1) water-nutrients interaction
水养互作
3) syntrophy
互养作用
4) water-nitrogen interaction
水氮互作
1.
Effects of water-nitrogen interaction on the contents and components of protein and starch in wheat grains;
水氮互作对小麦籽粒蛋白质、淀粉含量及其组分的影响
2.
Effects of water-nitrogen interaction on rice senescence and material transport and yield during grain filling
水氮互作对结实期水稻衰老和物质转运及产量的影响
3.
Applying nitrogen 270 kg·hm-2 resulted in negative effect of water-nitrogen interaction,which could not maintain the natural physiological metabolism,furthermore,reduced photosynthesis and nitrogen metabolism enzyme activity,accelerated protein decomposition in flag leaves and decreased yield significantly.
以超高产杂交稻冈优527为材料,通过淹水灌溉、湿润灌溉(前期)+浅水灌溉(孕穗期)+干湿交替灌溉(抽穗至成熟期)"(W2处理)和旱种3种灌水处理及不同的施氮量,研究水氮互作对结实期水稻剑叶光合特性、氮代谢关键酶及根系活力等生理性状和产量的影响,并探讨各生理指标间的相互关系。
6) interaction of water and phosphorus
水磷互作
1.
Effect of interaction of water and phosphorus on maize growth and phosphorus accumulation in fluvo-aquic soil
水磷互作对潮土玉米苗期生长及磷素积累的影响
补充资料:锌营养不良性营养期延迟
锌营养不良性营养期延迟
病名。锌营养 缺乏引起的青春期延迟,在动物蛋白摄入不足的国家和地区相当多见,除性发育不全外,常 伴 有矮小及食欲不良等症状,伴有低锌生化指标,如及时改善锌营养,则可促进发育。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条