Int. J. Curr. Res. Biosci. Plant Biol. 4(4), 49-60 (2017) I. H. Massawe et al. (2017) / Pedological Characterization and Fertility Evaluation of Paddy Soils of Mvumi Village, Kilosa District, Tanzania 49 International Journal of Current Research in Biosciences and Plant Biology Volume 4 ● Number 4 (April-2017) ● ISSN: 2349-8080 (Online) Journal homepage: www.ijcrbp.com Original Research Article doi: https://doi.org/10.20546/ijcrbp.2017.404.009 Pedological Characterization and Fertility Evaluation of Paddy Soils of Mvumi Village, Kilosa District, Tanzania Ikunda H. Massawe*, Balthazar M. Msanya and Filbert B. Rwehumbiza Department of Soil and Geological Sciences, College of Agriculture, Sokoine University of Agriculture, P.O. Box 3008, Morogoro, Tanzania *Corresponding author. Abstract Article Info This study was conducted to characterize, classify and evaluate fertility of soils of Mvumi Village, Kilosa District, Tanzania. Representative soil profile of the colluvio-alluvial plain covering Mvumi Village was identified, dug, described and sampled using FAO Guidelines. Four samples from genetic horizons and eight surface samples from eight farms were taken for pedological characterization and soil fertility evaluation respectively. Results on pedon morphology revealed very deep and moderately well drained to somewhat poorly drained profile with very dark grey clays and granular topsoil structure over weak coarse wedge-shaped subsoil structure. The pedon was classified as Ustic Endoaquerts and Haplic Vertisols respectively in USDA Soil Taxonomy and WRB for Soil Resources. Shrinking and swelling, and pedoturbation were typical pedogenic processes. Low pedon Ca/Mg ratios indicate nutrient imbalance likely to limit uptake of Mg by plants. Very high Mg/K ratios can also lead to nutrient imbalance and toxicity. All sampled farm sites had clayey texture and pH ranging from 5.2 to 7.4. OC (0.53 - 1.75 %) was low in all sites. N (0.06 - 0.19%), P (1.54 - 5.79 mg P kg -1 ) and K (0.12 - 0.40 cmol (+) kg -1 ) were deficient whereas micronutrients were adequate in all sites except for Zn (0.35 - 1.57 mg kg -1 ) which was low. CEC was rated as medium (15.2 to 21.6 cmol (+)/kg). Based on landform features and soil properties of both pedon and surface samples, soils of Mvumi were recommended for paddy rice as one of major crops. Prudent fertilizer use is deemed necessary to address possible deficiency and imbalance of some nutrient elements. Accepted: 28March 2017 Available Online: 06 April 2017 Keywords Nutrients Paddy soils Pedological characterization Soil fertility evaluation Introduction A proper choice of soil and water management strategies is important in improving agricultural production. Thorough understanding of the type and fertility status of soil helps in choosing the appropriate soil and water management systems (Karuma et al., 2014). Thus, soil and related land resources inventory and characterization are basic in guiding and enabling forecast of land use potential and management requirements for sustained agricultural production (Msanya et al., 2016). Pedological characterization provides valuable information and knowledge on soil characteristics and gives clear understanding on soil