maize ear 中文意思是什麼
maize ear
解釋
玉蜀黍穗-
Correlation analysis of yield and ear characters of maize in cloudy and drizzly conditions
陰雨寡照條件下玉米穗部性狀與產量的相關分析 -
Corresponding relationship of maize leaf age index, ear differentiation and shape
玉米葉齡指數與穗分化及外部形態的對應關系 -
Maize varieties with different digestive rate were analyzed, and it was proved that the dry matter decomposability rate of the stem and leaf in 2 ( superscript nd ) and 3 ( superscript rd ) node above the ear were markedly correlated to the dry matter decomposability rate of the whole plant, whereas less or no correlation between the dry matter decomposability rate and the carbohydrate content of different nodes to that of the whole plant was found
摘要對不同玉米品種莖節消化性狀進行了分析,從不同莖節莖、葉、莖葉的干物分解率和糖分含量與全莖葉干物分解率的相關性看,雌穗著生節向上和向下2 ~ 3節位的莖、莖葉與全莖葉干物分解率呈高度相關,不同節位葉的干物分解率、糖分含量與全莖葉干物分解率之間相關較低或無相關性。 -
Correlation and path analysis of maize ear characters
玉米果穗性狀的相關和通徑分析 -
This study dealt with the identification and evaluation of 8 maize populations from tropical and subtropical regions under the ecological conditions in zhengzhou, henan. results showed that the significant delaying days to shed and days to silk, discoordinating for the development of male and female, higher plant and ear height, more leaf numbers, high barreness, worse performance of ear traits compared with the ck ( temperate population ) were found, which showed the tropical and subtropical populations could not be utilized directly under the ecological conditions in zhengzhou. by using selection and improvement the tropical and subtropical populations can be used to broaden the genetic base of temperate maize breeding, beause of the greater genetic variation and higher selection potential within each population. the different performances of the sensitivity to photoperiod were observed among different tropical and subtropical populations and different traits. the asi, time to silk, ear height, leaf numbers, grain yield per ear could be used as the good evaluation traits for identifying the sensitivity to photoperiod
對8個熱帶、亞熱帶玉米群體在鄭州生態條件下的表現進行鑒定和評價,結果表明,熱帶、亞熱帶群體散粉、吐絲期顯著延遲,雌雄不協調,植株和穗位高、葉片數增多、空稈率高,結實性差,果穗性狀均明顯劣於溫帶對照,在鄭州生態條件下不能直接利用,但是群體內具有較大的遺傳變異和選擇潛力,可以用來拓寬現有玉米種質的遺傳基礎;不同熱帶、亞熱帶群體的光周期敏感性不同;不同性狀對光周期反應的敏感程度不同, asi 、吐絲期、穗位高、葉片數、穗粒重可作為鑒定光周期敏感性的較好指標 -
When inadequate n was added, the chloroplast structure in mesophyll cell was damaged in ear leaf, the amount of carbohydrate decreased in mestome sheath, and excessive n - redistribution and n - transportation to grain from vegetative mass appeared, which resulted in earlier leaf senescence. excessive n application led to too high activity of nitrate reductase, excessive vigorous nitrogen metabolism and too much exhaustion of carbohydrate in ear leaf, which resulted in the lack of enough carbohydrate in the lower leaf, meanwhile, the expansive chloroplast grana lamellae in leaf mesophyll cell and starch grain without nuclear in mestome sheath cell was observed, which led to the decrease of chlorophyll content and photosythetic capacity in maize leaf, then the early senescence occured
氮肥用量不足導致穗葉葉肉細胞葉綠體結構性差,維管束鞘細胞碳水化合物累積減少,營養體氮素再分配率大而引起葉片早衰;而過量供氮則導致生長後期硝酸還原酶活性過高,氮素代謝過旺,消耗了大量碳水化合物,以致下位葉不能得到充足的碳水化合物供應而提早脫落,同時葉肉細胞葉綠體片層結構膨脹,呈「肉汁化」特徵,維管束鞘細胞澱粉粒大量消耗,無核澱粉粒出現,從而葉片葉綠素含量下降,光合能力降低而出現早衰。 -
Effect of nitrogen supply on grain filling at different ear position in summer maize
施氮對夏玉米不同部位籽粒灌漿的影響 -
Research results from field experiments with yedan 14 ( table 2. ) suggested that density and ears play an decisive roles in yield formation, maize yield increased with density and ears but grains per ear and kernel weight reduced when density varied from 52500 to 75000 plants / ha
掖單14大田試驗研究結果(表2 )指出密度和穗數是產量構成的決定性因素,玉米產量隨密度和穗數增加而增加,但穗粒數和粒重當密度由52 , 500增加到75 , 000株/公頃時都降低。
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