RÉFÉRENCES BIBLIOGRAPHIQUES

Abbasi, M. K., Musa N., Manzoor M., 2015. Mineralization of soluble P fertilizers and insoluble rock phosphate in response to phosphate-solubilizing bacteria and poultry manure and their effect on the growth and P utilization efficiency of chilli (Capsicum annuum L.). Biogeosciences, 12(15), pp. 4607-4619. https://doi.org/10.5194/bg-12-4607-2015

Alikhani, H.A., Saleh-Rastin, N., Antoun, H., 2006. Phosphate solubilization activity of rhizobia native to Iranian soils. Plant and Soil 287: pp.35-41.

Andrianambinina Fano Vatosoa, 2013. « Dynamique et disponibilité de l'azote et du phosphore sous association riz-haricot soumise à différentes doses croissantes de fertilisation minérale azotée et phosphatée ». Essai en pot sous serre sur sol ferrallitique de Tanety de Lazaina

Aulakh M.S., Adhya T.K., 2005. Impact of agricultural activities on emission of greenhouse gases - Indian perspective. In `International Conference on Soil, Water and Environmental Quality - Issues and Strategies. pp. 319-335 (Indian Society of Soil Science: New Delhi).

Aziable E., Tchegueni S., Bodjona B. M., Djahini K., Kili A. K., Tchangbedji G., Baba G., 2014. Etude de la disponibilité du phosphore assimilable des composts de déchets urbains dans deux sols différents.

Begum, M., Narayanasamy, G., and Biswas, D. R., 2004: Phosphorus supplying capacity of phosphate rocks as influenced by compaction with water-soluble P fertilizers, Nutr. Cycl. Agroecosys., 68, 73- 84

Berne OFEFP, 2004. Le cahier de l'environnement N°368. Le phosphore dans les sols : Etat de la situatuin en Suisse. pp 129-145.

Bessoles B., 1997, Géologie de l'Afrique, le craton Ouest africain. Mémoire BRGM n°88.

Bongoua, J., Mustin, C., Berthelin, J. 2012. Salinity, rhizosphere and organic amendment impact on iron reducing bacterial activity in paddy rice field (Thailand). Biology Fertility of Soil Journal. submitted.

Chabot, R., Antoun, H., Cescas, M.P. 1996a.Growth promotion of maize and lettuce by phosphate-solubilizing Rhizobium leguminosarum biovar, phaseoli. Plant and Soil 184: pp. 311-321.

Chaibou Zeioabou. 2012. Effet du phospho-compost sur la production de mil (Pennisetum glaucum : cas de la commune urbaine de Niamey. p28.

CPCS-Commission de pédologie et de cartographie des sols. 1967. Classification des sols. Tableaux des classes, sous-classes, groupes et sous-groupes des sols. Service de classification des sols. INRA, France. 96 p.

53

Dabre A., Hien E., Der Some et Drevon JJ : 2017. Effets d'amendements organiques et phosphatés sous zaï sur les propriétés chimiques et biologiques du sol et la qualité de la matière organique en zone soudano-sahélienne du Burkina Faso. International Journal of Biological and Chemical Sciences, 11(1), pp 473-487.

De Brouwer J., Gandah M., Bouma J., Hiernaux, P., Van Duivenbooden, N. 2003. Strategies to optimize allocation of limited nutrients to sandy soils of the Sahel : a case study form Niger, West Africa. Agriculture, Ecosystems and Environment, 94, 311-390.

Djigal D., Brauman A., Diop T.A., Chotte J.L., Villenave C., 2004a. Influence of bacterial-feeding nematodes (Cephalobidae) on soil microbial communities during maize growth. Soil Biology and Biochemistry 36, 323-331.

Djigal D., Sy M., Brauman A., Diop T.A., Mountport D., Chotte J.L., Villenave C., 2004b. Interactions between Zeldia Punctata (Cephalobidae) and bacteria in the presence or absence of maize plants. Plant and Soil 262, 33-44.

Domey S., Lippmann G., 1989. Stimulation of plant growth by phosphate solubilizing bacteria. Dans Interrelashionships between microorganisms and plants in soil. Éditeurs : V. Vancura et F. Kunc. Dev. Soil. Sci. 18 : pp. 457 - 461.

FAO, 2004. Utilisation des phosphates naturels pour une agriculture durable. http://www.fao.org/3/y5053f/y5053f00.htm#Contents, consulté en ligne le 11 Août 2019.

Fardeau JC et Conesa AP, 1994. Le phosphore. in: Bonneau et Souchier, Pédologie, 2.Constituants et propriétés du sol. Masson, 557-568 pp.

Frey-Klett P., Churin J., Pierrat J., Garbaye J., 1999. Dose effect in the dual inoculation of ectomycorrhizal fungus and mycorrhiza helper bacterium in two forest nurseries. Soil Biol. Biochem. 31: pp. 1555 - 1562.

Giles C.D., Richardson A.E., Druschel G.K., Hill J.A., 2012. Organic anion-driven solubilization of precipitated and sorbed phytate improves hydrolysis by phytases and bioavailability to Nicotiana tabacum. Soil Science 177(10): pp. 591-598.

Gyaneshwar P., Kumar G. N., Parekh L. J. and Poole P. S., 2002. Role of soil microorganisms in improving P nutrition of plants. Plant and Soil 245, pp. 83-93.

Haile D., Mekbib F., Assefa F., 2016. Isolation of Phosphate Solubilizing Bacteria from White Lupin (Lupinus albus L.) Rhizosphere Soils Collected from Gojam, Ethiopia. J Fertil Pestic 7: 172. doi:10.4172/2471-2728.1000172

Hassimi M. S., Boukeskass, A., Adamou, I., 2017. Caractérisation des microorganismes thermotrophes impliqués dans la solubilisation du Phosphate Naturel Marocain au cours de la biotransformation anaérobie du gazon Characterization of thermophilic phosphate solubilizing microorganisms during grassland an. 11(December), pp. 2764-2777.

54

Hayat R., Ali S., Amara U., Khalid R., Ahmed I., 2010. Soil beneficial bacteria and their role in plant growth promotion: a review. Annals Microbiol 60: pp. 579-598

Haygarth P. M., Jarvis,S.C. 1999. Transfer of phosphorus from agricultural soils. Advances in agronomy 66, 195-249.

He Z., Ohno T., Cade-Menun, B.J, Erich, M.S., Honeycutt, C.W. 2006. Spectral and chemical characterization of phosphates associated with humic substances. Soil Science Society of America Journal 70:1741- 1751.

Hinsinger P., 2001. Bioavailability of soil inorganic P in the rhizosphere as affected by root induced chemical changes: a review. Plant and soil. 237: pp. 173-195.

Ilg K., Siemens J. and M. Kaupenjohann. 2005. Colloidal and Dissolved Phosphorus in Sandy Soils as Influenced by Phosphorus saturation. J. Environ. Qual. 34 : pp. 926 - 935

ISSS, ISRIC et FAO. 1998. World reference base for soil resources. World soil resources reports, 84, FAO, Rome. 88 p. In Koné, B., Saidou, A., Camara, M., 2010. Effet de différentes sources de phosphate. 22(1), pp. 55-63.

Jones D.L., Oburger E., 2011. Solubilization of phosphorus by soil microorganisms. In: E.K. Bünemann A. Oberson , E. Frossard (eds), Phosphorus in action. Biological Processes in Soil Phosphorus, 169198. Springer-Verlag, Berlin, Heidelberg.

Kaman Paul, 2013. Analyse des vulnérabilités aux catastrophes et des capacités de réponse en Côte d'Ivoire. pp5-6

Kassin E., Snoeck D., Nguessan, J.-C., Yao-Kouamé A., Camara M., 2012. Projet De Cartographie Des Sols Rapport Final., pp. 1-17.

Khan M.R., Khan M.S., 2002. Effect of root-dip treatment with certain phosphate solubilizing microorganisms on the fusarial wilt of tomato. Bioresource technology, 35: 213-215

Khan Z. R., Midega C. A. O., Wadhams, L. J., Pickett, J. A., Mumuni, A., 2007. Evaluation of Napier grass (Pennisetum purpureum) varieties for use as trap plants for the management of African stemborer (Busseola fusca) in a push-pull strategy. Entomol. Exp. Applic., 124 (2): 201-211

Khan A. A., Jilani G., Akhter M. S., Naqvi, S. M. S., and Rasheed, M., 2009. Phosphorous solubilizing Bacteria; occurrence, Mechanisms and their role in crop production, J. Agric. Biol. Sci., 1, pp. 48- 58.

Khan M. and Sharif, M., 2012: Solubility enhancement of phosphorus from rock phosphate through composting with poultry litter, Sarhad J. Agric., 28, pp. 415-420.

Khan M. S., Zaidi A. and Ahmad E., 2014. Mechanism of phos- phate solubilization and physiological functions of phosphate- solubilizing microorganisms, In: Phosphate Solubilizing Mi- croorganisms: Principles and application of microphos technology, edited by: Khan, M. S., Zaidi, A., and Musarrat, J., Springer International Publishing Switzerland, Switzerland, pp. 31- 62, doi:10.1007/978-3-319-08216-5_2.

55

Koné B., Saidou, A., et Camara M., 2010. Effet de différentes sources de phosphate. 22(1), pp. 55-63.

Koné B., Yao-Kouamé A., Sorho F., Diatta, S., Sié, M., et Ogunbayo, A., 2011. Long-term effect of Mali phosphate rock on the grain yield of interspecifics and saltiva rice cultivars on acid soil in a humid forest zone of Côte d'Ivoire. International Journal of Biological and Chemical Sciences, 4(3)., pp. 563-570. https://doi.org/10.4314/ijbcs.v4i3.60451

Kotchi V., Yao-Kouamé A., et Diatta S., 2010. Réponse de cinq variétés de riz à l'apport de phosphate naturel de Tilemsi (Mali) sur les sols acides de la région forestière humide de Man (Côte d ' Ivoire). pp. 1895-1905.

Koulibaly B., Traoré O., Dakuo D., Zombré P.N., Bondé, D., 2010. Effets de la gestion des résidus de récolte sur les rendements et les bilans culturaux d'une rotation cotonniermaïs-sorgho au Burkina Faso. Tropicultura 28 (3), 184-189

Kpomblekou-A. K. and Tabatabai M.A., 2003. Effect of low-molecular weight organic acids on phosphorus release and phytoavailability of phosphorus in phosphate rocks added to soils, Agri. Ecosyst. Environ., 100, pp. 275-284.

Kucey R.M.N. and Leggett, M.E. (1989) Increased yields and phosphorus uptake by Westar canola (Brassica napus L.) inoculated with a phosphate-solubilizing isolate of Penicillium bilaji. Canadian Journal of Soil Science, 69, 425-432. http://dx.doi.org/10.4141/cjss89-042

Labib K., Diffley J.F., Kearsey S. E., 1999. G1-phase and B-type cyclins exclude the DNA-replication factor Mcm4 from the nucleus. Nat Cell Biol 1(7):415-22

Li L., Li S.M., Sun J.H., Zhou L.L., Bao X.G., Zhang H.G., Zhang F.S., 2007. Diversity enhances agricultural productivity via rhizosphere phosphorus facilitation on phosphorus deficient soils. Proceedings of the National Academy of Sciences of the United States

Li L., et Stanforth R. R., 2000. Distinguishing Adsorption and Surface Precipitation of Phosphate on Goethite (??-FeOOH). DOI: 10.1006/jcis.2000.7072

Lompo F., Segda Z., Gnankambary Z., Ouandaogo N., 2009. Influence des phosphates naturels sur la qualité et la biodégradation d'un compost de pailles de maïs.

Masho, N. M., Memon M., Memon K. S., and Kakr H. 2013: Maize dry matter yield and P uptake as influenced by rock phosphate and single super phosphate treated with farm manure, Soil Environm., 32, 130-134.

McConnell D., 1938. A structural investigation of the isomorphism of the apatite group. Am. Min., 54: pp. 1379-1391

Mehta P., Walia A., Kulshrestha S., Chauhan, A., and Shirkot, C.K.2014. Efficiency of plant growth-promoting P-solubilizing Bacillus circulans CB7 for enhancement of tomato growth under net house conditions, J. Basic Microb., 53, pp. 1-12

56

Mehta S., and Nautiyal, C. S., 2001. An efficient method for qualitative screening of phosphate-solubilizing bacteria. Current microbiology, 43: pp. 51-56.

Mishra I. N., Sandhya Jha., 1996. Nutritive profile of some grasses of Darbhanga. Environment and Ecology, 14 (1): 93-95

Ouchiha O., Oulebsir F.., 2013. Elimination Du Cuivre Par Adsorption (Djebel Onk). pp. 2012-2013.

Pereda Campos Marline Veronica, 2008. Contribution à l'étude des transporteurs de phosphate de la famille PHT1 chez le Peuplier (Populus trichocarpa Torr. & Gray) et le champignon ectomycorhizien Laccaria bicolor (Maire) P. D. Orton

Pereira T. N. A., Castro R. M. C., 2014. A new species of Utiaritichthys Miranda Ribeiro (Characiformes : Serrasamidae) from the Serra dos Parecis, Tapajos drainage. Neotropical Ichthyology. 12(2) : 397-402

Pospisil F., Hrubcová, M., 1975. The influence of humic acids on phytase activity isolated from wheat seeds. Biologia Plantarum 17(6): pp. 468-474.

Plassard L., Ballot, R., Halska, J., Lambert, E., Meynard, J. M., Minette, S., Reau, R., 2015. Innovations Agronomiques 43 (2015), 177-186. Innovations Agronomiques, 43(January), 177-186.

PRICI, 2016. Financement additionnel au projet d'urgence de renaissance des infrastructures/Financement : Don IDA n° H 79 000 - CI/ cadre de gestion environnementale et sociale (CGES) rapport final Avril 2016. pp 65-66

Rabeharisoa L., 2004. Gestion de la fertilité et de la fertilisation phosphatée des sols ferrallitiques des Hautes Terres de Madagascar. Thèse de Doctorat d'Etat ès-Sciences Naturelles. Université

d?Antananarivo, Faculté des Sciences, Département de Biologie et Ecologie Végétales. 199 p.

Raghothama K. G., 1999. Phosphate acquisition. Annual Review of Plant Physiology and Plant Molecular Biology 50: pp. 665-693.

Rao I.M., Barrios E., Amézquita E., Friesen D.K., Thomas R., Oberson A., Singh B.R., 2004. Soil Phosphorus Dynamics, Acquisition and Cycling in Crop-Pasture-Fallow Systems in Low Fertility Tropical Soils: a Review from Latin America. ACIAR proceedings 114 p.

Randriamanantsoa L., Morel C., Rabeharisoa L., Douzet J.M., Jansa J., Frossard E., 2013. Can the isotopic exchange kinetic method be used in soils with a very low water extractable phosphate content and a high sorbing capacity for phosphate ions? Geoderma. http://dx.doi.org/10.1016/j.geoderma.2013.01.019.

Razafimahatratra H. M., 2003. Optimisation des facteurs interactifs de productivité du riz et impacts sur la maîtrise de l'eau, cas du SRI sur les hautes terres malgaches, 102 p.

Rengel Z., 2008. Bioavailability of Phosphorus and Micronutrients in the Soil-Plant-Microbe Continuum. Keynote papers. Fifth International Symposium ISMOM 2008-November 24th - 28th, 2008 - Pucón, Chile.8 p.

57

Reyes, I., Baziramakenga, R., Bernier, L., Antoun, H. 2001. Solubilization of phosphate rocks and minerals by a wild-type strain and two UV-induced mutants of Penicillium rugulosum. Soil Biology and Biochemistry 33: pp. 1741-1747.

Richardson A.E., Barea J.M., McNeill A.M., Prigent-Combaret C., 2009a. Acquisition of phosphorus and nitrogen in the rhizosphere and plant growth promotion by microorganisms. Plant and Soil 321, pp. 305- 339.

Riggle, J., von Wandruszka, R., 2005. Binding of inorganic phosphate to dissolved metal humates. Talanta 66(2): pp. 372-375.

Reddy, M.S., Kumar, S., Babita, K., Reddy, M.S., 2002. Biosolubilization of poorly soluble rock phosphates by Aspergillus tubingensis and Aspergillus niger. Bioresource Technology 84, pp. 187189.

Saidou, A., Kossou, D., Acakpo, C., Richards, P., & Kuyper, T., 2012. Effects of farmers' practices of fertilizer application and land use types on subsequent maize yield and nutrient uptake in central Benin. International Journal of Biological and Chemical Sciences, 6(1), pp. 365-378. https://doi.org/10.4314/ijbcs.v6i1.32

Saleem A. B., A. Ayaz, K.J. Jeffery, K.D. Harris, M., 2013. Integration of visual motion and locomotion in mouse visual cortex Nat. Neurosci., pp. 1864-1869

Salma Taktek, 2015. Dissolution biologique des phosphates : Interaction bactéries - mycorhizes, pp 120.

Sánchez Chávez E., Muñoz E., Anchondo Á., Ruiz J.M., Romero L., 2009. Nitrogen impact on nutritional status of phosphorus and its main bioindicator: response in the roots and leaves of green bean plants. Revista Chapingo, Serie horticultura 15 (2): pp. 177-182.

Seeling B, Zasoski R.J., 1993. Microbial effects in maintaining organic and inorganic solution phosphorus concentrations in a grassland topsoil. Plant Soil 148: pp. 277-284

Servín, P. M., 2014. Development of an Inoculant of Phosphate Rock-Solubilizing Bacteria To Improve Maize, pp 1-10.

Siemens J., Ilg K., Lang F. and M. Kaupenjohann, 2004. Adsorption controls mobilization of colloids and leaching of dissolved phosphorus. European Journal of Soil Science 55: pp. 254 - 263.

Smalberger S.A., Chien S.H., Singh U., Henao, J., 2010. Relative agronomic effectiveness of phosphate rock compared with triple superphosphate for initial canola, wheat, or ryegrass, and residual wheat in two acid soils. Soil Science. 175(1): pp. 36-43.

Smith F.W., Mudge S.R., Rae A.L., Glassop D., 2003. Phosphate transport in plants. Kluwer Academic Publishers. Plant and Soil 248: pp. 71-83

Smith S.E., Read, D.J., 1997. Mycorrhizal symbiosis. Academic Press, San Diego CA.

58

Song O., Lee S., Lee Y., Lee S., Kim K., Choi Y., 2008. Solubilization of insoluble inorganic phosphate by Burkholderia cepacia DA23 isolated from cultivated soil. Brazilian Journal of Microbiology 39: pp. 151-156.

Souhaïl Mâalem, 2011. Etude de l'impact des interactions entre le phosphore et le Chlorure de Sodium sur trois espèces végétales halophytes du genre Atriplex Option Physiologie (A. halimus, végétale A. et canescens applications et A. nummularia). Consulté en ligne le 02 Septembre 2019 sur https://docplayer.fr/85409444-Wzr@-lt%60lym-l%60ly-w-lbhth-l%60lmy.html

Souleymane S., Maméri C., Michel Z., J, K. Z., Francis M., et Aïdara, S., 2010. Effets de la fertilisation minérale sur des variétés améliorées de riz en condition irriguée à Gagnoa, Côte d ' Ivoire. pp. 2235- 2243.

Stroia C., 2007. Etude de fonctionnement de l'écosystème prairial en conditions de nutrition N et P sublimitantes. Application au diagnostic de nutrition. Thèse de Doctorat. Institut National Polytechnique de Toulouse, Université de Sciences Agricoles et Médecine Vétérinaire de Banat Timiþoara, Spécialité: Fonctionnement des Ecosystèmes et Agrosystèmes. 256 p.

Toor G. S., 2009. Enhancing phosphorus availability in low-phosphorus soils by using poultry manure and commercial fertilizer, Soil Sci., 174, pp. 358-364

Turner B. L.; Paphazy, M. J.; Haygarth, P. M. & Mckelvie, I. D. 2002a). Inositol phosphates in the environment. Phil.Trans.R.Soc. London 35. pp. 449-469.

Vance CP, Graham PH, Allan D. L., 2000. Biological nitrogen fixation: phosphorus Ba critical future need? In F.O. Pederosa, M. Hungria, M.G. Yates, W.E. Newton (Eds), Nitrogen Fixation from molecules to crop productivity. Kluwer Academic publishers, Dordrecht, The Netherlands, pp 509 -518.

Vassilev N., Vassileva M., Azcon, R. 1997. Solubilization of rock phosphate by immobilized Aspergillus niger. Bioresource Technology 59(1): pp. 1-4.

Vassilev N., Vassileva M., Azcon R., Fenice M., Federici F., Barea J.M. 1998. Fertilizing effect of microbially treated olive mill wastewater on Trifolium plants. Bioresource Technology 66(2): pp. 133-137.

Vitousek P.M., Porder M., Houlton B.J., Chadwick O.A., 2010. Terrestrial phosphorus limitation: mechanisms, implications, and nitrogen-phosphorus interactions. Ecological Applications 20: pp. 5-15.

Sodexam, 2005. Section météorologie, Côte d'Ivoire - Bull. Annuel, 16 p.

Yu X, Liu X, Zhu TH, Liu G.H, Mao C., 2011. Isolation and characterization of phosphate-solubilizing bacteria from walnut and their effect on growth and phosphorus mobilization. Biol Fertil Soils 47: pp. 437-446

59

Zanguina A., 2011. Contribution à la caractérisation physicochimique et à la mise en valeur agronomique du phosphate naturel de Tahoua (Niger) : essais de fabrication de phospho-compostage. Thèse de doctorat, Université de Niamey.

XIV