还田秸秆配施外源纤维素酶效应研究

为探求促进秸秆降解的新途径,采用室内培养法研究了外源纤维素酶对秸秆降解速率及土壤速效养分的影响。结果表明,整个培养期内,小麦秸秆,玉米秸秆加酶处理与不加酶处理降解率都存在极显著差异(p<0.01),到培养结束时小麦秸秆加酶处理降解率高出不加酶处理7.10%～11.86%,玉米秸秆高出8.01%～14.04%;整个培养期内,小麦秸秆,玉米秸秆加酶处理与不加酶处理间土壤速效氮、磷、钾含量都存在极显著差异(p<0.01),培养结束时,小麦秸秆最优处理速效氮、磷、钾含量高出对照4.15mg·kg-1,3.60mg·kg-1,32.35mg·kg-1,玉米秸秆高出6.50mg·kg-1,4.27mg·kg-1,47.97mg·kg-1。结果说明添加外源纤维素酶能够提高秸秆降解速率,促进秸秆养分矿化。     

浅谈秸秆资源的综合利用

本文从避免减少秸秆的焚烧、秸秆入河的角度,简要介绍了秸秆资源的综合利用,从而减轻了对大气环境和水环境的污染和危害,提高了资源的综合利用.     

稻草固体介质中白腐菌对喹啉的降解研究

研究了稻草固体介质中侧耳属白腐菌BP对喹啉的降解。实验结果表明,浓度分别为250mg/L和150mg/L喹啉的降解率能达到93.47%和97.40%。白腐菌BP可以有效对喹啉进行降解。漆酶和锰过氧化物酶在降解过程中起着较重要的作用,但酶活的高低与降解率大小并不完全成正比。高效液相色谱分析表明降解过程中没有中间代谢物的积累,喹啉能得到彻底矿化。     

水分调节材料对牛粪堆肥氨气挥发的影响

利用通风式堆肥发酵方式研究了牛粪堆制过程中氨气的挥发特征和锯末、稻壳、稻草等不同水分调节材料对氨气挥发的影响。结果表明,牛粪堆制过程中主要在前期,尤其是在最初的2周内释放氨气;堆肥期间挥发的氨态氮约为牛粪总含氮量的17%～50%。不同水分调节材料都可以在一定程度上抑制氨气的挥发,但锯末抑制氨气挥发效果最好,其次是稻壳,稻草抑制氨气挥发的效果较小。因此,为了减少氮素损失,应采取适当措施抑制氨挥发或回收挥发的氨气。     

农作物秸秆资源的综合利用

本文对农作物秸秆的产量、开发利用现状、设备及存在的问题等方面进行了分析研究,并对秸秆的综合利用作了初步的探讨     

Bioremediation of kerosene I: A case study in liquid media

The ability of different local isolates in addition to some isolates from Germany to degrade kerosene in liquid medium was studied. The results showed that the percent of kerosene degradation varied among the different organisms and that 59–94% of kerosene was degraded after 21 d. Two local isolates (Pseudomonas sp. AP and Pseudomonas sp. CK) and one German isolate (Gordonia sp. DM) were selected for this study. The addition of wheat bran, as co-substrate, stimulated the kerosene degradation by the two local strains, while glucose inhibited the degradation rate using the three organisms with different rates. Ammonium nitrate and urea was the best nitrogen sources. The use of superphosphate (as phosphorus source) in the presence of urea stimulates the degradation rate. It was also observed that the addition of 1% surfactants, like Triton X-100, Igepal, Tergitol, or Tween 20 and 80 enhanced the kerosene degradation. The degradation percent lied between 94% and 98%. The ability of the tested organisms to degrade kerosene concentration from 2% to 8% was evaluated. It was found that the three organisms degraded about 65–85% from 8% kerosene after 21 d. The use of rice straw-immobilized cells reduced the time of degradation and enhanced the degradation ability of the organisms. The sodium dodecyl sulphate-polyacrylamide gel electrophoresis revealed the presence of a common protein band when the tested organisms were grown on kerosene.     

施用秸秆及接种蚯蚓对土壤颗粒有机碳及矿物结合有机碳的影响

在连续四年稻麦轮作的小区试验中,通过测定作物收获后表层土壤(0～5cm、5～10cm、10～20cm)中有机碳(SOC)、颗粒有机碳(POC)和矿物结合有机碳(MOC)含量的变化,研究施用秸秆(表施或混施)和接种蚯蚓(Metaphireguillelmi)对SOC、POC及MOC的影响。结果表明:无论是否接种蚯蚓,经连续四年施用秸秆后,土壤0～5cm、5～10cm、10～20cm及0～20cm各土层的SOC和POC含量、0～5cm土层中MOC含量、10～20cm土层w(POC)/w(MOC)值均显著增加;混施秸秆相比表施秸秆更有利于各土层SOC与5～10cm土层POC含量提高。在施用秸秆条件下,接种蚯蚓使0～20cm耕作层土壤中POC和MOC含量有增加趋势;在秸秆施用且接种蚯蚓时,0～20cm耕作层的w(POC)/w(MOC)值均显著升高(与对照相比),表明秸秆施用且接种蚯蚓有助于土壤有机碳活性的提高。田间施用秸秆及接种蚯蚓对于促进农田土壤有机碳库增加及加快土壤有机碳循环与转化均有重要的意义。     

Biomethanation of plant materials and agricultural residues using dung samples as wild population of microbes and also with isolated methanogens

Recycling of plant materials and agricultural residues for biomethanation was attempted in vials. The methanogenic activities of certain sewage samples have also been tested. Both sterilized and non-sterilized biomasses were used. Biomethanation was carried out with dung samples (cow, goat, buffalo, piggery wastes and poultry wash) as wild populations of microbes and in combination with other microbial isolates (isolated in the laboratory).Biomethanation had been observed to be good in most cases and particularly with the sterilized biomass. Mixed inoculum (dung samples and poultry wash) was found to be best for biomethanation. Of the microbe isolates, isolates from buffalo, pig and paper mill wastes appear to be most effective. Pretreated sawdust and rice straw were found to be good subtrates for biomethanation. Of the different plant biomass used Spirogyra (algae), Ipomea and water hyacinth were most effective whereas Jatropa gossypifolia and Parthenium sp. were the least effective. Biomethanation of Spirogyra was carried out both in anoxic and oxic conditions. Though methane production decreased enormously under oxic conditions, definite methane production continued indicating that the biomethanation process is not exclusively anoxic. Similarly, biomethanation of sewage samples from different sewage treatment plants were carried out with and without isolated methanogens and methane production was found to be moderate.     

稻田土菌群驯化对稻秆两步发酵产甲烷效果的影响

为提高稻秆的降解率及其厌氧发酵甲烷产量,采用高氨氮畜禽废水作为氮源以驯化稻田土壤微生物,优化其降解稻秆的初始pH值,并评估水解产物液体发酵产甲烷性能.结果表明,混合组驯化的微生物产纤维素酶活性及对稻秆木质素的降解率高于其它组及先前文献报道,分别达到4.01 IU和51.96%,且后期水解液中总有机碳（Total organic carbon, TOC）及还原糖含量最高.随着初始pH值的提高,稻秆中纤维素、半纤维素和木质素的降解率显著增加,稻秆水解液中的挥发性脂肪酸（Volatile fatty acids, VFAs）和TOC含量均显著增加,并在第7 d达到最高值.将水解稻秆7 d的水解液进行厌氧发酵显示,在初始pH=9.0条件下累积甲烷产量达到最大,为37.60 mL·mL^-1水解液.本实验结果表明, 驯化的稻田土微生物在碱性条件下可以更有效地降解稻秆,提高水解液中TOC及VFAs含量,从而提高厌氧发酵的甲烷产量.     

盐渍化环境下秸秆还田对稻米汞及甲基汞累积的影响

通过盆栽试验探讨了盐渍化环境下秸秆还田对土壤中总汞（THg）、甲基汞（MeHg）含量和转化以及对水稻吸收汞的影响.试验用土采集自天津典型污灌地区,人为添加不同梯度的盐分（0、0.2%、0.5% NaCl）及外源汞（0、5mg/kg~Hg（NO₃）₂）,秸秆还田按照0.1%进行处理.结果显示：1.秸秆还田促进稻田系统中无机汞的甲基化.与未添加秸秆的处理相比,秸秆还田后土壤MeHg含量提高了56.8%~76.8%,水稻MeHg含量增加了127%~171.6%.2.在轻度盐渍化稻田开展秸秆还田,会进一步提高稻田土壤中汞的甲基化水平,进而增加水稻籽粒中甲基汞含量.与不添加盐分处理相比,轻度盐渍化环境中（0.2% NaCl）,秸秆还田处理导致土壤MeHg含量提高了92.2%~101.2%,水稻籽粒MeHg含量增长了52.8%~132.1%.更高的盐渍化水平会抑制土壤汞甲基化趋势,水稻籽粒中甲基汞含量降低.在中度盐渍化环境中（0.5% NaCl）,秸秆还田导致土壤MeHg含量降低了57.9%~88.6%,水稻籽粒MeHg含量降低了72.9%~86.8%.以上研究结果表明,在盐渍化且汞污染稻田开展秸秆还田可能大幅度增加该地区汞食物链暴露风险,因此在中轻度盐渍化的污灌区,对秸秆还田等农艺措施需要格外慎重.