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2. Role of Sericulture in Uplifting Socio-Economic Status of Casual Workers and Constructors: A Case Study of Sheema, Kiruhura, Kween and Mukono District in Uganda

Author

Sabunyo Noah and Clet Wandui Masiga

Subjects
General Earth and Planetary Sciences, General Environmental Science
Abstract

This study was undertaken in the four sericulture research stations of Sheema, Kiruhura, Kween and Mukono in Uganda with the main objective of documenting the socio-economic impact of sericulture project on the livelihood for permanent and temporary casual workers and constructors/ builders at different sericulture stations. Sericulture is labour intensive projects that need both permanent and temporary casual workers and constructors/ builders who are required for smooth running of daily sericulture field activities. Sixty five casual workers and constructors were randomly selected as respondents to the structured questionnaire aspects related to the factors such as sex, education, age, marital status, type of family, nature of employment, household expenditure, household assets acquired and challenges faced by casual workers and constructors/ builders were collected by well-structured questionnaire through personal interview method. The results obtained revealed that more 52.3% male workers were employed than female workers, 36.9% of the respondents were in the age group of 31-40 years, the biggest percentage 73.8% were married, 50.8% of the respondents were working as casual workers whereas 49.2% as constructors/builders, a majority 83.1% of respondents were working as permanent workers and only 16.9% as temporary workers. A majority of the respondents reported that the salaries earned at the end of month has positively impacted and changed their livelihoods of many respondents and this has help them to meet all the family needs and requirements such as family feeding, educating their child’s, buying clothing for themselves and for their child’s, health, pay utilities bills, drinking alcohol, others have managed to acquired different family assets such as land, some have managed to build houses, mobile phones, radios, televisions solar panels, bicycles and motorcycles and livestock’s such as cows, goats, sheep, birds, pigs, turkey and ducks, this can fetches them little economic support for their families and can serve as addition income.

Published
2022

5. Marker-assisted introgression improves Striga resistance in an Eritrean Farmer-Preferred Sorghum Variety

Author

Kahiu Ngugi, Negusse Abraha, Dan Kiambi, C. Tom Hash, Charles Mugoya, Rolf T. Folkertsma, Tadesse Yohannes, Tesfamichael Abraha, Santie de Villiers, Eunice Mutitu, Clet Wandui Masiga, and Mussie Weldetsion

Subjects
Striga hermonthica, biology, food and beverages, Soil Science, Introgression, Marker-assisted selection, biology.organism_classification, Sorghum, Background selection, Agronomy, Striga, Backcrossing, Weed, Agronomy and Crop Science
Abstract

The parasitic weed Striga hermonthica hampers the production of sorghum, the most important cereal crop in Eritrea. This weed has a complex mode of infestation that adapts to many hosts and environments, complicating conventional breeding for resistance, which is the only form of crop improvement available to Eritrean breeders, but has failed. This study aimed at improving resistance against this parasite by transferring 5 Striga resistant Quantitative Trait Loci (QTLs) from resistance donor N13 to Striga susceptible Farmer-Preferred Sorghum Variety (FPSV) Hugurtay from Eritrea. The method involved backcrossing using marker-assisted selection (MAS) and evaluation of the best introgressed lines for Striga resistance in artificially infested fields. Foreground selection was performed with up to 11 polymorphic simple sequence repeat (SSR) markers linked to Striga resistance QTLs, while background selection was conducted in the BC 3 F 2 generation with 27 polymorphic unlinked SSR markers to identify the best recovery of the recurrent parent (RP) genetic background. Out of 84 BC 3 F 3 lines, L2P3-B, L1P5-A and L2P5P35 performed best with respect to both grain yield and reduced Striga infestation. These lines were more resistant to Striga than Hugurtay, but less resistant than N13. The three lines yielded twice as much as N13, with Area Under Striga Number Progression Curve (AUSNPC) values on average 18% higher than that of N13 and 38% lower than that of Hugurtay. This suggests that the introgressed QTLs conferred significant Striga resistance and yield advantage to these BC 3 F 3 backcross progenies under Striga pressure. These lines have good potential for future release and demonstrate that when MAS is available to conventional breeders, even in countries with no genotyping facilities, it is a useful tool for enhancement, expediency and precision in crop improvement.

Published
2015

6. Novel Sources of Witchweed (Striga) Resistance from Wild Sorghum Accessions

Author

Abdallah Mohamed, Michael P. Timko, Mark Wamalwa, Erick Kimani Kuria, Steven Runo, Clet Wandui Masiga, Damaris A. Odeny, Dorothy Annah Mbuvi, Joel Masanga, and Nada Hamza

Subjects
0106 biological sciences, 0301 basic medicine, Parasitic plant, Plant Science, medicine.disease_cause, 01 natural sciences, 03 medical and health sciences, Striga, Haustorium, Striga hermonthica benth, Infestation, medicine, wild sorghum relatives, witchweed, Original Research, 2. Zero hunger, Striga resistance, Sub-Saharan Africa, biology, Resistance (ecology), Host (biology), food and beverages, Sorghum, biology.organism_classification, 030104 developmental biology, Agronomy, sorghum bicolor, sorghum, Endodermis, 010606 plant biology & botany
Abstract

Sorghum is a major food staple in sub-Saharan Africa (SSA), but its production is constrained by the parasitic plant Striga that attaches to the roots of many cereals crops and causes severe stunting and loss of yield. Away from cultivated farmland, wild sorghum accessions grow as weedy plants and have shown remarkable immunity to Striga. We sought to determine the extent of the resistance to Striga in wild sorghum plants. Our screening strategy involved controlled laboratory assays of rhizotrons, where we artificially infected sorghum with Striga, as well as field experiments at three sites, where we grew sorghum with a natural Striga infestation. We tested the resistance response of seven accessions of wild sorghum of the aethiopicum, drummondii, and arundinaceum races against N13, which is a cultivated Striga resistant landrace. The susceptible control was farmer-preferred variety, Ochuti. From the laboratory experiments, we found three wild sorghum accessions (WSA-1, WSE-1, and WSA-2) that had significantly higher resistance than N13. These accessions had the lowest Striga biomass and the fewest and smallest Striga attached to them. Further microscopic and histological analysis of attached Striga haustorium showed that wild sorghum accessions hindered the ingression of Striga haustorium into the host endodermis. In one of the resistant accessions (WSE-1), host and parasite interaction led to the accumulation of large amounts of secondary metabolites that formed a dark coloration at the interphase. Field experiments confirmed the laboratory screening experiments in that these same accessions were found to have resistance against Striga. In the field, wild sorghum had low Area under the Striga Number Progressive curve (AUSNPC), which measures emergence of Striga from a host over time. We concluded that wild sorghum accessions are an important reservoir for Striga resistance that could be used to expand the genetic basis of cultivated sorghum for resistance to the parasite.

Published
2017

7. Environmental Communication: A Review of Information Sources and Communication Channels for Enhanced Community-Based Natural Resource Management in the Greater Mara Region of Kenya

Author

Charles M. Warui, Charles Mugoya, Anastacia Muiti, Muchai Muchane, James Wakibara, Ayub Macharia, Alfeyo Nikundiwe, Agnes G. Mwakaje, Clet Wandui Masiga, and David Ongare

Subjects
Sustainable development, biology, Environmental communication, business.industry, Environmental resource management, Biodiversity, biology.organism_classification, Natural resource, Tanzania, Geography, Ecosystem management, Ecosystem, Natural resource management, business
Abstract

The Mara-Serengeti is an ecosystem of immense importance to both Kenya and Tanzania, contributing significantly to the economies of both countries and forming a rich biodiversity reservoir. This ecosystem is among the most threatened ecosystems on the African continent. Increasing human population density and changing lifestyles have escalated demand for ecosystem services including timber and non-timber forest products (NTFPs). These activities have resulted in reduced land productivity and threatened livelihoods. This environmental communication study is aimed at providing a link between effective environmental communication and participatory sustainable natural resource management. It sets out to identify and prioritize natural resource challenges within the Mara region. It subsequently contextualizes the available and effective communication sources and channels to promote participatory approaches to natural resource management in light of several pressures challenging the Mara region. Specific attributes of the community under study are also taken into account in addition to the correlation between the information source and the message.

Published
2013

8. Community-Based Conservation, Income Governance, and Poverty Alleviation in Tanzania

Author

Emmanuel O. Manyasa, Agnes G. Mwakaje, Alfeo M Nikundiwe, Clet Wandui Masiga, David Ongare, Nelson H. W. Wawire, Charles Mugoya, and Muchane Muchai

Subjects
biology, Poverty, business.industry, Natural resource economics, Corporate governance, Geography, Planning and Development, Environmental resource management, Wildlife, Management, Monitoring, Policy and Law, Development, biology.organism_classification, Tanzania, Transparency (graphic), Accountability, Sustainability, Community-based conservation, business
Abstract

Protected areas occupy about 27% of Tanzania’s land of 945,000 sq km and contribute 17.5% of its GDP. But who benefits from and pays for the cost of conservation? This study provides insights into these issues based on a survey conducted in the Serengeti ecosystem, involving 20 villages in Serengeti and Loliondo. The results show that villagers received insignificant benefits from conservation compared with the costs they are incurring. Governance of income at the village level was also a major challenge. There was a lack of capacity to handle large amounts of money and little or no planning, transparency, and accountability. It is recommended that income allocation to the communities is increased and external audits of village funds are conducted. Communities should furthermore be allowed to extract resources sustainably in protected areas. Youth should be encouraged to attend higher education and wildlife technical colleges to learn about the values of wildlife. Finally, the governance structures must be improved to make them gender equitable, participatory, transparent, and fully accountable to the communities and all citizens.

Published
2013

9. Drought tolerant tropical maize (Zea mays L.) developed through genetic transformation with isopentenyltransferase gene

Author

Charless Mugoya, Eduardo Blumewald, Wondyifraw Teffera, Francis N. Wachira, Richard O. Oduor, Miccah Songelael Seth, Clet Wandui Masiga, Leta Tulu Bedada, and Steven Runo

Subjects
0106 biological sciences, 0301 basic medicine, Cytokinin, delayed leaf senescence, drought inducible, CML216, ipt gene, Drought tolerance, Genetically modified crops, Biology, 01 natural sciences, Applied Microbiology and Biotechnology, Crop, 03 medical and health sciences, chemistry.chemical_compound, parasitic diseases, Genetics, Molecular Biology, Abiotic component, fungi, Wild type, food and beverages, Transformation (genetics), 030104 developmental biology, chemistry, Agronomy, Chlorophyll, Cytokinin, Agronomy and Crop Science, 010606 plant biology & botany, Biotechnology
Abstract

Maize is a staple food crop for millions of Africans. Despite this fact, African farmers have been harvesting average grain yield of not more than 2 t/ha while there is a potential of producing more than 10 t/ha. Drought is one of the major abiotic constraints contributing to this low productivity. Drought diminishes crop productivity mainly by causing premature leaf senescence. The ipt gene codes for isopentenyltransferase (IPT) enzyme which catalyzes the rate limiting step in the biosynthesis of cytokinin and has been shown to enhance tolerance to drought in transgenic crops by delaying drought-induced leaf senescence. This created interest to investigate if ipt gene can be useful in enhancing drought tolerance in locally adapted African tropical maize genotypes. The tropical maize inbred line CML216 was transformed with ipt gene using Agrobacterium-mediated transformation method. Five transgenic lines which were proved to be stably transformed through Southern blot analysis with copy number of 2 to 4 per event were developed. In drought assay carried out in the glass house, transgenic lines expressing the ipt gene showed tolerance to drought as revealed by delayed leaf senescence compared to the wild type plants. Transgenic plants maintained higher relative water content and total chlorophyll during the drought period and produced significantly higher mean grain yield of 44.3 g/plant while the wild type plants produced mean grain yield of 1.43 g/plant. It is proposed that the transgenic lines developed in this study can be further tested for tolerance to drought under contained field trials. Furthermore, transgenic lines developed can be used in breeding programs to improve drought tolerance in other commercial tropical maize genotypes through conventional breeding. Key words: Cytokinin, delayed leaf senescence, drought inducible, CML216, ipt gene.

Published
2016

10. Effects of Auxin and Source of Explants on Callus Induction of Tropical Maize

Author

Jonathan Matheka, Abdelbagi M. Ali, Steven Runo, Clet Wandui Masiga, Jesse Machuka, Rasha Adam Omer, Charles Mugoya, and Eric Kuria

Subjects
chemistry.chemical_classification, chemistry, Auxin, Callus, Botany, Biology, General Biochemistry, Genetics and Molecular Biology, Explant culture
Published
2012

12. Public Submissions on the Uganda National Biotechnology and Biosafety Bill, 2012 Reveal Potential Way Forward for Uganda Legislators to Pass the Bill

Author

Clet Wandui Masiga

Subjects
Convention on Biological Diversity, Histology, Parliamentary counsel, parliament, business.industry, Biomedical Engineering, Public institution, Bioengineering and Biotechnology, biosafety, entrepreneur, Bioengineering, Legislation, Context (language use), genetically modified, legislation, Cartagena Protocol on Biosafety, Biotechnology, Convention, Biosafety, Perspective, Medicine, business, biotechnology
Abstract

The Cartagena Protocol on Biosafety to the Convention on Biological Diversity is an internationally binding instrument addressing issues of biosafety. Biosafety refers to the need to protect human health and the environment from the possible adverse effects of the products of modern biotechnology. Accordingly, all countries to the convention are required to put in place regulatory mechanisms to enhance the safety of biotechnology in the context of the Convention’s overall goal of reducing all potential threats to biological diversity, while taking into account the risks to human health. Therefore, each country party to the convention has its own procedures to enact laws to guide the safe use of biotechnology. In Uganda, the process involves the drafting of the bill by the first parliamentary counsel, approval by cabinet, first reading at the parliament, committal to the responsible parliamentary sessional committee, tabling of the bill for public hearing, consultations, and final approval. In Uganda, the Committee on Science and Technology is responsible for the Biosafety Bill. In March 2013, the Committee tabled the bill for public hearing and submissions from public institutions. There were comments supporting the passage of the Bill and comments in objection. The reasons for objection are mainly due to precaution, speculation, lack of knowledge about biotechnology and biosafety, and alleged influence from biosafety entrepreneurs. This article reviews these public views, revealing controversy and possible consensus to pass the bill.

Published
2015

13. Public submissions on the Uganda national biotechnology and biosafety bill, 2012 reveal consensus for Uganda legislators to pass the bill

Author

Clet Wandui Masiga

Subjects
Parliament, lcsh:Biotechnology, lcsh:TP248.13-248.65, Entrepreneur, biosafety, genetically modified, legislation, Biotechnology
Abstract

The Cartagena Protocol on Biosafety to the Convention on Biological Diversity is an internationally binding instrument addressing issues of biosafety. Biosafety refers to the need to protect human health and the environment from the possible adverse effects of the products of modern biotechnology. Accordingly all countries to the convention are required to put in place regulatory mechanisms to enhance the safety of biotechnology in the context of the Convention’s overall goal of reducing all potential threats to biological diversity, while taking into account the risks to human health. Therefore each country party to the convention has its own procedures to enact laws to guide the safe use of biotechnology. In Uganda the process involves the drafting of the bill by the first parliamentary counsel, approval by cabinet, first reading at the parliament, committal to the responsible parliamentary sessional committee, tabling of the bill for public hearing, consultations, and final approval. In Uganda, the Committee on Science and Technology is responsible for the Biosafety Bill. In March 2013, the Committee tabled the bill for public hearing and submissions from public institutions. There were comments supporting the passage of the Bill and comments in objection.The reasons for objection are mainly due to precaution, speculation, lack of knowledge about biotechnology and biosafety, and alleged influence from biosafety entrepreneurs. This article reviews these public views, revealing controversy and possible consensus to pass the bill.

Published
2015

14. Enhanced Utilization of Biotechnology Research and Development Innovations in Eastern and Central Africa for Agro-ecological Intensification

Author

Erostus Nsubuga, K.O. Ogero, Richard O. Oduor, Kahiu Ngugi, Zachary Muthamia, Abraha Tesfamichel, Charles Mugoya, Engida Tsegaye, Settumba B. Mukasa, Eric Kuria, Rasha Adam, Sarah Osama, Rasha Ali, Donald Byamugisha, Miccah Songelael Seth, Steven Runo, Nyamongo Desterio, Bernadetha Kimata, Theogene Niyibigira, Dong-Jin Kim, Santie de Villiers, Philip Ndolo, Isaac Wamatsembe, Leta Tulu Bedada, Bouwe Nasona, Seyfu Ketema, Abdalla Mohamed, Clet Wandui Masiga, Michel Ntimpirangeza, Jesse Machuka, Abigail J. Ngugi, Jonathan Matheka, Gitonga Nkanata Mburugu, Morag Ferguson, Geoffrey Mkamilo, Theodomir Rishurimuhirwa, Emmarold E. Mneney, Dan Kiambi, Jean Ndirigwe, and Inosters Nzuki

Subjects
biology, business.industry, Central africa, Sorghum, biology.organism_classification, Ecological intensification, Agricultural economics, Geography, Striga, Agriculture, Agricultural biodiversity, Biotechnology research, business, Productivity
Abstract

The Association for Strengthening Agricultural Research in Eastern and Central Africa (ASARECA) through its Agrobiodiversity and Biotechnology Programme is enhancing the utilization of biotechnology research and development innovations in Eastern and Central Africa (ECA). We present successes in the application of biotechnology to enhance the productivity of cassava, sweet potato, banana, maize and sorghum in ECA. These products—drought tolerant maize, sorghum resistant to striga, as well as the technology for producing and distributing disease free planting materials of cassava, sweet potato and banana to farmers—are central for the agro-ecological intensification of farming systems in the central African highlands.

Published
2014

15. First products of DNA marker-assisted selection in sorghum released for cultivation by farmers in sub-saharan Africa

Author

Clet Wandui Masiga, Osama Elhassan, Rasha Ali, Adil Elhusien, Abdalla Mohamed, Elnayer Suliman, Charles Thomas Hash, and Charles Mugoya

Subjects
Striga hermonthica, biology, business.industry, Drought tolerance, biology.organism_classification, Sorghum, Biotechnology, Agronomy, Striga, Backcrossing, Grain quality, Cultivar, business, Sweet sorghum
Abstract

Striga hermonthica (Del.) Benth. is the major biotic constraint to sorghum production. Its control is difficult and can only be achieved through integrated management strategies that depend mainly on host plant resistance and enhanced soil fertility. However, breeding for resistance is hampered by the complexity of host parasite interactions and lack of reliable screening methods. The invention of molecular markers has enhanced the effectiveness of breeding for resistance. Five genomic regions (QTLs) with linked markers associated with Striga resistance were mapped in sorghum variety N13 by [10]. In this study, to increase the efficiency of marker-assisted selection (MAS), 27 EST-SSR markers in close association with Striga resistance QTLs were also identified and mapped. Populations of backcross (BC 3 S 4 ) derived from N13 (Striga resistant) X three farmer preferred sorghum cultivars: Tabat, Wad Ahmed and AG-8 (Striga susceptible) were generated. Thirty-one lines (BC 3 S 4 ) with confirmed Striga field resistance were genotyped with foreground and background selection makers. Twenty resistant lines, with two or more major QTLs were selected for regional evaluation. Of these 10 lines were selected and advanced for multi-location testing, together with Wad Ahmed, Tabat, AG-8, N13, SRN39 and IS9830 as checks. Standard variety trials were conducted in Striga sick plots over three seasons (2009-2011) in Sudan, Gezira Research Station, Damazine, Sinnar, and Gedarif. Results revealed that four lines (T1BC 3 S 4 , AG6BC 3 S 4 , AG2BC 3 S 4 and W2BC 3 S 4 ) were Striga resistant and agronomically superior with yields ranging from 180% to 298% higher relative to their recurrent parents. This Striga resistance coupled with superior attributes of the recurrent parent (including very high yield potentials, high grain quality and drought tolerance) will provide adaptation and stability across a wide range of environments. These are the first products of DNA markerassisted selection (MAS) in sorghum released for cultivation by farmers in sub-Saharan Africa.

Published
2014

16. Introgressing Striga Resistance from A Mapped Donor Source into A Rwandan Adapted Sorghum Variety

Author

Daphrose Gahakwa, Charles Mugoya, Rasha Ali, Theogene Niyibigira, Dan Kiambi, Clet Wandui Masiga, Abigail J. Ngugi, Mohamed Abdalla, Santie de Villiers, Eunice Mutitu, and Kahiu Ngugi

Subjects
Striga hermonthica, Horticulture, Geography, biology, Resistance (ecology), Striga, Agronomy, Source lines, Central africa, Microsatellite, Quantitative trait locus, Sorghum, biology.organism_classification
Abstract

Sorghum is the world’s fifth most important cereal, in terms of both production and area planted. Striga hermonthica is one of the major constraints of sorghum production globally and particularly so in Eastern Africa. This study aimed at transferring five Striga resistances Quantitative Trait Loci (QTL) located on linkage groups SBI-01, SBI-02, SBI-05 and SBI-06 from a genetically mapped donor source line N13 into a locally adapted farmer preferred variety, IS8193 using Simple Sequence Repeats (SSRs). Nine polymorphic SSR markers were used to identify F1 generations and the subsequent BC1F1 progenies carrying Striga resistance QTL. Sixteen F1 progenies and twelve BC1F1 were found to have incorporated one to three Striga resistances QTL. The twelve BC1F1 lines with Striga resistance QTL were subsequently backcrossed to IS8193 to produce BC2F1 generation for further fore-ground and back-ground selection in the future. This work was conducted during March 2010 to August 2011 at University of Nairobi and at Biosciences eastern and central Africa (BecA)-Nairobi Kenya.

Published
2013

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