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籽仁品质
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  seed quality
     The rare earth also produced certain positive effects in enhancing the crop root nodule amount, enlarging the leaf area per plant, increasing the capacity of photosynthesis capability and improving the peanut seed quality.
     稀土对增加植株根瘤数量、提高单株叶面积和叶片光合能力以及改善花生籽仁品质亦有一定促进作用。
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  kernel quality
     The improvement action of fertilizer on kernel quality,P was the biggest,secondly were N and Ca,and K was indistinctly,over application of K fertilizer(K_(450)) could decrease the fat content of peanut kernel.
     对花生籽仁品质的改善作用,P肥最大,其次是N和Ca肥,K肥的作用不明显,施K肥过多(K450)还会明显降低脂肪含量。
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     The optimal irrigating amount at seedling stage for the best kernel quality of Luhua 11 is 6080 mm and that of Nongda 818 is 4060 mm.
     鲁花11以60~80 mm水分处理及农大818以40~60 mm水分处理时籽仁品质最佳。
短句来源
     The Effect of Altering Source-sink Ratio on Kernel Quality and Leaf Senescence in Peanut
     改变源-库比对花生籽仁品质和叶片衰老的影响
短句来源
     Fertilization could increase the fat,protein and free amino acid content of peanut kernel,and improve kernel quality.
     施肥可不同程度地提高花生籽仁脂肪、粗蛋白和游离氨基酸含量,改善花生籽仁品质
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  “籽仁品质”译为未确定词的双语例句
     1.2 Different applying amount of N, P, K and Ca fertilizer on some physiological characteristics in peanutDifferent applying amount of N, P, K and Ca increased the content of chl(a+b) in leaves during pod setting and filling stage, especially Ca.
     1.4氮、磷、钾、钙肥不同用量对花生籽仁品质的影响氮肥随施肥量增加蛋白质含量升高,磷、钾、钙随施肥量增加蛋白质含量提高作用减小。 每公顷施纯氮300kg和450kg及P2O575kg对提高花生食用品质效果较好。
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  相似匹配句对
     Qualities in Men & Women
     男女的品质
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     The Culture Character
     文化品质
短句来源
     The Effect of Altering Source-sink Ratio on Kernel Quality and Leaf Senescence in Peanut
     改变源-库比对花生籽仁品质和叶片衰老的影响
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  seed quality
The studies have been performed in order to obtain a more correct assessment of seed quality based not only on their germination and energy of germination (traditionally used by forest breeders), but also on their genomic stability.
      
This mutant will be useful in the efforts to improve the seed quality.
      
As a result, seed quality was better in areas where T.
      
These findings strongly suggest that to base selection on seed weight which may not influence the seed quality of soybean.
      
Genetic analysis of some seed quality characters in upland cotton (Gossypium hirsutum L.)
      
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  kernel quality
Optimum kernel quality is important at all levels of groundnut production and utilisation because of its value as a direct or processed food.
      
Kernel quality can be reduced by many factors but in South Africa the groundnut pod nematode, Ditylenchus africanus, is responsible for severe losses in groundnut crops.
      
These linkage maps are an important first step towards the detection of genes controlling horticulturally important traits such as nut size, nut maturity date, kernel quality, and disease resistance.
      
Our objective was to further understand the inheritance and genotype × environment (GE) interactions for discolored rice kernels to improve rice kernel quality characteristics.
      
Although breeding for improved kernel quality traits will have certain difficulties because of low heritability, the availability of good germplasm and a proper screening program should minimize this problem.
      
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Acted as both foliage application and seed dressing, the rare earth has certain yield-increasing effect, and the yield-increasing amplitude for foliage application is greater than that for seed dressing. The suitable concentration of rare earth for foliage application is 900~1125 ml/hm 2, and for seed dressing is 35~45 ml to 5 kg seed. The treatment of 25 ml rare earth to 5 kg seed as seed dressing + 1125 ml rare earth solution(RES)/hm 2 as foliage application at flowering stage gave the best yield, and the...

Acted as both foliage application and seed dressing, the rare earth has certain yield-increasing effect, and the yield-increasing amplitude for foliage application is greater than that for seed dressing. The suitable concentration of rare earth for foliage application is 900~1125 ml/hm 2, and for seed dressing is 35~45 ml to 5 kg seed. The treatment of 25 ml rare earth to 5 kg seed as seed dressing + 1125 ml rare earth solution(RES)/hm 2 as foliage application at flowering stage gave the best yield, and the following was foliage application at 1125 ml RES /hm 2 at pod setting stage and seedling stage separately. Foliage application of 1125 ml RES /hm 2 at flowering stage also gave a relatively good yield. The rare earth also produced certain positive effects in enhancing the crop root nodule amount, enlarging the leaf area per plant, increasing the capacity of photosynthesis capability and improving the peanut seed quality.

稀土无论叶面喷施或拌种 ,均具有一定的增产效果 ,叶面喷施增产幅度大于拌种。叶面喷施浓度以每公顷 90 0~ 112 5ml为宜 ,拌种浓度一般田块以 35~ 4 5ml拌 5kg种子为宜 ;2 5ml稀土拌 5kg种子+花针期喷施 112 5ml/hm2 增产效果最好 ,结荚期和苗期各喷 1次次之 ,花针期喷施 1次亦具有较好的增产效果 ;稀土对增加植株根瘤数量、提高单株叶面积和叶片光合能力以及改善花生籽仁品质亦有一定促进作用。

The studies showed that peanut qualities has significant difference among spring and summer peanuts, polythene mulched and unmulched peanuts, rotated and continuously planted peanuts (Cpp) as well as peanuts harvested at different dates. Oil content in spring peanut is 3.37% higher than that in summer peanut. O/L ratio, protein and amino acid contents increase, and aspartic acid, glutamic acid and arginine give even larger increase than the others in peanuts sown in spring. The total sugar and sucrose in unmulched...

The studies showed that peanut qualities has significant difference among spring and summer peanuts, polythene mulched and unmulched peanuts, rotated and continuously planted peanuts (Cpp) as well as peanuts harvested at different dates. Oil content in spring peanut is 3.37% higher than that in summer peanut. O/L ratio, protein and amino acid contents increase, and aspartic acid, glutamic acid and arginine give even larger increase than the others in peanuts sown in spring. The total sugar and sucrose in unmulched peanuts is 0.72% and 0.55% higher, respectively, than those in mulched peanuts.

研究表明,春播与夏播、覆膜与裸栽、轮作与连作、干旱以及不同收获期等对花生籽仁品质均有一定的影响。春播较夏播花生粗脂肪含量提高3.37%;春播覆膜提高了花生油酸和亚油酸的比值(O/L),同时粗蛋白质和氨基酸含量均有提高,天门冬氨酸、谷氨酸和精氨酸含量提高幅度较大;裸栽花生籽仁的总糖和蔗糖含量比覆膜的分别提高0.72%和0.55%。

A fieldplot experiment was conducted to study the growth,amount of dray matter accumulation,plant-water content and nutrient content of upland peanut plant.The results showed that the trend of main stem growth and development had a type of parabolic curve acted in accordding with lateral branches,and the rate of stem and lateral branches growth reached the highest degree at podding stage.The new branches did not developed after flowering.Dry matter accumulation of upland peanut plant,leaf and stem presented...

A fieldplot experiment was conducted to study the growth,amount of dray matter accumulation,plant-water content and nutrient content of upland peanut plant.The results showed that the trend of main stem growth and development had a type of parabolic curve acted in accordding with lateral branches,and the rate of stem and lateral branches growth reached the highest degree at podding stage.The new branches did not developed after flowering.Dry matter accumulation of upland peanut plant,leaf and stem presented a trend of "slow-fast-slow" variation.The water content of upland peanut plant varied a little during the process of growth and development.Nitrogen and phosphorus contents changed simultaneously and showed,comparely high at early growth stage and the lowest at maturing stage.Kernel water,crude protein,amino acids and total sugar contents declined gradually,but total sugar content decreased much more quickly up to 11.19%.The amino acid and crude protein in kernel accumulated quickly and changed simultaneously with dry weight of plant.

采用田间小区试验,研究了花育19号的生育进程、生物累积量、植株含水量、地上部营养状况及籽仁品质等特性。结果表明,花育19号主茎和侧枝的生长发育同步,均呈现“慢—快—慢”的趋势;花生植株地上部、叶片和茎秆生物量的累积均呈“S”形曲线变化趋势;植株地上部含水量变化较小,氮、磷含量变化同步,生育前期较高,成熟期降至最低;籽仁含水量、粗蛋白、氨基酸和总糖含量均呈渐降态势,籽仁总糖含量降幅达11.19%;籽仁中氨基酸和粗蛋白的积累速率较快,与植株干物重的积累同步,且表现相同的趋势。

 
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