SOIL PLANT NUTRIENT STATUS UNDER INTENSIVE RICE-FARMING SYSTEMS IN UNFAVORABLE ECO-SYSTEMS OF BANGLADESH
Main Article Content
Abstract
Soil fertility and crop production varies depending on ecological factors and soil parent materials. A baseline study was conducted to delineate soil nutrient status of unfavorable ecosystems under different agro-ecological zones (AEZ) of Bangladesh (Char and saline, AEZ-18; submergence and cold, AEZ-3; tidal flood ecosystem, AEZ-13; drought and cold prone, AEZ-26 and haor area, AEZ-21). A total of 125 composite soil samples (10 samples/spot) were collected at 0-20 cm depth, maintained geographical positions and data on village, union, upazila, land type, soil series and land use patterns. Soil samples were analyzed for texture, pH, electrical conductivity (EC), organic matter (OM), total nitrogen (N), available phosphorus (P), exchangeable potassium (K), calcium (Ca), magnesium (Mg), available sulfur (S) and zinc (Zn). Soil pH was slightly acidic to neutral in AEZ-18, 3 and 13. In AEZ-21, soil was strongly acidic but neutral to slightly alkaline AEZ-26. In most locations, soil OM was below critical level (1.72%) in 80 to 96% samples. Soil N was below critical level (0.12%) in almost all samples except in AEZ-21. In AEZ-21, 100% samples showed P deficiency and in AEZ-26 it was 24%. In AEZ-3, 60% samples were K deficient and in AEZ-26 it was 40%. Thirty-two and 24% samples were S deficient in AEZ-3 and 26, respectively. The highest 84% samples were Zn deficient in AEZ-18 followed by AEZ-21 (48%). About 52% samples were Ca deficient in AEZ-3 followed by AEZ-21 (4%). Nutrient status of soils was mostly low and varied among locations.
Article Details
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
References
.Ali MM, Saheed SM, Kubota D (1997). Soil Degradation during the Period 1967-1995 in Bangladesh. II. Selected Chemical Characters. Soil Sci. Plant Nutri. 43:879-890. BARC (2012). Fertilizer Recommendation Guide-2012. Bangladesh Agricultural Research Council (BARC), Farmgate, New Airport Road, Dhaka-1215, 274p.
.BBS (2000). Statistical Yearbook of Bangladesh. 2000. Bangladesh Bureau of Statistics (BBS).
.Barke DE, Suhr NH (1982). Potassium. Atomic absorption and flame emission spectroscopy. In: Methods of soil analysis, Part 2, Chemical and microbiological properties, A. L. Page, R.
.H. Miller and D. R. Keeney (eds.), pp. 13-26. American Society of Agronomy Inc., Madison, WI, USA.
.Biswas JC, Islam MR, Biswas SR, Islam M J (2004). Crop productivity at farmers’ fields: Options for soil test based fertilizer use and cropping patterns. B. Agron. J. 10:31-41.
.Bray RH, Kurtz LT (1945). Determination of total. Organic and available phosphorus in soils. Soil Sci. 59:39-45.
.Bremner J M, Mulvaney CS (1982). Total nitrogen. In: Methods of soil analysis, Part 2, Chemical and microbiological properties, A. L. Page, R. H. Miller and D. R. Keeney (eds.), pp. 595624. American Society of Agronomy and Soil Science Society of America, Inc., Madison, Wisconsin, USA.
.Chaudhary S K, Thakur S K, Pandey A K (2007). Response of wetland rice to nitrogen and zinc. Oryza, 44:31-34.