文章摘要
冯奇飞1,臧维玲1,戴习林1,高翔1,刘军1,刘伟利1,丁福江2.罗氏沼虾养殖塘底质硫化物含量及其 与其他因子关系的研究[J].广东农业科学,2014,41(12):175-182
查看全文    HTML 罗氏沼虾养殖塘底质硫化物含量及其 与其他因子关系的研究
杂ulfide ontent in sediment of Macrobrachium rosenbergiiculture ponds and relationship between sulfidecontent and other parameters
  
DOI:
中文关键词: 罗氏沼虾  底质  硫化物含量
英文关键词: Macrobrachium rosenbergii  sediment  sulfide content
基金项目:上海市科技兴农重点攻关项目(沪农科攻字 [2010]第1-6 号);上海市科委重点攻关项目(11391901400)
作者单位
冯奇飞1,臧维玲1,戴习林1,高翔1,刘军1,刘伟利1,丁福江2 1.上海海洋大学水产与生命学院上海2013062.上海申漕特种水产开发公司上海201516 
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中文摘要:
      检测与研究了罗氏沼虾3 口养殖试验塘及其河道水源底质硫化物、总硫(TS)、总有机碳(TOC)、总氮 (TN)、总磷(TP)含量和变化规律以及硫化物与TOC 等指标之间的关系。结果显示,养殖期间,虾塘底质硫化物与TS 含量均随养殖时间的延长呈波浪式增加,硫化物属于低含量水平,变化范围为0.302~9.337 mg/kg,低于我国海洋沉 积物质量第一类标准(300 mg/kg);河道底质硫化物含量也基本低于此标准。虾塘底质TS 含量范围为129.00~ 403.67 mg/kg,其中0.2%~3.3%为硫化物;河道TS 含量范围为475.00~2 755.00 mg/kg,硫化物占其0.7%~17.1%。TOC 在养殖前中期变化同硫化物与TS 含量,后期呈递减趋势;TN 以较平稳的波浪式演变;TP 随养殖时间降低,呈缺乏 现象。回归分析表明,底质硫化物与TS 呈显著线性正相关,相关系数(r)为0.695~0.920;与TOC 呈显著线性正相关 (除T3塘外),相关系数(r)为0.660~0.926;与TN、TP 的相关性不显著。沉降有机物是虾塘底质产生硫化物、TOC 与 TN 的重要因素,残饵是沉降有机物的主要来源,维持丰富溶氧量、减少残饵量与彻底清淤是控制虾塘底质硫化物 的关键措施。
英文摘要:
      This article mainly investigated the contents of sulfide, TS, TOC, TN, TP in sediment of Macrobrachium rosenbergii culture ponds from June to October in 2012, further analyzed the relationship between sulfide content and other parameters, including total sulfur (TS), total organic carbon (TOC), total nitrogen (TN) and total phosphorus (TP). The results showed that during the culture period, the contents of sulfide and TS wav increased. The sulfide content in experiment ponds was 0.302~9.337 mg/kg, belonging to low level. The phenomenon was not out of gauge compared with first class standard of marine sediment quality. The river sediment sulfide was substantially below this standard. TS content in experiment ponds was 129.00~403.67 mg/kg, of which 0.2%~3.3% was sulfide. TS content in the river sediment was 475.00~2755.00 mg/kg, sulfide accounted for 0.7%~17.1%. TOC changed as the sulfide in the former breeding, and then showed a trend of decline. TN changed as a more stable wave. The trend of TP reduced, showing a lack of phosphorus. Correlation analysis showed that TS content had a positive linear correlation with sulfide content, correlation coefficient (r) was 0.695 ~0.920. Sulfide content and TOC content was significant positive correlation (except T3 pond), correlation coefficient (r) was 0.660~0.926. The relationship between TN content and sulfide content was not regular, the same as TP. Settlement of the organic matter was an important cause of sulfide, TOC, TN. Residue was the main component of the organic matter. So, the key to control sediment sulfides to maintain rich oxygen, reduce residual amount of bait and complete dredging.
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