Kale相关论文
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Novel snack foods comprised of various combinations of whole grains and vegetables were evaluated for consumer acceptabi......
研究结果表明,羽衣甘蓝栽植行间距30cm×50cm产量达22.19t/cm^2,栽植行间距50cm×50cm产量达19.25t/hm^2,产量差异达显著水平......
以羽衣甘蓝真空冻干叶粉为原料,探明超声波强化四氢呋喃提取叶黄素的工艺条件。确定适合提取料液比后采用正交试验研究超声波功率......
以羽表甘蓝的幼叶、茎尖和下胚轴为外植体,进行不定芽诱导试验,研究了不同外植体、激素浓度配比对其离体培养效果的影响。结果表明:不......
研究了不同品种羽衣甘蓝在长春市的生态适应性。结果表明:随温度的不断降低,不同品种羽衣甘蓝的生态适应性和观赏价值不同。红鸠和白......
以大白菜与羽衣甘蓝CMS种间杂种F1为母本,以羽衣甘蓝自交系为父本进行回交,并对杂交子房进行了离体培养。结果表明:上述亲本间存在较......
以Ogura改良胞质大白菜(Brassica camperstris ssp.pekinensis)为母本,与羽衣甘蓝(B.oleracea var.acephala)进行种间杂交。结果表明,上述种......
以10个羽衣甘蓝杂交种为试材进行游离小孢子培养,研究胚状体发生和小孢子胚成苗的影响因素,以及小孢子植株倍性鉴定和单倍体加倍方法......
以转拟南芥AtP5CS1基因羽衣甘蓝和野生型(对照)为试验材料,在水分胁迫0 d、2 d、4 d、6 d和复水2 d、4 d条件下,研究水分胁迫和复水......
羽衣甘蓝经过春化后温度升高时即可抽薹开花,即使剪去花茎也会影响到其观赏效果。为抑制羽衣甘蓝抽薹,延长植株观赏期,需要筛选适......
将耐性植物芥蓝(Brassicacapitata)与敏感植物小白菜(Brassica chinenzis)暴露于含Pb的营养液中,通过添加磷灰石矿尾料(PR)、重过磷酸钙(TS......
试验以羽衣甘蓝为材料,采用单因素(钾肥)随机区组法设计。共设计4个处理,分别为A(0.66%)、B(0.69%)、C(0.73%)、D(0.77%),以清水为对照,研究......
Mackinneyella fenestrate genus has been reported first time from Lower Permian, Southern Urals (Russia) and then was fou......
Polyphenol Composition and Antioxidant Activity of Different Potentially Functional Kale-Based Snack
Four types of kale-based snacks were investigated on the basis of polyphenol content and composition, glucosinolates amo......
Polyphenol Composition and Antioxidant Activity of Different Potentially Functional Kale-Based Snack
Four types of kale-based snacks were investigated on the basis of polyphenol content and composition, glucosinolates amo......
Whole grain gluten-free high protein vegetable snacks were evaluated. The snacks were Buckwheat-Peanut Meal-Kale (BPK), ......
The Agronomic Techniques as Determinants of the Phenolic Content and the Biological Antioxidant Effe
The content of phytochemicals in vegetables is strongly affected by genetic, agronomic, and environmental factors, and b......
We investigated the feasibility of using ammonium- and potassium-loaded zeolite (NK-Z) as carriers for fertilizer and fo......
A Miniature Sensor for Measuring Reflectance, Relative Humidity, and Temperature: A Greenhouse Examp
There is a growing interest in using miniature multi-sensor technology to monitor plant, soil, and environmental conditi......
以改良萝卜胞质不育大白菜为母本,以甘蓝型油菜为桥梁种进行杂交,获得了较多的种间CMS杂种;又以此种间CMS杂种为母本,以7个羽衣甘......