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Articles by M. Nasimul Gani
Total Records ( 3 ) for M. Nasimul Gani
  A. K. M. Maqsudul Alam , M. Nasimul Gani , M. Rahman , M. R. Islam , M. Nuruzzaman and S. Khandker
  An experiment was conducted to study the estimate of total biomass (shedded leaves plus roots) during bast fibre crop (jute, kenaf and mesta) cultivation and the performance of biomass in soil fertility. The newly released four varieties of Bangladesh Jute Research Institute were used in the trial viz. Deshi jute BJC-83, Tossa jute OM-1, kenaf HC-95 and mesta HS-24. Each of the new variety produces good amount of biomass and enriches the soil fertility. The highest biomass produced with HC-95 (7.30 t ha-1) and lowest BJC-83 (5.23 t ha-1). Appreciable performance recorded with each of the variety in enriching the soil fertility on post harvest soil. Highest organic carbon (1.31%) nitrogen (0.13%) phosphorus (18 ppm) and potassium (0.183 meq/100) were found with the variety HC-95. The percent increment of organic carbon (OC), nitrogen (N), phosphorus (P) and potassium (K) by the HC-95 were 87.14, 150.00, 63.64 and 30.71 respectively over the initial soil nutrient content. According to the performance of the production of biomass and soil enrichment the varieties were in the order of HC-95> HS-24> OM-1> BJC-83.
  M. Nasimul Gani , A.K.M. Maqsudul Alam , M. Rahman , Shafi Iqbal , M.A. Samad , M. Asaduzzaman , Isidore Gomes and Rebeca Gomes
  The study was conducted to estimate the chemical and physico-mechanical characteristics (quality of fibre) of jute fibre, the popular variety of O-9897 was grown with the application of water hyacinth, chemical fertilizer in soil and control under proper agricultural management. The water hyacinth responded comparatively better in enhancing the fibre quality than chemical fertilizer. Lower chemical constitutes the non-cellulosic portion (lignin and hemicellulose) in fibre indicates good quality, which found with water hyacinth. The percentage of lignin and hemicellulose in fibre with water hyacinth 12 and 20% with chemical fertilizer 13 and 21% and with control 13.6 and 21.20% respectively. The enriched physico-mechanical properties obtained with water hyacinth over the chemical fertilizer and control. The lower values of fineness (35φ) and higher values of whiteness (22.3%), bundle strength (7.61 lbs/mg), tensile strength (80.30 lbs/mg) and breaking tenacity (39.50 lbs/mg) ascertain the high quality of fibre found with water hyacinth. And the values found in fibre with chemical fertilizer, fineness-36.50φ, whiteness 21%, bundle strength-6.99 lbs/mg, tensile strength-78.98 lbs/mg and breaking tenacity- 39 lbs/mg. Thereby the study showed that chemical and physico-mechanical properties of fibre increased with water hyacinth. Study also indicates that the sole chemical fertilizer application in soil may not be possible to maintain the quality of fibre, it may be need an integration of organic matter and chemical fertilizer application in soil to enrich the fibre quality.
  M. Nasimul Gani , M. Monjurul Alam , A. K. M. Maqsudul Alam , S. Khandker and Zakaria Ahmed
  In a field experiment (1994-97), the water retention capacity, percentage of pore space of soil were increased and bulk density was reduced over control treatments due to addition of city waste compost (CWC). Incorporation of CWC in soil increased organic carbon (OC), nitrogen (N), phosphorus (P), and potassium (K) content over control. The organic matter content of soil found the highest rate, with CWC @ 5t/ha. The highest growth and yield of jute was recorded every year or on alternate year with CWC @ 4 t/ha over control and recommended dose of fertilizer.
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