Buy: peanut, garlic, Fuji apple.
采购:花生,大蒜,富士苹果。
Red Fuji apple; Total phenol; Green original fermentation.
红富士苹果;总酚;绿原酸;
Exquisite art of bagged Fuji apple is the senior gifts for friends.
精美的套袋红富士苹果艺术果,是馈赠亲朋好友的高级礼品。
Water management pattern in Fuji apple orchard in dryland was studied.
对旱地果园不同降水年型水分管理模式进行了研究。
Surface smooth finish of red Fuji apple is important index of its merchandise feature.
红富士苹果果面光洁度是其商品品质的重要指标。
There were some very serious fruit peel rusts of Fuji apple miniascape in its production.
在红富士苹果盆景的生产过程中,存在果锈发生严重的问题。
Organic fertilizer application patterns in Fuji apple orchard on Weibei Plateau in 1999-2002 were studied.
于1999- 2002年对渭北旱原红富士苹果园不同水分条件有机肥施用模式进行了研究。
One of the important research projects in fruit tree production is how to produce high-quality red Fuji apple.
红富士苹果优质生产是当前果树生产的重要研究项目之一。
Red Fuji apple is the major cultivar at present, but the young trees grow excessively and are difficult in forming flower bud.
红富士苹果是当前主栽的苹果品种,但是幼树生长较旺,成花困难。
According to the results of experiment, spraying Calcium fertilizer can efficienttiy increase the yield and quality of Fuji apple.
结果表明:苹果的产量和品质是叶片中氮、磷、钾、钙、镁、铁等元素综合作用的结果;
The effects of the aerial part length of dwarfing intermediate stock M26 on the growth and development of Red Fuji apple were studied.
研究了M26中间砧地上部砧段长度对红富士苹果生长发育的影响。
Effects of calcium fertilizer application on yield and quality Fuji apple in Weibei dryland were studied by spraying five calcium fertilizer.
结果表明,喷施钙肥能有效的提高产量和品质,但对果实的毒素含量无影响。
Fuji apple trees of five years old were used as materials in the experiment. The effect of spraying Zn on leaves on photosynthesis was studied.
以五年生富士苹果树为试材,研究了叶面喷施锌肥对光合作用的影响。
With salicylic acid (sa) as the induced factor, the fruit of Red Fuji apple as the experimental material, the paper studied the resistance induced by sa to apple ring rot.
本论文以水杨酸(SA)为诱导因子,以红富士苹果果实为研究对象,研究SA诱导苹果果实后产生抗轮纹病的机理。
The management of the Red Fuji apple before bagging and the methods and time of bagging or bag removing as well as the harvesting technique of bagging apple were introduced.
介绍了红富士苹果果实套袋前的管理、套袋方法和摘袋方法及时期、套袋果的采收技术。
The results showed that 45 days after anthesis was the best bagging time and 11-13 days before harvest was the best bags removal time on Fuji apple tree on the Loess Plateau.
结果表明黄土高原地区红富士苹果在谢花后45天是套袋的最佳时期,采收前第11~13天是解袋的最佳时期。
The experiment was carried on in red Fuji apple, which 16 and 12 kind of fruit bags was used in northern loess plateau of Shaanxi Weihe and Guanzhong fruit areas from 2003to2004.
本研究于2003-2004 年在陕西渭北洛川县和关中的杨凌区以红富士苹果为试材,分别选用16 种和12 种果袋,进行了不同袋种对果实品质影响的试验;
Hanfu is a cold-resistant and high-quality apple variety, Its quality is similar to that of Fuji apple, and its cold resistant and adaptability obviously exceed that of Ralls apple.
抗寒优质苹果新品种-寒富,既有近似富士苹果的优良果实品质、又有明显超过国光苹果的树体抗寒性及适应环境能力。
The experiment conducted with Red Fuji apple( Malus domistica Borkh)showed that the girdling resulted in a decrease of sucrose, fructose and glucose contents and induced an amylase activation.
用红富士苹果进行的研究表明,环剥处理使幼果内蔗糖、果糖和葡萄糖含量降低,淀粉酶活性升高。
Bagging of Fuji apple cultivation to be effective in reducing disease, insects, birds and other damage to the fruit to reduce fruit surface pollution, pollution-free fruit production an important way.
对红富士苹果进行套袋栽培,可以有效地降低病、虫、鸟等对果实的为害,减轻果面污染,是生产无公害果实的重要途径。
The fruit growth evolution on 35 tagged 'Fuji' apple trees was observed in three successive growing seasons from 1994 to 1996 to exploit a new method for forecasting the fruit size in early stage.
连续3个生长季跟踪观测了35株成年红富士苹果树的果实生长发育状况,以早期预测采收时果实大小为目标进行相关分析。
The Fuji, Ralls and Golden Delicious of apple varieties, 120 samples were collected from 20 orchards in Yanshan mountain area and the leaf n, p, K contents were analyzed.
采集了燕山山区20个苹果园富士、国光和金冠等品种的120份叶样,对叶片中氮、磷和钾含量进行了分析。
The activity of POD in Qinguan is 195% of Fuji and the activity of PAL in Qinguan is 209% of Fuji in Apple Leaf Brown Spot.
在褐斑病中,秦冠的POD活性是富士的195%,秦冠的PAL活性是富士的209%。 POD、PAL活性是影响秦冠和富士抗病性的重要生理因素之一。
The activity of POD in Qinguan is 195% of Fuji and the activity of PAL in Qinguan is 209% of Fuji in Apple Leaf Brown Spot.
在褐斑病中,秦冠的POD活性是富士的195%,秦冠的PAL活性是富士的209%。 POD、PAL活性是影响秦冠和富士抗病性的重要生理因素之一。
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