ABSTRACT
Indigenous and traditional crops are very essential in the survival strategies of local farmers, since they have multiple uses such as a variety of plant parts that can be consumed as well as for medicinal purposes. Traditional crops play an important role in achieving food security as well as conserving biodiversity. Some of these indigenous crops (e.g. legumes) have the capacity to establish and grow relatively well on poor fertility soils where crops such as maize (a major staple cereal) may fail to give good yields. These under–exploited legumes include the African yam bean (Sphenostylis stenocarpa). Efforts to exploit them in agriculture have been made in some countries, but little has been reported on the cultivation and performance of similar crops in Ghanaian soils. This study was conducted to assess the nodulation, nitrogen fixing potential, the abundance, and diversity of the rhizobia that nodulate the African yam bean in four Ghanaian soils as well as assess the response of African yam bean to nitrogen and phosphorus fertilization. The result of the Most Probable Number (MPN) estimates showed that the four soils contained varied numbers of indigenous rhizobia capable (from 9.3×10 cells g–1 soil in Toje series to 2.0×102 cells g–1 soil in the Akuse series) of nodulating African yam bean. That of cowpea (used for comparison) ranged from 1.2×10 cells g–1 soil in the Toje series to 6.8×102 cells g–1 soil in the Adenta series, with about 75% of the soils tested, containing more than 102 rhizobia cells per gram of soil. For the Toje series, African yam bean formed the lowest number of nodules (mean 14 nodules plant–1 ), with plants in Haatso forming the highest (mean 39 nodules plant–1 ). Nodulation in the Adenta series like that in Haatso series was significantly higher than nodulation in the Akuse series. Nitrogen fertilization had a significant adverse effect on nodulation, nodule dry weight and N derived from N2 fixation, whiles there was an increase in dry matter yield. In contrast, P fertilization had a positive effect on all the parameters mentioned above. The cross–inoculation studies revealed that the African yam bean rhizobia were able to form nodules on cowpea, yardlong bean and Pueraria, but not on bambara, lima bean and crotalaria, even though rhizobia isolated from bambara, lima bean and yardlong bean formed nodules on the African yam bean. Random amplified polymorphic DNA (RAPD) analysis with RPO4 showed that the 30 isolates examined consisted of two major genetic groups, with a mean similarity of 60%. A similar phylogenetic clustering of these isolates was observed with the RPO1 primer with mean similarity of 54%. However, the RPO1 primer revealed a higher diversity among the African yam bean isolates in Haatso and Adenta series than did the RPO4 primer, based on the Shannon– Weiner diversity index. The amplification of the 16S–23S rDNA (ITS) gene of almost all the isolates gave band of sizes from 350 bp to 850 bp. Combined restriction analysis of digested ITS region with HhaI and HindIII endonucleases, also distinguished the isolates into two major phylogenetic groups at 56% similarity level. Characterization of the test rhizobia isolates based on PCR amplification of the 16S rDNA gene gave almost a single band of 1500 bp. Restriction of the 16S gene with HaeIII and HhaI enzymes also clustered the isolates into two major groups at 53% similarity level. From the results, it can be concluded that, African yam bean rhizobia may be widespread and diverse in Ghanaian soils. Also, the African yam bean appears to be a relatively permissive host. This character however may not guarantee effectiveness in N2 fixation and may sometimes lead to the formation of less effective symbioses with less specific and ineffective strains. It is therefore recommended that the study be conducted in various areas with different soils types to establish the validity of the conclusion, that the African yam bean nodulating rhizobia are common in most if not all Ghanaian soils. Further taxonomic study of indigenous African yam bean Rhizobium isolates in different soils should be carried out by taking as many morphological, biochemical and genetic characters as possible to have a more complete picture of the taxonomy and the evolutionary relationship between the African yam rhizobia that nodulate other commonly given legumes, such as cowpea, lima bean and bambara groundnuts.
TETTEY, A (2021). NODULATION, NITROGEN FIXATION AND DIVERSITY OF THE AFRICAN YAM BEAN RHIZOBIA IN FOUR GHANAIAN SOILS. Afribary. Retrieved from https://afribary.com/works/nodulation-nitrogen-fixation-and-diversity-of-the-african-yam-bean-rhizobia-in-four-ghanaian-soils
TETTEY, ABIGAIL "NODULATION, NITROGEN FIXATION AND DIVERSITY OF THE AFRICAN YAM BEAN RHIZOBIA IN FOUR GHANAIAN SOILS" Afribary. Afribary, 11 Mar. 2021, https://afribary.com/works/nodulation-nitrogen-fixation-and-diversity-of-the-african-yam-bean-rhizobia-in-four-ghanaian-soils. Accessed 22 Nov. 2024.
TETTEY, ABIGAIL . "NODULATION, NITROGEN FIXATION AND DIVERSITY OF THE AFRICAN YAM BEAN RHIZOBIA IN FOUR GHANAIAN SOILS". Afribary, Afribary, 11 Mar. 2021. Web. 22 Nov. 2024. < https://afribary.com/works/nodulation-nitrogen-fixation-and-diversity-of-the-african-yam-bean-rhizobia-in-four-ghanaian-soils >.
TETTEY, ABIGAIL . "NODULATION, NITROGEN FIXATION AND DIVERSITY OF THE AFRICAN YAM BEAN RHIZOBIA IN FOUR GHANAIAN SOILS" Afribary (2021). Accessed November 22, 2024. https://afribary.com/works/nodulation-nitrogen-fixation-and-diversity-of-the-african-yam-bean-rhizobia-in-four-ghanaian-soils