Academic literature on the topic 'Grain – Losses – Uganda'

Worldwide fungal contamination leads to both quantitative and qualitative grain losses during crop growth and/or storage. A greater proportion of grains contamination with toxins often occurs in sub-Saharan Africa, where control measures are limited. We determined fungal diversity and their toxin production ability in household grains meant for human consumption to highlight the risk of mycotoxin exposure among people from northern Uganda. The study underlines the high diversity of fungi that group into 15 genera; many of which are plant pathogens with toxigenic potential. Fusarium verticillioides was the most common fungal species isolated from household grains. The study also indicates that northern Uganda is favored by a high proportion of toxigenic isolates of F. verticillioides, F. andiyazi, and F. proliferatum, which are characterized by a high fumonisins production capability. The fumonisins production ability was not dependent on the species, grain types, and haplotype group to which the isolates belong. The contamination of most household grains with fungi capable of producing a high amount of toxin shows that most people are exposed to an elevated amount of mycotoxins, which shows the frequent problems with mycotoxins that have been reported in most parts of sub-Saharan Africa.

Uganda’s agriculture is mainly rainfed. While farmers make efforts to increase food output to respond to the demands of a fast growing population, they are vulnerable to losses attributed to fluctuating weather patterns due to the global climate change. Therefore, it is necessary to explore ways of improving production in rainfed agricultural systems to save farmers labour and input costs in situations where the grain harvest would be zero due to crop failure. In this study, the Food and Agriculture Organization (FAO) AquaCrop model was evaluated for its predictability potential of maize growth and yields. The study was conducted at Makerere University Agricultural Research Institute Kabanyolo (MUARIK) in Uganda for three seasons. Maize growth and yield data was collected during the following seasons: Season 1, September to December 2014; Season 2, March to July 2015; and Season 3, September to December 2015. The model was calibrated using season 1 canopy cover data. The relative errors of simulated canopy cover ranged from −0.3% to −13.58% for different stages of the crop growth. The deviation of the simulated final biomass from measured data for the three seasons ranged from −15.4% to 11.6%, while the deviation of the final yield ranged from −2.8 to 2.0. These results suggest that FAO AquaCrop can be used in the prediction of rainfed agricultural outputs, and hence, has greater potential to guide management practices towards increasing food production.

In sub-Saharan Africa, maize is a staple food and key determinant of food security for smallholder farming communities. Pest and disease outbreaks are key constraints to maize productivity. In September 2011, a serious disease outbreak, later diagnosed as maize lethal necrosis (MLN), was reported on maize in Kenya. The disease has since been confirmed in Rwanda and the Democratic Republic of Congo, and similar symptoms have been reported in Tanzania, Uganda, South Sudan, and Ethiopia. In 2012, yield losses of up to 90% resulted in an estimated grain loss of 126,000 metric tons valued at $52 million in Kenya alone. In eastern Africa, MLN was found to result from coinfection of maize with Maize chlorotic mottle virus (MCMV) and Sugarcane mosaic virus (SCMV), although MCMV alone appears to cause significant crop losses. We summarize here the results of collaborative research undertaken to understand the biology and epidemiology of MLN in East Africa and to develop disease management strategies, including identification of MLN-tolerant maize germplasm. We discuss recent progress, identify major issues requiring further research, and discuss the possible next steps for effective management of MLN.

Maize is a staple food in Zambia and contributes immensely to food security for smallholder farmers. Disease outbreaks such as Maize Lethal Necrosis Disease (MLND) can be a key constraint to maize production. This disease is caused by synergistic co-infection with Maize Chlorotic Mottle Virus (MCMV) and any virus from the family Potyviridae, particularly, Sugarcane Mosaic Virus (SCMV), Maize Dwarf Mosaic Virus (MDMV) or Wheat Streak Mosaic Virus (WSMV). In 2011, an outbreak of MLND affecting almost all of the currently grown commercial varieties posed a challenge to maize production in Kenya and it has since been reported in DR Congo, Ethiopia, Kenya, Rwanda, Tanzania, and Uganda causing yield losses of up to 100%. Despite MLND having been reported in some neighboring countries, there is no information on the status of the disease in Zambia. Additionally, there is a lot of grain and seed trade between Zambia and other countries among which MLND has been reported. The aim of this study was to establish: (a) the status of MCMV; (b) agricultural practices used by farmers and (c) insect vectors associated with MLND. A survey was conducted in nine (9) provinces of Zambia during 2014/2015 and 2015/ 2016 cropping seasons. Farmers’ maize fields were sampled at every five to ten-kilometer interval and tested using rapid diagnostic kits capable of detecting MCMV. Four hundred and nineteen samples collected all tested negative for MCMV. Zambian Agricultural Research Institute (ZARI), with all stakeholders in the maize value chain should continue implementing measures aimed at preventing the introduction of MLND in Zambia. Key words: Survey, MLND, Losses, food security

Africa is a net importer of food, especially cereal grains, despite the importance of agriculture in the continent. The agricultural growth in Africa has been undermined by low investment in agriculture, poor infrastructure, high population growth rate, and low adoption of technologies. The agri-food value chain in many African countries will benefit from the adoption of appropriate technologies that are available in the digital landscape to leverage the agricultural sector, make it more attractive to the teeming youth population, and to reverse rural-urban migration. Attention to indigenous cereal grains and other crops that are grown locally and processed into different local foods would ensure food security. However, the availability of these crops in the market is often reduced due to damage before harvest by pests and predators leading to economic losses for farmers. In this article, we review the literature from a multidisciplinary perspective on the relevance of African indigenous food grains to food security in general and we highlight the potential application of drones to increase the yield of cereal grains in three regions of the continent—eastern, western, and southern Africa.

Since the introduction of rice in Uganda in 1904, insufficient information has been generated on quantitative rice postharvest losses. Such inadequate information has partly constrained decision making in developing the rice industry in Uganda. The objective of this study was, therefore, to generate quantitative postharvest losses in the remaining two major rice growing hubs of Albertine and Olweny. The AfricaRice postharvest loss assessment methodology was used during the two growing seasons of 2014 /15 and 2015/16. Data was collected at harvesting, threshing, drying and milling postharvest stages on 10 rice farms and nine rice mills in each hub. The swamp rice “K98” and “NERICA-4” both in Oryza Sativa group were used during the study in the Olweny and Albertine hubs respectively. The results indicated that total physical grain losses at aforementioned stages in Albertine and Olweny hubs were 16.8 and 14.1%, respectively. This slight loss variation could be attributed to the different varieties and postharvest practices in these hubs. Losses at harvesting exhibited highest value 6.9 and 5.7% compared to threshing 4.7 and 4.8%; drying 1.8 and 1.4%; and milling 4.8 and 3.5% for Albertine and Olweny hubs respectively. There was no significant difference (p>0.05) discerned in the losses between the hubs. Regardless of the rice hub, significant differences in loss levels (p<0.05) existed along the postharvest operations. These results show that harvesting, threshing and milling were the critical control points in the management of quantitative rice postharvest losses in Uganda.

Agriculture has been the most contributing sector towards Uganda’s economy. However, its output has always been hampered by declining soil fertility leading to reduced yields, increased agricultural losses, and malnourishment among low-income earners. In Uganda, there is scanty research about the effectiveness of either organic or inorganic fertilizers in crop production. Therefore, there was a need to establish the effectiveness of inorganic fertilizer (N: P: K; 17:17:17) and organic fertilizer (poultry manure/litter) on the growth, and productivity of rhizobia inoculated and non-inoculated bio-fortified NAROBEAN 2 variety, which is rich in iron and zinc, high yielding and drought resistant. A randomized complete block design experiment was conducted at Mbarara Zonal Agricultural Research and Development Institute (MBAZARDI). Poultry litter was applied at the rate of (10t/ha), N: P: K 17:17:17 at 20.3 kg ha-1, and Rhizobia at 250g per 15 kg of beans. Treatments were; Rhizobia + N: P: K 17:17:17 (M 1), Rhizobia + Poultry litter (M 2), Rhizobia only (M 3), Poultry litter only (M 4), N: P: K 17:17:17 only (M 5) and the control (M 6). Growth parameters included the number of leaves, branches, and shoot height; and productivity parameters included the number of pods produced per plant and economic yield. Statistical analyses were done at 5% level of significance. The growth parameters showed no significant difference (P > 0.05) while the bean grain yield and productivity were significantly different (p < 0.05) under the various treatments. Rhizobia + Poultry litter and N: P: K 17:17:17 only, produced the highest effect on both growth and productivity as compared to other treatments. Application of rhizobia with poultry manure was the best soil treatment for increasing the growth and productivity of NAROBEAN 2. This will increase production, food security, abate malnutrition, and sustainably improve soil quality.

Root rot in common bean is a disease that causes serious damage to grain production, particularly in the upland areas of Eastern and Central Africa where significant losses occur in susceptible bean varieties. Pythium spp. and Fusarium spp. are among the soil pathogens causing the disease. In this study, a panel of 228 lines, named RR for root rot disease, was developed and evaluated in the greenhouse for Pythium myriotylum and in a root rot naturally infected field trial for plant vigor, number of plants germinated, and seed weight. The results showed positive and significant correlations between greenhouse and field evaluations, as well as high heritability (0.71–0.94) of evaluated traits. In GWAS analysis no consistent significant marker trait associations for root rot disease traits were observed, indicating the absence of major resistance genes. However, genomic prediction accuracy was found to be high for Pythium, plant vigor and related traits. In addition, good predictions of field phenotypes were obtained using the greenhouse derived data as a training population and vice versa. Genomic predictions were evaluated across and within further published data sets on root rots in other panels. Pythium and Fusarium evaluations carried out in Uganda on the Andean Diversity Panel showed good predictive ability for the root rot response in the RR panel. Genomic prediction is shown to be a promising method to estimate tolerance to Pythium, Fusarium and root rot related traits, indicating a quantitative resistance mechanism. Quantitative analyses could be applied to other disease-related traits to capture more genetic diversity with genetic models.

Grain yield of rice can be enhanced by breeding for drought tolerance and optimum shattering. New generations of rice, the interspecific fixed lines known to carry more drought tolerance traits, are a potential source for improvement of the Ugandan landraces but they frequently carry genes for grain shattering. Information gathered through surveys to understand rice production constraints and farmers’ preferred rice traits are limited and they are generally unranked. The objectives of this study were seven-fold. They were to 1) determine farmers’ perceptions on the key production constraints and preferences for rice in Uganda, 2) develop and appraise cheap and efficient rice breeding equipment, 3) determine anthesis and the grain shattering pattern of rice, 4) characterize for drought tolerance and grain-shattering ability in rice populations in Uganda, 5) investigate crossability between O. sativa and the new interspecific fixed lines, and 6 and 7) determine the inheritance and gene action controlling drought tolerance and grain shattering traits. The experiments were conducted at Namulonge, Uganda, from 2006 to 2009. Data on farmer’s perceptions of the key production constraints and preferences for rice in Uganda were obtained through participatory rural appraisal (PRA) methods and a formal household survey of 380 farmers from three regions in Uganda during March 2007 to June 2008. The results showed that the variety NERICA 4 was the most preferred by farmers. Rice yellow mottle virus disease, rice blast and African rice gall midge were major constraints under lowland conditions, while drought was the major constraint under upland conditions. The preferred traits in traditional varieties included aroma characteristics, grain size and the texture of cooked grains. Cultivars that combine high yield potential, early maturity, drought tolerance, aroma characteristics and special market attributes should be included in the breeding objectives. A new anther suction device that uses an ordinary household vacuum cleaner was fabricated. Its overall units include a pipette tip, silicone tubing, hose tubes, a metallic stand, a rubber stopper and a household vacuum cleaner of 1600 w capacity. It is efficient, cheaper, less bulky and has lower replacement costs than the commercial one. In addition, a hand-held single grain tester, which is efficient, cheaper and more suitable for field studies than the laboratory tester, was developed and appraised. Studies to determine the grain-shattering pattern in rice were conducted by making assessments at 10, 20 and 30 days after anthesis. The results revealed that the highest level of discrimination among the varieties was between 10 days and 20 days after anthesis. Among the genotypes tested, NERICA rice attained anthesis earlier than CT rice and O. sativa attained anthesis later than both rice groups. Appropriate methods of planting the parental lines were proposed for pollination to be synchronised. Interspecific rice and O. sativa were characterized in the field for drought tolerance and grain-shattering ability. There was high variability wihin species in grain shattering and drought tolerance traits, suggesting that selection could be effective. The distribution of grain shattering scores was not normal, suggesting that some selection had taken place for the trait, unlike the drought tolerance traits and leaf roll scores where normal distributions were observed. Results of the crossability test between O. sativa and interspecific fixed lines revealed that some genotypes had high crossability when used as males, or as females, or as both females and males. The best male genotype combiners were CT 16334(2)-CA-2-M, WAB 365-B-1H1-HB and IRAT 257, while the best females combiners were CT 16334(2)-CA-11-M, CT 16317-CA-4-M and IRAT 325. In addition, additive effects were more important that non-additive effects for pollen viability and seed set in the crosses. Genotypes with acceptable crossability and varying levels of drought tolerance and grainshattering ability were selected for further studies. The selected genotypes were crossed in a North Carolina II mating scheme, and as pairs of crosses, and used to understand the genetic mechanisms of drought tolerance at the reproductive and vegetative stages. Evaluation of the populations revealed that additive effects for filled grains were more important under drought stress and non-drought stress conditions than the non-additive effects. There were high heritability estimates for leaf roll under drought stress, implying that additive effects were more important. There was a higher contribution of additive effects for grain-shattering ability than nonadditive effects in the populations. Allelic tests for the shattering trait revealed that a single gene was in 46% of the crosses; two genes in another 46% of the crosses had duplicate dominant effects as well as complimentary dominant/recessive effects; and there were three genes in four percent of the crosses. Segregation ratios of 3:1 and 1:3 were also found in two crosses. This could be due to a reversal of the function of the genes. Another surprising finding was that the segregation ratio of 3:1 was found in a cross with loose grain attachment to the pedicel in an allelism test. This segregation was probably due to unfixed loci in some of the interspecific lines. This study identified rice breeding priorities for Uganda, prepared breeding tools and provided relevant information for generating lines that have improved drought tolerance and optimum grain-shattering ability by determining the modes of gene action for these two traits.
Thesis (Ph.D.)-University of KwaZulu-Natal, Pietermaritzburg, 2010.