance of GCA effects indicated that additive gene effects were
more important than non-additive gene effects in governing both grain yield and downy
mildew resistance in the new maize lines. Based on specific combining ability (SCA) data,
lines for yield were classified into two heterotic groups, S and Z; whereas based on
heterosis data, lines were fitted into three heterotic groups (S, Z and SZ).
Further heterotic patterns and gene action for yield were determined by subjecting
nine inbred lines and the two testers, S and Z, to an 11 x 11 diallel-mating scheme. The
diallel crosses, three hybrid checks and the two testers were evaluated in six environments
in Mozambique. Results revealed that non-additive gene effects were predominant for yield
components. In addition, high levels of heterosis for yield was observed and three heterotic
groups identified (Z, S and S/Z), and five exceptional heterotic patterns among the inbred
elite maize lines were observed. Topcrosses with yield levels comparable to single cross
hybrids were also identified, and these would be advanced in the testing programme with
potential for deployment as alternative cheaper and sustainable technology to conventional
hybrids for the poor farming communities in Mozambique.
To determine gene effects for downy mildew resistance in potential breeding lines,
two maize populations were derived from crosses between downy mildew susceptible line
LP67, and resistant lines DRAC and Suwan-L1. To generate F2 and backcross progenies
(BCP1 and BCP2), F1 progenies were self-pollinated and simultaneously crossed to both
inbred parents (P1 and P2). All the six generations (P1, P2, F1, F2, BCP1, and BCP2) of
the populations were evaluated at two sites under downy mildew infection. A generation
mean analysis was performed in SAS. It was revealed that downy mildew resistance was
influenced by genes with additive and dominance effects, plus different types of epistatic
effects such as additive x additive, and dominance x dominance. Overall results indicated
that genes with predominantly non-additive effects controlled resistance in DRAC, whereas
resistance in Suwan-L1 was largely influenced by additive gene effects. These findings
have serious implications on the effective use of these downy mildew resistance sources in
breeding programmes that aim to generate varieties with downy mildew resistance.
Overall, results suggested that inbreeding and selection within heterotic groups,
followed by hybridization between inbreds within and across heterotic groups would be
effective to generate new hybrids. The breeding programme will consider development of
conventional hybrids, such as single crosses and three way crosses, and top crosses.
Implications of the findings of the study and recommendations are discussed. / Thesis (Ph.D.)-University of KwaZulu-Natal, Pietermaritzburg, 2010.
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Phytate related response of maize seed to phosphorus and temperature.Asanzi, Nafabuanga Mireille. January 2006 (has links)
The aim of the study was to determine the effect of day/night temperatures (22/l6°C,
2712l oC and 33/27°C) and phosphorus levels (0, 0.12 and 1.2g per 20 kg soil) on seedling
establishment and seed viability during three stages of seed development (15, 22 and 33
days after flowering) for seed of normal and quality protein maize cultivars. Soluble
carbohydrate accumulation and mineral element content were determined using
environmental scanning electron microscopy (ESEM) in relation to seed phytate levels
and seed germination capacity at different stages of development. Leaf emergence rate
and plant height during seed development were significantly (P < 0.05) influenced by
temperature and phosphorus nutrition. Phosphorus in seed is stored primarily in the form
of phytic acid, also known as phytate. Accumulation of phytate takes place during
maturation phase of seed development. Phosphorus nutrition and temperature also caused
a.significant (P < 0.05) increase in seed germination at all stages of seed development.
Furthermore, phosphorus nutrition and temperature influenced occurrence of soluble
carbohydrates in seeds. Myo-inositol, the sugar alcohol that forms the basic structure of
phytate, was increased by P nutrition and increasing growth temperature. Whereas, QPM
maize was generally found to perform poorly than normal maize, with respect to phytate
content, seed germination and seedling establishment, both cultivars displayed the same
responses to phosphorus nutrition and temperature. In both cultivars, globoids, the sites
of phytate synthesis and storage, were found only in the embryonic axis. Subsequently,
there were significantly low levels of mineral elements (P, Mg and K) found in the
endosperm, compared with embryonic axis. This finding suggested that the embryonic
axis plays a major role in seed performance, through its effects emanating from phyate
metabolism. Myo-inositol plays a role in membrane biogenesis during stress conditions
such as temperature by maintaining the integrity of the cell wall and minimizes the
leaching of cations essential during germination.
Myo-inositol, although it occurs in small concentrations, could be used to indicate seed
quality in maize, because its accumulation was found to be associated with enhanced
phyate levels and better seed germination in a wide range of temperatures. Low vigour
seeds are associated with high electrolyte leakage during imbibition. Mineral elements
form a significant portion of the imbibition leachate, which causes seeds to lose nutrients
for early seedling growth. This study provided evidence that phosphorus nutrition can
alleviate poor seed vigour of maize by improving phytate levels. / Thesis (M.Sc.)-University of KwaZulu-Natal, Pietermaritzburg, 2006.
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The impact of food aid on maize production in Swaziland.Mabuza, Majola Lawrence. 17 August 2010 (has links)
The objective of the study was to provide empirical evidence on whether food aid leads to depressed domestic maize prices and reduced maize production in subsequent years in Swaziland. Similar impact studies have been carried out in a number of sub-Saharan African countries but no evidence is available for Swaziland. The lack of empirical evidence has often resulted in premature negative conclusions on the impact of food aid on Swaziland’s maize industry. The study used secondary national data from 1985 to 2006 to analyse the impact of food aid on maize producer prices and quantity of maize produced. Variables used in the analysis included quantity of cereal food aid; quantity of commercial maize imports; quantity of locally produced maize; official maize producer price; open market maize producer price; fertilizer price; fuel price; rainfall; and total area planted to maize. The impact of food aid was measured using the reduced form market equilibrium model that consisted of maize quantity and maize producer price functions estimated simultaneously using the above variables through the two-stage least square method (2SLS) method. Analytical results revealed that food aid to Swaziland does not lower prices of domestic maize and has no significant negative effect on the quantity of maize produced in subsequent seasons. This means that food aid received by Swaziland over the study years has been appropriately targeted and distributed to the food insecure households. If this were not so, the demand for food from commercial outlets would have been reduced, leading to an adverse impact on maize producer prices, and subsequent local maize production. Notwithstanding the above results, Swaziland should still commit resources towards reducing the national food gap. This calls for increased investment in rural irrigation development, improved farmer institutional support services, and the implementation of pro-poor development programs aimed at improving individual household income to reduce the need for food aid, improve food self-sufficiency and vulnerability to food security. / Thesis (M.Sc.)-University of KwaZulu-Natal, Pietermaritzburg, 2007.
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Breeding investigations for resistance to Phaeosphaeria Leaf Spot (PLS) and other important foliar diseases and a study of yield stability in African maize germplasm.Sibiya, Julia. January 2009 (has links)
Abstract not available. / Thesis (Ph.D.)-University of KwaZulu-Natal, Pietermaritzburg, 2009.
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Breeding investigations of maize (Zea mays L.) genotypes for tolerance to low nitrogen and drought in Zambia.Miti, Francisco. January 2007 (has links)
Low soil nitrogen (N) and drought impede maize production in the small-scale farming
sector in Zambia; and adoption of new cultivars with improved tolerance might enhance
production. This study: a) assessed farmer preferences for maize cultivars; b)
determined genotype x environment interaction effects among popular maize cultivars
under contrasting soil fertility levels and; c) investigated landraces for tolerance to low N
and drought using S1 selection. The study was carried out in Zambia from 2004-07.
Farmer preference influencing the adoption of maize cultivars was investigated using
both formal and informal surveys in Luangwa, Chibombo and Lufwanyama rural districts
representing the three agro-ecological regions of Zambia. Focus group discussions and
personal interviews were used to collect data on issues that affected maize production in
these areas. It has been found that although farmers perceived landraces to be low
yielding, they believed that they were superior to improved cultivars for: tolerance to
drought; tolerance to low soil fertility; grain palatability; grain storability; and poundability.
The need for food security, their inability to apply fertiliser, and their need for drought
tolerant cultivars significantly (p ≤ 0.05) influenced farmers in adopting cultivars. The
farmers would readily adopt cultivars that address these concerns. The predominant use
of certain landraces (76%) reflected their superiority in meeting some of these needs.
The performance of nine popular cultivars (three for each of hybrids, OPVs and
landraces) under contrasting levels of soil fertility, across six environments (ENVs) in the
three agro-eological regions, was evaluated. An ENV was defined as season x location
combination. The fertilizer treatments were full fertilization, basal dressing, top dressing
and nil fertilization. The cultivars exhibited significant non-crossover type of genotype x
fertilisation interaction effects at three ENVs, while the genotype x fertilisation interaction
effects, were non-significant at the other three ENVs. The cultivars exhibited dynamic
stability by increasing grain yield (GY) when fertilization was increased. Landraces
yielded higher than all open pollinated varieties and were generally higher yielding than
two hybrids. Based on average rank for GY, the five highest yielding cultivars were
MRI724, Gankata, MM603, Kazungula and Pandawe. Superiority of landraces revealed
their genetic potential for GY under low soil fertility and they should be used as
germplasm in developing cultivars targeting such environments.
Ninety-six local landraces were selfed to generate S1 lines (2004/05 season) which were
crossed to a tester (2005/06 season). Testcrosses were evaluated under optimal, low N,
and drought conditions (2006/07 season). Data on GY, anthesis-silking interval, number
of ears per plant, leaf senescence, leaf rolling, tassel size and grain texture were
recorded in all the trials during the study period. Testcrosses, their S1 parents and
landraces that were superior under low N, drought, optimal conditions and across
environments were identified; these should be used to develop varieties targeted to a
particular environment. Selection for tolerance to drought also selected for tolerance to
low N. Selection for low N tolerance also selected for GY under drought and optimal
conditions. Therefore, in selecting for tolerance to abiotic stresses, use of optimal and
managed stress environments was effective. The following landraces were superior at
10% selection intensity: LR38, LR84 and LR86 (optimal, low N and drought conditions);
LR11, LR35 and LR76 (low N and drought conditions); LR12 (optimal and drought
conditions); LR40 and LR93 (low N conditions only); LR79 (drought conditions only) and;
LR74 and LR85 (optimal conditions only). These landraces should be used as source
germplasm targeting respective environments.
Significant (p ≤ 0.05) positive general combining ability effects for GY under both low N
and drought conditions were found implying that additive gene action conditioned GY
under the abiotic stresses. The heritability for GY under low N (0.38), and drought (0.17)
conditions, was low suggesting that selection based on GY alone was not effective. The
genetic correlation for GY between optimal, and either low N (rG=0.458), or drought (rG =
0.03) environments, was low (rG < 0.5) suggesting that indirect selection would not be
effective either. Therefore, use of secondary traits for selection is discussed.
The study established that most farmers depended on local landraces for seed and
would adopt low input improved varieties that yield higher than the landraces. Some
landraces were found superior to some improved cultivars under contrasting fertilisation
regimes. The study also found that landraces had genetic variation for tolerance to low N
and drought. Landraces, S1 lines and testcrosses superior under low N, drought, optimal
conditions and across environments were selected and they should be used to develop
cultivars targeting respective environments. Policy implications of these results are
discussed. / Thesis (Ph.D.)-University of KwaZulu-Natal, Pietermaritzburg, 2007.
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Breeding investigations for resistance to Phaeosphaeria Leaf Spot (PLS) and other important foliar diseases and a study of yield stability in African maize germplasm.Sibiya, Julia. January 2009 (has links)
Maize (Zea mays L.) yields in the smallholder (SH) farming sector in Southern Africa have remained low. despite the availability of many improved varieties. Among the major constraints contributing to tow yields and threatening food security in the region are diseases which include grey leaf spot (GLS). common rust, northern corn leaf blight (NLB) and Phaeosphaeria leaf spot (PLS). These diseases are highly unpredictable in their occurrence every season, making them difficult to control. In addition, the majority of SH farmers cannot afford to control the diseases due to limited access to chemicals. Therefore, maize cultivars with high levels of disease resistance and tolerance to abiotic stresses would provide a long-term solution to addressing the problem of low yields, especially in the smallholder-farming sector. The objectives of this study were therefore to: i) establish farmers' perceptions on diseases, key limiting production constraints and preferred traits of maize cultivars. ii) screen germplasm adapted to tropical environments for resistance to PLS, iii) determine gene action for resistance to PLS and GLS, iv) estimate combining ability effects for resistance to PLS, GLS, NLB and common rust diseases, and v) determine grain yield stability of F, hybrids derived from crosses among selected tropical advanced maize inbred lines. These studies were conducted from 2006/7 to 2008/9 seasons at various sites in South Africa, Zimbabwe, Zambia and Uganda. Structured surveys and participatory rural appraisal (PRA) conducted in Obonjaneni. Busingatha and Okhombe villages of Amazizi district in the Northern Drakensberg established maize as the principal crop grown in the area. All the farmers who participated grew the local variety (landrace) they called Natal-8- row or Is/Zulu. The adoption of hybrids and improved open pollinated varieties (OPVs) was tow. Farmers preferred the local variety ahead of hybrids and improved OPVs mainly for its taste, tolerance to abiotic stresses and yield stability. Characteristics of maize varieties preferred by the farmers included: inexpensive seed, high yield, early maturity and tow input costs. Pests/d is eases and drought were not ranked highly, as farmers planted early to escape diseases and drought. Abiotic stresses were amongst the top four constraints faced by the farmers. The local varieties exhibited high yield potential and genetic variability fordisease resistance. Evaluation of maize germplasm adapted to tropical and subtropical environments of Africa for PLS resistance indicated significant (PS0.05) variation among the inbreds. populations and hybrids. In general, 63% of the inbreds/populations were resistant to PLS. Regionally important inbred lines; SC and N3 and CIMMYT's most successful lines such as CML395. CML444. CML202. CML312. and CML488 were resistant to PLS. Fifty- four percent of the single-cross experimental hybrids were also resistant to PLS. Correlation coefficients for area under disease progress curve (AUDPC) values for disease severity with PLS final disease severity scores were significant (P<0.001) and positive, implying that ranking of the genotypes for AUDPC and final PLS disease severity score was by and large similar. Forty five F, hybrids generated by crossing ten advanced maize inbred lines in a half diallel mating scheme were evaluated in two to six environments to determine combining ability, gene action and heterosis estimates for grain yield and resistance to PLS. GLS. NLB and common rust diseases. Highly significant (PS0.001) general combining ability (GCA) and specific combining ability (SCA) effects were observed for PLS. GLS. NLB. common rust, grain yield and other agronomic traits. The GCA effects were more important than SCA effects, indicating the predominance of additive over non-additive gene action for all the traits studied in these inbred lines. The inbred lines with good GCA for PLS resistance were: A12204, N3. A16. MP18 and CML488. and for GLS resistance were A1220-4. CZL00009. CZL00001. CML205 and CML443. Lines A16 and CML443 had good GCA for NLB and common rust resistance, lines A1220-4, N3, CML205, A16, and CML443 contributed towards high yield. Lines A1220-4 and A16 were late maturing, whereas CZL00009 displayed eariy maturity. High mid-parent and better-parent heterosis for high grain yield and resistance to all the diseases were observed. Generation mean analysis was used to deteimine the inheritance of PLS and GLS resistance in populations involving six tropical advanced maize inbred lines. Reciprocal crosses and backcross progenies were generated among inbreds A1220-4, A15, B17 (resistant. R), CML445 (moderately resistant. MR). CML441 and CZL00001 (susceptible. S) for PLS inheritance, and among inbreds A1220-4. A15, CML441 (resistant. R). and N3 and B17 (susceptible. S), for GLS inheritance. Results indicated highly significant additive effects (P<0.001) for PLS and GLS resistance, with dominance effects accounting forSH%of the variation in all the crosses for PLS and only A15 x B17 cross for GLS. Epistasis and cytoplasmic gene effects in favour of PLS resistance in F, crosses when the more susceptible parent was used as female were significant. For GLS resistance, epistasis was observed only in CML441 x N3 and A1220-4 x B17 crosses, while no cytoplasmic gene effects were detected. Resistance for PLS was medium to highly heritable and conditioned by less than four genes which exhibited incomplete dominance. In general resistance to GLS was controlled by two to three genes exhibiting zero to partial dominance and was moderate to highly heritable. Stability analysis of the hybrids was done over 11 environments using the additive main effects and multiplicative interaction (AMMI) and the genotype and genotype by environment (GGE) biplot analyses. Both AMMI and GGE biplot analyses selected hybrids H21 (CZL00009 x A16). H14 (A1220-4 x A16). S63 (SeedCo hybrid check). N72 (MP72/N3) and H26 (CZL00001 x A16) as stable and high yielding. Hybrids H1 (CML445 x A1220-4), H44 (CZL00009 x CML443) and H18 (CZL00009 x CZL00001) were identified by both methods as unstable but high yielding. AMMI and GGE biplot analyses identified ZAM08, C108, RAO9 and C09 as the most representative environments which were high yielding and relatively stable. In general, the study has revealed that based on the farmers ranking of the constraints in their area, breeding opportunities do exist for incorporating tolerance to both biotic and abiotic stresses in their varieties. It also identified maize lines resistant to the main foliar diseases, with good combining ability and heterosis for resistance and high grain yield. Hybrids with wide adaptation and high yields across environments were also observed. The experimental hybrids that exhibited high levels of resistance can be recommended for further testing and release. On the whole, highly significant additive effects and moderate to high heritability estimates observed for all the diseases and grain yield implied progress would be made through selection, although significant epistasis and dominance could slow progress. Dominance effects towards resistance and high yield could be exploited in developing single cross maize hybrids among these inbreds when only one parent is resistant. / Thesis (Ph.D.)-University of KwaZulu-Natal, Pietermaritzburg, 2009.
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