一种适合稻区紫云英生产实际的紫云英加工调制方式

将紫云英鲜草分离为草汁、细渣、纤维状渣；以粉状能量精料为载体吸收汁液；3种制品都以晾晒的方式进行干燥。晾晒时，3种制品综合占场面积较原草减少近90％；3种制品均可在一个晴日内风干，比原草干燥速度提高一倍余；细渣品质与国标一级苜蓿草粉相当；“二次拌汁料”、“三次拌汁料”之粗蛋白、粗纤维含量符合生长肥育猪饲养标准；加工方式切合稻区紫云英生产实际及产区综合条件，有推广价值，且易推广。     

早熟西瓜新品种大宝的选育

大宝西瓜是以347为母本,355为父本配制的一代杂种,早熟,生长势中等,主蔓第7～8节着生第1雌花。全生育期93d(天)左右,果实发育期28～30d(天),果实椭圆形,果形指数1.3左右,单瓜质量3～4kg。果皮墨绿色,厚0.8～1.0cm,有白霜,坚韧,耐运输。果肉红色,口感好,中心含糖量9.5%～10.0%,最高可达11.0%。中抗枯萎病,适于华北地区早春保护地或露地早熟栽培,每667m2产量2500kg左右。     

西瓜中类胡萝卜素的高效液相色谱法分析

通过高效液相色谱法对西瓜中的类胡萝卜素进行分析,采用Vydac201TP54C18色谱柱,比较2种不同流动相的检测结果,表明乙腈:甲醇:二氯甲烷=75:20:5(V:V:V)的分离效果较好;初步定性分析确定西瓜中含有7种以上类胡萝卜素。     

西瓜核型雄性不育两用系POD同工酶研究

用PAGE(聚丙烯酰胺凝胶)电泳技术,研究了西瓜核型雄性不育两用系不同器官的POD(过氧化物酶)同工酶酶谱差异。试验结果表明,不育株与可育株主要差异在雄花蕾,表现为不育株较可育株多2条活性强的酶带;其他器官差异小,仅表现为酶谱带强弱不同。并对POD同工酶与雄性不育性的相关性进行了研究。     

柑橘类果实汁胞的红色现象及其呈色色素

柑橘类果实中不乏汁胞为红色类型者,如红肉葡萄柚(Citrus paradisii Macf.)的粉红色是番茄红素所致,血橙(C.sinensis L.)的血红色来源于花青素,此外,还有红色的红江橙(C.sinensis L.)、橙红色的元红(C.reticulata Blan-co)和紫红色的五布红心柚(C.grandis L.)等,它们因色泽鲜艳而具备特殊的市场潜力,但呈色色素尚未见报道。在符合审美观的同时,红色汁胞品种还具有特殊的营养价值,如类黄酮、类胡萝卜素等色素富集可软化血管、抗癌、抗氧化及消除体内自由基等。综合有关文献,首次将国内外主要红色汁胞柑橘品种依宽皮柑橘、甜橙、柚、葡萄柚及杂柑等分类进行综述,分析可能的呈色色素,阐明导致红色性状产生的两类色素—花青素、类胡萝卜素生物合成途径     

西瓜新品种‘红冠龙’

 ‘红冠龙’为中熟西瓜一代杂种, 全生育期100 d 左右, 果实椭圆形, 平均单瓜质量8 kg 以上, 瓤红色, 可溶性固形物含量12. 2 %, 高抗枯萎病、炭疽病, 抗旱耐湿性均佳, 适合全国主要西瓜产区种植。     

早熟、优质、耐贮运西瓜新品种‘爱耶一号’

 ‘爱耶一号’是采用自交分离、杂种优势利用, 并结合化学诱变而育成的早熟西瓜新品种, 具有成熟早、丰产、抗病、品质佳、果肉红、抗裂果、耐贮运、适应性广等优良特性。     

吴忠市利通区西瓜果斑病的发生及防控措施

详细介绍了利通区西瓜果斑病的发生、危害症状及发生前后宜采取的各种防控措施及预防措施。     

Chemical management of Fusarium wilt of watermelon

Watermelon yield loss due to Fusarium wilt is increasing in the U.S., due in part to the emergence of the virulent race 2 of Fusarium oxysporum f. sp. niveum, and to the shift in production to triploid cultivars, which generally have less host resistance than previously grown diploid cultivars. One potential management strategy is the use of soil-applied fungicides to reduce Fusarium wilt. The U.S. national program, interregional project 4 (IR-4) supported multistate trials of soil-applied chemicals to manage Fusarium wilt of watermelon. Greenhouse trials were conducted in Maryland, Indiana and Georgia to test the efficacy of 14 chemicals on Fusarium wilt. Based on the performance of these chemicals in the greenhouse, six in Maryland and Delaware and eight in Indiana were selected for subsequent field evaluations. These chemicals were applied once, as a drench at planting, in field trials in Maryland, Indiana, and Delaware in 2008. The fungicides prothioconazole, acibenzolar-S-methyl, and thiophanate-methyl resulted in the greatest reduction in Fusarium wilt, and caused no phytotoxicity. In Maryland and Indiana in 2009, these chemicals were applied through the drip irrigation line alone and in combination, at 0, 2 and 4 weeks after planting. The experiment was repeated in 2010 in Maryland. Prothioconazole alone and in combination with acibenzolar-S-methyl or/and thiophanate-methyl resulted in the greatest decrease in the area under the disease progress curve (AUDPC) of Fusarium wilt of watermelon in Maryland in 2009. The same trend was observed in 2010 in Maryland where three of the prothioconazole treatments ranked the lowest of all treatments and prothioconazole in combination with thiophanate-methyl had significantly lower Fusarium wilt AUDPC compared to the non-treated control. All chemical applications except for acibenzolar-S-methyl in combination with prothioconazole reduced Fusarium wilt AUDPC in Indiana in 2009. Prothioconazole alone and prothioconazole in combination with thiophanate-methyl ranked lowest in Fusarium wilt AUDPC, although not significantly lower than most other treatments. These studies are the first to demonstrate that the soil-applied fungicides prothioconazole and thiophanate-methyl may provide an additional field management option for Fusarium wilt of watermelon.     

葡萄汁奶酒发酵工艺研究

本文以牛奶和葡萄为原料,通过单因素和正交试验优化了葡萄汁奶酒的发酵工艺。结果表明,影响葡萄汁奶酒感官评分因素的强弱顺序依次为发酵温度>接种量>发酵时间>蔗糖添加量>葡萄汁添加量,通过计算发现最佳组合为发酵温度25℃,发酵时间5d,接种量1.00%∶0.50%∶1.50%,蔗糖添加量8%,葡萄汁添加量11%。该组合酿制的葡萄汁奶酒感官评分最高,为92分。经测得,葡萄汁奶酒在最佳发酵工艺条件下的总糖为9.5g/L、酒精体积分数为6.8%,总酸质量浓度为7.2g/L,氨基酸态氮质量浓度为0.21g/L。该葡萄汁奶酒中的天门冬氨酸、谷氨酸、异亮氨酸、亮氨酸、赖氨酸和脯氨酸含量显著高于奶酒和牛奶中的含量(P<0.05)。