glutinous rice root 糯稻根 ; 糯稻根须
rice root scale 稻根蚧
rice root worm 稻根多齿水叶甲
black rice root aphid 稻根黑腹蚜
rice-root nematode 稻潜根线虫
red rice root aphid 稻根蚜虫
Higher temperature conditions promoted the formation of aerenchyma and catheter of rice root compared with low temperature.
与常温条件下生长的稻根相比,高温促进了根中通气组织的形成。 此外,高温条件下,导管发育早,数目多。
参考来源 - 环境因子对稻根生长发育的影响·2,447,543篇论文数据,部分数据来源于NoteExpress
It suggested that the blue light receptor might be the photoreceptor for the negative phototropism in rice root.
推测稻根负向光性的光受体可能为蓝光受体。
The growth and development of upland rice root system were studied by three-dimensional coordinate container method.
采用自创的“三维坐标容器法”,研究了潮砂土、红壤土、水稻土对陆稻根系生长发育的影响。
The adaptation of rice root resistance drought under different environments conditions would be another main part to non-full irrigation.
因此,进一步探讨根系抗旱能力在不同环境条件下的适应性变化,将是节水农业研究的一个方向。
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