2) ABA,abscisic acid
叶片的空间分布
3) Leaf nitrogen content
叶片含氮量
1.
Study on photosynthetic capacity and leaf nitrogen content of main secondary forest-forming species in Heilongjiang Province;
黑龙江省次生林主要组成树种光合能力与叶片含氮量研究
2.
It indicated that the wavelength bands related to leaf nitrogen content selected by regression equation located at 820-1100nm and 1150-1300nm.
对可见光至短波红外波段 (35 0— 2 5 0 0nm)冬小麦田间冠层光谱反射率与叶片含氮量间的关系进行了相关分析。
3.
It indicated that the spectral reflectance of wave band had significant correlation to leaf nitrogen content at 350-732,733-940 nm and 1 970-2 477 nm.
对可见光波段至短波红外波段(350~2500 nm)棉花田间冠层光谱反射率与叶片含氮量间的关系进行了相关分析。
4) leaf nitrogen concentration
叶片氮含量
1.
Quantitative relationship between leaf nitrogen concentration and canopy reflectance spectra in rice and wheat;
稻麦叶片氮含量与冠层反射光谱的定量关系
5) leaf nitrogen content
叶片氮含量
1.
The fluorescence parameters of the 1st, 2nd, 3rd and 4th leaves from the top of culms in two rice varieties (Huajing 2 and Wuxiangjing 9) were measured with FMS-2 at different growth stages under three nitrogen levels, and the leaf nitrogen contents were correspondingly determined by destructive sampling and chemical assay.
在3个供氮水平和2个水稻品种(华粳2号和武香粳9号)的田间试验条件下,测试分析了不同处理水稻顶部4张完全展开叶片氮含量及对应的荧光参数。
6) distribution of nitrogen
氮含量分布
补充资料:空间分布干扰
分子式:
CAS号:
性质:火焰原子化法试样溶液中,伴生组分浓度变化大时,引起试样吸喷量的波动和火焰中待测元素分布的变化,是待测元素空间分布不均匀所造成的干扰。
CAS号:
性质:火焰原子化法试样溶液中,伴生组分浓度变化大时,引起试样吸喷量的波动和火焰中待测元素分布的变化,是待测元素空间分布不均匀所造成的干扰。
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