河北省油葵品种多点比较试验分析

为筛选适宜河北省不同生态区的油葵新品种,分别在冀北高寒区张家口市、冀中南太行山浅山丘陵区石家庄市、冀中南太行山前平原区衡水市饶阳县开展油葵品种多点比较试验,对收集到的9个油葵品种的主要农艺性状及产量进行丰产性、稳定性分析。研究结果表明：（1）‘F60’、‘T562’和‘早熟矮大头’的生育期较对照短,其余品种均比对照长。（2）‘新葵23号’和‘新葵7号’比较高大,‘早熟矮大头’相对矮小。（3）‘T562’籽粒较好,百粒重最重,‘HZ001’籽粒小而轻。（4）各参试品种均表现增产,其中‘T562’和‘F60’丰产效应最高。张家口和石家庄‘T562’产量最高;饶阳‘F60’产量最高。（5）‘新葵7号’和‘F60’变异度最低,稳产性最强。‘T562’、‘F60’、‘新葵7号’、‘改良7号’和‘S667’适宜张家口种植,‘F60’、‘早熟矮大头’、‘新葵7号’、‘HZ001’和‘新葵23号’适宜石家庄和饶阳种植。（6）‘T562’、‘F60’综合评价好,‘早熟矮大头’、‘新葵7号’、‘HZ001’和‘新葵23号’综合评价一般,‘改良7号’和‘S667’综合评价较差。     

砂田甜瓜套作向日葵系统的养分利用研究

2010—2013年在庄浪县进行的砂田甜瓜套作向日葵系统的养分利用研究的结果表明,无论在甜瓜的初花期、座果期、膨大期套作食葵或油葵,套作系统比单作明显提高了作物的吸氮量、吸磷量和吸钾量。氮吸收量比单作增加50%~59%,磷吸收量比单作增加12%~41%,钾吸收量比单作增加33%~68%。     

不同杀菌剂对向日葵菌核病的田间防治效果

为探明不同杀菌剂对向日葵菌核病的田间防治效果,采用菌丝生长速率法和孢子萌发法测定5种杀菌剂对向日葵菌核病菌的菌丝生长和子囊孢子萌发的抑制作用,并进行田间防治试验。结果表明,20%吡噻菌胺SC对菌丝生长的抑制作用最强,EC₅₀值为0.0302μg/mL,其次为75%拿敌稳WG和50%啶酰菌胺WG,EC₅₀值分别为0.0370和0.2152μg/mL。50%啶酰菌胺WG对菌核病菌子囊孢子的抑制作用最强,EC₅₀值为0.0563μg/mL。田间试验结果显示,50%啶酰菌胺WG对向日葵菌核病的防治效果最好,防效达到89.68%,可有效改善向日葵相关农艺性状,较对照增产34.58%。综合室内毒力试验和田间药效试验结果,50%啶酰菌胺WG对向日葵菌核病的防治效果较好,可作为田间控制病害的轮换药剂。     

油葵不同灌溉模式对土壤水盐含量的影响及经济效益分析

通过研究油葵不同灌水方式对土壤水分、盐分含量的变化和经济效益比较,找出合理的灌溉模式,提高灌溉水利用率。试验设4个处理:不灌水(CK)、灌水1次(开花期)、灌水2次(开花期、灌浆期各一次)、灌水3次(现蕾期、开花期、灌浆期各一次),每次灌水量900 m3/hm~2,重复3次,随机区组排列。结果表明:灌水2次处理在降低0~20cm土层土壤盐分含量、p H方面效果最好;灌水2次处理显著提高了油葵产量和经济效益,分别比对照提高91%、117%。灌水2次处理模式有利于油葵正常生长发育,降低了土壤返盐,能抑制耕作层中盐分的表聚,显著地提高油葵产量和经济效益,是油葵最佳的灌溉模式。     

向日葵盘及其果胶主要组成的研究

研究结果表明，向日葵盘组成复杂，初步测定出１０多种天然化合物，其果胶含量以海绵状肉质部位最高，锯齿形苞片部位最低。用气相色谱法分别测定了向日葵盘及其果胶中各种糖基的相对含量，发现它们都含有木糖、阿拉伯糖、甘露糖、半乳糖和葡萄糖等，向日葵盘中葡萄糖含量最高果胶中含半乳糖最多。向日葵盘用水预洗得到的水溶性果胶，其酯化度大于５０％，属于高酯果胶，其表观分子量为１７３４００，向日葵盘经一分别用稀无机酸及多     

Yield and seasonal water productivity of sunflower as affected by tillage and cropping systems under dryland conditions in the Limpopo Province of South Africa

Sustainable food production in semi-arid tropical countries can be achieved through efficient utilization of rainwater. A field experiment to assess the grain yield, seasonal water use (WU), water use efficiency (WUE) and precipitation use efficiency (PUE) of sunflower (Helianthus annuus L.) intercropped with cowpea (Vigna unguiculata L.) on two tillage systems was conducted during the 2007/2008 and 2008/2009 cropping seasons at the University of Venda (22°58′ S, 30°26′ E at 596 m above sea level). The experiment was configured as a 2 × 2 × 2 factorial design with three replications. The tillage treatments were conventional tillage (CT) (control) and in-field rainwater harvesting (IRWH) system. The IRWH is a special crop production technique that promotes runoff on 2.0-m wide no-till strip between crop rows and collects the runoff water in basins where it infiltrates into the soil profile. The treatments in the cropping system (CS) consisted of a sole crop (sunflower or cowpea) and an intercrop (sunflower × cowpea). Results of the experiment revealed that IRWH led to a significant (P < 0.05) increase in sunflower grain yield in the second season but cowpea grain yield was not influenced by tillage systems. IRWH resulted in significantly higher WU, WUE and PUE of both crops compared to CT system in the second season. The CS had significant effects on sunflower grain yield in both seasons but none on the cowpea grain yield. WU was significantly higher in intercrops than in sole cowpea and sole sunflower in the first and second season, respectively. WUE and PUE were significantly greater in sole sunflower than in the intercrops but less in the sole cowpea than in the intercrops.     

Effect of salinity on water stress, growth, and yield of maize and sunflower

Maize and sunflower were grown in tanks filled with loam and clay, and were irrigated with water of three different levels of salinity. Predawn leaf-water potential and stomatal conductance were used as parameters for water stress. The predawn leaf-water potential of maize was higher than that of sunflower, but the effect of salinity and soil texture on the predawn leaf-water potential was the same for both crops. The stomatal conductance of sunflower was much higher and more severely affected by salinity and soil texture than the stomatal conductance of maize.

Although salinity had a more serious effect on the development of leaf area and canopy dry matter of sunflower, its effect on evapotranspiration and grain yield was the same for both crops. Soil texture had a stronger effect on the development of leaf area and canopy dry matter of sunflower, which also appeared in the evapotranspiration and grain yield, indicating that sunflower is more sensitive to drought than maize.     

Disease Tolerance in Helianthus petiolaris : A Genetic Resource for Sunflower Breeding

Abstract

Argentina is a major sunflower producer in the world, with crop acreage of 2?2.7 million ha in the last four years. Sunflower crop yield is often influenced by sanitary constraints, mainly fungal pathogens. Helianthus petiolaris is a wild species native to North America established in central Argentina displays a high tolerance to a number of fungal diseases and insects. Controlled crosses of this species with sunflower demonstrated that H. petiolaris constitutes a valuable genetic variability source for sunflower breeding to improve tolerance to rust (Puccinia helianthi), white rust (Albugo tragopogonis), verticillium wilt (Verticillium dahliae), powdery mildew (Erisiphe sp.) and the sunflower moth (Rachiplusia nu). This places H. petiolaris in an outstanding position as a genetic resource since different important traits could be transferred to the crop through interspecific hybridization.     

Use of saline aquaculture wastewater to irrigate salt-tolerant Jerusalem artichoke and sunflower in semiarid coastal zones of China

In 2004 and 2005, the feasibility of agricultural use of saline aquaculture wastewater for irrigation of Jerusalem artichoke and sunflower was conducted in the Laizhou region using saline aquaculture wastewater mixed with brackish groundwater at different ratios. Six treatments with different electrical conductivities (EC) were included in the experiment: CK1 (rainfed), CK2 (irrigation with freshwater, EC of 0.02 dS m⁻¹), and saline aquaculture wastewater (EC of 39.2 dS m⁻¹) mixed with brackish groundwater (EC of 4.4 dS m⁻¹) at volumetric ratios of 1:1, 1:2, 1:3, and 1:4 with corresponding EC of 22.0, 16.1, 13.2, and 11.4 dS m⁻¹. Soil electrical conductivity (ECe) in the saline aquaculture wastewater irrigation treatments was significantly higher (P ≤ 0.05) than that in the rainfed or freshwater irrigation treatments, and the maximum value occurred in the 22.0 dS m⁻¹ treatment. The sodium adsorption ratio (SAR) ranged from 4.1 to 11.7 mmol^1/2 L^−1/2 and increased with decreasing salinity of irrigation water. The biomass of Jerusalem artichoke significantly decreased (P ≤ 0.05) when irrigated with saline aquaculture wastewater compared to the rainfed or freshwater irrigation treatments; however, the effect of salinity on root biomass was much smaller than the aerial parts. Concomitantly, the highest tuber yield of Jerusalem artichoke occurred in the 11.4 dS m⁻¹ treatment, while the highest seed yield of sunflower occurred in the rainfed treatment. Additionally, nitrogen and phosphorus concentrations of Jerusalem artichoke were significantly higher in the 11.4 dS m⁻¹ treatment than the other treatments. This study demonstrated that properly diluted saline aquaculture wastewater can be used successfully to irrigate Jerusalem artichoke with higher economic yield and nutrient removal, but not sunflower due to the difference in salt tolerance.