互花米草、狐米草和大绳草茎秆的比较解剖观察

互花米草、狐米草和大绳草的表皮均由长细胞、短细胞(栓质细胞和硅质细胞)、盐腺和气孔器组成。它们成纵行交互排列。盐腺的结构与大米草相似,但三个种的盐腺和气孔器的数目不同,尤其以大绳草最多。它们的内部结构是由气道、不同大小的维管束、基本组织以及厚壁组织组成。然而,维管束的数目及厚壁组织的发育各不相同。狐米草和大绳草有高度木质化的厚壁组织细胞,而互花米草的厚壁组织木质化较弱。大绳草的维管束多于其他两种。     

Can perennial C4 grasses attain high efficiencies of radiant energy conversion in cool climates?

Although C₄ plants are considered to have higher conversion efficiency and productivity than C₃, plants, this advantage may not be realized under sub-optimal conditions. Two perennial C₄ rhizomatous grasses of cool temperate origin, Miscanthus × giganteus and Spartina cyno-suroides, have been suggested as potential fuel crops for north-western Europe. The conversion efficiencies of these species were examined for 2 years in fertilized, irrigated, replicated plots in south-eastern England. In the second year, the energy conversion efficiencies for shoot and total biomass production were 0.040 and 0.051, respectively, for S. cynosuroides, with significantly higher values of 0.060 and 0.078, respectively, for M. × giganteus. The M. × giganteus crop attained shoot productivity of 2.87 kg m^?2 between April and September, exceeding the highest values typically obtained with intensively managed C₃, crops. Canopy development was early, and high interception and conversion efficiencies were maintained over most of the growing season. This study provides the evidence that the superior potential light conversion efficiencies associated with C₄ photosynthesis can be realized under cool temperate conditions and that such climatic conditions do not Inherently impair the C₄ process.