硝态氮对盐胁迫下囊果碱蓬幼苗根系生长和耐盐性的影响 关键词:盐生植物;囊果碱蓬;根系形态;NaCI;NOr [gap=1802]Key words:halophyte;Suaeda physophora;root morphology;NaC1;NO3
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Modification of root morphology and architecture is the key adaptive strategy of plant in response to P deficiency.
根系形态构型的适应性变化是植物响应低磷胁迫的重要机制。
参考来源 - 甘蓝型油菜根系形态对低磷胁迫的反应及其QTL分析This thesis applies the visual technology of the computer into the root morphology monitoring system of the plant.
本论文是将计算机视觉技术应用于植物根系形态监测系统。
参考来源 - 护坡植被根系监测技术中图像采集平台的研究与实现·2,447,543篇论文数据,部分数据来源于NoteExpress
种间相互作用与作物根系形态变化具有密切关系。
There was close relationship between the interspecific interactions and the root morphological parameters.
根系形态和分布对土壤中养分和水分的吸收有重要影响。
Root morphology and distribution have an important influence on the absorption of water and nutrients in soil.
犬冠自然是首选的基牙的义齿由于其根系形态和骨的支持。
Natural canine crowns are preferred as abutments for removable partial dentures because of their root morphology and bony support.
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