• 主题
高级搜索  >
历史搜索 清空历史
首页> 外文期刊>Journal of Environmental Management >Acidification with nitric acid improves chemical characteristics and reduces phytotoxicity of alkaline chars
【24h】

Acidification with nitric acid improves chemical characteristics and reduces phytotoxicity of alkaline chars

机译:用硝酸酸化可改善化学特性并降低碱性炭的植物毒性

获取原文
获取原文并翻译 | 示例
       
页面导航
  • 摘要
  • 著录项
  • 相似文献
  • 相关主题

摘要

Charred organic matter is recently receiving attention for its potential use as soilless growth medium. However, depending on its origin and on the manufacturing technology, it can result toxic for plants. This fact implies that a detoxifying treatment ought to be devised in order to reclaim char in this way. We have studied three materials which combine these factors: two pyrolyzed biochars, one from forest waste (BCH-FW) and another from olive mill waste (BCH-OMW), and one hydrothermally carbonized hydrochar from forest waste (HYD-FW). These materials are suspicious of phytotoxicity due to their high pH, high salinity, or presence of organic toxics. For these new materials, it is mandatory to select fast and reliable bioassays to predict their potential phytotoxicity. In order to achieve this goal water extracts of the three chars were subjected to bioassays of seed germination and bioassays of seedling growth in hydroponic conditions. The biochar from olive mill waste and the hydrochar, but not the biochar from forest waste, showed considerable phytotoxicity as seed germination and plant growth were negatively affected (e.g. BCH-OMW reduced seed germination by 80% and caused early seedling death). In order to adjust pH and electrical conductivity for plant growth, treatments of acidification and salt leaching with optimal diluted HNO_3 solutions (0.3 N, 0.2 N, and 0.75 N for BCH-OMW, BCH-FW, and HYD-FW, respectively) as calculated from titration curves, were conducted. The acid treatment reduced electrical conductivity in BCH-OMW (from 9.2 to 4.5 dS m~(-1)), pH (maximum in BCH-FW from 9.6 to 6.2) and water soluble carbonaceous compounds (maximum in HYD-FW from 5969 to 2145 mg kg~(-1)) in the three chars, and increased N content (maximum in BCH-OMW from 50 to 6342 mg kg~(-1)) in the three chars. Bioassays on acid-treated chars demonstrated the absence of phytotoxicity and even stimulation of seedling growth over the control (increase of 86% and 56% for BCH-FW and HYD-FW, respectively). We conclude that acidification of chars with diluted HNO3 is a viable technique to conform chars to standards for plant growth purposes.
机译:炭化有机物作为无土生长培养基的潜在用途最近受到关注。但是,根据其来源和制造技术,它可能对植物产生毒性。这个事实意味着,应该设计一种排毒方法,以便以此方式回收炭。我们研究了三种综合这些因素的材料:两种热解生物炭,一种来自森林废弃物(BCH-FW),另一种来自橄榄工厂废弃物(BCH-OMW),以及一种来自森林废弃物的热液碳化水炭(HYD-FW)。这些物质由于其高pH值,高盐度或存在有机毒物而具有植物毒性。对于这些新材料,必须选择快速而可靠的生物测定法以预测其潜在的植物毒性。为了实现该目标,在水培条件下对三种炭的水提取物进行了种子发芽的生物测定和幼苗生长的生物测定。由于种子发芽和植物生长受到负面影响(例如BCH-OMW将种子发芽减少80%并导致早期幼苗死亡),因此来自橄榄工厂废料和水生炭的生物炭而非森林废料的生物炭显示出相当大的植物毒性。为了调节植物生长的pH值和电导率,用最佳的稀释HNO_3溶液(分别为BCH-OMW,BCH-FW和HYD-FW分别为0.3 N,0.2 N和0.75 N)处理酸化和盐分浸出处理根据滴定曲线进行计算。酸处理将BCH-OMW的电导率(从9.2降至4.5 dS m〜(-1)),pH(BCH-FW的最大值从9.6降低至6.2)和水溶性碳质化合物(HYD-FW的最大值从5969降低至4.5)。在三个炭中添加了2145 mg kg〜(-1)),在三个炭中增加了N含量(BCH-OMW中的最大值从50增加到6342 mg kg〜(-1))。对酸处理炭进行的生物测定表明,与对照相比,没有植物毒性,甚至没有刺激幼苗生长(BCH-FW和HYD-FW分别增加了86%和56%)。我们得出的结论是,用稀释的HNO3酸化焦炭是使焦炭符合植物生长标准的可行技术。

著录项

相似文献

  • 外文文献
  • 中文文献
  • 专利
获取原文

客服邮箱:kefu@zhangqiaokeyan.com

京公网安备:11010802029741号 ICP备案号:京ICP备15016152号-6 六维联合信息科技 (北京) 有限公司©版权所有

  • 客服微信

  • 服务号