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Impact of organic and inorganic fertilizers on tomato vigor, yield and fruit composition under tropical andosol soil conditions

Published online by Cambridge University Press:  09 June 2009

Libert Brice Tonfack
Affiliation:
Lab. Biotechnol. Environ., Dep. Plant Biol., Fac. Sci., Univ. Yaoundé 1, Cameroon Lab. Genomics Fruit Biotechnol., UMR 990, INRA/INP-ENSAT, Toulouse, France
Anne Bernadac
Affiliation:
Lab. Genomics Fruit Biotechnol., UMR 990, INRA/INP-ENSAT, Toulouse, France
Emmanuel Youmbi
Affiliation:
Lab. Biotechnol. Environ., Dep. Plant Biol., Fac. Sci., Univ. Yaoundé 1, Cameroon
V. Paul Mbouapouognigni
Affiliation:
Dep. Hortic. Plant, Inst. Agric. Res. Dev. (IRAD), Foumbot, Cameroon
Martin Ngueguim
Affiliation:
Dep. Hortic. Plant, Inst. Agric. Res. Dev. (IRAD), Foumbot, Cameroon
Amougou Akoa
Affiliation:
Lab. Biotechnol. Environ., Dep. Plant Biol., Fac. Sci., Univ. Yaoundé 1, Cameroon
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Abstract

Introduction. Little is known about the impact of organic manure on andosol. Materials and methods. Two varieties of Solanum lycopersicum L. (cvs. ‘Rio grande’ and ‘Rossol VFN’) were grown under tropical andosol. The soil was silty, acidic and very poor in Bray P (3 mg·kg–1) with a strong imbalance in the (Ca:Mg:K) ratio of (74.0:25.0:0.7). Five fertilization treatments were used: (i) control with no fertilizer, (ii) minerals, with a (Ca:Mg:K) ratio of (76:18:6) and 75 mg P·kg–1 of soil; (iii) poultry manure with a (Ca:Mg:K) ratio of (68:24:7) and 450 mg P·kg–1 of soil; (iv) a combination of (ii) and (iii), and (v) mineral fertilization as applied by local farmers, with a (Ca:Mg:K) ratio of (73:25:1) and 54 mg P·kg–1 of soil. Results. All cation-balanced treatments (organic, mineral or a combination of both) significantly improved plant growth, the number of trusses and fruits per plant, the marketable fruit yield and fruit P, K, Ca and Na contents of both tomato varieties considered. The ‘Rio grande’ variety was the most productive (32–44 t·ha–1) compared with the ‘Rossol’ variety (20–22 t·ha–1). There was no major difference between the organic fertilizer and the cation-balanced mineral fertilizer. There was no effect of mineral fertilizer with an unbalanced cation composition on tomato plant growth and production as compared with unfertilized control. Conclusion. In tropical andosol poor in potassium and phosphorous and with excess of Mg, application of poultry manure in adequate dosage and at the right time is capable of sustaining tomato fruit production, as well as the application of calculated inorganic fertilizer.

Type
Research Article
Copyright
© CIRAD, EDP Sciences, 2009

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References

Bationo A., Hartemink A., Lungu O., Naimi M., Okoth P., Smaling E., Thiombiano L., African soils: their productivity and profitability of fertilizer use, Background papers prepared for the African fertilizer summit, Abuja, Nigeria, 2006, 25 p.
Sanchez P.A., Shepherd K.D., Soule M.J., Place F.M., Buresh R.J., Izac A.-M.N., Mokwunye A.U., Kwesiga F.R., Ndiritu C.G., Woomer P.L., Soil fertility replenishment in Africa. An investment in natural resource capital, in: Buresh R.J., Sanchez P.A., Calhoun F. (Eds.), Replenishing soil fertility in Africa, Soil Sci. Soc. Am. (SSSA), spec. publ., no. 51., Madison, WI, USA, 1997.
Sansoulet, J., Cabidoche, Y.M., Cattan, P., Adsorption and transport of nitrate and potassium in an andosol under banana (Guadeloupe, French West Indies), Eur. J. Soil Sci. 58 (2007) 478489. CrossRef
Kaffo, C., Culture maraîchères dans les montagnes du Cameroun occidental, Cah. Agric. 14 (6) (2005) 517524.
Smaling E.M.A., Nandwa S.M., Janssen B.H., Soil fertility in Africa is at stake, in: Buresh R.J., Sanchez P.A., Calhoun F. (Eds.), Replenishing soil fertility in Africa, Soil Sci. Soc. Am. (SSSA), Spec. publ., No. 51., Madison, WI, USA, 1997.
Palm C.A., Myers R.J.K., Nandwa S.M., Combined use of organic and inorganic nutrient sources for soil fertility maintenance and replenishment, in: Buresh R.J., Sanchez P.A., Calhoun F. (Eds.), Replenishing soil fertility in Africa, Soil Sci. Soc. Am. (SSSA), Spec. publ., No. 51., Madison, WI, USA, 1997.
Dahlgren R.A., Nanzyo M., Saigusa M., Volcanic soils: an overview and new perspectives, in: Oskarsson H., Arnalds O. (Eds.), Volcanic soil resources in Europe, Abstr. COST Action 622 Final Meet., Agric. Res. Inst., Rala Rep., No. 214, Iceland, Reykjavik, 2004.
Shoji S., Dahlgren R., Nanzyo M., Volcanic ash soils: genesis, properties and utilization, Elsevier, Dev. Soil Sci., vol. 21, Amst., Neth., 1993, 288 p.
Mora, M.L., Canales, J., Interactions of humic substances with allophonic compounds, Soil Sci. Plant Anal. 26 (1995) 28052817. CrossRef
Heanes, D.L., Determination of organic C in soils by an improved chromic acid digestion and spectrophotometric procedure, Comm. Soil Sci. Plant Anal. 15 (1984) 11911213. CrossRef
Buondonno, A., Rashad, A.A., Coppola, E., Comparing tests for soil fertility. II. The hydrogen peroxide/sulfuric acid treatment as an alternative to the copper/selenium catalyzed digestion process for routine determination of soil nitrogen-Kjeldahl, Comm. Soil Sci. Plant Anal. 26 (1995) 16071619. CrossRef
Anderson J.M., Ingram J.S.I., Tropical soil biology and fertility: a handbook of methods, Second ed., CAB Int., Wallingford, Oxfordshire, UK, 1993, 221 p.
Murphy, J., Riley, J.P., A modified single solution method for determination of phosphate in natural waters, Anal. Chim. Acta 27 (1962) 3136. CrossRef
Caburet A., Daly P., De Bon H., Huat J., Langlais C., Lyannaz J.-P., Ryckewaert P., Les légumes : la tomate, in: Memento de l’agronome, Cirad-Gret-Minist. Aff. Étrang., Paris, France, 2002, pp. 1045–1049.
Flores, P., Navarro, J.M., Carvajal, M., Cerda, A., Maitinez, V., Tomato yield and quality as affected by nitrogen source and salinity, Agron. 23 (2003) 249256. CrossRef
Fontes, P.C.R., Sampiao, R.A., Finger, F.L., Fruit size, mineral composition and quality of trickle-irrigated tomatoes as affected by potassium rates, Pesqui. Agropecu. Bras. 35 (1) (2000) 2125. CrossRef
Sanchez Conde, M.P., Influencia de la presión osmótica sobre el desarrollo y composición de la planta y fruto de tomate (Lyco-persicon esculentum), Agrochim. 30 (1986) 219228.
Otani, T., Ae, N., The status of inorganic and organic phosphorous in some soils in relation to plant availability, Soil Sci. Plant Nutr. 43 (2) (1997) 419429. CrossRef
Buresh, R.J., Smithson, P.C., Building soil phosphorus in Africa, Soil Sci. Soc. Am. J. (Spec. publ.) 51 (1997) 111149.
Odongo, N.E., Hyoung-Ho, K., Choi Hee-chul, Van Straaten P., McBride B.W., Romney D.L., Improving rock phosphate availability through feeding, mixing and processing with composting manure, Biores. Technol. 98 (2006) 29112918. CrossRef
Bodet J.M., Hacala S., Aubert C., Texier C., Fertiliser avec les engrais de ferme, Ed. Inst. Elév., ITAVI-ITCF-ITP, Paris, France, 2001, 104 p.
Schmitt M., Rehm G., Fertilizing cropland with poultry manure, Univ. Minnesota, Ext. serv., Publ. 05881, USA, 2002, 7 p.
Gaskell M., Mitcheli J., Smith R., Koike S.T., Fouche C., Soil fertility management for organic crops, Org. Veg. Prod. Calif. Ser., Publ. 7249, 2000, 5 p.
Heeb, A., Lundegardh, B., Savage, G., Ericsson, T., Impact of organic and inorganic fertilizers on yield, taste and nutritional quality of tomatoes, J. Plant Nutr. Soil Sci. 169 (2006) 535541. CrossRef
Gianquinto, G., Borin, M., Effect of organic and mineral fertilizer application and soil type on the growth and yield of processing tomatoes (Lycopersicon esculentum Mill.), Riv. Agron. 24 (4) (1990) 339348.
Oikeh, S.O., Asiegbu, J.E., Growth and yield responses of tomatoes to sources and rates of organic manure in ferralitic soils, Biores. Technol. 45 (1) (1993) 2125. CrossRef
Zhang, C.L., Zhang, Y.D., Goa, Z.M., Xu, G.H., Wang, L.Y., Zhou, Q.S., Effects of combined use of inorganic and organic fertilizers on the yield and quality of tomato, J. Soil Sci. 19 (6) (1988) 276278.
Cavero, J., Plant, R.E., Shennam, C., Friedman, D.B., The effect of nitrogen source and crop rotation on the growth and yield of processing tomatoes, Nutr. Cycl. Agroecosyst. 47 (3) (1997) 271282. CrossRef