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新疆梨品种与‘库尔勒香梨’授粉亲和性及花粉直感 被引量:25
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作者 曼苏尔.那斯尔 杜润清 +4 位作者 陈湘颖 周伟权 牛莹莹 阿布来克.尼牙孜 廖康 《果树学报》 CAS CSCD 北大核心 2019年第4期447-457,共11页
【目的】探明新疆梨品种与‘库尔勒香梨’的授粉亲和性和花粉直感。【方法】以9个新疆梨品种和‘砀山酥梨’为‘库尔勒香梨’授粉树,对其花粉萌发伸长、坐果率、果实品质等进行研究。【结果】‘库尔勒香梨’与‘绿梨’和‘砀山酥梨’授... 【目的】探明新疆梨品种与‘库尔勒香梨’的授粉亲和性和花粉直感。【方法】以9个新疆梨品种和‘砀山酥梨’为‘库尔勒香梨’授粉树,对其花粉萌发伸长、坐果率、果实品质等进行研究。【结果】‘库尔勒香梨’与‘绿梨’和‘砀山酥梨’授粉亲和性最好,亲和性与单果质量呈正相关,与果形指数呈负相关‘。库车阿木特‘’艾温切克’和‘绿梨’授粉单果质量最大‘;砀山酥梨‘’绿梨’和‘阿克苏句句梨’授粉果形指数最小‘;绿梨’授粉果实硬度最小‘;库车阿木特’和‘库尔勒黄酸梨’授粉糖酸比最高‘;库车阿木特’授粉可溶性固形物含量最高‘;库尔勒香梨’自花和‘阿克苏句句梨’授粉维生素C含量最高‘;绿梨’和‘砀山酥梨’授粉正常种子数最多,种子数与其果形指数呈显著负相关。【结论‘】绿梨’与‘库尔勒香梨’的亲和性高,单果质量最大、果实硬度最小,糖酸比、可溶性固形物和维生素C含量适中,适宜作为‘库尔勒香梨’授粉品种。 展开更多
关键词 新疆品种 '库尔勒香梨' 亲和性 花粉直感
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Analysis on the Composition and Structure of Branches of Two Kinds of Tree Shapes in Korla Fragrant Pear 被引量:2
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作者 成小龙 廖康 +4 位作者 李楠 赵世荣 孙慧瑛 曼苏尔.那斯尔 刘娟 《Agricultural Science & Technology》 CAS 2013年第7期954-958,共5页
ObjectiveThe thesis aims at investigating the distribution and structural characteristics of various branches in canopy of Korla fragrant pear. MethodStatistic work and analysis were conducted on the numbers and distr... ObjectiveThe thesis aims at investigating the distribution and structural characteristics of various branches in canopy of Korla fragrant pear. MethodStatistic work and analysis were conducted on the numbers and distribution characteristics of various branches in each cubic lattice by using the canopy cellular method. ResultThe results showed that: The total number of scaffold branches of evacuation layered tree shape was 97, which mainly distributed in the lower layer and middle part of the canopy; the total number of scaffold branches of open-center tree shape was 94, which mainly distributed in the lower layer and middle part of the canopy. The total number of annual branches of evacuation layered tree shape was 3 920, which mainly distributed in the middle layer and outer part of the canopy; and the total number of annual branches of the open-center tree shape was 3 183, which mainly distributed in middle layer and outer part of the canopy. The total number of perennial branches of evacuation layered tree shape was 2 184, which mainly distributed in lower layer and outer part of the canopy; the total number of perennial branches of open-center tree shape was 1 444, which mainly distributed in middle layer and outer part of the canopy. ConclusionThe total number and the distribution positions of scaffold branches in the canopy of each tree shape were basically the same. The total numbers of annual branches of the two kinds of tree shapes were different, but the distribution positions were basically the same. The total numbers and the distribution positions of perennial branches in the canopy of the two kinds of tree shapes were different. 展开更多
关键词 Korla fragrant pear Tree shape Composition and structure of branch
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Analysis on Differences in Photosynthetic Characteristics of Korla Fragrant Pear among Different Planting Densities 被引量:1
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作者 牛莹莹 廖康 +3 位作者 贾杨 庞洪翔 徐桂香 江振斌 《Agricultural Science & Technology》 CAS 2015年第5期862-867,共6页
[Objective] The aim of this study was to explore the differences in photosynthetic characteristics of Korla fragrant pear among different planting densities,providing a basis for the improvement of fruit yield and qua... [Objective] The aim of this study was to explore the differences in photosynthetic characteristics of Korla fragrant pear among different planting densities,providing a basis for the improvement of fruit yield and quality of Korla fragrant pear in production. [Method] The net photosynthetic rates, photoresponse curves and CO2 response curves of Korla fragrant pear under six different planting densities were determined using Li-6400 XT portable photosynthesis system. [Result] There were significant differences in photosynthetic parameters of Korla fragrant pear among six different planting densities. The net photosynthetic rate of Korla fragrant pear was highest under the planting density of 4.0 m × 6.0 m. At the planting density of4.0 m×6.0 m, when the light intensity reached 1 800 μmol/(m^2·s), the net photosynthetic rate of Korla fragrant pear reached the peak [19.326 μmol/(m^2·s)], and the apparent quantum yield, carboxylation efficiency and dark respiration rate all reached the maximum values; at the planting density of 6.0 m ×7.0 m, Korla fragrant pear showed lower light compensation point and CO2 compensation point, but higher light saturation point. At the planting density of 3.0 m ×5.0 m, Korla fragrant pear had higher light saturation point. [Conclusion] Among the six different planting densities,Korla fragrant pear with planting density of 4.0 m ×6.0 m showed the highest net photosynthetic rate. It suggested that Korla fragrant pear, at the planting density of4.0 m ×6.0 m, had stronger utilization capacity for low light and low-concentration CO2. Therefore, the Korla fragrant pear with the planting density of 4.0 m ×6.0 m has the highest photosynthesis efficiency, and the planting density of 4.0 m ×6.0 m is the most ideal planting density for Korla fragrant pear. 展开更多
关键词 Korla fragrant pear Planting density PHOTOSYNTHESIS Response curve
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Effects of Regulated Deficit Irrigation on Twig Water Potential of Korla Fragrant Pear
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作者 孙桂丽 李万栋 玉苏甫.阿不力提甫 《Agricultural Science & Technology》 CAS 2016年第8期1802-1807,1833,共7页
With 7-year-old Korla fragrant pear trees as the experimental material, different root-zone irrigation patterns were arranged to study the effects of soil moisture on twig water potential of Korla fragrant pear trees ... With 7-year-old Korla fragrant pear trees as the experimental material, different root-zone irrigation patterns were arranged to study the effects of soil moisture on twig water potential of Korla fragrant pear trees at different growth stages. The results showed that under the condition of regulated deficit irrigation, the diurnal dynamics of twig water potential of Korla fragrant pear trees was V shaped at different growth stages, and the twig water potential of Korla fragrant pear trees reached the minimum during 14:00-16:00. At different growth stages, the twig water potential of Korla fragrant pear trees under drought stress was significantly lower than that of pear trees irrigated normally. Under both drought stress and normal irrigation, the diurnal variation of twig water potential of Korla fragrant pear trees during the flowering period was most gentle, that during the fruit-setting and mature periods showed some ups and downs, and that during the fruit enlargement period was greater. Under the experimental conditions, the twig water potential of Korla fragrant pear trees was positively correlated with soil moisture content, and the functional relationships between them at different growth stages were studied by regression analysis. In addition, the limits of twig water potential and soil moisture content for normal growth of Korla fragrant pear trees at different growth stages were determined. 展开更多
关键词 Korla fragrant pear Twig water potential Regulated deficit irrigation
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Differences in Light Response Curve and CO_2 Response Curve of Korla Fragrant Pear Trees in Different Training Systems 被引量:2
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作者 江振斌 廖康 +5 位作者 曼苏尔.那斯尔 牛莹莹 庞洪翔 孙琪 徐乐 章世奎 《Agricultural Science & Technology》 CAS 2016年第8期1762-1766,共5页
[Objective] This study was conducted to evaluate three training systems for Korla fragrant pear trees by comparing the characteristic parameters of light response curve and CO2 response curve, and to provide some theo... [Objective] This study was conducted to evaluate three training systems for Korla fragrant pear trees by comparing the characteristic parameters of light response curve and CO2 response curve, and to provide some theoretical basis for improving the pruning techniques of Korla fragrant pear trees. [Method] The light response curve and CO2 response curve of the trees trained to three systems were measured by LI-6400 portable photosynthesis system. The SPAD value was measured using SPAD-502 chlorophyll meter, and specific leaf weight was calculated, to evaluate the effects of the three training systems. [Result] The CO2 response curves of the three training systems were basically in agreement with their light response curves, but there were some differences in their characteristic parameters. Among the three training systems, the maximum net photosynthetic rate, apparent quantum yield and light compensation point of espalier trained trees were the highest, while their light saturation point was the lowest. The CO2 saturation point of delayed-open central leader trained trees and open center trained trees were 1 752 and 1 665 μmol/mol, both of which were much higher than that of espalier trained trees. In addition, the carboxylation efficiency and photorespiration rate of espalier trained trees were both higher than those of delayed-open central leader trained trees and open center trained trees, while the CO2 compensation point of espalier trained trees was the lowest. The leaf SPAD value of espalier trained trees was the largest, followed by that of open center trained trees, and the leaf SPAD value of delayed-open central leader trained trees was the smallest. In addition, the leaf area and specific leaf weight of espalier trained trees were both the highest, followed by those of open center trained trees. [Conclusion] Among the training systems for Korla fragrant pear trees, the espalier training system had better ability to capture light, higher photosynthetic productivity and strongest adaptability to light environment, and open center training system takes the second place. On the contrary, delayed-open central leader training system has the weakest adaptability to light environment, but it can adapt to a higher CO2 concentration. In summary, for the training of Korla fragrant pear trees, espalier training system, which has the highest theoretical yield, is the best among the three training systems, and delayed-open central leader training system is the worst. 展开更多
关键词 Korla fragrant pear Training system Light response curve CO2 response curve
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Response of Leaf Tissue Structure to PP333 in Korla Fragrant Pear 被引量:1
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作者 Weiquan ZHOU Wenli YANG +3 位作者 Shirong ZHAO Nasier MANSUER Yanqiao QI Kang LIAO 《Agricultural Science & Technology》 CAS 2017年第10期1805-1807,1815,共4页
[Objective] This study was performed to explore the effect of different concentrations of PP333 on leaf tissue structure of Korla fragrant pear and to lay the foundation for the cultivation and regulation of Korla fra... [Objective] This study was performed to explore the effect of different concentrations of PP333 on leaf tissue structure of Korla fragrant pear and to lay the foundation for the cultivation and regulation of Korla fragrant pear. [Method] The leaf tissues treated with different concentrations of PP333 were dehydrated with al- cohol, embedded in paraffin and sliced into 10-μm slices. The thicknesses of leaf blade, upper epidermis, lower epidermis, palisade tissue and sponge tissue were measured, and the ratio of palisade to spongy layer thickness, cell tightness (CT) and cell looseness (CL) were calculated. [Result] The thickness of leaf blade, the ratio of palisade to sponge layer thickness and the thickness of palisade layer were all significantly increased after treatment with PP333. Treatment with 2 500 mg/L PP333 showed no obvious effect on the thickness of leaf epidermis, but increased the thicknesses of leaf blade and palisade tissue. Leaf CL was the highest in the treatment of 1 500 mg/L PP333. [Conclusion] PP333 can increase the leaf thickness, palisade tissue thickness and CT, reduce spongy tissue thickness and CL of Korla fragrant pear. Additionally, 1 500 mg/L was the optimal concentration for the application of PP333 to improve the cold resistance of Koda fragrant pear. 展开更多
关键词 Korla fragrant pear PP333 Leaf tissue structure
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