African Journal of
Agricultural Research

  • Abbreviation: Afr. J. Agric. Res.
  • Language: English
  • ISSN: 1991-637X
  • DOI: 10.5897/AJAR
  • Start Year: 2006
  • Published Articles: 6900

Full Length Research Paper

Using superior plant growth-promoting microorganisms through bioprospecting to create inoculants for peanut (Arachis hypogaea L.) farming

Béatrice Dibor Ndiaye
  • Béatrice Dibor Ndiaye
  • Laboratoire Commun de Microbiologie (LCM) IRD/ISRA/UCAD, Centre de Recherche et de Formation à la Recherche IRD/ISRA de Bel-Air, BP 1386. CP 18524 Dakar, Sénégal.
  • Google Scholar
Mouhamed Thiao
  • Mouhamed Thiao
  • Laboratoire Commun de Microbiologie (LCM) IRD/ISRA/UCAD, Centre de Recherche et de Formation à la Recherche IRD/ISRA de Bel-Air, BP 1386. CP 18524 Dakar, Sénégal.
  • Google Scholar
Maimouna Cissoko
  • Maimouna Cissoko
  • Laboratoire Commun de Microbiologie (LCM) IRD/ISRA/UCAD, Centre de Recherche et de Formation à la Recherche IRD/ISRA de Bel-Air, BP 1386. CP 18524 Dakar, Sénégal.
  • Google Scholar
Malick Ndiaye
  • Malick Ndiaye
  • Département de Biologie végétale, Université Cheikh Anta Diop (UCAD), BP 5005, Dakar-Fann, Sénégal
  • Google Scholar
Nogaye Niang
  • Nogaye Niang
  • Laboratoire Commun de Microbiologie (LCM) IRD/ISRA/UCAD, Centre de Recherche et de Formation à la Recherche IRD/ISRA de Bel-Air, BP 1386. CP 18524 Dakar, Sénégal.
  • Google Scholar
Mansour Thiao
  • Mansour Thiao
  • Laboratoire Commun de Microbiologie (LCM) IRD/ISRA/UCAD, Centre de Recherche et de Formation à la Recherche IRD/ISRA de Bel-Air, BP 1386. CP 18524 Dakar, Sénégal.
  • Google Scholar
Saliou Fall
  • Saliou Fall
  • Laboratoire Commun de Microbiologie (LCM) IRD/ISRA/UCAD, Centre de Recherche et de Formation à la Recherche IRD/ISRA de Bel-Air, BP 1386. CP 18524 Dakar, Sénégal.
  • Google Scholar
Samba Ndao Sylla
  • Samba Ndao Sylla
  • Laboratoire Commun de Microbiologie (LCM) IRD/ISRA/UCAD, Centre de Recherche et de Formation à la Recherche IRD/ISRA de Bel-Air, BP 1386. CP 18524 Dakar, Sénégal.
  • Google Scholar
Godar Sene
  • Godar Sene
  • Laboratoire Commun de Microbiologie (LCM) IRD/ISRA/UCAD, Centre de Recherche et de Formation à la Recherche IRD/ISRA de Bel-Air, BP 1386. CP 18524 Dakar, Sénégal.
  • Google Scholar


  •  Received: 25 October 2023
  •  Accepted: 12 July 2024
  •  Published: 30 September 2024

References

Alexander A, Singh VK, Mishra A (2020). Halotolerant PGPR Stenotrophomonas maltophilia BJ01 induces salt tolerance by modulating physiology and biochemical activities of Arachis hypogaea. Frontiers Microbiology 11:568289. 
Crossref

 

Bagyalakshmi B, Ponnusamy P, Angusamy B (2017). Potassium solubilization, plant growth promoting substances by potassium solubilizing bacteria (KSB) from southern indian tea plantation soil. Biocatalysis and Agricultural Biotechnology 12:116-124. 
Crossref

 

Barret M, Briand M, Bonneau S, Préveaux A, Valière S, Bouchez O, Hunault G, Simoneau P, Jacques MA (2015). Emergence shapes the structure of the seed microbiota. Applied and Environmental Microbiology 81(4):1257-1266. 
Crossref

 

Busby RR, Rodriguez G, Gebhart DL, Yannarell AC (2016). Native Lespedeza species harbor greater non-rhizobial bacterial diversity in root nodules compared to the coexisting invader, L. cuneata. Plant and Soil 401:427-436. 
Crossref

 

Chen J, Zhao G, Wei Y, Dong Y, Hou L, Jiao R (2021). Isolation and screening of multifunctional phosphate solubilizing bacteria and its growth-promoting effect on chinese fir seedlings. Scientific Reports 11:9081. 
Crossref

 

Collavino MM, Sansberro PA, Mroginski LA, Aguilar OM (2012). Comparison of in vitro solubilization activity of diverse phosphate-solubilizing bacteria native to acid soil and their ability to promote Phaseolus vulgaris growth. Biology and Fertility of Soils 46:727-738. 
Crossref

 

de Lajudie P, Willems A, Nick G, Mohamed SH, Torck U, Coopman R, Filali-Maltouf A, Kersters K, Dreyfus B, Lindström K (1999). Agrobacterium bv. 1 strains isolated from nodules of tropical legumes. Systematic and Applied Microbiology 22:119-132. 
Crossref

 

Desai S, Amaresan N (2022). Qualitative and quantitative estimation of phosphate solubilizing Actinobacteria. In: Dharumadurai, D. (eds) Methods in Actinobacteriology. Springer Protocols Handbooks. Humana, New York, NY.
Crossref

 

Diouf D, Samba-Mbaye R, Lesueur D, Ba AT, Dreyfus B, de Lajudie P, Neyra M (2007). Genetic diversity of Acacia seyal Del. rhizobial populations indigenous to Senegalese soils in relation to salinity and pH of the sampling sites. Microbial Ecology 54:553-566. 
Crossref

 

Edwards U, Rogall T, Blöcker H, Emde M, Böttger EC (1989). Isolation and direct complete nucleotide determination of entire genes. Characterization of a gene coding for 16S ribosomal RNA. Nucleic Acids Research 17(19):7843-53. 
Crossref

 

Frank AC, Saldierna Guzmán JP, Shay JE (2017). Transmission of bacterial endophytes. Microorganisms 5(4):70. 
Crossref

 

Gaby JC, Buckley DH (2012). A comprehensive evaluation of PCR primers to amplify the nifH gene of nitrogenase. PLoS one 7(7):e42149. 
Crossref

 

Hamim A, Boukeskasse A, Ouhdouch Y, Farrouki A, Barrijal S, Miché L, Mrabet R, Duponnois R, Hafidi M (2019). Phosphate solubilizing and PGR activities of ericaceous shrubs microorganisms isolated from Mediterranean forest soil. Biocatalysis and Agricultural Biotechnology 19:101128. 
Crossref

 

Harish V, Aslam S, Chouhan S, Pratap Y, Lalotra S (2023). Iron toxicity in plants: a review. International Journal of Environment and Climate Change 13(8):1894-1900. 
Crossref

 

Hossain MS, Frith C, Bhattacharyya SS, DeLaune PB, Gentry TJ (2023). Isolation and characterization of bacterial endophytes from small nodules of field-grown peanut. Microorganisms 11:1941. 
Crossref

 

Hsu S, Buckley DH (2009). Evidence for the functional significance of diazotroph community structure in soil. he ISME journal 3(1):124-136. 
Crossref

 

Jayaprakash A, Thanmalagan RR, Roy A, Arunachalam A, Lakshmi P (2019). Strategies to understand Aspergillus flavus resistance mechanism in Arachis hypogaea L. Current Plant Biology 20:100123. 
Crossref

 

Júnior PS, Cardoso FP, Martins AD, Buttrós VH, Pasqual M, Dias DR, Schwan RF, Dória J (2020). Endophytic bacteria of garlic roots promote growth of micropropagated meristems. Microbiological Research 241:126585. 
Crossref

 

Kandasamy GD, Kathirvel P (2023). Insights into bacterial endophytic diversity and isolation with a focus on their potential applications -A review. Microbiological Research 266:127256. 
Crossref

 

Khbaya B, Neyra M, Normand P, Zerhari K, Filali-Maltouf A (1998). Genetic diversity and phylogeny of rhizobia that nodulate Acacia spp. in Morocco assessed by analysis of rRNA genes. Applied and Environmental Microbiology 64:4912-4917. 
Crossref

 

King EO, Ward MK, Raney DE (1954). Two simple media for the demonstration of pyocyanin and fluorescin. Journal of Laboratory and Clinical Medicine 44-301-307.

 

Kotasthane AS, Agrawal T, Zaidi NW, Singh U (2017). Identification of siderophore producing and cynogenic fluorescent Pseudomonas and a simple confrontation assay to identify potential bio-control agent for collar rot of chickpea. 3 Biotech 7(2):137.
Crossref

 

Lau ET, Tani A, Khew CY, Chua YQ, San Hwang S (2020). Plant growth-promoting bacteria as potential bio-inoculants and biocontrol agents to promote black pepper plant cultivation. Microbiological Research 240:126549. 
Crossref

 

Lesueur D, Deaker R, Herrmann L, Bräu L, Jansa J (2016). The production and potential of biofertilizers to improve crop yields. In N.K. Arora et al. (eds.), Bioformulations: for Sustainable Agriculture 71:92. 
Crossref

 

Lotfi N, Soleimani A, Çakmakç? R, Vahdati K, Mohammadi P (2022). Characterization of plant growth-promoting rhizobacteria (PGPR) in Persian walnut associated with drought stress tolerance. Scientific Reports 12:12725. 
Crossref

 

Lu Y, Yan Y, Qin J, Ou L, Yang X, Liu F, Xu Y (2023). Arbuscular mycorrhizal fungi enhance phosphate uptake and alter bacterial communities in maize rhizosphere soil. Frontiers in Plant Science 14:1206870. 
Crossref

 

Lumini E, Orgiazzi A, Borriello R, Bonfante P, Bianciotto V (2010). Disclosing arbuscular mycorrhizal fungal biodiversity in soil through a land-use gradient using a pyrosequencing approach. Environmental Microbiology 12(8):2165-2179. 
Crossref

 

Mekdad AA, El-Enin MMA, Rady MM, Hassan FA, Ali EF, Shaaban A (2021). Impact of level of nitrogen fertilization and critical period for weed control in peanut (Arachis hypogaea L.). Agronomy 11:909. 
Crossref

 

Mohanty S, Swain CK (2018). Role of microbes in climate smart agriculture. In: Panpatte D, Jhala Y, Shelat H, Vyas R. (eds) Microorganisms for Green Revolution. Microorganisms for Sustainability, Springer, Singapore P 7.
Crossref

 

Naqqash T, Imran A, Hameed S, Shahid M, Majeed A, Iqbal J, Hanif MK, Ejaz S, Malik KA (2020). First report of diazotrophic Brevundimonas spp. as growth enhancer and root colonizer of potato. Scientific Reports 10:12893. 
Crossref

 

Nath D, Maurya BR, Meena VS (2017). Documentation of five potassium- and phosphorus-solubilizing bacteria for their K and P-solubilization ability from various minerals. Biocatalysis and Agricultural Biotechnology 10:174-181.
Crossref

 

Noba K, Ngom A, Guèye M, Bassène C, Kane M, Diop I, Ndoye F, Mbaye MS, Kane A, Ba AT (2014). L'arachide au Sénégal : état des lieux, contraintes et perspectives pour la relance de la filière. Oléagineux Corps gras Lipide 21:D2051-5. 
Crossref

 

Olanrewaju OS, Glick BR, Babalola OO (2017). Mechanisms of action of plant growth promoting bacteria. World Journal of Microbiology and Biotechnology 33(11):197. 
Crossref

 

Pande A, Pandey P, Mehra S, Singh M, Kaushik S (2017). Phenotypic and genotypic characterization of phosphate solubilizing bacteria and their efficiency on the growth of maize. Journal of Genetic Engineering and Biotechnology 15(2):379-391. 
Crossref

 

Pikovskaya RI (1948). Mobilization of phosphorus in soil connection with the vital activity of some microbial species. Microbiology 17:362-370.

 

R Core Team (2022). R: A language and environment for statistical computing. R Foundation for Statistical Computing, Vienna, Austria.

View

 

Reed SC, Townsend AR, Cleveland CC, Nemergut DR (2010). Microbial Community Shifts Influence Patterns in Tropical Forest Nitrogen Fixation. Oecologia 164:521-531.
Crossref

 

Ríos-Ruiz WF, Valdez-Nuñez RA, Bedmar EJ, Castellano-Hinojosa A (2019). Utilization of endophytic bacteria isolated from legume root nodules for plant growth promotion. In: Maheshwari, D., Dheeman, S. (eds) Field Crops: Sustainable Management by PGPR. Sustainable Development and Biodiversity, 23. Springer, Cham. 
Crossref

 

Sambrook J, Fritsch EJ, Maniatis T (1989). Molecular cloning: A laboratory manual. Cold Spring Harbour Laboratory Press, New York.

 

Schwyn B, Neilands J (1987). Universal chemical assay for the detection and determination of siderophores. Analytical Biochemistry 160:47-56. 
Crossref

 

Sene G, Thiao M, Ndir M, Mbaye M Samba, Samba-Mbaye RT, Sow TD, Kane A, Sylla SN (2014). The linkages between plant species composition and soil microbial communities: what about symbiotic microorganisms within man-made tree plantations? Journal of Biodiversity Management and Forestry 3:4. 
Crossref

 

Sene G, Thiao M, Samba-Mbaye R, Khasa D, Kane A, Mbaye MS, Beaulieu MÈ, Manga A, Sylla SN (2013). The abundance and diversity of legume-nodulating rhizobia in 28-year-old plantations of tropical, subtropical, and exotic tree species: a case study from the forest reserve of Bandia, Senegal. Microbial Ecology 65:128-144. 
Crossref

 

Sene G, Thiao M, Samba-Mbaye R, Ndoye F, Kane A, Diouf D, Sylla SN (2010). Response of three peanut cultivars toward inoculation with two Bradyrhizobium strains and an arbuscular mycorrhizal fungus in Senegal. African Journal of Microbiology Research 4(23):2520-2527.

View

 

Sene G, Thiao M, Sy O, Mbaye MS, Sylla SN (2021). Seed coating with mycorrhizal fungal spores and Leifsonia bacteria: A tool for microbiological fertilization and a seed protection strategy from insect damage. Proceedings of the National Academy of Sciences, India Section B 91:909-918. 
Crossref

 

Sene G, Thiao M, Sy O, Mbaye MS, Sylla SN (2023). Reducing mineral fertilizer use for sustainable agriculture: the influence of seed coating with arbuscular mycorrhizal fungal spores and Leifsonia bacteria on maize (Zea mays L.) and sorghum (Sorghum bicolor (L.) Moench) production. Journal of Agricultural Biotechnology and Sustainable Development 15(1):1-13. 
Crossref

 

Somasegaran PH, Hoben H (1994). Handbook for Rhizobia: Methods in legume-rhizobium technology.
Crossref

 

Tajima R, Lee ON, Abe J, Lux A, Morita S (2007). Nitrogen-fixing activity of root nodules in relation to their size in peanut (Arachis hypogaea L.). Plant Production Science 10:423-429. 
Crossref

 

Tamura K, Stecher G, Kumar S (2021). MEGA11: Molecular evolutionary genetics analysis version 11. Molecular Biology and Evolution 38:3022-3027. 
Crossref

 

Tapia-García EY, Hernández-Trejo V, Guevara-Luna J, Rojas-Rojas FU, Arroyo-Herrera I, Meza-Radilla G, Vásquez-Murrieta MS, Estrada-de Los Santos P (2020). Plant growth-promoting bacteria isolated from wild legume nodules and nodules of Phaseolus vulgaris L. trap plants in central and southern Mexico. Microbiological Research 239:126522. 
Crossref

 

Vandana UK, Rajkumari J, Singha LP, Satish L, Alavilli H, Sudheer PDVN, Chauhan S, Ratnala R, Satturu V, Mazumder PB, et al. (2021). The Endophytic Microbiome as a Hotspot of Synergistic Interactions, with Prospects of Plant Growth Promotion. Biology 10(2):101. 
Crossref

 

Vessey JK (2003). Plant growth promoting rhizobacteria as biofertilizers. Plant and Soil 255:571-586. 
Crossref

 

Vincent JM (1970). A manual for the practical study of the root nodule bacteria. IBP Handbook No. 15, Blackwell Scientific Publications, Oxford and Edinburgh.