滴灌施肥对加工番茄产量和品质的影响

为了寻求滴灌施肥条件下连作加工番茄持续优质高产平衡施肥方案,以番茄为材料,采用"3414"优化试验方法,分析了滴灌平衡施肥对加工番茄生长发育、产量和品质的影响。结果表明,滴灌施肥条件下,增施氮、磷、钾肥和配施微肥明显促进番茄生长发育;增磷和配施微肥显著提高产投比,实现增收;增氮、增钾的增产效果不显著,但减氮、减钾显著降低了产量;增钾、配施微肥显著提高加工番茄品质,尤其在提高番茄糖酸比,降低硝酸盐量积累,促进可溶性固形物的形成及改良色差等方面成效显著。滴灌施肥条件下,增施磷、钾肥,配施微肥对连作加工番茄具有显著的增产提质作用。     

西北干旱区节水灌溉效益及潜力分析——以新疆乌苏市为例

基于西北地区农业灌溉特点,以新疆乌苏市为例,分析当前的节水灌溉措施和效益,指出了其中的不足之处,并通过对该地农业节水途径的分析,定量计算了未来10年该地和新疆以及西北地区的节水潜力,同时提出几点有针对性的建议和改进措施,以求为广大西北地区农业可持续提供发展思路.     

基于加权灰色关联模型的干旱区玉米覆膜耕作方式评价

通过设置垄作全膜、垄作半膜、平作全膜以及平作半膜4个覆膜耕作处理,采用加权灰色关联模型评价不同覆膜耕作方式的优劣.结果表明:垄作全膜处理保水保温效果明显;干旱条件下,耕作措施较覆膜方式对地温的影响更为明显;而在水量充沛条件下,覆膜方式则表现出对地温更显著的影响.田间起垄耕作结合全膜覆盖的种植方式,有利于干物质的积累,促进滴灌条件下玉米产量的形成,同时提高水分利用效率,为干旱区农业节水和玉米高产提供了技术依据.     

全膜垄作对旱作马铃薯土壤含水率、酶活性及产量的影响

为明确全膜垄作对黄土高原旱作马铃薯土壤保水改土效果及产量形成的影响,设全膜双垄垄上播(A1)、全膜单垄垄上播(A2)、全膜单垄垄上微沟播(A3)和露地常耕平作(CK)4种方式进行田间试验,分析了不同耕作方式对马铃薯田间土壤含水率、土壤酶活性和产量的影响。结果表明,全膜垄作均能提高各生育阶段0~100 cm土层土壤含水率,特别是对0~20 cm土层影响最为显著,在马铃薯需水关键期块茎形成期和块茎膨大期,0~100 cm土层土壤含水率A1、A2、A3处理较CK分别提高了27.93%、19.23%、34.93%和25.12%、26.94%、57.00%;全膜垄作均能显著提高马铃薯0~60 cm土层土壤蔗糖酶、脲酶、过氧化氢酶、磷酸酶活性,以0~10 cm土层酶活性最高,随马铃薯生育期推进,土壤酶活性呈先增加后降低趋势,在块茎膨大期达到最大;同时,全膜垄作均能增加马铃薯产量,由高到低次序为A3处理A1处理A2处理CK,其中A3处理比A1处理增加5.53%,比A2处理增加14.23%;A1、A2、A3处理的产量分别较CK提高了75.77%、66.56%、53.88%;与CK相比,全膜垄作不仅提高了马铃薯产量,而且降低马铃薯烂薯率和青薯率,其中全膜单垄垄上微沟播(A3)优于其他处理,可作为内蒙古黄土高原旱作区节水高产栽培模式。     

宝鸡峡灌区小麦水足迹时空变化特征与归因分析

基于水足迹理论,计算了实际耗水和施肥情况下宝鸡峡灌区小麦水足迹的各项指标,分析了小麦水足迹各指标的时空变化特征,利用对数平均迪氏指数分解法推导了总水足迹变化量分解公式,细致定量了气候变化和人类活动因子对总水足迹变化的贡献。结果表明:灌区小麦总水足迹1994—2010年均值为6.73亿m~3,Mann-Kendall检验呈显著下降趋势,年均变幅为-0.17亿m~3/a,水足迹结构由蓝水主导演变为灰水主导。单位产量的小麦生产水足迹、生产绿水、蓝水和灰水足迹多年平均值分别为1.04、0.36、0.32、0.37 m3/kg。生产水足迹、生产绿水和蓝水足迹在灌区内从西向东呈递增趋势,生产灰水足迹以兴平为中心向两侧递增。归因分析表明,影响灌区小麦总水足迹变化的主导因子为人类活动,其贡献率和为-113.57%,而气候变化因子的贡献率仅为13.57%。人类活动因子中,贡献率从大到小依次为灌溉定额(-56.58%)、总种植面积(-55.78%)、小麦种植比例(-43.76%)、单位面积施氮量(39.96%)、灌溉水有效利用系数(2.59%)。     

Lysine requirements of Korean native ducklings for three weeks after hatch

Dietary lysine content in poultry diets is critical to improve feed utilization efficiency, body protein deposition rate, and carcass traits of growing and finishing poultry. The objective of the current study was to estimate the optimum digestible lysine requirements for maximum growth performance, efficient utilization of nitrogen, and carcass traits of male Korean native ducklings for 3 wk after hatch. A total of 720 one-day-old male Korean native ducklings were used in a completely randomized design having 8 dietary treatments to provide a range of digestible lysine content from 0.44 to 1.07%. Ducklings were randomly allotted to 24 floor pens (6 replicates per treatment and 15 ducklings per pen) and were offered the respective diets on an ad libitum basis for the period of study. Body weight and feed intake were measured weekly to calculate feed conversion ratio. At the termination of the experiment, 2 ducklings per pen were euthanized via cervical dislocation to weigh empty body and drumsticks. The digestible lysine requirement was determined by taking a mean value after fitting the data to both linear-plateau and quadratic-plateau models. Digestible lysine requirements for Korean native ducklings for 3 wk after hatch were estimated to be 0.71, 0.74, 0.65 and 1.01% for maximum body weight, daily gain, and daily feed intake, and for minimum feed conversion ratio, respectively.     

热水法提取香菇多糖和茶树菇多糖研究

真菌多糖具有降血糖、抗肿瘤、抗氧化、抗病毒和免疫调节等多种生理功能,且对机体毒副作用小,具有广阔的开发前景。以营养价值和药用价值均较高的香菇(Lentinus edodes)、茶树菇(Agrocybe aegirit)为原料,用热水提取法在90℃、料液比1∶20(g∶m L)、提取1次、4 h的条件下,提取两种真菌多糖。结果表明,热水法提取香菇多糖的得率为9.70%,茶树菇多糖的得率为13.10%,说明茶树菇中的多糖含量高于香菇。该研究可为后续开发利用真菌多糖提供重要依据。     

丘陵山地区耕地水约束状态研究——以黎香溪流域为例

建立一种土壤水循环机理与地形特征结合的层次评价模型,以长江一级支流——黎香溪流域为研究区,以土壤的蓄水量、土壤地形湿度、蒸散发量和灌溉用水条件作为评价因子,采用层次分析法对流域耕地水约束状态进行综合分析,将水约束状态分为轻度、一般、较重、重度、极重5个等级。通过对300个样本的抽样调查,分析结果总体正确率为78%。灌溉条件的影响力随着约束等级的降低而增加,正确率随着约束等级的降低而降低,从极重到轻度正确率分别为85.00%、81.67%、78.33%、75.00%和68.33%。流域内耕地受用水较重及以上程度约束占总面积的55%。模型对流域内部耕地用水状态的相对差异模拟精度较高,灌溉水平的差异是误差的主要来源。     

Old and New Cultivars of Soya Bean (Glycine max L.) Subjected to Soil Drying Differ in Abscisic Acid Accumulation,Water Relations Characteristics and Yield

Two old (Huangsedadou and Longxixiaohuangpi (LX)) and two new (Jindou 19 (JD) and Zhonghuang 30 (ZH)) soya bean (Glycine max (L.) Merr.) cultivars were used to investigate the influence of soil drying on the abscisic acid (ABA) accumulation in leaves, stomatal conductance (g_s), leaf water relations, osmotic adjustment (OA), leaf desiccation tolerance, yield and yield components. The greater ABA accumulation was induced by soil drying, which also inducing g_s decreased at higher soil water contents (SWC) and leaf relative water content (RWC) significantly decreased at lower SWC in the new soya bean cultivars than in the old soya bean cultivars. The soil water threshold between the value at which stomata began to close and the RWC began to decrease was significantly broader in the new cultivars than in the old cultivars. The new cultivars had significantly higher OA and lower lethal leaf water potential than old cultivars when the soil dried. The old cultivars had greater biomass, but lower grain yield than the new cultivars in well‐watered, moderate stress and severe stress conditions. Thus with soil drying, the new soya bean cultivars demonstrated greater adaptation to drought by inducing greater ABA accumulation, stomatal closure at higher SWC, enhanced OA and better water relations, associated with increased leaf desiccation tolerance, greater water use efficiency and higher yield.     

混合絮凝剂处理中纤板厂木片水洗废水的研究

对中密度纤维板厂木片水洗废水处理方案进行研究:混合絮凝剂的成分和最佳投放量经研究确定为15 g/m3聚合氯化铝和1 g/m3聚丙烯酰胺,对木片质量也不会有较大损害;确定最佳处理水量占总水量的比例为15%,既能使废水水质得到改善,而且处理成本为最小,达到资源回收利用的目的。