"Extrapolations on the Use of Rhizobium Inoculants Supplemented with Phosphorus (P) and Potassium (K) on Growth and Nutrition of Legumes"
written by George W. Mmbaga, Kelvin M. Mtei, Patrick A. Ndakidemi,
published by Agricultural Sciences, Vol.5 No.12, 2014
has been cited by the following article(s):
  • Google Scholar
  • CrossRef
[1] Specific nutrient absorption rates of transplanted cucumber seedlings are highly related to RGR and influenced by grafting method, AMF inoculation and salinity
Scientia Horticulturae, 2019
[2] Pengaruh Pemangkasan Pucuk Dan Dosis Pupuk Kalium Terhadap Pertumbuhan Dan Hasil Tanaman Buncis (Phaseolus Vulgaris L.)
2019
[3] Bacterial IAA-Delivery into Medicago Root Nodules Triggers a Balanced Stimulation of C and N Metabolism Leading to a Biomass Increase
2019
[4] Limitations and strategies to enhance biological nitrogen fixation in sub-humid tropics of Western Ethiopia
Journal of Agricultural Biotechnology and Sustainable Development, 2018
[5] Effect of biofertilizer and weeding regimes on yield performance of bush bean (Phaseolus vulgaris L.)
2018
[6] Inoculation effect of rhizobial strains on growth, yield and chemical composition of some legume crops in new reclaimed soil
2018
[7] Effects of Rhizobium inoculation and cropping systems on macronutrients uptake and partitioning in two legumes (Common bean and Lablab).
2017
[8] Potential of three microbial bio-effectors to promote maize growth and nutrient acquisition from alternative phosphorous fertilizers in contrasting soils
Chemical and Biological Technologies in Agriculture, 2017
[9] DEPARTMENT OF CROP AND SOIL SCIENCES
2017
[10] Effects of Rhizobiuminoculation and cropping systems on macronutrients uptake and partitioning in two legumes (Common bean and Lablab)
2017
[11] Evaluation of nitrogen fixing potential of some grain legumes and their residual effects on maize yield in the semi-deciduous forest zone of Ghana.
2017
[12] Improvement of Faba Bean Yield Using Rhizobium/Agrobacterium Inoculant in Low-Fertility Sandy Soil
Agronomy, 2017
[13] Rhizobial bioformulations: Past, Present and Future
Rhizotrophs: Plant Growth Promotion to Bioremediation, 2017
[14] Effects of Rhizobium inoculation and cropping systems on macronutrients uptake and partitioning in two legumes (Common bean and Lablab)
2017
[15] Symbiotic efficiency and diversity of native rhizobia isolated from climbing beans (phaseolus vulgaris l.) in Embu and Tharaka Nithi Counties, Kenya
2016
[16] Evaluation of Different Commercial Rhizobial Strains on Soybean (Glycine max L.) Yield at Pawe District, Northwestern Ethiopia
World Scientific News, 2016
[17] Valuation of Rhizobium Bio-fertilizer forthe Production of Faba Bean in ArsiZone,Oromia Region, Ethiopia
International Journal of Modern Chemistry and Applied Science, 2016
[18] SYMBIOTIC EFFICIENCY AND DIVERSITY OF NATIVE RHIZOBIA ISOLATED FROM CLIMBING BEANS (Phaseolus vulgaris L.) IN EMBU AND THARAKA …
2016
[19] Role of Beneficial Soil Microbes in Sustainable Agriculture and Environmental Management
Climate Change and Environmental Sustainability, 2016
[20] Supplementation of P with rhizobial inoculants to improve growth of Peanut plants
IJAR, 2015
[21] Reponse of Common Bean (phaseolus Vulgaris L.) Varieties to Combined Application of Rhizobium and Fertilizer at Melkassa, Central Ethiopia
2015
[22] Nitrogen and phosphorus availability limit N2 fixation in bean
New Phytologist, 2000
[23] Economic Valuation of Microbial Genetic Resources: The Case of Rhizobia Bio-fertilizer in Some Regions of Ethiopia
[24] Economic Valuation of Rhizobium Bio-fertilizer for Production of Haricot Bean in Wolayta Zone, SNNP Region, Ethiopia