The CAADP Biennial Review Process
This presentation is about the The CAADP Biennial Review Process
K. Malema(2022), The CAADP Biennial Review Process, pg.35,Gaborone, Botswana
This presentation is about the The CAADP Biennial Review Process
K. Malema(2022), The CAADP Biennial Review Process, pg.35,Gaborone, Botswana
This presentation gives an Overview of CAADP/Malabo Declaration Implementation in Botswana
D.Keboneilwe(2022),Overview of CAADP/Malabo Declaration Implementation in Botswana,Pg.11. Gaborone,Botswana
This presentation gives an overview of the CCARDESA Knowledge Management Systems
B.Kakuwa(2022), CCARDESA Knowledge Management Systems, Pg25, Gaborone, Botswana
This presentation gives an overview of Knowledge Management In the SADC Region
B.Kakuwa(2022),Knowledge Management In the SADC Region,Pg 51
This presentation is about the Botswana CAADP Youth Network Involvement in the BR Performance Review
N.Kwele (2022), Botswana CAADP Youth Network Involvement in the BR Performance Review, Pg.11
This presentation is about the SADC Regional Indicative Strategic Development Plan (RISDP) 2020 - 2030
M.Muchero(2022), SADC Regional Indicative Strategic Development Plan (RISDP) 2020 - 2030,Pg. 40
This presentation is about the Malabo Implementation Status in Southern and Eastern Africa
M. Muchero, (2022) Malabo Implementation Status in Southern and Eastern Africa, Pg. 13
This presentation is about an overview of the Malabo Commitements
M.Muchero(2022) An overview of the Malabo Commitements,Pg. 17
This a presentation of the CAADP-XP4 Programme
f.Magagula(2022), An overview of the CAADP-XP4 Programme, pg. 26
Maize (Zea mays L.) is the most important staple food in Mozambique but its production is facing constraints such as drought, floods, cyclones, soil infertility, diseases, and pests, being drought one of the most limiting factor. To meet the challenge of producing under such conditions, it is important to invest on breeding programs to produce maize varieties that are resistant and adaptable to the present agroecological conditions. Maize is a C4 plant that evolved a biochemical mechanism of concentrating CO2 to overcome the oxygenase activity of Rubisco, which makes C4 plants photosynthetically more efficient than C3 plants. We Hypothesized that the levels of enzymes involved in photosynthesis (PEPC, PPDK, NADP-ME, and RubisCO) and their Post Translational Modifications (PTMs) correlate with the photosynthetic capacity of maize plants under drought stress. To examine their potential role as molecular markers for drought tolerance, we will make use of cutting-edge proteomics techniques. We will also provide data on agronomic performance and nutritional quality of the maize grain grown under the Greenhouse conditions in ITQB and under the local practices and agroecological conditions in Mozambique. We will use maize B73 as a control to test three varieties from Mozambique: Matuba, ZM523, and ZM 309. The main goal of the present project is to contribute with knowledge and important data that can be added to Mozambique’s maize breeding programs.
Miquitaio, D.; Luís, I. M.; Alexandre, B. M.; Miguel, M. ; Oliveira, MM ; Abreu, I. A. (n.d). Characterization of molecular features underlying drought tolerance in Mozambique´s drought tolerant maize (Zea mays L.) varieties
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