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References
Ajayi OC, Akinifesi FK, Sileshi G, Kanjipite W (2009). Labour inputs and financial profitability of conventional and agroforestry-based soil fertility management practices in Zambia. Agrekon 48(3):276-292. |
|
Blackie MJ, Mann CK (2005). The origin and concept of the starter pack. In: Levey S (ed) Starter packs: A strategy to fight hunger in developing Countries? Lessons from the Malawi Experience. CABI Publishing, reading, UK. pp. 15-27. |
|
Chilimba AD, Nkosi D (2014). Malawi fertilizer recommendations for maize production based on soil fertility status. Department of Agricultural Research Services, Lilongwe, Malawi. |
|
Chilimba ADC (2005). Liming Recommendations for Crop Production in Malawi. A Paper Presented to the Agricultural Technology Release Committee, Ministry of Agriculture, Irrigation and Food Security. Lilongwe, Malawi. . |
|
Chilimba ADC, Kabambe VH, Chigowo MT, Nyirenda M, Botomani L, Tembo Y (2013). Agricultural Lime Application for Improved Soil and Cop Productivity in Malawi. Soil Health Consortium of Malawi technical Bulletin for field extension personnel. Lilongwe University of Agriculture and Natural Resources. |
|
Chilimba ADC, Saka AR (1998). Soil Degradation: An overview of the Management and Rehabilitation of Soils in Malawi. A Paper Presented at an Expert Consultation Meeting on the Management of Degraded Soils in Southern and Eastern Africa, Harare, Zimbabwe. |
|
De Pauw EF (1994). The management of acid soils in Africa. Outlook on Agriculture 23:11-16. |
|
Dzanja J (2008). Labour requirements for major crops of Malawi. Unpublished report. Bunda College of Agriculture, Lilongwe Malawi. |
|
Fairhurst T (2012). Handbook of Integrated Soil fertility Management. Africa Soil Health Consortium, Nairobi. |
|
Goulding KWT (2016). Soil acidification and the importance of liming agricultural soils with particular reference to the United Kingdom. Soil Use and Management 32:390-399. |
|
Government of Malawi (GoM) (2012). Annual Agricultural Statistical Bulletin. Ministry of Agriculture, Irrigation and Water Development, Department of Agricultural Planning Services. Lilongwe. |
|
ICRISAT/MAI (2000). Cost-effective soil fertility management options for smallholder farmers in Malawi. Bulawayo, Zimbabwe: ICRISAT; and Lilongwe, Malawi: Ministry of Agriculture and Irrigation. |
|
Jones MJ, Kanyama GY (1975). Some physical and chemical properties of the soils of bunda College farm. Research Bulletin, Bunda College of Agriculture, University of Malawi 6:1-14. |
|
Kabambe VH, Chilimba ADC, Ngwira AR, Kambauwa G, Mbawe M Mapfumo P (2012). Using innovation platforms to scale out soil acidity ameliorating technologies in Dedza district in in central Malawi. African Journal of Biotechnology 11(3):561-569. |
|
Kabambe VH, Nambuzi Sc, Kauwa AE (2008). Role or herbicide and fertilizer application in integrated management of Striga asiatica in maize in Malawi. African Journal of Agricultural Research 3(12):140-146. |
|
Kabambe VH, Ngwira AR, Aune JB, Sitaula BK, Chilongo T (2018). Productivity and profitability of groundnut and maize in a semi-arid area of southern Malawi. African Journal of Agricultural Research 113(43):2399-2407. |
|
Kihara J, Huising J, Nziguheba G, Waswa BS, Njoroge S, Iwuafor E, Kibunja C, Esilaba AO, Coulibaly A (2015). Maize response to macronutrients and potential for profitability in sub-Saharan Africa. Nutrient Cycling in Agroecosystems P. 11. |
|
Kisinyo OP, Opala PA, Palapala V, Gudu SO, Othieno CO, Ouma E (2015). Micro-dosing of lime, phosphorus and nitrogen fertilizers effect on maize performance on an acid soil in Kenya. Sustainable Agriculture Research 4(2):21-30. |
|
Kumwenda, JDT, Waddington SR, Snapp SS, Jones RB, Blackie MJ (1997). Soil Fertility Management in Southern Africa. pp. 157-172. In: Byerlee D and Eicher CK (eds). Africa's Emerging Maize Revolution. Lynne Reiner Publishers, Colorado. |
|
Maida JHA (1985). Some physical and chemical properties of selected Malawi soils. Luso Journal of Science and Technology (Malawi) 6(1):1-10. |
|
Marschner H (2011). Mineral Nutrition of Higher Plants. Academic Press. eBook. |
|
McCauley A, Jones C, Jocobsen J (2009). Soil pH and Organic Matter. Nutrient Management Module No. 8. 12 pp. Montana State University. |
|
MoAFS (2012). Ministry of Agriculture, Irrigation and Water Development. Guide to Agricultural Production and Natural Resources Management. Agricultural Communications Branch, Lilongwe, Ministry of Agriculture and Food Security Malawi 366p. |
|
Mtonga YPG (2013). Effects of combining selected bio and inorganic fertilizers with or without lime on soil nutrient availability and maize crop response on Malawi acid soils. MSc Thesis. |
|
Ngulube S, Subramanyam P, Freeman HA, van de Merwe PJA, Chiyembekeza AJ (2001). Economics of groundnut Production in Malawi. ICRISAT international poster. ICRISAT, Lilongwe, Malawi. |
|
Ngwira AR, Kabambe VH, Kambauwa G, Mhango WG, Mwale CD, Chimphero L, Chimbizi A, Mapfumo P (2012). Scaling out best fit legume technologies for soil fertility enhancement among smallholder farmers in Malawi. African Journal of Agricultural Research 7(6):918-928. |
|
Ngwira AR, Kabambe VH, Simwaka P, Kakoko K, Kamoyo K (2020). Productivity and profitability of maize-legume cropping systems under conservation agriculture among smallholder farmers in Malawi. Acta Agriculture, Section B - Soil and Plant Science P. 11 |
|
One Acre Fund (2016). Managing soil acidity with lime. 2015 trial report. |
|
Onwonga RN, Lelei JJ, Freyer B, Friedel JK, Mwonga SM, Wandhawa P (2008). Low Cost Technologies for Enhancing N and P Availability and Maize (Zea mays L.) performance on Acid Soils. World Journal of Agricultural Sciences 4:862-873. |
|
Snapp SS (1998). Soil nutrient status of smallholder farms in Malawi. Communications in Soil Science and Plant Analysis 29:2571-2588. |
|
Takane T (2008). Labour use in smallholder agriculture in Malawi. African Study Monographs 29(4):183-200. |
|
The C, Meka SS, Ngokeu ELM, Bell JM, Mafouasson HA, Menkir A, Calba H, Zonkeng C, Atemkeng M, Horst WJ (2012). Maize grain yield response to changes in acid soil characteristics with yearly leguminous crop rotation, fallow, slash, burn and liming practices. International Journal of Plant and Soil Science 1(1):1-15. |
|
Tully C, Sullivan C, Weil R, Sanchez P (2015). The State of Soil Degradation in Sub-Saharan Africa: Baselines, Trejectories and Solutions. Sustainability 7(6):6523-6552. |
|
Yamoah C, Ngueguim M, Ngong C, Dias DKW (1996). Reduction of P fertilizer requirement using lime and Mucuna on high P-sorption soils of NW Cameroon. African Crop Science Journal 4(4):441-451. |
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