M Sc

Teak has been one among the principal timber species widely used across the world
due to its matchless combination of qualities. Kerala has around 76,710 ha of pure
teak and 14,440 ha of teak with softwood plantation making up 49.08 and 9.24 per
cent respectively of the total plantation area in the state. Despite having the largest
share of plantations under teak, the productivity of teak plantations of Kerala are
under serious decline and has been a matter of concern in the scientific parlance.
Evidences suggest that even in Nilambur, the celebrated land of teak, there has been
large scale decline in productivity of teak plantations. However, quantitative
aspects of the productivity of teak and the drivers of changes especially in the best
teak growing region in Kerala such as Nilambur, is lacking.
In this backdrop, a field study entitled “Growth and productivity as function
of site quality and age in teak plantations of Nilambur, Kerala” was conducted in
selected plantations from Nilambur North and Nilambur South Forest Divisions.
The plantations were selected based on the information available from Kerala
Forest Department on their age and site quality. Four site qualities (SQ I, SQ II, SQ
III and SQ IV) and five age classes (10-20, 20-30, 30-40, 40-50 and 50+) were
considered for the study forming a total of 20 plantations (4 site qualities x 5 age
classes = 20 plantations). Five sample plots, each of size 24m x 24m were laid out
randomly in each of the selected plantations and parameters like total tree height,
bole height, diameter at breast height, diameter at crown point and crown width
were measured in the field. Also, soil sampling was done in four plantations of
different site qualities falling in the mature age class of 40-50. For this, 1 m deep
soil pits were dug, one each inside the plantation and in the respective contiguous
treeless open. Sampling was done in five depth intervals (0-20, 20-40, 40-60, 60-
80 and 80-100 cm). Thus, a total of 120 samples of soil were collected for analysis.
The collected soil was analysed for physical properties like bulk density and particle
size distribution/ texture and chemical properties like pH, total Nitrogen, organic
Carbon content, available Phosphorus and exchangeable Potassium following
standard procedures.
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The results showed that among the plantations studied in Nilambur, the
SQ I plantations showed dominance in all growth parameters of teak while a
predictable pattern of change was lacking across the subsequent site qualities. There
was large heterogeneity among the plantations in terms of management that had a
confounding effect on the potential exploitation of the site resources for optimal
growth of teak. Many of the plantations had high density of invaded miscellaneous
trees which have increased the effective density and seriously affected the growth
of teak. The density of miscellaneous trees varied from 0 to 694 trees per hectare
among the studied plantations. The competition with miscellaneous species has
created large scale variability within each stand in growth attributes. Normal
distribution of diameter classes was observable in the plantations studied due to
high effective density. Stand density being a critical factor that decide productivity
and product quality in teak plantations, the observed variability in productivity
could be attributed to poor adherence to proper density regulation. Also, the
productivity of the plantations has been considerably influenced by poor adherence
to timely plantation management practices. The Mean Annual Increment varied
from 0.56 to 8.70 m3ha-1yr-1 among all the plantations studied. On comparing with
the All-India yield table for teak, the plantations showed growth and productivity
estimates that were quite different from their assigned site quality. In the age class
40-50, the SQ I plantation showed a height that was corresponding to SQ III
according to the yield table, while the SQ IV plantation height corresponded to the
SQ II.
All the observed soil parameters with in the experimental plots were well
within the range required for the optimal growth of teak. However, except for SQ1,
we could not observe any predictable change in soil properties across the remaining
site qualities. The Bulk density of soil increased with depth, both inside and outside
the plantations. The rate of increase of bulk density was higher in the treeless open
areas compared to the plantations. Th soil texture remained as sandy loam or loamy
sand for all the analysed soil samples. The soil pH varied from 5.17 to 5.98 between
the soil samples that were analysed. The organic Carbon content in various layers
of plantation soil varied from 0.58 to 2.07 %. Total Nitrogen varied from 0.077 to
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0.223 %. Available Phosphorus varied from 2.10 to 17.33 kgha-1. Exchangeable
potassium varied from 51.82 to 488.30 kgha-1. Attempts to relate the soil properties
with the site productivity could not derive meaningful correlations suggesting that
the productivity decline might be an effect of poor management rather than
depletion of nutrient status. The study suggests that there is an urgent need to revisit
and reassess the site quality of the plantations in Nilambur and to give utmost
concern for adhering to scientific stand management in timebound manner for
deriving optimal productivity from teak plantations of Nilambur.