Crop Protection & Environmental Biology

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    Biology and Ecology of the Leafroller (Sylepta derogata Fabricius) on Okra (Abelmoschus esculentus (L.) Moench)
    (2012-07) IYAMU, J. I.
    Sylepta derogata, Fabricius a major insect pest, defoliates and causes enormous yield loss in Abelmoschus esculentus (L) Moench. Control of the pest with chemicals and other methods have not been successful due to scanty information on the biology and ecology of the pest. This study was conducted to assess the biology and ecology of Sylepta derogata on Abelmoschus esculentus. Abelmoschus esculentus was planted in early (March-June, 2009), mid (July-September, 2009) and late (November 2009-January,2010) seasons at the Crop Garden of the Department of Crop Protection and Environmental Biology, University of Ibadan, Nigeria. The experiment was laid out in Randomized Complete Block Design in four replicates. Larval population of S. derogata was estimated on 23 randomly selected plants/replicate. Data were collected on temperature, rainfall, relative humidity and percentage field infestation. Leaves of weeds around the experimental plot were observed for habitation and damage by S. derogata. Observations were made on the presence of natural enemies on S. derogata in the field and identified in the laboratory. The life cycle of S. derogata was investigated in the field under natural weather conditions of 22oC-31oC, 39-90% relative humidity and mean rainfall of 2.8 mm. In the laboratory, assessment was done under room temperature of 24oC-28oC and 79-92% relative humidity, on the reproductive biology, development and morphometrics of immature stages of S. derogata. Data were analysed using descriptive statistics, correlation and ANOVA at P=0.05. The field population of S. derogata larvae was highest in November and December with 96.2% larval infestation while it was lowest in July and August with 16.1% and 11.3% infestation respectively coinciding with the highest fruit yield. A significant (P=0.05) inverse relationship was observed between S. derogata abundance; and each of rainfall (r = -0.80) and temperature only (r = -0.85) in early season, rainfall (r = -0.28) and temperature (r = -0.17) in mid-season and temperature (r = -0.73) in late season when rainfall receded. However, a significant (P=0.05) direct relationship was observed between S. derogata abundance and relative humidity at the late season planting (r = 0.18). The mean developmental period from egg to adult was 28 days. The life cycle consisted of egg, five larval stages, pre-pupa, pupa and adult stages. The mean oviposition period was 2 days. The head capsule width ranged from 0.2mm in the first instar to 2.1mm in the fifth instar. The growth index of 1.8 recorded did not conform to Dyar’s rule of 1.4. The females were significantly larger in size than the males. The sex ratio was 1.5:1 (male: female). Apanteles sp was the natural enemy identified on S. derogata which could be used as biological control agent of the larval stages of S. derogata, while the alternative host plant was Solanum nigrum. Late season planting of Okra requires control measures. Apanteles sp can be used in the control of S. derogata on okra. The short developmental period of S. derogata indicates the possibility of this pest completing two generations on okra during the growing season thereby increasing the larval population and leaf damage.
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    Potentials of Aqueous Extract of Pod Husk Parkia biglobosa (Jacq.) Benth as a Biopesticide in Okra (Abelmoschus esculentus (L.) Moench) Production
    (2017) Fayinminnu, O. O.; Adeniyi, O. O.; Alabi, O. Y.; Omobusuyi, D. O.
    Aims: This study evaluated potentials of aqueous extract of pod husk of Parkia biglobosa as a biopesticide in okra production. Study Design: The study employed a radomized complete block design with seven treatments (5, 10, 15 and 20% Parkia biglobosa aqueous pod husk extract (PPHE), 2.5 ml dimethoate +cypermethrin (D+C) – recommended, 5.0 ml (D+C), control – 500 ml of water) and replicated three times. Place and Duration of Study: Crop Garden of Department of Crop Protection and Environmental Biology, University of Ibadan (7° 34’N and 3° 54’E) between April and July 2016. Methodology: The leaves, seeds, pod husks and bark of Parkia biglobosa were collected, authenticated and analyzed for their phytochemical compositions using standard procedures. Aqueous extract of the pod husk of the plant (PPHE) was found to contain the highest phytochemicals qualitatively and quantitatively which formed the basis of using it as a biopesticide. A field study was conducted at the crop garden of Department of Crop Protection and Environmental Biology, University of Ibadan, to assess the potency of the extract as a biopesticide and a synthetic insecticide - Dimethoate 14.5% + Cypermethrin 5.5% (D+C) on the management of flea beetles on NHAe-47-4 okra variety. The seven treatments (5, 10, 15 and 20% Parkia biglobosa aqueous pod husk extract (PPHE), 2.5 ml dimethoate + cypermethrin (D+C) – recommended, 5.0 ml (D+C) (synthetic), control – 500 ml of water) were applied weekly on okra plants from two Weeks After Sowing (WAS) till 12 WAS. Data were collected on growth and yield parameters, dry matter accumulation of A. esculentus and flea beetle populations. Data were analyzed using descriptive statistics and ANOVA at P = 0.05. Results: Results revealed that treatment 20% PPHE had relatively higher values of growth parameters which compared favorably (p≤0.05) with 2.5 ml and 5 ml (D+C). Yield parameters; Number of fruits and fruit weights from 20%PPHE also compared favorably with 2.5 ml and 5 ml (D+C) with no significant difference (P >0 .05) and with the same trend in dry root weight. While the dry shoot weight of 2.5 ml (D+C) treatment (p≤0.05) was different from other treatments. The control treatment however, revealed significant differences (p<0.05) in having reduced growth and low yield when compared with the treated plots. Conclusion: This study showed the efficacy and potency of Parkia biglobosa aqueous pod husk extract (PPHE) in suppressing the flea beetles due to its highest quantities of phytochemicals. The 20% concentration also enhanced the growth and yield of okra and performed relatively well with the recommended dose (2.5 ml) of D+C. The aqueous pod husk extract, therefore could serve as a biopesticide for food sustainability and safety.