Abstract:
Liquid organic fertilizers (LOFs) are environmental friendly, cost-effective alternative
products introduced to the agricultural market to minimize the adverse effects of synthetic
fertilizers. This study aimed at developing LOFs using widely abundant weeds (Tithonia
diversifolia, Gliricidia sepium, Leucaena leucocephala) in combination with poultry manure
or fish waste to evaluate the efficacy of formulated LOFs on growth and yield of A.
esculentus (L.) Moench and A. sessilis (L.) DC. Six combinations (F1: Poultry manure +
Tithonia diversifolia, F2: Poultry manure + Gliricidia sepium, F3: Poultry manure +
Leucaenea leucocephala, F4: Fish waste + Tithonia diversifolia, F5: Fish waste + Gliricidia
sepium, F6: Fish waste + Leucaenea leucocephala) were prepared as water extractions. In
each combination 360 g of weed leaves, 240 g of poultry manure or fish waste and 100 g
of coconut husk ash were mixed with 6.0 L of well water in closed plastic containers.
Combinations were aerated for two hours daily for a period of six weeks to facilitate
decomposition. Based on the highest nutrient contents (N, P, K, Ca, Mg and Zn), F1, F2 and
F4 were selected for the foliar application. Well water was used as the control and
commercial LOF “Maxicrop” was used as the standard. The field and pot trials were
conducted in complete randomized block design maintaining five replicates for each
treatment. LOFs were applied once a week on A. esculentus “Haritha” cultivar for a period
of two months, to evaluate the growth performance in terms of number of fruits, number of
flowers, leaf area, shoot height and stem circumference. Similarly, LOFs were sprayed
once a week on A. sessils for a period of two months, to evaluate the growth performance
in terms of number of branches, length of plant, leaf area, plant fresh weight and number
of internodes. Comparison of growth parameters over time was performed by one way
analysis of variance using MINITAB 16 software. Prepared fertilizers significantly (p<0.05)
increased the growth and yield of both plant species. F1 resulted in the highest number of
fruits in A. esculentus compared with F2 (21 ± 1.32) and F4 (15 ± 1.63), while F2 produced
the highest biomass in A. sessilis in terms of plant fresh weight (11.6 ± 0.30 g) compared
with F1 (9.6 ± 0.22 g) and F4 (9.2 ± 0.10 g). Therefore, F1 can be considered the best LOF
for A. esculentus and F2 the best LOF for A. sessils.
Keywords: Abelmoschus esculentus, Alternanthera sessils, growth performance, liquid
organic fertilizers