Effect of cogenerated bagasse ash on microbial population and enzyme activities in sugarcane grown soil

M. Annapurna
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Abstract

A field experiment was conducted during 2016-18 on an Inceptisol of Rahuri, Maharashtra to study the effect of cogenerated bagasse ash on microbial population and enzyme activities in preseasonal sugarcane (Sachharum officinarum) var. CoM 0265. The results indicated that the treatments which received 150 % RDK through cogenerated bagasse ash recorded the higher total bacteria (44.11, 45.89 and 32.78 cfu x 106 g-1 soil), fungi (17.78, 18.89 and 15.89 cfu x 105 g-1 soil) and actinomycetes (18.33, 19.22 and 15.78 cfu x 105 g-1 soil) count at earthing up, grand growth and harvest stage of preseasonal sugarcane, respectively. On the other hand, the highest dehydrogenase (13.38, 14.03 and 7.92 µg TPFg-1 soil h-1), urease (49.35, 51.68 and 38.15 µg NH4-N g-1 soil h-1), acid phosphatase (17.92, 18.85 and 13.23 µg PNP g-1 soil h-1) and alkaline phosphatase (64.81, 65.94 and 39.07 µg PNP g-1 soil h-1) enzyme activity in soil were also recorded in T9 (150 % RDK through cogenerated bagasse ash) at earthing up, grand growth and harvest stage of preseasonal sugarcane, respectively. The results of the present study revealed that the microbial population and enzymatic activities of the soil were increased at initial stages and thereafter, progressively decreased with crop growth stages by the application of cogenerated bagasse ash. Application of 150 % RDK through CBA (6.62 t ha-1) along with recommended dose of nitrogen and phosphorous (340 and 170 kg ha-1) through inorganic fertilizers and 20 t ha-1 FYM has improved the microbial population as well as enzymatic activities in sugarcane grown soil.
甘蔗渣渣对甘蔗栽培土壤微生物种群和酶活性的影响
2016- 2018年,在印度马哈拉施特拉邦Rahuri的一株Inceptisol上进行了田间试验,研究了甘蔗渣渣渣对季前甘蔗(Sachharum officinarum) var. 0265微生物种群和酶活性的影响。结果表明,施用150%甘蔗渣渣的处理在甘蔗育成期、盛期和收获期的总细菌(44.11、45.89和32.78 cfu × 106 g-1土壤)、真菌(17.78、18.89和15.89 cfu × 105 g-1土壤)和放线菌(18.33、19.22和15.78 cfu × 105 g-1土壤)数量均较高。另一方面,脱氢酶(13.38、14.03和7.92µg TPFg-1土壤h-1)、脲酶(49.35、51.68和38.15µg NH4-N g-1土壤h-1)、酸性磷酸酶(17.92、18.85和13.23µg PNP g-1土壤h-1)和碱性磷酸酶(64.81、65.94和39.07µg PNP g-1土壤h-1)酶活性在T9 (150% RDK通过甘蔗渣灰)土壤中也分别达到了最高水平。本研究结果表明,施用甘蔗渣灰后,土壤微生物数量和酶活性在作物生长初期增加,随后随着作物生长阶段逐渐降低。通过CBA施用150% RDK (6.62 t hm -1),通过无机肥料施用推荐剂量的氮和磷(340和170 kg hm -1)和20 t hm -1 FYM,改善了甘蔗种植土壤的微生物数量和酶活性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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