dc.identifier.citation |
Singhakumara, B.M.P., Gamage, H.K., & Ashton, P.M.S. (2001). Leaf Anatomical Plasticity of Congeneric Rain Forest Tree Species in Relation to Light Acclimation. Vidyodaya Journal of Science, 10, 21-37. |
en-US |
dc.description.abstract |
Leaf structure of a seedling is an important indicator of the level of
shade-drought-tolerance and the use of carbon assimilates of a species. The
more shade-tolerant and conservative species have greater anatomical plasticity
compared to more shade-intolerant and exploitive species. This study
examined seedling leaf structure variation of four Syzygium species in the
family Myrtaceae to different combinations of light environments. These
species are usually found in the canopy/sub canopy in lowland rain forests.
Six combinations of irradiance and spectral quality that found within the
rain forest understorey to full open were used for this investigation. Two
treatments exposed seedlings to different duration of direct sunlight (2h
and 6h suntlecks). One treatment had the forest understorey light quality
and quantity (50 Jlffiol m' S-I) and a control treatment exposed seedlings to
full sunlight (1600 Jlmol m-2 S-I).
Seedlings of Sifirmum, S. makul, S. operculatum, S. rubicundum were
grown for two years within 24 environmental shelters. At the end of two
years, leaves were sampled from each species in each light treatment.
Subsequently, leaf blade thickness, stomatal frequency, and thickness of
upper and lower epidermal and palisade mesophyll cell layers were measured.
Analysis tested for differences and interactions among species and
22 Singhakumara, Gamage, Ashton
light treatments. In general, leaf dimensions and cell layers of all species
increased with increase in amount of light and were greatest in the full
sunlight treatment (1600 J.I.molm·2S-1) S.firmum had the thickest leaf anatomical
attributes while it was lowest for S. rubicundum. Greatest densities
of stomata were measured for S. operculatum followed in declining
order by S. makul, S.firmum and S. rubicundum. S. makul exhibited double
rows of cells within the palisade mesophyll and lower epidermal layers
while S. firmum exhibiited double rows of cells only within the Palisade
mesophyll.
S. firmum, with the thickest cuticle and leaf blade in full sun seems
that it has a conservative carbon economy. The thinner leaf anatomical attributes
in S. rubicundum when growing in the sun suggest that it is more
exploitive compared to others but less water wasteful due to its lower stomatal
frequency. S. operculatum is the most drought susceptible species
due to its highest stomatal frequency. S. makul is moderate in terms of
drought- tolerance and the use of carbon assimilates. The results demonstrate
a close relationship between species leaf anatomy and their efficiency
in use of water and carbon assimilates that had allowed them to occupy
different sites within the rain forest environment. |
en_US |