Abstract
Chemical fertilizers are used to increase crop quantity and quality and to influence the taste of many food crops. On the other hand, there are increasing environmental concerns and food-related illnesses connected to the use of these chemicals in order to boost food production and meet up with existing food demand. The problems have been that of inappropriate application and misuse of chemical fertilizers at different stages in farm management. The major concern of fertilizer contamination to food is that of nitrate pollution leading to nitrate poisoning common to both man and livestock. The tendency for food contamination is high for short-cycle crops like vegetables and maize, root crops like carrots and tubers like yams and cassava. This depends largely on the type of fertilizer application, the quantity and rate of application. Many studies have revealed that above 5% of nitrogen nutrient from fertilizer application is lost to water during the cropping season. Two-thirds of it is due to inappropriate application practices. Most farmers carry out mix application of agrochemicals. This is rampant with liquid chemical application on food crops, where liquid pesticides are often mixed with either powder or liquid chemical fertilizers during application or vice versa. This makes identification and characterization of the risks of inorganic fertilizers on soils and food crops a difficult task and needs more research and investigations.
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References
Adiaha MS, Agba OA (2016) Influence of different methods of fertilizer application on the growth of maize (Zea mays L.) for increase production in South Nigeria. World Sci News 54(2016):73–86
Al-Kaisi M (2017) Basic field indicators for assessing soil health. Strategies for building healthy soils: soil health conference 02, 2017
Allen T, Mangan F (2015) Over-fertilization of soils: its causes, effects and remediation. US Composting Council field guide to compost use. Fact sheet. Ref. No. SPTTL. 11, March 2015
Brevik EC (2010) Soils, plant growth and crop production. Vol. I: Soil health and productivity. ©Encyclopedia of Life Support Systems (EOLSS)
CRI (2016) Three components of soil health. AgSourc Laboratories
Doran JW, Coleman DC, Bezdicek DF, Stewart BA (eds) (1994) Defining soil quality for a sustainable environment. Special publication #34. American Society of Agronomy, Madison, WI
Finneran R (2012) Fertilizer application methods and placement. Michigan State University Extension, East Lansing, MI
Glunk E, Olson-Rutz K, King M, Wichman D, Jones C (2015) Nitrate toxicity of Montana forages. MT200205AG Revised 3/15
Haun W (2015) Plant nutrient uptake mechanisms. TIGER®TECH: NEWSLETTER
Hoyt R (2018) Four methods for applying fertilizers. https://homeguides.sfgate.com/four-methods-applying-fertilizers-25517.html. Accessed 05 2019
Isherwood KF (2000) Fertilizer use and the environment, revised edition. International Fertilizer Industry Association. IFIA, Paris. isbn: 2-9506299-3-8
Laishram J, Saxena KG, Maikhuri KS, Rao KS (2012) Soil quality and soil health: a review. Int J Ecol Environ Sci 38(1):19–37. © National Institute of Ecology, New Delhi
Lekeanju NT, MIK L, Mbunya FN (2016) Chemical fertilizer application and farmers perception on food safety in Buea, Cameroon. Agric Sci Res J 6(12):287–295. December, 2016: issn: 2026
Mateo-Sagasta J, Zadeh SM, Turral H, Burke J (2017) Water pollution from agriculture: A global review. Executive summary: Food and Agriculture Organization of the United Nations and the International Water Management Institute on behalf of the Water Land and Ecosystems research program Colombo
Matt D, Rembialkowska E, Luik A, Peetsmann E, Pehme S (2011) Quality of organic vs. conventional food and effects on health. Report by Estonian University of Life Sciences
McCauley A, Jones C, Ruts KO (2017) Soil PH and organic matter. Nutrient management module no. 8. Copyright © 2017 Montana State University (MSU) Extension
Ngo PT, Rumpel C, Doan TT, Jouquet P (2012) The effect of earthworms on carbon storage and soil organic matter composition in tropical soil amended with compost and vermicompost. Soil Biol Biochem 50(2012):214e220
Rahman AKM, Zhang D (2018) Effects of fertilizer broadcasting on the excessive use of inorganic fertilizers and environmental sustainability. J Sustain 10(3):759
Savci S (2012) An agricultural pollutant: chemical fertilizers. Int J Environ Sci Dev 3(1):73
Silva JA, Evensen CI, Bowen RL, Kirby R, Tsuji GY, Yost RS (2000) Managing fertilizer nutrients to protect the environment and human health. In: Plant nutrient management in Hawaii’s soils. Approaches for tropical and subtropical Agriculture
Whittier JC (2011) Nitrate poisoning. Livestock series/health. Fact sheet no. 1.610
Wiederholt R, Johnson B (2005) Unintended impacts of fertilizer and manure mismanagement on natural resources. North Dakota State University: NDSU Extension service. Jan 2005
Wu F, Wan JHC, Wu S, Wong M (2012) Effects of earthworms and plant growth–promoting rhizobacteria (PGPR) on availability of nitrogen, phosphorus, and potassium in soil. J Plant Nutr Soil Sci 175:423–433. https://doi.org/10.1002/jpln.201100022
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Tayoh, L.N. (2020). Destruction of Soil Health and Risk of Food Contamination by Application of Chemical Fertilizer. In: Bauddh, K., Kumar, S., Singh, R., Korstad, J. (eds) Ecological and Practical Applications for Sustainable Agriculture. Springer, Singapore. https://doi.org/10.1007/978-981-15-3372-3_3
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DOI: https://doi.org/10.1007/978-981-15-3372-3_3
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