葛顺峰, 周乐, 李红娜, 门永阁, 魏绍冲, 姜远茂. 土壤C/N对苹果植株生长及氮素利用的影响[J]. 中国生态农业学报(中英文), 2013, 21(7): 795-800. DOI: 10.3724/SP.J.1011.2013.00795
引用本文: 葛顺峰, 周乐, 李红娜, 门永阁, 魏绍冲, 姜远茂. 土壤C/N对苹果植株生长及氮素利用的影响[J]. 中国生态农业学报(中英文), 2013, 21(7): 795-800. DOI: 10.3724/SP.J.1011.2013.00795
GE Shun-Feng, ZHOU Le, LI Hong-Na, MEN Yong-Ge, WEI Shao-Chong, JIANG Yuan-Mao. Effect of soil C/N ratio on nitrogen utilization and growth of apple[J]. Chinese Journal of Eco-Agriculture, 2013, 21(7): 795-800. DOI: 10.3724/SP.J.1011.2013.00795
Citation: GE Shun-Feng, ZHOU Le, LI Hong-Na, MEN Yong-Ge, WEI Shao-Chong, JIANG Yuan-Mao. Effect of soil C/N ratio on nitrogen utilization and growth of apple[J]. Chinese Journal of Eco-Agriculture, 2013, 21(7): 795-800. DOI: 10.3724/SP.J.1011.2013.00795

土壤C/N对苹果植株生长及氮素利用的影响

Effect of soil C/N ratio on nitrogen utilization and growth of apple

  • 摘要: 土壤C/N是土壤氮素循环的重要影响因素。本研究以2年生"富士"/平邑甜茶为试验材料, 应用15N示踪技术研究了不同土壤C/N6.21(CK)、10、15、20、25、30、35和40对苹果植株生长及氮素利用和损失的影响。结果表明: 随着土壤C/N比值的逐渐增大, 苹果新梢长度和植株鲜重均呈先升高后降低的变化趋势, C/N=15、20和25的3个处理苹果新梢长度和植株鲜重最大, 三者间无显著差异, 但均显著高于其他处理。不同C/N处理间植株15N利用率存在差异, 土壤C/N=25时, 植株15N利用率最大, 为22.87%, 与C/N=20的处理间无显著差异, 但两者均显著高于其他处理; 土壤C/N=40时, 植株15N利用率最低, 仅为15.43%, 低于CK处理的16.65%。土壤C/N处于15~25时, 植株吸收的氮素来自于肥料氮的比例较高; 而土壤C/N较低(<15)或太高(>25)时, 植株吸收的氮素来自于土壤氮的比例较高。土壤氮素残留量随土壤C/N的增大逐渐增加, C/N=40处理的土壤氮素残留量是CK的1.32倍。随着土壤C/N比值的逐渐增大, 肥料氮损失量呈先减少后增加的变化趋势, 以C/N=25时最少, 仅为施氮量的49.87%, 而对照最大, 为61.54%。因此, 综合土壤C/N对苹果植株生长及氮素平衡状况来看, 土壤C/N为15~25时, 能促进植株的生长发育, 降低氮肥损失, 提高肥料利用率。

     

    Abstract: Soil C/N ratio is a critical soil nitrogen cycle factor. Two-year old apple trees (Borkh. cv. 'Fuji'/ Malus hupehensis) were used to study the effect of soil C/N ratio 6.21 (CK), 10, 15, 20, 25, 30, 35 and 40 on nitrogen utilization/loss and apple growth using the 15N trace technique. The results showed that with increasing soil C/N ratio, apple shoot length and fresh weight initially increased and then decreased. The highest apple shoot length and fresh weight were under the treatments of 15, 20 and 25 C/N ratio. Although no significant differences were noted among the three treatments, the shoot length and fresh weight of apple tree under these three C/N ratios treatments were significantly higher than those under the other treatments. Statistical analysis revealed significant difference in nitrogen utilization rate among different treatments. The highest nitrogen utilization rate was in soils with C/N ratio of 25, which value was 22.87%, not significantly different from that in soils with C/N ratio of 20. However, the nitrogen utilization under both the two treatments was significantly higher than those under the other treatments. Soil C/N ratio of 40 showed the lowest nitrogen utilization rate (15.43%), which was even lower than that of CK (16.65%). The proportion of plant absorbed fertilizer nitrogen was much higher under treatments of soil C/N ratio range of 15~25. But proportion of plant absorbed soil nitrogen was much higher under too low (<15) or high (>25) soil C/N ratio. Soil residual nitrogen increased gradually with increasing soil C/N ratio. Soil residual nitrogen under C/N ratio of 40 was 1.32 times that of CK. With increasing soil C/N ratio, fertilizer nitrogen loss initially dropped and then increased. Fertilizer nitrogen loss was minimum (49.87%) under soil C/N ratio of 25 and the maximum (61.54%) under CK. Therefore regarding nitrogen utilization and apple growth, soil C/N ratio range of 15~25 was favorable. It increased soil nitrogen fixation efficiency, reduced nitrogen loss, and enhanced nitrogen utilization rate.

     

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