Spelling suggestions: "subject:"sorghum -- breeding."" "subject:"sorghum -- reeding.""
1 |
Cytological and inheritance studies of a sorghum cross -(johnsongrass x 4n sudangrass) x autotetraploid sudangrassCasady, Alfred Jackson. January 1950 (has links)
LD2668 .T4 1950 C373 / Master of Science
|
2 |
Transfer of high-lysine trait to adapted sorghum varietiesFjell, Dale Lloyd. January 1978 (has links)
Call number: LD2668 .T4 1978 F58 / Master of Science
|
3 |
Evaluation of selected grain sorghum hybrids (Sorghum bicolor (L.) Moench) and their three successive segregating generations in three different environmentsRaditapole, Moorosi Vernet, 1950- January 1988 (has links)
The introduction of hybrid seed in developing countries may be in conflict with the tradition of saving seed for the next planting. This study evaluates 15 sorghum (Sorghum bicolor (L.) Moench) hybrids and their three successive generations in three environments. Under optimum conditions for all 15 genotypes segregating generations yielded as well as the F1 generation. Under moisture stress and late planting, the F2 generation showed inbreeding depression for yield and kernels per panicle. Height, panicle length and test weight were reduced and flowering was hastened for all segregating generations. Kernel weight was not affected by segregation. This study indicates that under optimal conditions it is possible to find a line among segregating generations of sorghum that is superior to its F1 hybrid.
|
4 |
QUANTITATIVE AND MORPHOLOGICAL CHARACTERISTICS OF NP9BR RANDOM-MATING POPULATION OF SORGHUM AFTER NINE CYCLES OF SELECTION (MALE-STERILITY, DROUGHT, HERITABILITY, ARIZONA).CHIGWE, CHARLES FRANCISCO BRADLEY. January 1984 (has links)
This study sought to determine the effects of reselection on the adaptation of a grain sorghum (Sorghum bicolor (L.) Moench) population to heat and drought. A random-mating population, NP9BR, was subjected to selection under heat and moisture stress for nine generations to improve its resistance to drought. One hundred single plants selected from the original (C₀) and the reselected (C₉) population were grouped by maturity and evaluated for drought resistance by measuring morphological and agronomic characters under wet (normal irrigation) and dry (restricted irrigation) conditions at the University of Arizona, Marana Agricultural Center, Arizona. Eighty of the selections were grown under a sprinkler irrigation gradient system at Yuma Mesa Agricultural Center, Arizona. Selection under drought conditions reduced plant height, head exsertion, leaf width and length, and seed weight of the population. Blooming was evened out from predominantly early in C₀ to early, medium and late maturing in C₉. Moisture stress reduced grain yield by an overall 16%. The medium maturing selections suffered less yield reduction than the early and late. Although C₉ progenies showed a greater reduction in grain yield, several of them produced equal yields in wet and dry treatments. Leaf width and length were significantly correlated (p = .1%) with yield under dry conditions in all maturity groups. Most selections with very short narrow leaves had small heads and low yields. Some with medium leaf width and length out-yielded broad-leaved ones especially under dry conditions. Forty percent of the selections from C₉ had good head production characteristics under the irrigation gradient system, compared to only 20% from C₀. There were four times as many selections in C₀ unable to produce heads under the system as there were in C₉. The majority of genotypes with good head production in both populations came from the early maturing group. The highest grain yields came from C₀ selections but some C₉ selections with comparable yields were observed. This study indicates that phenotypic selection may still have potential for isolating high-yield genotypes from random-mating populations but may be inadequate for separating differences in drought tolerance among genotypes.
|
5 |
INTEGRATING CROP GROWTH MODELS AND REMOTE SENSING FOR PREDICTING PERFORMANCE IN SORGHUMKai-Wei Yang (11851139) 18 December 2021 (has links)
Evaluating large numbers of genotypes and phenotypes in
multi-environment trials is key to crop improvement for biomass performance in
sorghum. In this dissertation, we
developed an approach that integrates crop growth models with remote-sensing
data and genetic information for modeling and predicting sorghum biomass yield.
The goal of studies described in Chapter 2 was to parameterize the Agricultural
Production Systems sIMulator (APSIM) crop growth models with remote-sensing and
ground-reference data to predict variation in phenology and yield-related
traits for 18 commercial grain and biomass sorghum hybrids. These studies
showed that (i) biomass sorghum hybrids tended to have higher maximum plant
height, final dry biomass and radiation use efficiency (RUE) than grain
sorghum, (ii) photoperiod-sensitive sorghum hybrids exhibited greater biomass
potential in longer growing environments and (iii) the parameterized APSIM
models performed well in above-ground biomass simulations across years and
locations. Crop growth models that integrate remote-sensing data offer an
efficient approach to parameterize models for larger plant breeding
populations. Understanding the genetic architecture of biomass productivity and
bioenergy-related traits is another key aspect of bioenergy sorghum breeding
programs. In Chapter 3, 619 sorghum genotypes from the sorghum diversity panel
were individually crossed to ATx623 to create a half-sib population that was
planted and evaluated in field trials in three consecutive years.
Single-nucleotide polymorphisms (SNPs) were used in a genome-wide association
study (GWAS) to identify genetic loci associated with variation in plant
architecture and biomass productivity. A few SNPs associated with these traits
were located in previously described genes including the sorghum dwarfing genes
<i>Dw1</i> and <i>Dw3</i> and stay-green QTLs <i>Stg1</i> and <i>Stg4</i>. Of
particular interest were seven genetic loci that were discovered for biomass
yield. For three of these loci, the minor or uncommon allele exhibited a
favorable effect on productivity suggesting opportunities to further improve
the crop for biomass accumulation through plant breeding. Marker-assisted and genomic selection strategies
may provide tools to introgress and exploit these genes for bioenergy sorghum
development. Since parameterizing biophysical crop models requires extensive
time and manual effort, a simple model was developed in Chapter 4 that used
time-dependent measurements of RGB canopy cover and daily radiation coupled
with end-of-season biomass for estimating seasonal radiation use efficiency
(SRUE) in 619 sorghum hybrids. SRUE was shown to be a stable and heritable trait that has a positive
relationship with aboveground dry biomass (ADB) over seasons. GWAS identified 11 SNPs associated with SRUE with the
favorable effect represented by the minor allele for seven of these SNPs. Increasing the frequency
of these favorable alleles may improve the breeding population. These results
demonstrated that the simple model for calculating SRUE can be used in genetic
studies and for parameterizing biophysical crop models. The studies integrating crop growth models with
remote sensing technologies provide an opportunity to evaluate a large number
of phenotypes for the target population to understand the underlying genetic
variation of bioenergy sorghum.
|
6 |
The impact of induced mutations on key nutritional and agronomic traits of sorghum.Mbambo, Zodwa. January 2013 (has links)
Climate change, shrinking arable land, burgeoning population and malnutrition have made all
aspects of crop improvement a critical issue. Of these, nutritional quality of crops is perhaps
one of the most important aspects. Most cereals consumed in marginal agro-ecological zones
of Africa, for example sorghum and maize are impoverished nutritionally. Given therefore
the sole reliance on and the levels of consumption per day of such staples (up to 450 g/day), it
is clear that most people cannot obtain the recommended daily allowance (RDA) for many
nutrients including fibre, edible oil, protein, vitamins and mineral elements. In this thesis, the
development of a sorghum mutant population using gamma irradiation and the subsequent
employment of various analytical techniques to unravel multiple mutant traits with a
significant positive impact on nutritional enhancement in sorghum is described. Protein
analysis revealed a mutant designated SY accumulating (at the time) the highest ever reported
amount of free lysine (21.6 g/100g) and other essential amino acids and that these changes
were associated with induced protein polymorphisms. Adaptation of proton induced x-ray
emission (PIXE) for the spatial profiling of the distribution of 9 elements in sorghum seed
tissue allowed for the discovery of mutants with variations in the concentrations and
distribution of these elements. The observed changes included enhanced or diminished
accumulation of elements in preferential accumulation tissues and entire changes in cellular
localisation. The locations within a cell and the quantities of an element are often critical
determinants of bioavailability. The accumulation of multiple mutations affecting multiple
nutritional traits in individual mutant sorghum clearly indicates the versatility of gamma
irradiation induced mutations in addressing multiple nutritional challenges of sorghum. This
desirable phenomenon was further demonstrated by electron microscopic analysis of starch
granules and protein bodies across the mutants. Scanning electron microscopy (SEM) and
transmission electron microscopy (TEM) revealed changes in size, shape, ultra-structure and
packed cell volumes of seed protein- and starch bodies. Induced mutation had a major effect on the protein body structure which in turn resulted in changes to protein digestibility. High
digestibility mutants had a unique dense protein matrix with dark inclusions. However,
improved protein quality traits were also associated with floury endosperm texture. Since
endosperm texture is an important grain quality attribute and plays a major agronomic role, it
is important to ensure that future work focuses on improving grain hardness. The mutants
obtained in this study are therefore a valuable germplasm source for sorghum breeding and
present real opportunities for addressing nutritional challenges of sorghum. / Ph.D. University of KwaZulu-Natal, Durban 2013.
|
7 |
Characterization of sorghum [Sorghum bicolor (l.) Moench] parental lines and prediction of their hybrid performance under simulated water and population density stress.Karari, Clement Kamau. January 2006 (has links)
Sorghum breeders have not made much yield improvement in new sorghum varieties in
Kenya since Serena in was released in the late 1960s. KARI Mtama-1 which was released
in 1993 has no yield advantage over Serena. A yield plateau for sorghum in Kenya is
apparent. A new breeding approach was adopted to break that yield barrier. Development
of hybrid sorghum was proposed and is expected to break the yield barrier and also
deliver cultivars that meet farmers' main requirements. The objectives of the study were to
(1) identify farmers' requirements in sorghum cultivars, constraints to sorghum production
and why improved cultivars from research are not being adopted, (2) characterize male
and female parents and establish if genetic distance could identify superior parent
populations for hybrid production (3) estimate genetic variance components and
determine the possibility of using GCA and SCA estimates in choosing parents for use in
hybrid production, (4) test hybrids and open pollinated variety (OPV) parental lines for
stress tolerance and identify tolerant hybrids for further testing and, (5) compare single
cross hybrids and OPV varieties in yield performance. Participatory rural appraisal in
Kitengei and Nzambani areas of Kambu showed that sorghum was especially important in
semi-arid parts of Kenya. Food, trade, feed, nursing food and thatching were the most
important uses of sorghum. High grain and stover yield, large grain size, early maturity,
drought tolerance, pest and disease resistance, coloured grain and intermediate plant
height were the major requirements of farmers. Fifty-three pollinators and forty-one male
sterile parents were introduced from four sources and screened together with 27 pollen
parents from Kenya. Parents and hybrids were tested in 4 environments: high and low
plant density, in high and low moisture regimes laid out in a triple square lattice design in
Kenya, with parents having two additional tests in South Africa. Males, females, sexes and
parental sources differed significantly in head weight. There were sex x country and sex x
environment interactions for head weight. Genetically distant parents' populations had
higher chances of superior heterosis. Parents showed significant additive genetic variance
in head weight. The regression of non-additive to additive genetic variance was roughly
one and significant. Three female and five male parents were suitable for production of
hybrids adapted to multiple environments. Hybrids and OPV lines significantly varied in
head weight. Hybrids were superior to OPV lines in most agronomic traits. Economic
superiority of the hybrids was sufficient to cover cost of hybrid production and distribution
in Kenya. Hybrids and OPV lines varied significantly for plant density stress. Hybrids were
less sensitive to stress and more productive than OPV lines under population density
stress. KARI varieties were sensitive to plant density stress. In general low sensitivity to
stress was beneficial and hybrids had superior yield to inbred varieties. / Thesis (Ph.D.)-University of KwaZulu-Natal, Pietermaritzburg, 2006.
|
8 |
Estimation of sorghum supply elasticity in South AfricaMojapelo, Motsipiri Calvin January 2019 (has links)
Thesis (M.Sc. Agriculture (Agricultural Economics) -- University of Limpopo, 2019 / Studies have indicated that sorghum hectares in South Africa have been decreasing over the past decades. This has resulted in a huge importation of the grain sorghum by the country. This study was undertaken due to sorghum production variability in South Africa. The objectives of this study were to estimate elasticity of sorghum production to changes in price and non-price factors, as well as estimating the short-run and long-run sorghum price elasticity. The study used time series data spanning from 1998 to 2016. This data was obtained from the abstracts of agricultural statistics and verified by South African Grain Information Services. Variance Error Correction Model (VECM) was employed to address both objectives. A number of diagnostic tests were performed to ensure that the study does not produce spurious regression results.
This study estimated sorghum supply elasticity using two dependent variables being the area and yield response functions as model one and two respectively. The results have shown that area response function was found to be a robust model as most of the variables were significant, responsive and elastic. Maize price as a competing crop of sorghum negatively influenced the area allocation; however, the remaining variables positively influenced the area allocation in the long-run. In this model, all variables were statistically significant at 10% and 1% in the short and long-run respectively.
In the yield function, most of the variables were insignificant, not responsive and inelastic, therefore, this model was found not to be robust and hence not adopted. Thus, it was concluded that sorghum output in South Africa is less sensitive to changes in price and nonprice factors.
The findings further indicated that error correction term for area was -1.55 and -1.30 for yield response function. This indicated that the two models were able to revert to equilibrium. Therefore, it was concluded that the area response function was more robust, while the yield response function was not. Furthermore, it was concluded that sorghum production was more responsive to area allocation than yield function.
Based on the findings, the study recommends that amongst other methods to enhance sorghum output, producers could use improved varieties or hybrids, as this action would result in allocation of more land to sorghum production, following price change.
|
9 |
The mutagenesis of Sorghum bicolour (L.) Moench towards improved nutrition and agronomic performance.January 2009 (has links)
In the breeding of grain sorghum (Sorghum bicolour L. Moench) towards improved nutrition and agronomic performance, new methodologies are required to increase genetic diversity and lower the inputs required to track and screen breeding populations. Near-infrared calibration models were developed by partial least squares (PLS) and test-set validation on 364 sorghum samples to predict crude protein and moisture content on whole-grain and milled flour samples. Models using milled flour spectra were more accurately predictive than those from whole grain spectra for all constituents (eg. Protein: R2 = 0.986 on flour vs R2 = 0.962 on whole grain). Discriminant calibrations were established to classify grain colour using partial least squares discriminant analysis (PLS-DA) based upon CIE L*a*b* reference values and visual ranking. Preliminary calibrations were developed for quantities of 18 amino acids, fat and apparent metabolisable energy (AME) on 40 samples using cross-validation, highlighting potential for reliable calibration for these parameters in sorghum. An investigation into the potential of 12C6+ heavy-ion beam mutagenesis of sorghum seed was undertaken by treatment at RIKEN Accelerator Research Facility (Saitama, Japan) and subsequent breeding at Ukulinga research farm and analysis at the Department of Plant Pathology, University of KwaZulu-Natal, Pietermaritzburg, South Africa. Dosage rates of 75, 100 and 150 Gy were compared in seven sorghum varieties to establish optimal dose treatments as determined by germination and survival rates, visible morphological changes and field data over two seasons of field trials. Crude protein variation within the M2 generation was analysed to compare dose rate effects. The need for higher dose rates was indicated by few quantified differences between treatments and control although good correlations between protein deviation and treatment dose rate were elucidated. Differences in varietal response suggest a need to optimize dose rate for specific varieties in future endeavours. In addition, all mutagenized populations were screened for crude protein content using near-infrared spectroscopy (NIRS). Significant differences in protein levels and standard deviations were observed between treated self-pollinated M2 generations and untreated control populations. Individual plants displaying significantly different protein levels were isolated. / Thesis (M.Sc.)-University of KwaZulu-Natal, Pietermaritzburg, 2009.
|
10 |
Genetic diversity analysis of lowland sorghum [Sorghum bicolor (L.) Moench) landraces under moisture stress conditions and breeding for drought tolerance in North Eastern Ethiopia.Assefa, Amelework Beyene. 01 November 2013 (has links)
Sorghum [Sorghum bicolor (L.) Moench] is one of the most important cereal crops grown in arid and semi-arid regions of the world. The North Eastern regions of Ethiopia are known for its high sorghum production and genetic diversity, and proneness to moisture stress. Globally, moisture stress is one of the major sorghum production constraints limiting genetic gain through breeding. Although, the importance of Ethiopia’s sorghum germpalsm has been widely recognized both nationally and internationally, the genetic potential of the germplasm has not yet been fully assessed and exploited in breeding programmes. Therefore, the objectives of this study were: (1) to evaluate sorghum production systems and patterns, major production constraints and cropping mechanisms, varietal diversification, farmers’ criteria for choosing varieties over time and space, and adoption of improved varieties, (2) to assess the agro-morphological and molecular diversity and population structure of lowland sorghum landraces collected from different geographic origins using morphological and SSR markers, (3) to assess the performance of sorghum landraces under moisture stress conditions and identify promising lines, and (4) to determine heterosis and combining ability of lowland sorghum landraces for grain yield, yield components and drought tolerance and to identify suitable parents for future hybrid cultivar development for the North Eastern Ethiopia or similar environments.
A survey was conducted in the North Eastern Ethiopia sampling three Administrative Zones, six Districts and 12 Peasant Associations. Data was gathered from a total of 171 farmers and analyzed using SPSS statistical package. The results suggest that the performance of sorghum was generally poor mainly due to moisture stress, pests, diseases, weeds, farmland fragmentation due to demographic pressure, poor soil fertility, and poor performance of the local varieties. The productivity of sorghum was also largely hindered by the use of inherently poor yielding local landraces as farmers were forced to abandon their high yielding, big-headed and late maturing sorghum varieties due to the prevalence of recurrent moisture stress. The survey found that the region is as a rich source of genetic diversity and more than 70 distinct sorghum landraces were identified. The majority of the farmers grew their local landraces, despite the accessibility and availability of many improved sorghum varieties and production packages. Farmers were willing to adopt the improved varieties if they had farmers preferred attributes such as as red seed colour, tall with high biomass yield. To benefit the most from the available improved technologies, farmers have to be part of the breeding process right from the very beginning.
Lowland sorghum accessions which exhibited farmer-desired traits were selected from the entire landrace germplasm collection at the national gene bank of Ethiopia. Field evaluations of the selected 278 landraces together with checks were held at Sirinka and Kobo agricultural research stations for 12 qualitative and 10 quantitative traits under stress and non-stress conditions. Two hundrad landraces were selected on the basis of their morphological distinctiveness and drought tolerance, in terms of earliness and yield stability. Molecular level diversity assessment was conducted using 30 SSR markers. Considerable magnitude of variation was observed among landraces between and within geographic origin for most of the traits studied. The morphological variability was also complemented by high molecular markers diversity. Thirty two pure lines were selected for inclusion as parents in the sorghum breeding programme for yield and drought tolerance.
The selected lines were then crossed to four cytoplasmic male-sterile lines that had different cytoplasm systems (A1 to A4) using a line x tester mating design scheme. The 32 parents, together with the 128 hybrids and 4 check varieties were evaluated for grain yield, yield components traits and drought tolerance under stress and non-stress environments. Data were analysed using GenStat statistical package following a fixed effects model. Non-additive gene action was predominant in controlling plant height, grain yield, above ground biomass, grain filling duration, 100-seed weight and panicle weight, whereas additive gene action was found more important in controlling days to 50% anthesis and panicle length. Novel landraces with high GCA effects were selected including 214838-A, 242039-B, 75454, 73056-B, and 242050-A which will serve as potential parents for cultivar development. Similarly, the study identified new experimental hybrids i.e. ICSA 749 x 242039-B, ICSA 756 x 242049-B, ICSA 756 x 75454, ICSA 756 x 73059 and ICSA 756 x 214855 with high SCA effects and heterosis for grain yield which will be forwarded for further stability analysis and farmers participatory selections at representative growing environments. In general, the study identified invaluable sorghum germplasm and candidate hybrids useful for further breeding and conservation strategies. / Thesis (Ph.D.)-University of KwaZulu-Natal, Pietermaritzburg, 2012.
|
Page generated in 0.065 seconds