Fry D J, Phillips I D J
Department of Biological Sciences, Washington-Singer Laboratories, University of Exeter, Exeter, Devon, EX4 4QG, U.K.
Physiol Plant. 1976 Jul;37(3):185-190. doi: 10.1111/j.1399-3054.1976.tb03955.x.
Observations that deciduous larch species can show annual growth increments equal to or greater than evergreen conifers, and that the saturating light intensity for photosynthesis in needles of Larix leptolepis was almost twice those for several evergreen conifers, led to a study of the photosynthetic mechanism in L. leptolepis. Several features of photosynthesis in L. leptolepis placed this species in an intermediate position between classical C and C plants. Incorporation of C from CO by enzyme preparations of larch needles was eight times greater with PEP as substrate than with ribulose bis phosphate; a chlorophyll a/b ratio of 3.5 was obtained; needles possessed a green starch-containing endodermis but with little orientation of mesophyll cells to this "bundle sheath"; no clear ultrastructural dimorphism was observed between chloroplasts of mesophyll and endodermal cells; a CO -compensation point of 20 μl-l was recorded; and the first measurable product of photosynthesis appeared to be malate rather than phospho-glyceric acid. These results are discussed in relation to the deciduous habit of L. leptolepis and its high productivity in comparison with other conifers.
落叶松属物种的年生长增量可与常绿针叶树相当甚至更高,而且日本落叶松针叶光合作用的饱和光强几乎是几种常绿针叶树的两倍,这些观察结果促使人们对日本落叶松的光合机制展开研究。日本落叶松光合作用的几个特征使其处于典型C₃和C₄植物之间的中间位置。以磷酸烯醇式丙酮酸(PEP)为底物时,日本落叶松针叶酶制剂从二氧化碳中固定碳的量是以二磷酸核酮糖为底物时的八倍;叶绿素a/b比值为3.5;针叶具有含绿色淀粉的内皮层,但叶肉细胞与这种“维管束鞘”的排列方向不明显;叶肉细胞和内皮层细胞的叶绿体之间未观察到明显的超微结构二态性;测得的二氧化碳补偿点为20μl·L⁻¹;光合作用的首个可测量产物似乎是苹果酸而非磷酸甘油酸。结合日本落叶松的落叶习性及其与其他针叶树相比的高生产力对这些结果进行了讨论。
