Jehangir Bhadha, Nan Xu, Naba Amgain, Abul Rabbany, Stewart Swanson
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引用次数: 0
Abstract
A 4-year study tested the feasibility of using bagasse as a soil amendment in sugarcane production on a commercial field with mineral soil in Florida. The experiment was established as a completely randomized design trial with three rates of fresh bagasse applications: approximately 5 cm of bagasse, 10 cm of bagasse, and 10 cm of bagasse + nitrogen (N), which are equivalent to 85 t ha–1, 170 t ha–1, and 170 t ha–1 + 336 kg ha–1 ammonium nitrate, respectively. A control (no bagasse and no N added) was also included. As each treatment and the control had three replicates, there were 12 plots (6.5 ha each in size) totaling over 77 ha. The high pH of the soils is a result of years of mixing underlying limestone (calcium carbonate) bedrock with the topsoil. Overall results indicate that bagasse application positively affected the accumulation of soil organic matter during a short-term period, resulting in higher water-holding capacity and lower bulk density. The high rate of bagasse application had a positive effect on N accumulation, extractable phosphorus (P) and potassium (K) contents during the short term. One single application of bagasse significantly increased the first-year sugarcane biomass and sugar yield by approximately 23%. An overall higher application rate of bagasse (10 cm) was recommended as it showed significantly positive effects on soil health indicators and had a longer effect on increasing sugarcane biomass and sugar yield. There is potential to incorporate bagasse into commercial sugarcane production grown on mineral soils in Florida.
一项为期4年的研究测试了在佛罗里达州的一块含矿质土壤的商业地块上使用甘蔗渣作为甘蔗生产中的土壤改良剂的可行性。本试验采用完全随机设计试验,采用约5 cm甘蔗渣、10 cm甘蔗渣和10 cm甘蔗渣+氮(N) 3种施量,分别相当于85 t ha-1、170 t ha-1和170 t ha-1 + 336 kg ha-1硝酸铵。对照组(不添加甘蔗渣和氮)也包括在内。由于每个处理和对照有3个重复,共有12块地(每块6.5 ha),总面积超过77 ha。土壤的高pH值是多年来下层石灰岩(碳酸钙)基岩与表层土壤混合的结果。结果表明,施用甘蔗渣对土壤有机质积累有短期正向影响,提高了土壤持水能力,降低了土壤容重。在短期内,甘蔗渣的高施用量对氮素积累、可提取磷和钾含量均有积极影响。单次施用甘蔗渣可显著提高第一年甘蔗生物量和糖产量约23%。甘蔗渣(10 cm)对土壤健康指标有显著的正向影响,且对提高甘蔗生物量和糖产量的影响时间更长,因此建议总体上提高甘蔗渣施用量。在佛罗里达州的矿质土壤上,蔗渣有可能被纳入商业甘蔗生产。