transpiration efficiency
1.The results showed: the WUE at leaf level or transpiration efficiency (TE) was the basis of evapotranspiration efficiency (ETE).
2.A PRELIMINARY STUDY ON THE PHOTOSYNTHETIC RATE AND TRANSPIRATION EFFICIENCY OF TWO ACACIA SPECIES INTRODUCED FROM AUSTRALIA
3.While the rates of transpiration and photosynthesis in AT was lower than that in CT, but the transpiration efficiency in AT was higher than that in CT.
4.Study on leaf water potential,transpiration and water use efficiency in different growth forms of reed in plain desert area of northern Xinjiahg.
5.The tested traits include the content of chlorophyll、 photosynthesis rate, transpiration rate 、 water use efficiency、 water potential of leaves(at dawn)、 leaves water content and relative water content、 water consumption、 water consumption rate、 water loss rate、 leaves soluble protein、 leaves relative electric conductivity and the content of leaves MDA, analyzed by using subordinate function.
6.Pot experiments were carried out to study the photosynthetic rate, transpiration rate and water use efficiency of the seedlings of four winter wheat varieties under different soil drought.
7.In group T2 the seedlings of Acanthopanax Senticosus had lower net photosynthesis rate、transpiration rate and higher water use efficiency than that of group CK,with the net photosynthesis rate decreased 29.46%,the transpiration rate decreased 50.67% and the water use efficiency increased 33.70%;
8.The transpiration rate(E) and water use efficiency (WUE) in leaves of Acacia macradenia maintained relatively stable among all the three experimental sites, but P,/E of Acacia floribunda and Acacia fimbriata decreased under polluted sites, when compared with those under the relatively clean area.
9.② In the condition of the same leaf age, the net photosynthetic rate(Pn), the transpiration rate (E), stomatal conductance(Gs),apparent quantum yield(AQY),CO_2 carboxylation efficiency(CCE)and light use (efficiency) (LUE) of C. fargesii were significantly higher than those of C.
10.The results showed that: ① The increase of leaf age resulted in the significant decrease of net photosynthetic rate(Pn), the transpiration rate (E), stomatal conductance(Gs), apparent quantum yield(AQY), CO_2 carboxylation efficiency(CCE) irrespectively of different tree species.
