Department of Animal Biology and Conservation Science (DABCS)

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    A Safe Haven or a Temporary Alternative Host? - The Displaced Mango Fruit Fly, Ceratitis cosyra in the African Peach Plant
    (Ecological Laboratory, 2023) Billah, M.K.; Cobblah, M. A.; Oyinkah, G. M.
    Abstract One of the difficulties in controlling fruit flies in cultivated crops is the use of alternative host plants as refugia when the preferred hosts are not in season. This study was aimed at collecting fruits and vegetables in localities across the five northern regions of Ghana (Northern, North-East, Savannah, Upper-East, and Upper-West regions) to catalogue the diversity of fruit flies and their host plants. A total of 1,722 fruits from all localities across the five regions were incubated, with 29.13% turning out to be fly-positive, yielding 1,141 individuals in four genera (Bactrocera, Ceratitis, Dacus, and Zeugodacus) and four species (Bactrocera dorsalis (Hendel), Ceratitis cosyra (Walker), Dacus bivittatus (Bigot), and Zeugodacus cucurbitae (Coquillet)). The African Peach plant, Nauclea latifolia, showed the highest incidence level of infestation, with the Mango fruit fly, Ceratitis cosyra as the dominant species, accounting for 97.19% (974) of the flies. The Oriental fruit fly, Bactrocera dorsalis and the Melon fly, Zeugodacus curcurbitae accounted for 1.23% (14 each), and Dacus bivittatus 0.35% (4). With evidence of displacement of C. cosyra from mango by the invasive Bactrocera dorsalis in most African countries, our results point to a plant that has hitherto not been known to be associated with fruit flies in Ghana for the displaced Mango fruit fly. Since information of previous fruit fly records is scanty, especially in the northern parts of the country, it is not known whether the African Peach has always been a host plant to C. cosyra, and served as a suitable alternative host during the long dry season, or is pointing to the new home after its displacement by Bactrocera dorsalis. There is therefore the need for an extended all-year-round collection to ascertain the host status and pattern of utilization of the African peach, as well as confirm the suspected host shift and displacement status of C. cosyra.
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    Basic Developmental Characteristics of the Fall Armyworm, Spodoptera frugiperda (J.E. Smith) (Lepidoptera: Noctuidae), Reared under Laboratory Conditions
    (Psyche: A Journal of Entomology, 2023) Marri, D.; Mensah, S.A.; Kotey, D.A.; Abraham, J.; Billah, M.K.; Osae, M.
    Te life cycle of the invasive alien insect pest, fall armyworm (FAW), Spodoptera frugiperda (J.E. Smith), was studied using a colony established from feld-collected larvae. Eggs, neonate larvae, and newly emerged adult moths were used in experiments to investigate the basic biology of the FAW. Adult females laid up to 1184 eggs with a mean of 469 ± 22 eggs per female. Te incubation period of eggs and percentage hatchability were 2-3 days and 80–87%, respectively. Te mean larval lengths from the frst to the sixth instar were 4.63, 6.60, 9.76, 15.86, 25.13, and 27.81 mm, respectively. Te mean larval weights were 0.003, 0.019, 0.045, 0.050, 0.060, and 0.067 g, respectively, for the six instars. Te mean width of the head capsule of the sixth instar larva was 2.76 mm. Te total larval duration throughout the six instar stages was 16–18 days, while the mean pupal weight was 0.25 ± 0.001 g and 0.35 ± 0.011 g for males and females, respectively. Te mean pupal length was 14.3 ± 0.16 mm for males and 17.2 ± 0.14 mm for females. Pupal duration ranged from 8 to 14 days, with a mean of 10.35 ± 0.26 days, while the pupal emergence rate ranged from 60 to 94%, with a mean of 80.25 ± 1.28%. Te life cycle of males lasted 33–44 days and that of females lasted 36–49 days under laboratory conditions. Adult copulation occurred between 8 and 11 pm, with the peak occurring at 9 pm. Tis study provides baseline information about the biology of the FAW. Apart from being an important reference point for future research on the FAW, the data provided would aid FAW management decision-making.
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    Assessment of Fruit Fly (Diptera: Tephritidae) Infestation Levels on Citrus in Abura Asebu Kwamankese District, Ghana
    (African Entomology, 2017-09) Bawa, S.A.; Ofori, E.S.K.; Yawson, G.; Billah, M.K.; Nuamah, K.A.
    Citrus spp. (Rutaceae), is a major cash crop inGhana and is cultivated in the semi-deciduous for-est zone, which covers parts of the Ashanti,Brong-Ahafo, Eastern, Western, Central and Voltaregions of the country (Anno-Nyarko 1998). Cur-rent production as at 2013 is estimated at over700 000 t annually (FAO 2013). One of the majorthreats to the citrus industry is fruit fly infestation.Fruit flies (Diptera: Tephritidae) are among themost important insect pests of fruits, especiallymangoes (Lux et al. 2003; Vayssières et al. 2008;Ekesi et al. 2009). Female fruit flies lay eggs underthe skin of the fruit, which hatch into larvae thatfeed in the decaying flesh of the crop. Infestedfruits quickly rot and become inedible or drop onthe ground, thus causing direct loss to the farmer.Besides the direct damage to the fruit, indirect lossis associated with quarantine restrictions that areimposed by fruits and vegetable importing coun-tries.
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    Morphometric Diagnosis of Glossina Palpalis (Diptera: Glossinidae) Population Structure in Ghana
    (BMC Research Notes, 2017-12) Ebhodaghe, F.; Billah, M.K.; Adabie-Gomez, D.; Yahaya, A.
    Objective This study aimed to identify isolated population(s) of Glossina palpalis in Ghana using geometric morphometrics to evaluate variations in wing-shape and size between populations of the fly from three regions. Results Wing shape of G. palpalis tsetse flies from the Northern, Western and Eastern Regions varied significantly between each other. Populations from the Northern and Western Regions varied the most (Mahalanobis Distance = 54.20). The least variation was noticed between populations from the Western and Eastern Regions (MD = 1.99). On morphospace, the Northern population clearly separated from the Eastern and Western populations both of which overlapped. Wing centroid size also significantly varied among populations. Reclassification scores were satisfactory reaching 100% for the Northern population. The Northern population of G. palpalis is possibly isolated from the Western and Eastern Region populations. Meanwhile, a panmictic relationship could be on-going between the Western and Eastern populations. We speculate that geographical distance and subspecific difference between populations are among factors responsible for observed pattern of wing shape variations among the studied populations. The implications of results regarding choice of control strategy and limitations of the study are discussed.
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    Cross mating studies among five fruit fly parasitoid populations: Potential biological control implications for tephritid pests
    (BioControl, 2008-10) Billah, M.K.; Kimani-Njogu, S.W.; Wharton, R.A.; Overholt, W.A.; Wilson, D.D.; Cobblah, M.A.
    The reproductive compatibility between four different species/populations of the tephritid parasitoid Psyttalia (Walker) species from Kenya and individuals of the morphologically identical Psyttalia concolor (Szépligeti) (Hymenoptera: Braconidae) from a laboratory culture in Italy used in augmentative biological control of olive fly, Bactrocera oleae (Gmelin) (Diptera: Tephritidae) was assessed through cross mating tests using single-pair and group mating methods. Reciprocal crosses among the species resulted in the production of viable offsprings up to the second generation. In spite of the successful production of viable offspring in the laboratory, Psyttalia species are known to have specific host fruit and/or host fly preferences and populations/species may be isolated in one way or the other. However, it is not known whether these populations/species interbreed in the field. We discuss the ability of these parasitoids to interbreed and the potential effects of that on their use as biological control agents, especially in environments where other closely related species are present or in situations where multiple parasitoid introductions are intended. © 2007 International Organization for Biological Control (IOBC).
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    The effect of host larvae on three Psyttalia species (Hymenoptera: Braconidae), parasitoids of fruit-infesting flies (Diptera: Tephritidae)
    (International Journal of Tropical Insect Science, 2005-09) Billah, M.K.; Kimani-Njogu, S.; Overholt, W.A.; Wharton, R.A.; Wilson, D.D.; Cobblah, M.A.
    Three species of fruit fly parasitoids, Psyttalia concolor (Szépligeti), Psyttalia cosyrae (Wilkinson) and Psyttalia lounsburyi (Silvestri) (Hymenoptera: Braconidae) were reared on different host larvae to determine the effects of host species, size and colour on parasitoid development. Ovipositor, ovipositor sheath and hind tibia lengths were found to be different for progenies from preferred and non-preferred host larvae. Ratios of ovipositor-tibia and ovipositor sheath-tibia showed no difference when P. concolor was reared on a bigger host (Ceratitis cosyra (Walker) (Diptera: Tephritidae), whereas rearing P. cosyrae on a smaller host (C. capitata (Wiedemann) showed significant differences. Comparison of the linear measurements, ratios and number of flagellomeres of parasitoids reared on preferred hosts, separated the species into their natural groupings. When reared on a different-coloured host, P. lounsburyi lost its dark markings but other characters remained unchanged. Morphometric analysis also indicated differences between parasitoids reared on preferred host larvae and those reared on non-preferred host larvae. Rearing parasitoids on larvae other than their preferred hosts resulted in colour and size changes, and thus, these characters alone were not reliable for the identification of parasitoids. This is especially important in post-release sampling surveys to ascertain establishment of the parasitoids in new environments where they may adapt to new host species. © ICIPE 2005.
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    Risk of heavy metal ingestion from the consumption of two commercially valuable species of fish from the fresh and coastal waters of Ghana
    (PLoS ONE, 2018-03) Gbogbo, F.; Arthur-Yartel, A.; Bondzie, J.A.; Dorleku, W.-P.; Dadzie, S.; Kwansa-Bentum, B.; Ewool, J.; Billah, M.K.; Lamptey, A.M.
    Background The need to evaluate the human health safety of fishery resources remain urgent in the mist of the ever-increasing fear of heavy metal toxicity from the consumption of Ghana’s fisheries resource, as a consequence of pollution from several anthropogenic activities including artisanal gold mining. Nevertheless, the bigeye grunt (Brachydeuterus auritus) and Bagrid catfish (Chrysichthys nigrodigitatus) remain commercially valuable fish species in West Africa and continue to attract high patronage. Method Forty-five specimens each of C. nigrodigitatus and B. auritus collected from the Weija Dam and the Tema Fishing Habour in Ghana, between June and September 2016, were analysed for seven heavy metals using Atomic Absorption Spectrometry. Result Lead and Cadmium were below detection in all samples while Cu was not detected in B. auritus. Levels of the remaining metals (mg kg-1) were below FAO/WHO maximum permissible limits in fish and occurred in the rank order Se (3.5) > Zn (2.34) > Cu (0.59) > As (0.37) > Hg (0.19) in C. nigrodigitatus and Se (2.97) > Zn (2.28) > Hg (0.31) > As (0.21) in B. auritus. Only As in C. nigrodigitatus recorded Estimated Weekly Intake (EWI) greater than FAO/ WHO Provisional Tolerable Weekly Intake (PTWI). Also, As in C. nigrodigitatus and Hg in B. auritus had Targeted Hazard Quotient (THQ) greater than 1 for individuals consuming the fishes on daily basis and therefore, raising concerns. However, for both species of fish, cancer risk of As was 1 in 10,000,000,000 and modified Health Benefits values of Se (HBVSe) were positive indicating the health risks that might accompany Hg exposure would be negated. Since toxicity depends on the concentration and quantity of a pollutant consumed, safe maximum consumption rate of C. nigrodigitatus based on As concentrations was 0.21 mg per day and that of B. auritus was 0.058 mg per day for Hg. With an average of 0.227 kg fish per meal of an adult human, these translated into not more than 24 C. nigrodigitatus and nine (9) B. auritus meals in a month but because fish is consumed at 0.0685 kg per person per day in Ghana, these values respectively translates to 93 and 30 safe days of consumption per month. Conclusion At the rate of 0.0685 kg fish per person per day that fish is consumed in Ghana, the consumption of the two species of fish in Ghana would essentially be of little or no consequence to consumers. © 2018 Gbogbo et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
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    Species composition and host range of fruit-infesting flies (Diptera: Tephritidae) in northern Ghana
    (International Journal of Tropical Insect Science, 2015-07) Badii, K.B.; Billah, M.K.; Afreh-Nuamah, K.; Obeng-Ofori, D.
    An important aspect of fruit fly management is accurate information on the species and their host spectrum. Studies were conducted between October 2011 and September 2013 to determine the host range and species diversity of pest fruit flies in the northern savannah ecology of Ghana. Fruit samples from 80 potential host plants (wild and cultivated) were collected and incubated for fly emergence; 65 (81.5%) of the plant species were positive to fruit flies. From records in Africa, 11 plant species were reported to be new hosts to the African invader fly, Bactrocera invadens (Drew, Tsuruta and White, 2005). This study documented the first records of Dacus ciliatus (Loew) and Trirhithrum nigerrimum (Bezzi) in northern Ghana although both species have been previously reported in other parts of the country. Infestation by B. invadens was higher in the cultivated fruits; Ceratitis cosyra dominated in most wild fruits. Cucurbitaceae were mainly infested by three species of Dacus and Bactrocera cucurbitae, a specialized cucurbit feeder. Among the commercial fruit species, the highest infestations were observed in mango, tomato, sweet pepper and watermelon, whereas marula plum, soursop, tropical almond, sycamore fig, African peach, shea nut, persimmon, icacina and albarillo dominated the wild host flora. The widespread availability of host plants and the incidence of diverse fly species in the ecology call for particular attention to their impact on commercial fruits and the development of sustainable management strategies against these economically important pests in Ghana. © 2015 ICIPE.
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    Species composition of fruit flies (Diptera: Tephritidae) in the Citrus Museum at the Agricultural Research Centre (ARC), Kade, Ghana
    (International Journal of Tropical Insect Science, 2012) Foba, N.C.; Afreh-Nuamah, K.; Billah, M.K.; Obeng-Ofori, D.
    To determine species composition of fruit flies on six cultivated varieties of citrus (Late Valencia orange, Pineapple orange, Ovaleto, Mediterranean sweet lemon, Satsuma tangerine and Ortanique orange), a study was conducted at the Agricultural Research Centre, Kade, Ghana. Improvised Lynfield baited traps (methyl eugenol (ME) and citrus juice (CJ)) and McPhail baited traps (trimedlure (TML)) were used. Ripe infested fruits from the selected varieties were also collected and incubated. Tephritid fruit fly species from trapping were identified as Bactrocera invadens Drew, Tsuruta & White, Bactrocera cucurbitae (Coquillet), Ceratitis ditissima Munro, C. anonae Graham, C. capitata (Wiedemann), C. bremii Guerin-Meneville, Dacus bivittatus (Bigot), D. punctatifrons Karsch and Trirhithrum Bezzi. A total of 35,247 fruit flies were collected from the traps, with densities of 10.38, 1.00 and 0.27 flies/trap/day for ME, CJ and TML traps, respectively. All incubated fruit varieties showed co-habitation of three different species (C. ditissima, C. anonae and B. invadens) in each of them. In addition, one Dacus vertebratus was obtained from dropped Late Valencia fruits. Moreover, three individual Fopius caudatus (Szépligeti) parasitoids were recorded from the infested incubated fruits. Ranking of the different fruit fly species from infested incubated host fruits was as follows: C. ditissima (476), C. anonae (74), B. invadens (71), and D. vertebratus (1). Competitive ability among the invasive flies in their process to infest the six citrus varieties was observed. These findings could serve as a useful starting point for the development of a reliable catalogue of host diversity, fruit fly species diversity and associated natural enemy records in Ghana.
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    Diversity of fruit flies and mealybugs in the Upper-West Region of Ghana
    (Journal of Developments in Sustainable Agriculture, 2012) Wih, K.; Billah, M.K.
    Mango (Mangifera indica L.), a member of the family Anarcardiaceae, is one of the most common fruits in Ghana and could easily be cultivated in the northern part of the country. Mango production, however, has been threatened by insect and disease problems since commercial-scale production started in the Upper West Region. Asian fruit flies of the genus Bactrocera are destructive pests of fruits and vegetables worldwide, but little information has been obtained on their prevalence and diversity in the region since the first formal detection of Bactrocera invadens in 2005. Systematic trapping and host-fruit surveys conducted in 2007 confirmed the presence B. invadens in the region. We examined the diversity of fruit flies and mealybugs that have been observed to be major threats to mango and other crops in the Upper West Region. Nine fruit fly species (B. invadens, Ceratitis ditissima, Ceratitis anonae, Ceratitis bremii, Ceratitis cosyra, Ceratitis capitata, Ceratitis rosa, Dacus bivittatus and Dacus vertebratus and four mealybug species (Pseudococcus longispinus, Paracoccus marginatus, Rastrococcus invadens and Icerya sp.) were identified during the survey. While mango was dominated by R. invadens, the ornamental plants were mostly affected by Icerya sp., papaw by P. marginatus, and Jatropha species infested by P. longispinus. The mealybug species were fairly common in the region. In certain cases, other pest species such as aphids and whiteflies were found in close association (in complex mixtures) with the mealybugs.