施氮及根系分隔处理对间作尾巨桉和降香黄檀幼苗光合生理特性的影响

Effects of Nitrogen Fertilizer Application and Root Partition on the Photosynthetic Physiological Characteristics of Eucalyptus urophylla × Eucalyptus grandis and Dallergia odorifera Seedling

  • 摘要: 以尾巨桉和降香黄檀为研究对象,通过盆栽试验设置了不隔、网隔及膜隔3种根系分隔方式和不施肥、3.0 g/盘、6.0 g/盘3个氮水平,分析了间作尾巨桉和降香黄檀的干物质量和生理代谢指标,探讨不同根系分隔方式和施氮水平对尾巨桉与降香黄檀幼苗生理代谢的影响。结果表明:不同氮水平和根系分隔方式改变了间作尾巨桉和降香黄檀的生理生长特性。施氮显著提高尾巨桉与降香黄檀干物质积累量、叶面积指数、叶绿素含量、可溶性糖含量、保护酶活性、光能利用效率和光合特性,但根系分隔处理对尾巨桉和降香黄檀生理代谢的影响不一致。在不隔模式下,不施氮、低氮和高氮水平的尾巨桉幼苗干物质积累量分别高于网隔、膜隔8.74%、6.97%、5.49%,16.43%、24.18%、15.32%;降香黄檀则是膜隔效果最优,在3种施氮水平下,其干物质积累量分别高于不隔和网隔32.70%、30.82%、38.75%,11.26%、15.39%、4.25%。3种根系分隔模式中尾巨桉竞争力强于降香黄檀,尾巨桉幼苗叶片生理代谢和光合作用表现为不隔>网隔>膜隔,降香黄檀为膜隔>不隔>网隔。因此,尾巨桉和降香黄檀混交是通过提高生理代谢和促进植株光合作用来提高植物的生长量。

     

    Abstract: Eucalyptus urophylla × Eucalyptus grandis and Dalbergia odorifera were selected as the materials, pot experiment of E. urophylla × E. grandis and D. odorifera intercrop with 3 root partition and 3 nitrogen levels were carried out in the greenhouse. Dry matter and the photosynthetic characteristics were analyzed to study the effects of different planting patterns and nitrogen application levels on physiological metabolism in E. urophylla × E. grandis and D. odorifera. The results show that different nitrogen levels and root partition alter physiological and growth characteristics of E. urophylla × E. grandis and D. odorifera. Nitrogen application significantly increases dry matter accumulation, leaf area index, chlorophyll content, soluble carbohydrate, protective enzyme activity, light energy utilization efficiency and photosynthetic characteristics of E. urophylla × E. grandis and D. odorifera. But the influence caused by root partition are different between E. urophylla × E. grandis and D. odorifera. In the non-separated mode, the dry matter accumulation of E. urophylla × E. grandis seedlings without nitrogen, low nitrogen and high nitrogen levels is 8.74%, 6.97%, 5.49%, 16.43%, 24.18%, 15.32%, respectively. D. odorifera is the best membrane separation effect. Under 3 nitrogen application levels, the dry matter accumulation is higher than 32.70%, 30.82%, 38.75%, 11.26%, 15.39%, 4.25%. The competitive ability of E. urophylla × E. grandis is stronger than D. odorifera in different root partition models. The physiological metabolism and photosynthesis of E. urophylla × E. grandis seedlings in no barrier mode are the highest, followed by mesh barrier and solid barrier, but solid barrier is the best mode in D. odorifera, and the no berrier was better than the mesh barrier. Therefore, the mixed model with E. urophylla × E. grandis is used to increase the growth of plants by increasing physiological metabolism and promoting photosynthesis of plants.

     

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