长期继代培养马铃薯愈伤组织的植株再生

对影响马铃薯愈伤组织发生、生长和长期继代培养的愈伤组织再生植株的几种因素进行了研究。马铃薯茎段的愈伤组织发生频率高于叶片的愈伤组织发生频率。Ｄｉｃａｍｂａ诱导茎段和叶片的愈伤组织发生频率在９０％以上；而２，４－Ｄ的诱导效果不佳并诱发外植体生根。再生培养其中加入０．５ｇ／Ｌ的酶解酷蛋白是必需的；蔗糖的浓度以２％－４％为宜；附加ＺＴ２．０ｍｇ／Ｌ、ＧＡ０．１ｍｇ／Ｌ可使长期继代的愈伤组织的植株再生频率     

Dynamic Modeling of the Ratio Volatile Fatty Acids/Bicarbonate Alkalinity in a UASB Reactor for Potato Processing Wastewater Treatment

In this work, dynamic mathematical model for the prediction of the operational parameter volatile fatty acids/bicarbonate alkalinity (VFA/ALK) in a UASB reactor was developed. The dynamic modeling technique was applied successfully to a two-year data record from an industrial wastewater treatment plant of a potato processing industry. The technique used included regression analysis by residuals. Seventeen parameters were examined including the following: wastewater's flow rate, reactor's temperature and pH, total and soluble influent COD, wastewater's temperature and pH, total and soluble effluent COD, volatile fatty acids, alkalinity, biogas production rate and each parameter with a time lag of up to 10 days. Finally, after all parameters and all time lag trials the best fitted model was developed. The model's adequacy was checked by χ² test for a data record of the same UASB reactor but at a different time period and proved to be satisfactory. Additionally, the model's ability to predict and to control the plant's operation via VFA/ALK was examined. Through this model, in contrary to steady state models, various aspects of the process can be enlighten, such as the fact that the hydrolysis of starch requires at least a resident time of seven days.     

Ascorbic acid, β-carotene,sugars, phenols,and heavy metals in sweet potatoes grown in soil fertilized with municipal sewage sludge

Municipal sewage sludge (MSS) used for land farming typically contains heavy metals that might impact crop quality and human health. A completely randomized experimental design with three treatments (six replicates each) was used to monitor the impact of mixing native soil with MSS or yard waste (YW) mixed with MSS (YW +MSS) on: i) sweet potato yield and quality; ii) concentration of seven heavy metals (Cd, Cr, Mo, Cu, Zn, Pb, and Ni) in sweet potato plant parts (edible roots, leaves, stem, and feeder roots); and iii) concentrations of ascorbic acid, total phenols, free sugars, and β-carotene in sweet potato edible roots at harvest. Soil samples were collected and analyzed for total and extractable metals using two extraction procedures, concentrated nitric acid (to extract total metals from soil) as well as CaCl₂ solution (to extract soluble metals in soil that are available to plants), respectively. Elemental analyses were performed using inductively coupled plasma mass spectrometry (ICP-MS). Overall, plant available metals were greater in soils amended with MSS compared to control plots. Concentration of Pb was greater in YW than MSS amendments. Total concentrations of Pb, Ni, and Cr were greater in plants grown in MSS+YW treatments compared to control plants. MSS+YW treatments increased sweet potato yield, ascorbic acid, soluble sugars, and phenols in edible roots by 53, 28, 27, and 48%, respectively compared to plants grown in native soil. B-carotene concentration (157.5 μg g^?1 fresh weight) was greater in the roots of plants grown in MSS compared to roots of plants grown in MSS+YW treatments (99.9 μg g^?1 fresh weight). Concentration of heavy metals in MSS-amended soil and in sweet potato roots were below their respective permissible limits.     

The effect of multiple soil applications of disulfoton on enhanced microbial degradation in soil and subsequent uptake of insecticidal chemicals by potato plants

Abstract

Potatoes were grown during 1992 in 2 m² plots of loam which had received 1, 2 or 3 annual treatments of Di‐Syston 15G, equivalent to 3.36 kg AI/ha, in furrow at planting. The presence of enhanced degradative activity to the sulfoxide and sulfone metabolites of disulfoton in the soil treated in the previous two years was confirmed by laboratory tests prior to the 1992 treatments. Soil, seed potato and foliage from the three treatments were analyzed for disulfoton and its sulfoxide and sulfone metabolites for 12 wk following planting/treatment. Disulfoton was the major insecticidal component of the soil, a minor component of the seed piece and was not detected (<0.02 ppm) in potato foliage. Disulfoton concentrations in each of the three substrates sampled were similar for the three treatments. Disulfoton sulfoxide and sulfone were the major insecticidal components of the seed piece and foliage. Their maximum concentrations in 1st year soil, seed pieces and foliage were ca. 2x, 2x and 6x, respectively, those measured in the 2nd and 3rd year treatments. The results demonstrate that enhanced microbial degradation of relatively minor insecticidal compounds in the soil can profoundly affect insecticide levels in the plant when these compounds are the major insecticidal components accumulated. The broader implications for crop protection using soil‐applied systemic insecticides are discussed.     

噻呋酰胺在马铃薯和土壤中检测方法及残留动态研究

建立了马铃薯果实、植株和土壤样品中噻呋酰胺的分析方法,并测定了噻呋酰胺在马铃薯田中的残留消解动态及最终残留量。样品采用丙酮提取,二氯甲烷萃取,气相色谱-电子捕获检测器（GC-ECD）检测。当样品中添加的质量分数为0.001～0.05 mg·kg^-1时,平均添加回收率为85.76%～93.53%,相对标准偏差（RSD）为1.44%～7.33%,噻呋酰胺的最低检出质量浓度（LOQ）为0.001 mg·kg^-1。2009—2010年在天津和南京两地的田间残留试验结果表明：噻呋酰胺在马铃薯植株和土壤中消解较快,半衰期分别为6.08～6.30 d和4.92～7.07 d,施药后21 d的消解率均在91%以上;240 g·L^-1噻呋酰胺悬浮剂按推荐剂量480 g·hm^-2和1.5倍推荐剂量720 g·hm^-2兑水喷雾1次,在马铃薯收获期时噻呋酰胺在马铃薯果实和土壤中的最终残留量分别为质量浓度0.076 2～0.649 6 mg·kg^-1和0.020 7～0.305 0 mg·kg^-1。根据大田试验结果,建议噻呋酰胺在马铃薯中的最大残留限量标准为1.0 mg·kg^-1。     

马铃薯淀粉废水的预处理技术及应用研究

马铃薯是淀粉加工工业的重要原料,在马铃薯淀粉生产过程中需要消耗大量的水,从而产生含高浓度有机物和悬浮物的废水,如不妥善处理而直接排放,将会严重影响周围水体的功能。马铃薯淀粉废水中含有大量泥砂、淀粉颗粒及高浓度有机物质,采用预处理方法降低这些物质的含量,对于后续工艺的运行十分关键。本文总结了在淀粉废水预处理中常用的技术方法,并对今后的发展方向进行预测。     

不同施肥模式下甘薯乙醇生命周期能效与环境影响分析

采用生命周期分析方法,以1 000 L甘薯乙醇为单位功能单元,将甘薯乙醇生产体系分成作物种植、原料运输和乙醇转换等3个单元,对其生命周期能耗与环境排放进行清单分析和影响评价,比较习惯施肥与测土配方施肥下甘薯乙醇生命周期9类环境影响潜力的差异。结果表明：两种施肥模式下甘薯乙醇生产体系的生命周期能源效率分别为1.41和1.43。习惯施肥模式下甘薯乙醇生命周期主要环境影响类型包括人体毒性、富营养化、酸化、淡水生态毒性、能耗和全球变暖,其环境影响潜力分别相当于2000年世界人均影响潜力的40%、40%、31%、29%、25%和20%。测土配方施肥降低了化学氮肥和磷肥使用量,提高了肥料利用效率和甘薯单产,使富营养化、淡水生态毒性、酸化和全球变暖潜力分别降低了31%、15%、9%和7%。可见,测土配方施肥模式可改善甘薯乙醇生命周期的能源效率并显著缓解其负面环境影响。     

马铃薯糖苷生物碱的生物学作用及开发利用

本文根据作者近年的研究成果及国外研究动态，简要介绍了马铃薯糖苷生物碱的种类，结构，含量及在植株中的分布；重点论述了糖苷生物碱的毒性，毒理及对块茎食用、饲用和加工品质的影响，糖苷生物碱与马铃薯植株自身的抗病，抗虫性及其抗病虫育种的关系，以及糖苷生物碱在医药学中的应用价值，为马铃薯的综合开发利用指出了新途径。     

微生物燃料电池利用甘薯燃料乙醇废水产电的研究

利用空气阴极微生物燃料电池(MFC)处理甘薯燃料乙醇废水,以COD为5000mg/L的废水做底物,获得的最大电功率密度为334.1mW/m2,库仑效率(CE)为10.1%,COD去除率为92.2%.实验进一步考察了磷酸缓冲液(PBS)浓度和废水浓度对MFC产电性能的影响.PBS含量从50mmol/L增加到200mmol/L,MFC输出的最大电功率密度提高了33.4%,CE增加26.0%,但PBS对废水的COD去除率影响不大.含50mmol/LPBS的废水COD从625mg/L增加到10000mg/L,COD去除率和MFC输出的最大电功率密度在废水浓度为5000mg/L处均获得最大值,但CE值有降低的趋势,从28.9%变化至10.3%.这些结果表明,MFC可以在处理甘薯燃料乙醇废水的同时获得电能;增大PBS浓度能提高MFC的产电性能;MFC输出的最大电功率密度随废水COD增加而增大,但废水浓度过高会引起酸化使MFC产电性能下降.     

基于MUASB处理马铃薯深加工废液的试验研究

试验研究了在改装UASB(MUASB)装置中培养好氧颗粒污泥及其处理生活污水和高浓度马铃薯深加工废液的效果。试验结果表明:可以在4 d内快速培养出好氧颗粒污泥。成熟的颗粒污泥平均直径达2 mm。当马铃薯深加工废液浓度ρ(COD)、ρ(NH 4+-N)、ρ(TP)平均分别为12 817.16,106.10,26.37 mg/L时,处理效果分别超过64%、63%和67%。利用共聚焦激光扫描显微镜观测颗粒污泥,虽然球菌主要形成了一个相对凝结的区域,但是在颗粒污泥的边缘区域出现许多丝状菌。α多糖主要分布在颗粒的核心。在颗粒中还发现少量的β多糖和无生命的细胞。