Abdulrashid I, Adeduntan SA, Adekunle VAJ, Wali BR (2024). Assessment of soil physicochemical properties in the parklands of northern Nigeria. African Journal of Environment and Natural Science Research 7(1):146-154.
Crossref

Abiala MA, Odebode AC, Hsu SF, Blackwood CB (2015). Phytobeneficial properties of bacteria isolated from the rhizosphere of maize in southwestern Nigerian soils. Applied and Environmental Microbiology 81(14):4736-4743.
Crossref

Abiala MA, Odebode AC, Adeoye GO, Hsu S, Blackood CB (2013). Soil chemical dynamics in maize field of southwestern Nigeria. American-Eurasian Journal of Agriculture & Environmental Science 13(2):234-243.

Adeleye EO, Ayeni LS (2009). Effects of soil preparation methods and organic wastes on soil nutrient status and yield of maize (Zea mays L.) on an Alfisol of Southwestern Nigeria. American-Eurasian Journal of Sustainable Agriculture 3(3):460-467.

Adeoye GO, Agboola AA (1984). Relationship between soil physical and chemical characteristics and ear-leaf concentration of P, K, Mg, Zn, Fe, Cu, Mn and relative yield of maize in soils derived from sedimentary rocks of South-Western Nigeria. Fertilizer Research 5:109-119. (ISSN: 0167-1731).
Crossref

Adeyemo AJ, Akingbola OO, Ojeniyi SO (2019). Effects of poultry manure on soil infiltration, organic matter contents and maize performance on two contrasting degraded alfisols in Southwestern Nigeria. International Journal of Recycling of Organic Waste in Agriculture 8:73-80.
Crossref

Adugna A, Abegaz A (2016). Effects of land use changes on the dynamics of selected soil properties in northeast Wellega, Ethiopia. Soil 2(1):63-70.
Crossref

Agboola AA, Ayodele OJ (1985). Prospects and problems of using soil testing for adoption of fertilizer use in Ekiti-Akoko agricultural development project area. Proceedings of Workshop on Appropriate Technologies for Farmers in Semi-Arid West Africa, 1985, Purdue University, West Lafeyette pp. 123-136.

Agboola AA, Corey RB (1976). Nutrient Deficiency Survey of maize in Western Nigeria. Nigeria Journal of Science 10:1-2.

Agboola T, Ojeleye D (2007). Climate Change and Food Crop Production in Ibadan, Nigeria. African Crop Science Conference Proceedings 8:1423-1433.

Akinde BP, Olakayode AO, Oyedele DT, Tijani FO (2020). Selected physical and chemical properties of soil under different agricultural land-use types in Ile-Ife, Nigeria. Heliyon 6(9):e05090.
Crossref

Alene AD, Menkir A, Ajala SO, Badu-Apraku B, Olanrewaju AS, Manyong VM, Ndiaye A (2009). The economic and poverty impacts of maize research in West and Central Africa. Agricultural Economics 40(5):535-550.
Crossref

Apata TG, Samuel KD, Adeola AO (2009). Analysis of Climate Change Perception and Adaptation among Arable Food Crop Farmers in South Western Nigeria. The International Association of Agricultural Economists' 2009 Conference, Beijing, China, 16-22 August 2009.

Apeh CC (2018). Farmers' Perception of the Health Effects of Agrochemicals in Southeast Nigeria. Journal of Health and Pollution 8(19):180901.
Crossref

Aramburu-Merlos F, Tenorio FAM, Mashingaidze N, Sananka A, Aston S, Ojeda JJ, Grassini P (2024). Adopting yield-improving practices to meet maize demand in Sub-Saharan Africa without cropland expansion. Nature Communications 15(1):4492.
Crossref

Aweto AO, Obe O, Ayanniyi OO (1992). Effects of Shifting Cultivation and Continuous Cultivation of Cassava (manihot esculenta) intercropped with maize on a Forest Alfisol in South Western Nigeria. The Journal of Agricultural Science 118(2):195-198.
Crossref

Ayeni LS (2010). Effect of combined Cocoa pod ash and NPK fertilizer on soil chemical properties, nutrient uptake and yield of maize. Journal of American Science 6(3):79-84.

Ayeni LS (2011). Effect of Sole and Combined Cocoa Pod Ash, Poultry Manure and NPK 20:10:10 Fertilizer on Soil Organic Carbon, Available P and Forms of Nitrogen on Alfisols in Southwestern Nigeria. International Research Journal of Agricultural Science and Soil Science 1(3):77-82.

Ayodele OJ, Omotoso SO (2008). Nutrient Management for Maize Production in Soils of the Savannah Zone of South-Western Nigeria. International Journal of Soil Science 3(1):20-27.
Crossref

Azeez AA, Iyaka YA, Ndamitso MM (2020). Evaluation of Physicochemical Properties in Forest Surface Soils of Kogi State, Nigeria. FUW Trends in Science & Technology Journal 5(1):171-176.

Beretta AN, Silbermann AV, Paladino L, Torres D, Bassahun D, Musselli R, García-Lamohte A (2014). Soil texture analyses using a hydrometer: modification of the Bouyoucos method. Ciencia e Investigación Agraria, Revista Latinoamericana en Ciencias de la Agricultura 41(2):263-271.
Crossref

Bopche V, Chanu KP, Agrawal S, Sharma A (2024). Impact of organic manures on the growth and yield of cauliflower. BIO Web of Conferences 110:01003.
Crossref

Borrelli P, Robinson DA, Panagos P, Lugato E, Yang JE, Alewell C, Wuepper D, Montanarella L, Ballabio C (2020). Land use and climate change impacts on global soil erosion by water (2015-2070). Proceedings of the National Academy of Sciences 117(36):21994-22001.
Crossref

Bremner JM, Mulvaney CS (1982). Nitrogen-total. Methods of soil analysis: part 2 chemical and microbiological properties 9:595-624.
Crossref

Chodak M, Golebiewski M, Morawska-Ploskonka J, Kuduk K, Nikli?ska M (2015). Soil chemical properties affect the reaction of forest soil bacteria to drought and re-wetting stress. Annals of Microbiology 65:1627-1637.
Crossref

Demi SM, Sicchia SR (2021). Agrochemicals Use Practices and Health Challenges of Smallholder Farmers in Ghana. Environmental Health Insights 15:11786302211043033.
Crossref

Eghball B, Power JF (1999). Phosphorus and nitrogen -based manure and compost application: Corn production and soil phosphorus. Soil Science Society of America Journal 63(4):895-901.
Crossref

Eludoyin OS, Wokocha CC (2011). Soil dynamics under continuous monocropping of maize (Zea mays L.) on a forest alfisol in South- Western Nigeria. Asian Journal of Agricultural Science 3:58-62.

FAOSTAT (2022). Statistical databases and data-sets of the Food and Agriculture Organization of the United Nations.

View

Federal Ministry of Agriculture and Natural Resources (FMANR) (1990). Literature review on soil fertility investigations in Nigeria (in Five Volumes). Federal Ministry of Agriculture and Natural Resources Lagos pp. 32-45.

Furey GN, Tilman D (2021). Plant biodiversity and the regeneration of soil fertility. Proceedings of the National Academy of Sciences 118(49):e2111321118.
Crossref

Han GL, Li FS, Tang Y (2015). Variations in soil organic carbon contents and isotopic compositions under different land uses in a typical karst area in Southwest China. Geochemical Journal 49(1):63-71.
Crossref

Heanes DL (1984). Determination of total organic carbon in soils by an improved Chromic acid digestion and spectrophotometric procedure. Communication in Soil Science and Plant Analysis 15(10):1191-213.
Crossref

Higa T, Wididana GN (1989). Changes in the soil microflora induced by effective microorganisms. In First Int. Conf. Kyusei Nature Farming. (Ed. J. F Parr et al). USDA, Washington, USA pp. 156-164.

IITA (2009). CGIAR research program MAIZE.

View

Jibril E, Yahaya S (2010). Pattern of nutrient distribution under Chromolaena odorata in the Federal Capital Territory, Abuja, Nigeria. European Journal of Scientific Research 42(2):214-219.

Jones MJ, Wild A (1975). Soils of the West African Savannah. Commonwealth Bureau of Soils, Technical Communication No. 55 Harpenden, England.

Kang BT (1981). Nutrient requirement and fertilizer use for maize. Agronomy training manual for agroservice agronmonist NAFPP/IITA. Fed. Dept. Agr. Lagos. 1981:405-416.

Kobayashi DY, Palumbo JD (2000). Bacterial endophytes and their effects on plants and uses in agriculture. In: Bacon CW, White JF, Jr (Eds.) Microbial Endophytes, Marcel Dekker, New York, 199-236.

Lagos L, Maruyama F, Nannipieri P, Mora M, Ogram A, Jorquera M (2015). Current overview on the study of bacteria in the rhizosphere by modern molecular techniques: A mini-review. Journal of soil Science and Plant Nutrition 15(2):504-523.

Liang R, Hou R, Li J, Lyu Y, Hang S, Gong H, Quyang Z (2020). Effects of different fertilizers on rhizosphere bacterial communities of winter wheat in the North China Plain. Agronomy 10(1):1-12.
Crossref

Liliane TN, Charles MS (2020). Factors Affecting Yield of Crops, Agronomy-Climate Change & Food Security, Amanullah, IntechOpen, (July 15th 2020). DOI: 10.5772/intechopen.90672. Available from:

View

Mehlich A (1984). Mehlich 3 Soil test extractant: A modification of the Mehlich 2 extractant. Communication in Soil Science and Plant Analysis 15:1409-1416.
Crossref

Minasny B, Malone BP, McBratney AB, Angers DA, Arrouays D, Chambers A, Chaplot V, Chen Z-S, Cheng K, Das BS, Field DJ, Gimona A, Hedley CB, Hong SY, Mandal B, Marchant BP, Martin M, McConkey BG, Mulder VL, O'Rourke S, Richer-de-Forges AC, Odeh I, Padarian Jé, Paustian K, Pan G, Poggio L, Savin I, Stolbovoy V, Stockmann U, Sulaeman Y, Tsui C-C, Vågen T-G, van Wesemael B, Winowiecki L (2017). Soil carbon 4 per mille. Geoderma 292:59-86.
Crossref

Molina-Santiago C, Matilla MA (2020). Chemical fertilization: a short-term solution for plant productivity? Microbial Biotechnology 13(5):1311-1313.
Crossref

Odelade KA, Babalola OO (2019). Bacteria, Fungi and Archaea domains in rhizospheric soil and their effects in enhancing agricultural productivity. International Journal of Environmental Research and Public Health 16(20):3873
Crossref

Olorunfemi IE, Fasinmirina JT, Akinola FF (2018). Soil physico-chemical properties and fertility status of long-term land use and cover changes: A case study in Forest vegetative zone of Nigeria. Eurasian Journal of Soil Science 7(2):133-150.
Crossref

Onumah G, Dhamankar M, Ponsioen T, Bello M (2021). Maize value chain analysis in Nigeria. In: Report for the European Union, INTPA/F3. Value Chain Analysis for Development Project. VCA4D CTR 2016/375-804), 155p+ annexes.

Orole OO, Adeyemo TO (2011). Bacterial and Fungal endophytes associated with grains and roots of maize. Journal of Ecology and The Natural Environment 3(9):298-303.

Oyekanmi EO, Coyne DL, Fawole B (2008). Utilization of the potentials of selected microorganisms as biocontrol and biofertilizer for enhanced crop improvement. Journal of Biological Sciences 8(4):746-752.
Crossref

Penuelas J, Coello F, Sardans J (2023). A better use of fertilizers is needed for global food security and environmental sustainability. Agriculture & Food Security 12(1):1-9.
Crossref

PWC (2021). Positioning Nigeria as Africa's Leader in Maize Production for AfCFTA. Insights on Global Maize Production and How Nigeria Can Position Itself as Africa's Leader in Maize Production. Link.

View

Reynolds J (2005). Serial dilution protocols. ASM Microbe Library.

View

Salako FK, Tian G, Kang BT (2002). Indices of root and canopy growth of leguminous cover crops in the savanna zone of Nigeria. Tropical Grasslands 36(1):33-46.

Sangakkara UR, Attanayake KB, Ratnayake ADA, Piyadasa ER (1993). The role of effective microorganisms in releasing nutrients from organic matter. In Proc. Third Int. Cong. On EM Technology of APNAN. Saraburi, Thailand pp. 6-15.

Shahane AA, Shivay YS (2021). Soil health and its improvement through novel agronomic and innovative approaches. Frontiers in Agronomy 3:680456.
Crossref

Silver WL, Perez T, Mayer A, Jones AR (2021). The role of soil in the contribution of food and feed. Philosophical Transactions of the Royal Society B 376(1834):20200181.
Crossref

Sobulo RA, Osiname OA (1985). Fertilizer use in the tropics-Nigerian experience. Proceedings of International Conference of the International Soil Science Society (Commission IV and VI) Organized by Soil Science Society of Nigeria, July 21-26, Held at Ibadan, Nigeria pp. 193-203.

Statistical Analysis System-SAS (2009). SAS/STAT Guide for Personal Computers, Version 9.2 (TSIMO) Edition 2009, 1028 p. Cary, NC USA, SAS Institute Incorporation.

Technicon Instrument Corporation [Technicon Autoanalyser] (1971). Preliminary Total Nitrogen (Kjeldahl). Industrial method No. 146-71 A. Tarrytown, N. Y.

View

Trivedi P, Delgado-Baquerizo M, Anderson IC, Singh BK (2016). Response of soil properties and microbial communities to agriculture: Implications for primary productivity and soil health indicators. Frontiers in Plant Science 7:181004.
Crossref

Trivedi P, Leach JE, Tringe SG, Sa T, Singh BK (2020). Plant-microbiome interactions: from community assembly to plant health. Nature Reviews Microbiology 18(11):607-621.
Crossref

Wakelin SA, Gerard E, Van Koten C, Banabas M, O'Callaghan M, Nelson PN (2016). Soil physicochemical properties impact more strongly on bacteria and fungi than conversion of grassland to oil palm. Pedobiologia 59(3):83-91.
Crossref

Wawire AW, Csorba Á, Tóth JA, Michéli E, Szalai M, Mutuma E, Kovács E (2021). Soil fertility management among smallholder farmers in Mount Kenya East region. Heliyon 7(3):e06488.
Crossref

Woodruff CM (1949). Estimating the nitrogen delivery of soil from the organic matter determination as reflected by sanborn field. Soil Science 14:208-212.
Crossref

Wossen T, Abdoulaye T, Alene A, Feleke S, Menkir A, Manyong V (2017). Measuring the impacts of adaptation strategies to drought stress: the case of drought tolerant maize varieties. Journal of Environmental Management 203:106-113.
Crossref

Wossen T, Menkir A, Alene A, Abdoulaye T, Ajala S, Badu-Apraku B, Gedil M, Mengesha W, Meseka S (2023). Drivers of transformation of the maize sector in Nigeria. Global Food Security 38:100713.
Crossref

Zhou W, Han G, Liu M, Li X (2019). Effects of soil pH and texture on soil carbon and nitrogen in soil profiles under different land uses in Mun River Basin, Northeast Thailand. Peer J 7:e7880.
Crossref

Zingore S, Mutegi J, Agesa B, Tamene L, Kihara J (2015). Soil Degradation in sub-Saharan Africa and Crop Production Options for Soil Rehabilitation. Better Crops with Plant Food 99(1):24-26.