JOURNAL OF BIOSCIENCE AND BIOTECHNOLOGY DISCOVERY
Integrity Research Journals
ISSN: 2536-7064
Model: Open Access/Peer Reviewed
DOI: 10.31248/JBBD
Start Year: 2016
Email: jbbd@integrityresjournals.org
Survivability, growth performance and nutrient composition of the African Palm Weevil (Rhyncophorus phoenicis Fabricius) reared on Four different substrates
https://doi.org/10.31248/JBBD2016.018 | Article Number: 2C488EBA1 | Vol.2 (1) - February 2017
Received Date: 28 September 2016 | Accepted Date: 26 November 2016 | Published Date: 28 February 2017
Authors: Ebenebe, C. I.* , Okpoko V. O. , Ufele A. N. and Amobi M. I.
Keywords: growth performance, Rhncophorus phoenicis, survivability, nutrient composition, substrates.
Survivability, growth performance and nutrient composition of the African Palm weevil (APW) (Rhyncophorus phoenicis) reared on four different substrates was investigated following earlier finding that Sugar cane tops (SCT) and Spoilt water melon (SWM) could be useful in captive rearing of the weevil. This necessitated a search into other waste fruits that could be used as media for rearing of APW as their infestation of oil and raffia palm is not only unfriendly to the environment but also wastage of economic resources. The growth and nutrient composition of the larvae in three waste fruits (Not rotten but not fit for human consumption): Spoilt Water Melon (SWM), Ripe Paw paw (RPP), Spoilt Pine apple (SPA) and Sugarcane tops (SCT: Off Cut from the tip of sugarcane) were compared in this study. One hundred and twenty newly emerged APW larvae of similar weights collected from “Mgbo swamp” in Ebenebe town, Anambra State, Nigeria, were used for the study which lasted for ten weeks. Thirty larvae were randomly assigned to each of the treatments (Culture media). The experiment was designed on a 4 x 3 Completely Randomized Designed, whereby each treatment had 30 APW larvae in three replicates of 10 larvae per replicate. The larvae were housed in plastic bowls of 30cm diameter and 40cm height. The bottom part of each bowl was perforated to let out moisture and the top covered with mosquito net to avoid flies. The substrates in each housing unit were removed and replaced with fresh ones on weekly basis to minimize microbial attack. Survivability, growth performance in terms of weight gain and increase in linear body measurements within 10 weeks were monitored and used as indices of the suitability of each of the culture media. At the end of the experiment three larvae were randomly selected from each replicate and taken to the Biochemistry Department Laboratory, Nnamdi Azikiwe University, Awka for proximate analysis. The result of statistical analysis showed that percent survivability was highest in Sugar cane top (96.7%) and least in larva reared on Ripe Paw paws (66.7%). The body weight and linear body measurement followed the same trend with those on SCT and SWM having the highest body weight increase of 4.13 + 0.11 g and 4.11 + 0.31 g respectively, while the ones on RPP had the least body weight increase of 2.7 + 0.06 g. For the body length increase, the larva reared on SCT recorded 2.0 + 1.3 cm, those on SWM recorded 1.8 + 0.23 cm and the ones on RPP had the least body length increase of 0.9 + 0.1 cm. However, the crude protein percent of the larvae reared on SPA was highest (25.90%), followed by those on SCT (22.50%) and those on RPP recorded the least crude protein content of 21.25%. It is therefore recommended that Discarded/Spoilt water melon, Sugar cane tops and discarded ripe pineapple be used in the rearing of the larvae up to 10 weeks or before pupation.
| Adeyeye, E. I., & Aye P.A. (2008). The Chemical Composition and Functional Properties of the Flesh and Viscera of Raffia palm tree grub (Rhynchophorus phoenicis). Pakistan Journal of Nutrition 7 (1), 121-128. | ||||
| Akpabio, U. D., Akpakpan, A. E., Udo, U. E., & Essien, U. C. (2012). Physicochemical characterization of exudates from Raffia Palm (Raphia hookeri). Advances in Applied Science Research, 3 (2), 838-843. | ||||
| Awe, S. (2011) Production and Microbiology of Pawpaw (Carica papaya L) Wine. Current Research Journal of Biological Sciences 3(5), 443-447. | ||||
| Banjo, A. D., Lawal, O. A., Songonuga, E. A. (2006). The nutritional values of fourteen species of edible insects in South Western Nigeria. African Journal of Biotechnology 5(3), 208-301. | ||||
| Bong, C. F. J., Er, C. C., Yiu, P. H., & Rajan, A. (2008). Growth Performance of the Red-Stripe Weevil Rhynchophorus schach Oliv. (Insecta: Coleoptera: Curculionidae) on Meridic Diets. American Journal of Agricultural and Biological Sciences, 3(1), 403-409. Crossref |
||||
| Ebenebe, C. I. Anizoba, M. A., Okeke, J. J., Okpoko, V. O, Madu, B., & Uzocukwu C. (2007). The Potentials of Palm Grub (Rhynchophorus phoenicis) and manure grub (Rhynchophorus ferrugineus) as Food and Feed. Journal of Advancement in Medical and Pharmaceutical Research. 1 (4), 41-45. | ||||
| Ebenebe, C. I., & Okpoko, V. O. (2015). Edible Insect Consumption in the southeastern Nigeria. International Journal of Science and Engineering, 6(6). Link |
||||
| Ebenebe, C. I., & Okpoko, V. O. (2016). Preliminary studies on Alternative Substrate for Multiplication of African Palm weevil (Rhynchophorus phoenicis) under captive management. Journal of Insect for Food and Feed, 2(3),171-177 Crossref |
||||
| Edijala, T. K., Eghogbo, O., Anigboro, A. A. (2009). Proximate Composition and cholesterol concentrations of Rhyncophorus phoenicis and Orytces monocerus larvae subjected to Different Heat Treatments. African Journal of Biotechnology, 8(10), 2346 -2348. | ||||
| Ekpo, K. E., & Onigbinde, A. O. (2004) Pharmaceutical Potentials of Rhyncophorus phoenicis larval oil. Nigerian Annals of Natural Sciences, 9(2), 28-36. | ||||
| El-Shafie, H. A. F., Faleiro, J. R., Abo-El- Saad, M. M., Aleid, S. M. (2013). Meridic diet for laboratory rearing of Red Palm Weevil, Rhynchophorus ferrugineus (Coleoptera: Curculionidae). Academic Journal of Scientific Research and Essays, 8(39), 1924-1932. | ||||
| FAO (1991). State of Forest and Tree genetic resources in dry zone southern Africa Development Community Countries. Rome. | ||||
| Giblin–Davis, R. M., Gerber, K., & Griffith, R. (1989). Laboratory Rearing of Rhynchophorus cruenstatus and Rhynchophorus palmarum (Coleoptera: Curulionidae). Florida Entomology, 72, 480-488. Crossref |
||||
| Giblin Davis, R. M., Faleiro, J. R., & Jacas, J. A. (2013) Biology and Management of Palm weevils. University of Florida/ IFAS Fort Lauderdale Research and Education Centre. www.cisr.urc.edu./..../giblindavisrobin-biology-an. Accessed on the 13th August, 2015. | ||||
| Hoddle, S. M. (2013). Entomophagy: Farming Palm weevils for Food.University of California, Riverside for Invasive Species Research Report. www.cisr.ucr.edu | ||||
| Kaakeh, W., Aboul-Anour, M., & Khamis, A. A. (2001). Mass rearing of the red palm weevil, Rhynchophorus ferrugineus Oliv., on sugarcane and artificial diets for laboratory studies. Pp. 344-357. In Proceedings of the Second International Conference on Date Palm (refereed), Al-Ain, UAE. | ||||
| Malik, K. (2016). Six Health Benefits of Sugarcane Juice: A Promise of Good Health New Delhi Television News. Link |
||||
| Makinde, O. A., Odeyinka, S. M., & Ayandiran, S. K. (2011). Simple and quick method for recycling pineapple waste into animal feed. Livestock Research for Rural Development, 23(9). | ||||
| Malaisse, F. (1997). Se nounvir en Foret Claire Africaine: Approche eclogique et nutionelle Pays-Bays. Presses agronomiques de Gembloux. | ||||
| Mmadubuike, F. N. (2000). Microlivestock as Food and Feed. Invited Paper Presented at the 5th Annual Conference of Animal Science Association of Nigeria. 19th-22nd September. Rivers State University of Science and Technology Port Harcourt. | ||||
| Nwofia, G. E., & Okwu, Q. U. (2012). Studies on nutritive characteristics and variability in pawpaw (Carica papaya L.) Pakistan Journal of Nutrition 11(10), 859-864. Crossref |
||||
| OEPP/EPPO (2007). European and Mediteranean Plant Protection Organization. Bulletin 37, 571-579. | ||||
| Okoro, F. U. (2000). "Adoption of Rabbitry Technologies among Farmers in Okigwe Agricultural Zone of Imo State", Nigeria. Proceedings of 25th Conference of Nigerian Society of Animal production 19th-23rd March, Michael Okpara University, Umudike, Abia State, Nigeria. Pp. 414 -416. | ||||
| Reynolds, V., Lloyd, A. W., Babweteera, F., & English, C. J. (2009). Decaying Raphia farinifera palm trees provide a source of sodium for wild chimpanzees in the Budongo Forest, Uganda. PLoS One, 4(7), e6194. Crossref |
||||
| Tambe, J. T., Riolo, P., Okolle, J. N., Pietro, N. I., Fanciulli, P., & Dallah, R. (2013)Sexual size differences and colour polymorphism of Rhynchophorus phoenicis in the Southwest region of Cameroon. Bulletin of Insectology, 66(1), 153-159. | ||||
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