2) leaf relative water content
叶片相对含水率
3) leaf water content
叶片含水量
1.
Seed germination as well as morphological and physiological characters such as leaf water content, leaf elongation rate, free proline content and root/shoot ratio were measured and compared.
krylovii)为实验对象,研究PEG渗透胁迫下,两种植物的种子发芽情况以及不同龄期植株叶片含水量、叶片延伸速率、游离脯氨酸含量与根冠比的变化特征。
2.
With these leaves,data were collected as follows: leaf water content(including Fuel Moisture Content and Equivalent Water Thickness),the corresponding reflectance.
实验采集了21个样区10余种类型植被的叶片信息,其中包括52组反射光谱数据(350 nm~2 500 nm),对应的叶片含水量(相对含水量FMC和等效水厚度EWT)。
3.
0 kHz as the regularly increased of drought stress degree and 5 kHz as the optimal determination frequency;wheat leaf water content,the ratio of bound wa.
0kHz内均逐渐变小,且以5kHz为最适测定频率;各小麦品种的叶片含水量、束缚水/自由水比值、电容值均随着干旱胁迫时间的延长而逐渐降低,并以抗旱性较强品种叶片的值较高且降低幅度较小;干旱胁迫下各冬小麦品种叶片电容值与其相应含水量呈极显著正相关关系(P<0。
4) Moisture content of cut tobacco
叶丝含水率
6) water content of branches and leaves
枝叶含水率
1.
Tr decreased with increasing water content of branches and leaves in two species.
两个物种枝叶蒸腾速率均随枝叶含水率的增加而减小,但是辽东栎枝叶蒸腾速率小于相同含水率条件下的川榛的蒸腾速率。
补充资料:含水率
见回潮率。
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