ABSTRACT
The objective o f the study was to obtain information on the existence o f Bradyrhizobium
japonicum strains in Ghanaian soils, evaluate their effectiveness with the view to improving
nodulation, nitrogen fixation and yield potential o f soybean.
Eight soil series were screened for nodulation capabilities of soybean using six cultivars (four
promiscuous and two non-promiscuous). The soils were Adenta, Akuse, Anyinase and
Bekwai; the rest were Hatso, Nyigbenya, Nzima and Toje. Four cultivars nodulated in four
soils and one in five soils. There was no nodulation in Anyinase, Bekwai and Nzima soils.
Bragg, a non-promiscuous genotype, nodulated considerably well contrary to documented
reports in the literature that non-promiscuous American soybean genotypes do not normally
nodulate in tropical soils. Most Probable Number (MPN) counts carried out established some
relationship between nodulation and bradyrhizobia population in the soils used for the studies.
Symbiotic effectiveness test carried out on 60 selected isolates from the screening experiment
showed that 15% of the isolates were highly effective, 65% ineffective and 20% moderately
effective.
Inoculation studies were carried out on three soybean cultivars namely Bragg (Non-
Promiscuous American genotype), Bengbie (Promiscuous) and TGx (Promiscuous) using five
isolates from the screening experiment and two imported isolates from Thailand in the Bekwai
soil. Generally inoculation led to improvement in shoot dry matter and total N, although the
levels were different among the cultivars and isolates and thus showing that plant genotypes
and bradyrhizobia strains significantly influenced inoculation response.
Inoculation and N fertilization response carried out on four soybean cultivars, Bragg, Bengbie
and TGx and Non-nodulating soybean genotype, in Adenta and Bekwai soils showed better
nodulation and percent N-fixed in Adenta than Bekwai. This could be attributed to the higher
bradyrhizobia count in Adenta than in Bekwai.Total N fixed was however higher in Bekwai
than Adenta. This means that other factors inherent in Bekwai had enhanced plant growth and
total N accumulation, and hence total nitrogen fixed. Bekwai soil had higher nitrogen, organic
matter and phosphorus and was thus more capable o f providing nutrients and plant
requirement for better plant growth than Adenta. The higher nodulation, percent and total N
fixed at the 10 kg N/ha rate than at 100 kg N/ha application could be attributed to the
depressing or inhibitory effects that inorganic nitrogen fertilizers have on nodulation and
nitrogen fixation.
GYAU, A (2021). MODULATION PROMISCUITY OF SOYBEAN GENOTYPES. Afribary. Retrieved from https://tracking.afribary.com/works/modulation-promiscuity-of-soybean-genotypes
GYAU, AARON "MODULATION PROMISCUITY OF SOYBEAN GENOTYPES" Afribary. Afribary, 31 Mar. 2021, https://tracking.afribary.com/works/modulation-promiscuity-of-soybean-genotypes. Accessed 24 Nov. 2024.
GYAU, AARON . "MODULATION PROMISCUITY OF SOYBEAN GENOTYPES". Afribary, Afribary, 31 Mar. 2021. Web. 24 Nov. 2024. < https://tracking.afribary.com/works/modulation-promiscuity-of-soybean-genotypes >.
GYAU, AARON . "MODULATION PROMISCUITY OF SOYBEAN GENOTYPES" Afribary (2021). Accessed November 24, 2024. https://tracking.afribary.com/works/modulation-promiscuity-of-soybean-genotypes