dc.description.abstract |
Sage (Salvia officinalis L.) belongs to Lamiacea family. It is well known as a common
medicinal and aromatic plant widely used in food as well as herbal medicine products. It has
wide applications in food flavouring, cosmetics and perfumery by the use of its essential oil. In
Kenya, it is increasingly becoming important mostly being grown by export farms. Its leaf
productivity is however often limited by nitrogen and phosphorus, which are deficient in many
Kenyan soils. The problem is even exacerbated by irregular rainfall in most parts of the country
where it is grown, thus necessitating irrigation. The main objective of this study was therefore to
determine the effects of nitrogen (N), phosphorus (P) and watering regimes on vegetative and
leaf yield and essential oil of sage. The experiment was conducted at the Horticultural Research
and Teaching Farm of Egerton University, laid out in a three factor Split Block, arrangement, in
a Randomised Complete Block Design (RCBD, with three replications. Treatments consisted of
N supplied as urea (46% N) at four rates; 0, 40, 80 and 120kg N/ha while P was supplied as
Triple Superphosphate (46% P2O5) at four rates; 0, 30, 60 and 90 kg P/ha. Watering regimes
included W1= Watering to field capacity once after every week, W2= Watering to field capacity
once after every two weeks, and W3= watering to field capacity once after every four weeks. N
was assigned to the main plots; watering to the strip plots, and P to the sub-sub plots. The study
was conducted in four experiments; experiment 1 (June 2011-October 2011), experiment 2
(October 2011-February 2012) experiment 3 (March 2012-May 2012) and experiment 4 (March
2014-July 2014). Data were collected on plant height, primary and secondary branches/plant,
number of internodes/plant, Leaf Area Index (LAI), Specific Leaf Weight (SLW), Leaf Fresh
Weight (LFW) and Leaf Dry Weights (LDW), Total Phenolic Compounds (TPC) (Experiment 3
only), essential oil yield (Experiment 3 and 4 only) and essential oil composition (Experiment 3
only). All data were subjected to Analysis of Variance (ANOVA) and where F test was
significant; treatment means were separated using the Duncan Multiple Range Test (DMRT) at P
≤ 0.05. Results indicated that sage responded to N and P application at 80 kg N/ha and 60 kg
P/ha.The growth and leaf yield parameters were maximum when these treatments were
combined with watering once after every two weeks. Lower and higher N and P application rates
as well as too close or far apart watering intervals reduced growth and leaf fresh and dry weights.
N, watering and P regimes did not significantly influence the total phenolic compounds. The
mean effects of N, P and watering frequency did affect essential oil content of the crop.
Furthermore, interactive effects between these variables affected the composition of the oil.
Specifically, (i) the percentage of β-Pinene increased with increasing N levels, (ii) β-Pinene
decreased with reducing irrigation frequency, (iii) interactive effects of N and P treatments were
identified for contents of both α- and β-thujones, and (iv) α-thujone accumulation was also
affected by the interaction of watering regime and P application. Camphor was the major
ingredient under all treatments and its percentage in the oil was higher than the recommended
threshold by ISO standard (ISO, 9909). Based on the results of this study, N and P application at
80 kg N/ha and 60 kg P/ha is sufficient enough to support sage growth and leaf fresh yield, under
watering once after two weeks regime whereas production of both α- and β-thujones can be
maximized by application of 40 kg N/ha and 60 kg P/ha and watering once a week.There is also
need to develop agrotechnical practices aimed at reducing the levels of camphor in sage growing
in Kenya to conform to the recommended standards (ISO, 9909). More so, there is need for
economic evaluation of these practices before they can be recommended for use in Kenya |
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