Department of Animal Biology and Conservation Science (DABCS)

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    Assessment of Patterns of Climate Variables and Malaria Cases in Two Ecological Zones of Ghana
    (Open Journal of Ecology, 2014) Klutse, N.A.B.; Aboagye-Antwi, F.; Owusu, K.; Ntiamoa-Baidu, Y.
    Climate change is projected to impact human health, particularly incidence of water related and vector borne diseases, such as malaria. A better understanding of the relationship between rainfall patterns and malaria cases is thus required for effective climate change adaptation strategies involving planning and implementation of appropriate disease control interventions. We analyzed climatic data and reported cases of malaria spanning a period of eight years (2001 to 2008) from two ecological zones in Ghana (Ejura and Winneba in the transition and coastal savannah zones respectively) to determine the association between malaria cases, and temperature and rainfall patterns and the potential effects of climate change on malaria epidemiological trends. Monthly peaks of malaria caseloads lagged behind monthly rainfall peaks. Correlation between malaria caseloads and rainfall intensity, and minimum temperature were generally weak at both sites. Lag correlations of up to four months yielded better agreement between the variables, especially at Ejura where a two-month lag between malaria caseloads and rainfall was significantly high but negatively correlated (r = −0.72; p value < 0.05). Mean monthly maximum temperature and monthly malaria caseloads at Ejura showed a strong negative correlation at zero month lag (r = −0.70, p value < 0.05), with a similar, but weaker relationship at Winneba, (r = −0.51). On the other hand, a positive significant correlation (r = 0.68, p value < 0.05) between malaria caseloads and maximum temperature was observed for Ejura at a four-month lag, while Winneba showed a strong correlation (r = 0.70; p value < 0.05) between the parameters at a two-month lag. The results suggest maximum temperature as a better predictor of malaria trends than minimum temperature or precipitation, particularly in the transition zone. Climate change effects on malaria caseloads seem multi-factorial. For effective malaria control, interventions could be synchronized
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    Wildlife species as potential sources of human exposure to parasitic pathogens in Accra, Ghana
    (West African Journal of Applied Ecology, 2019-08-23) Aboagye, I.F.; Nkansa-Gyamfi, N.A.; Obimpeh, M.A.; Ansa-Tuah, A.K.; Owusu, E.H.
    Handling and consumption of wildlife species pose risks of exposure to the infective stages of parasitic pathogens and disease transmission. This study assessed protozoan and helminth infections in some wildlife species commonly consumed as meat in Accra, Ghana. Using Zinc Sulphate centrifugal flotation and microscopic techniques, seven protozoan species (Entamoeba sp., Giardia sp. Iodamoeba sp., Cryptosporidium sp., Balantidium sp., Endolimax sp. and Eimeria sp.) and 11 genera of intestinal helminths including Haemonchus, Trichostrongylus, Ascaris, Monieza, Schistosoma and Trichuris were identified. Kruskal-Wallis tests showed significant difference in intensity of protozoan [χ2(3) = 11.59; p = 0.009] and helminth [χ2(3) = 31.41; p < 0.0001] infections among the four groups of wildlife species. For protozoans, the differences were observed between the mean cyst and oocyst (Cryptosporidium sp.) intensities of Maxwell’s Duiker and Bushbuck (U = 5, p = 0.006) as well as Grasscutter and Bushbuck (U = 3, p = 0.004). However, the differences in mean helminth egg intensities were observed between Grasscutter and Maxwell’s Duiker (U = 6, p < 0.0001), Grasscutter and Bushbuck (U = 16, p < 0.0001) as well as Grasscutter and Royal Antelope (U = 4, p < 0.0001). The results highlight the need for awareness of the risks of parasitic diseases as a prerequisite for their effective prevention.
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    Herpetofauna community diversity and composition of a changing coastal wetland in Ghana
    (West African Journal of Applied Ecology, 2019-08) Musah, Y.; Ofori, B.Y.; Attuquayefio, D.K.
    Despite concern about the negative effects of tropical wetland loss and degradation on biodiversity, data on impacts on amphibians and reptiles, remain scarce. Here, we assessed the herpetofauna at the Muni-Pomadze ramsar site for the first time in 14 years and report on the changes in diversity and composition at the coastal wetland. The methodology involved pitfall trapping, refuge examination and acoustic searches in the forest and grassland/ thickets habitats, as well as interviews of a cross-section of local inhabitants. Overall, 39 herpetofauna species were recorded at the study area. These comprised 19 amphibian species belonging to six families (Bufonidae, Ranidae, Hemisotidae, Hyperoliidae, Arthroleptidae and Petropedetidae), and 20 reptile species of nine families. The reptiles consisted of four lizard families (Agamidae, Scincidae, Gekkonidae and Varanidae), four snake families (Boidae, Colubridae, Elapidae and Viperidae) and one chelonian family (Pelome dusidae). Three families, Hemisotidae, Arthroleptidae and Viperidae are first records for the study area. Survey at the site in 1998 recorded 28 species, comprising 15 species of reptiles and 13 species of amphibians. Two families (Microhylidae and Testudinidae) recorded in 1998 were not recorded in the present survey. Although we recorded higher species richness in the present study, there was no significant change in the proportion of savanna and generalist species in the forest because of compensatory dynamics. Given that habitat loss at the patch and landscape levels is the main threat to herpetofauna at the ramsar site, conservation managers should focus on preventing further deforestation, particularly at Yenku Block A Forest Reserve to preserve the herpetofana at the Muni-Pomadze ramsar site.
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    Epidemiology, ecology and human perceptions of snakebites in a savanna community of northern Ghana
    (PLoS Neglected Tropical Diseases, 2019-06-25) Musah, Y.; Ameade, E.P.K.; Attuquayefio, D.K.; Holbech, L.H.
    Worldwide, snakebite envenomations total ~2.7 million reported cases annually with ~100,000 fatalities. Since 2009, snakebite envenomation has intermittently been classified as a very important ‘neglected tropical disease’ by the World Health Organisation. Despite this emerging awareness, limited efforts have been geared towards addressing the serious public health implications of snakebites, particularly in sub-Saharan Africa, where baseline epidemiological and ecological data remain incomplete. Due to poverty as well as limited infrastructure and public health facilities, people in rural Africa, including Ghana, often have no other choice than to seek treatment from traditional medical practitioners (TMPs). The African ‘snakebite crisis’ is highlighted here using regionally representative complementary data from a community-based epidemiological and ecological study in the savanna zone of northern Ghana. Methodology and findings Our baseline study involved two data collection methods in the Savelugu-Nanton District (in 2019 the district was separated into Savelugu and Nanton districts) in northern Ghana, comprising a cross-sectional study of 1,000 residents and 24 TMPs between December 2008 and May 2009. Semi-structured interviews, as well as collection of retrospective snakebite and concurrent rainfall records from the Savelugu-Nanton District Hospital and Ghana Meteorological Authority respectively over 10-years (1999–2008) were used in the study. Variables tested included demography, human activity patterns, seasonality, snake ecology and clinical reports. Complementary data showed higher snakebite prevalence during the rainy season, and a hump-shaped correlation between rainfall intensity and snakebite incidences. Almost 6% of respondents had experienced a personal snakebite, whereas ~60% of respondents had witnessed a total of 799 snakebite cases. Out of a total of 857 reported snakebite cases, 24 (~2.8%) died. The highest snakebite prevalence was recorded for males in the age group 15–44 years during farming activities, with most bites occurring in the leg/foot region. The highest snakebite rate was within farmlands, most severe bites frequently caused by the Carpet viper (Echis ocellatus). Conclusion The relatively high community-based prevalence of ~6%, and case fatality ratio of ~3%, indicate that snakebites represent an important public health risk in northern Ghana. Based on the high number of respondents and long recording period, we believe these data truly reflect the general situation in the rural northern savanna zone of Ghana and West Africa at large. We recommend increased efforts from both local and international health authorities to address the current snakebite health crisis generally compromising livelihoods and productivity of rural farming communities in West Africa.
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    Impact of Mining and Forest Regeneration on Small Mammal Biodiversity in the Western Region of Ghana
    (Environmental Monitoring and Assessment, 2017-04) Attuquayefio, D.K.; Owusu, E.H.; Ofori, B.Y.
    Much of the terrestrial biodiversity in sub-Saharan Africa is supported by tropical rainforest. Natural resource development, particularly surface mining in the rainforest, poses great risks to the region’s rich and endemic biodiversity. Here, we assessed the impact of surface mining and the success of forest rehabilitation on small mammal diversity in the Western Region of Ghana. We surveyed small mammals in the project area and two adjoining forest reserves (control sites) before the mining operation and 10 years after mine closure and forest rehabilitation (topsoil replacement and revegetation). The forest reserves recorded higher species abundance than the mining areas. Majority of the species captured in the forest reserves, including Hylomyscus alleni, Praomys tullbergi, Malacomys cansdalei, and Hybomys trivirgatus, are forest obligate species. Only one individual each of H. alleni and P. tullbergi was captured in the naturally regenerated areas (core areas of mining activities that were allowed to revegetate naturally), while 32 individuals belonging to four species (Lophuromys sikapusi, Mus musculoides, Mastomys erythroleucus, and Crocidura olivieri) were recorded in the rehabilitated areas. Our data suggested negative effects of mining on small mammal diversity and the restoration of species diversity and important ecological processes after rehabilitation of altered habitats. We strongly encourage deliberate conservation efforts, particularly the development of management plans that require the restoration of degraded land resulting from mining activities.
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    Bounded and Invertible Toeplitz Products on Vector Weighted Bergman Spaces of the Unit Polydisc
    (Environmental Monitoring and Assessment, 2017-07) Gbogbo, F.; Otoo, S.D.; Asomaning, O.; Huago, R.Q.
    Fish and shellfish are regularly consumed and sold in Ghana, yet studies on arsenic pollution in Ghana are limited largely to ground water. This study evaluated arsenic concentrations in seven species of shellfish and 10 species of fish inhabiting the mouth of Ankobra, Densu and Volta basins in Ghana and assessed the public health implications. Arsenic levels varied from 0.2 to 2.2 mg L−1 in the three rivers and were higher than WHO recommended values of 10 μg L−1 for drinking water. Except for Periophthalmus sp. and Tympanotonus fuscatus from the Ankobra in which arsenic was not detected, concentrations in the organisms ranged from 0.2 to 2.8 mg kg−1. The maximum quantities of the organisms considered safe for consumption ranged from 375 to 5250 g per week. Caution however needs to be exercised as PTWI for arsenic needs revision, and some heavy metals such as mercury are more toxic than arsenic.
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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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    To Coil or Not To Coil: Application Practices, Perception and Efficacy of Mosquito Coils in a Malaria-Endemic Community in Ghana
    (Environmental Science and Pollution Research, 2017-07) Avicor, S.W.; Wajidi, M.F.F.; Owusu, E.O.
    Although evidence of mosquito coils’ impact on disease epidemiology is limited, they are popularized as mosquito-borne disease prevention devices. Their usage affects the environment, human and mosquito health. This study investigated the perception, usage pattern and efficacy of coils in a predominantly poor malaria-endemic Ghanaian peri-urban area. Information on protection methods, perception and usage pattern was garnered using questionnaires. The efficacy of commonly used coils in the area was then assessed on the malaria vector, Anopheles gambiae, in a glass chamber. Sole or co-application of mosquito control methods and risky usage practices were reported. Coils were deemed harmful to humans and mosquitoes, and their perceived effectiveness varied, with several factors influencing their purchase. High d-allethrin concentration coils induced quicker mosquito knockdown; however, mortality was less than 85%. The coil usage pattern compromises users’ health and can enhance mosquito tolerance to d-allethrin. The coils were ineffective against the vector, outlining a dichotomy between the users’ perception of efficacy and the observed efficacy. Hence, the usage of other safer and more effective vector control methods should be encouraged to protect households.
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    Bionomics of the sweet potato weevil, Cylas puncticollis (Coleoptera: Brentidae) on four different sweet potato varieties in sub-Saharan Africa
    (Journal of Agriculture and Rural Development in the Tropics and Subtropics, 2018) Adom, M.; Wilson, D.D.; Fening, K.O.; Bruce, A.Y.; Adofo, K.
    Sweet potato (Ipomoea batatas (L.) Lam.) is an important staple food crop in sub-Saharan Africa. A limiting production factor is infestation by the sweet potato weevil Cylas puncticollis (Boheman) (Coleoptera: Brentidae). The use of host plant resistance is an essential component of Integrated Pest Management (IPM). Therefore, the bionomic parameters of C. puncticollis were studied under laboratory conditions (30 ± 1 °C and 75 ± 5 % RH) on four sweet potato varieties commonly grown in Ghana (Apumoden, Ligri, Bohye, and Okumkom) to determine their susceptibility to the pest. There were significant varietal differences between some of the parameters. Egg to adult development time was highest on Okumkom while larval survival, emergence rate, intrinsic rate of increase, and the net reproductive rate were lowest on Bohye. The results of this study indicate that Bohye was the least susceptible variety compared to the other varieties tested and can be used in host plant resistance as part of an IPM programme against C. puncticollis in Ghana.
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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.