Forms of iron in soils on basement complex rocks of Kaduna state in northern guinea Savanna of Nigeria

The forms of iron extracted by different methods were studied in soils developed on four basement complex rocks within Northern Guinea Savanna of Nigeria namely: migmatite gneisses, older granite, quartzites and mica schists. The study shows that forms of iron generally decreased in the order of total elemental iron (FeT) determined by XRF > double acid extractable total iron (Fea) > dithionite extractable iron oxide (Fed) > oxalate extractable iron oxide (Fex) > pyrophosphate extractable iron oxide (Fep) > 0.1M HCl extractable micronutrient available iron (Feh). Variation in content of total irons (FeT and Fea) were not significant in the soils, but content of Feh, Fed, Fex and Fex/d significantly varied in the soils on the various parent materials. Therefore processes and extent of pedogenesis were considered to influence the variations resulting in recrystallization and increase in content of Feh and Fed in these soils. The significant correlation between various forms of Fe (Fea, Fed, and Fex) with active iron ratio further affirmed that as soils on basement complexes increase in their pedogenetic age, Fe content generally increases irrespective of total forms of iron. The strong correlation between FeT, Fea and Fed indicate that these forms of iron were extracted from similar sources.Keywords: Iron, basement complex rock, pedogenesis, Northern Guinea Savanna, Nigeria

Ectoparasitic fauna of poultry species in Maiduguri, Borno State, Nigeria

Ectoparasitic fauna of 397 conveniently sampled domestic birds consisting of 213 chickens, 128 turkeys, 21 ducks, 19 guinea fowls, 8 pigeons and 8 geese were investigated in Maiduguri, Borno State. A total of one hundred and fifty-two 152 (38.29%) birds were infested with one ectoparasitic species or the other comprising of 115 (54.00%) chickens, 33 (25.78%) turkeys, 1 (5.26%) guinea fowl and 3 (37.50%) pigeons. No infestation was encountered among geese and ducks examined. The infestation rate differed significantly based on sex and age (p<0.05), but not the management system. Similarly, the occurrence varied significantly (p<0.05) based on locations of sampling (p<0.00001) and species of poultry examined (p<0.000049). Furthermore, 116 (29.21%) of the total birds examined had a single infestation with either louse, tick or mite species, while 36(9.06%) birds had mixed infestation with species from two or more of these ectoparasitic groups. Among the parasites encountered, lice present on 146 (36.77%) birds were the most prevalent, followed by mites 28(7.05%) and ticks 15(3.78%). Nine different species of ectoparasites belonging to the orders Mallophaga and Acarina were identified in the study. Menopon gallinae, Lipeurus caponis, Menacanthus stramineus, Goniodes gigas, Goniocotes gallinae and Columbicola columbae were the lice identified, while Cnemidocoptes mutans and Ornithonyssus bursa were the only species of mite identified. The poultry tick, Argas persicus was the only tick species found. Conclusively, the study revealed a high but variable burden of ectoparasitic infestation among poultry species examined, and that ectoparasites are common in minor poultry species as they do occur in chickens under different management systems in the study area. The need to investigate the diverse effects of ectoparasitism on the different poultry species is suggested here

Ectoparasitic fauna of poultry species in Maiduguri, Borno State, Nigeria

Ectoparasitic fauna of 397 conveniently sampled domestic birds consisting of 213 chickens, 128 turkeys, 21 ducks, 19 guinea fowls, 8 pigeons and 8 geese were investigated in Maiduguri, Borno State. A total of one hundred and fifty-two 152 (38.29%) birds were infested with one ectoparasitic species or the other comprising of 115 (54.00%) chickens, 33 (25.78%) turkeys, 1 (5.26%) guinea fowl and 3 (37.50%) pigeons. No infestation was encountered among geese and ducks examined. The infestation rate differed significantly based on sex and age (p&lt;0.05), but not the management system. Similarly, the occurrence varied significantly (p&lt;0.05) based on locations of sampling (p&lt;0.00001) and species of poultry examined (p&lt;0.000049). Furthermore, 116 (29.21%) of the total birds examined had a single infestation with either louse, tick or mite species, while 36(9.06%) birds had mixed infestation with species from two or more of these ectoparasitic groups. Among the parasites encountered, lice present on 146 (36.77%) birds were the most prevalent, followed by mites 28(7.05%) and ticks 15(3.78%). Nine different species of ectoparasites belonging to the orders Mallophaga and Acarina were identified in the study. Menopon gallinae, Lipeurus caponis, Menacanthus stramineus, Goniodes gigas, Goniocotes gallinae and Columbicola columbae were the lice identified, while Cnemidocoptes mutans and Ornithonyssus bursa were the only species of mite identified. The poultry tick, Argas persicus was the only tick species found. Conclusively, the study revealed a high but variable burden of ectoparasitic infestation among poultry species examined, and that ectoparasites are common in minor poultry species as they do occur in chickens under different management systems in the study area. The need to investigate the diverse effects of ectoparasitism on the different poultry species is suggested here.</jats:p

Host plant resistance to insect pests of cowpea (Vigna unguiculata L. Walp.): achievements and future prospects

Published online: 06 Oct 2017Cowpea (Vigna unguiculata L. Walp.) is an important cash, food and nutritional security grain legume crop in the semi-arid regions of sub-Saharan Africa. However, its productivity is hampered by several biotic stress factors including numerous insect pests that infest and damage the crop at all its development stages in the field as well as during storage. Host plant resistance is an environmental friendly, cost-effective and sustainable pest management option for minimizing the pests’ incidence and severity. This review article aims at describing the major insect pests in cowpea and highlight key past and recent research findings in cowpea resistance to insect pests. It also provides in-depth knowledge in the host-plant resistance mechanisms in cowpea i.e. biophysical, biochemical and physiological factors that regulate the defense systems in the plant. Furthermore, the paper discusses the need for advanced investigation on the genetic basis of the plant defense systems and its application to the crop breeding program for developing new improved materials. The review would support the cowpea breeding program with the overall expectations of developing insect-resistant lines, reducing the input costs of insecticides while also enhancing cowpea productivity in sub-Saharan Africa