Attached
Lowland rain forests of southwest Sri Lanka have a canopy stratum dominated
bytree species from close taxonomic assemblages at the genus level. Forest associations
have been identified within the forest topography from valley to ridgetop. The canopy
tree genera in these associations have common silvical characteristics in reproduction
and regeneration establishment. The most important silvical characteristic common to
these tree species is the apparent site specialization. Recent studies suggested that
species belonging to same genera have different adaptations in relation to dominating
edaphicor hypsographic factors.
For this study, four Shorea species (Shorea disticha (Thw.) Ashton, Shorea
trapezifolia (Thw.) Ashton, Shorea megistophylla Ashton, Shorea worthingtonii
Ashton), one Dipterocarpus species (Dipterocarpus zeylanicus Thw.), two Mesua
species (Mesua nagassarium Kosterm. and Mesua ferrea L.) and two species of
Syzygium (Syzygium makul Gaertn., Syzygium rubicundum Wight and Arn.) were
selected. All coexist in the rain forest of southwest Sri Lanka Experiments were
designedto investigate competitive outcomes of those species in different light and soil
moistureregimes. Each plot was 2.4 x 2.4 meters and planting distance was 0.2 meters.
Planted seedlings were monitored in gaps and understory condition across different
topographic positions (low elevation, valley, rnidslope, ridgetop and high elevation)
fromyear 1998 to 2003. On each site one plot was placed in a natural canopy gap and another plot was located in the adjacent forest understorey. Light quantity was recorded
on sunny days of every year, and soil moisture was measured twice a month. Soil
analysis was done for Nitrogen, Phosphorus, Potassium, Calcium, Aluminium, and
Magnesium in all canopy gaps and understory in all topographic positions. After one
year of seedling growth and mortality were recorded. At the end of four years leaf
nutrients analysis was done for N, P, K, Ca, AI, and Mg.
Photosynthetic photon flux density was gradually increased from valley to ridge
in both gap and understory. Soil moisture was similar in both gap and understory
conditions while it decreased from valley to ridge top. Soil nutrients did not show clear
differences among micro sites and among topographic positions.
Results demonstrated that the total daily amount of light received was the main
factor determining competitive growth performance with secondary effects in the
variation of soil moisture of topographic positions. All seedlings showed greatest
mortality and relatively slow growth rate in all understory sites than gaps and mortality
increased with elevation. The best growth of all species was observed in low elevation
and midslope sites. All seedlings indicated a decline in growth performance and
increased mortality with elevation.
Along with light and soil moisture gradient plant height growth, canopy
expansion and foliar nutrient allocation provided the evidence to understand the
competitive role played by species. Shorea trapezifolia and Syzygium rubicundum can
be regarded as the most light demanding species with competitive superiors as judged
by its height increment, leaf and branch increment, crown structure, root collar diameter
and leaf nutrient allocation. At the other extreme are Mesua ferrea and Shorea worthingtonii, which are the most shade tolerant and hence has the lowest competitive
ability in the above group.
This study contributes to our understanding of canopy seedling responses to the
influence of light, soil moisture, and soil nutrients in different topographic positions.
Understanding this is critical towards the development of regeneration methods for the
management of tropical lowland mixed species forest. Results of this study have
facilitated the construction of a site classification system and light/drought tolerance
indices for the important canopy trees within the forest. Further work is necessary to
understand growth performance of these species and their niche specialization.