Your search keyword '"Chrysantus M. Tanga"' showing total 10 results

1. Biochar and gypsum amendment of agro-industrial waste for enhanced black soldier fly larval biomass and quality frass fertilizer

Author

Fathiya M. Khamis, Thomas Dubois, Sevgan Subramanian, Musyoka M. Wangu, Komi K. M. Fiaboe, Chrysantus M. Tanga, B.O. Mochoge, Nicholas Kibet Korir, Sunday Ekesi, Dennis Beesigamukama, and Dorothy Nakimbugwe

Subjects

Life Cycles, Hermetia illucens, Physiology, Biomass, 02 engineering and technology, Plant Science, 010501 environmental sciences, Plant Reproduction, 01 natural sciences, Soil, Larvae, Electricity, Biochar, Seed Germination, 0202 electrical engineering, electronic engineering, information engineering, Simuliidae, Multidisciplinary, biology, Compost, Chemistry, Sulfates, Frass, Physics, Agriculture, Thermal Conductivity, Plant Physiology, Charcoal, Larva, Physical Sciences, Medicine, Fertilizer, Agrochemicals, Research Article, Nitrogen, 020209 energy, Science, Materials Science, Material Properties, Amendment, Industrial Waste, engineering.material, Industrial waste, Ammonia, Animals, Fertilizers, 0105 earth and related environmental sciences, Nitrates, Composting, Chemical Compounds, Electric Conductivity, Biology and Life Sciences, biology.organism_classification, Agronomy, engineering, Salts, Developmental Biology

Abstract

Black soldier fly (BSF) (Hermetia illucens L.) is one of the most efficient bio-waste recyclers. Although, waste substrate amendments with biochar or gypsum during composting process are known to enhance nutrient retention, their impact on agro-industrial waste have not been documented. Hence, this study focuses on a comparative effect of agro-industrial waste amended with biochar and gypsum on BSF larval performance, waste degradation, and nitrogen (N) and potassium retention in frass fertilizer. Brewery spent grain was amended with biochar or gypsum at 0, 5, 10, 15 and 20% to determine the most effective rates of inclusion. Amending feedstock with 20% biochar significantly increased wet (89%) and dried (86%) larval yields than the control (unamended feedstock). However, amendment with 15% gypsum caused decrease in wet (34%) and dried (30%) larval yields but conserved the highest amount of N in frass. Furthermore, the inclusion of 20% biochar recorded the highest frass fertilizer yield and gave a 21% increase in N retention in frass fertilizer, while biomass conversion rate was increased by 195% compared to the control. Feedstock amendment with 5% biochar had the highest waste degradation efficiency. Potassium content in frass fertilizer was also significantly enhanced with biochar amendment. At maturity, frass compost with more than 10% inclusion rate of biochar had the highest cabbage seed germination indices (>100%). The findings of this study revealed that initial composting of biochar amended feedstocks using BSF larvae can significantly shorten compost maturity time to 5 weeks with enhanced nutrient recycling compared to the conventional composting methods.

Published

2020

2. Global risk of invasion by Bactrocera zonata: Implications on horticultural crop production under changing climatic conditions

Author

Elfatih M. Abdel-Rahman, Samira A. Mohamed, Sunday Ekesi, Mohammed E. E. Mahmoud, G. Sithole, Kumbirai M. Zingore, and Chrysantus M. Tanga

Subjects

0106 biological sciences, Atmospheric Science, 010504 meteorology & atmospheric sciences, Range (biology), Entropy, Rain, Invasive Species, Introduced species, 01 natural sciences, Invasive species, Geographical Locations, Climatology, Multidisciplinary, Ecology, Simulation and Modeling, Tephritidae, Eukaryota, Agriculture, Representative Concentration Pathways, Plants, Geography, Medicine, Egypt, Research Article, Crops, Agricultural, Climate Change, Science, Climate change, Crops, Subtropics, Horticulture, Research and Analysis Methods, 010603 evolutionary biology, Fruits, Meteorology, Species Colonization, Animals, 0105 earth and related environmental sciences, Ecology and Environmental Sciences, Organisms, Biology and Life Sciences, Models, Theoretical, People and Places, Africa, Earth Sciences, Biological dispersal, Climate model, Introduced Species, Climate Modeling, Crop Science

Abstract

The peach fruit flyBactrocera zonata(Saunders) (Diptera: Tephritidae) is an important invasive species causing substantial losses to the horticulture industry worldwide. Despite the severe economic impact caused by this pest in its native and invaded range, information on its potential range expansion under changing climate remains largely unknown. In this study, we employed maximum entropy (MaxEnt) modeling approach to predict the global potential climatic suitability ofB.zonataunder current climate and four Representative Concentration Pathways (RCPs) for the year 2050. Outputs from MaxEnt were merged with Spatial Production Allocation Model. A natural dispersal model using Gaussian dispersal kernel was developed. The Areas Under Curves generated by MaxEnt were greater than 0.92 for both current and future climate change scenarios, indicating satisfactory performances of the models. Mean temperature of the coldest quarter, precipitation of driest month and temperature seasonality significantly influenced the potential establishment ofB.zonata. The models indicated high climatic suitability in tropical and subtropical areas in Asia and Africa, where the species has already been recorded. Suitable areas were predicted in West, East and Central Africa and to a lesser extent in Central and South America. Future climatic scenarios models, RCP 4.5 and 8.5 show significant potential range expansion ofB.zonatain Western Sahara, while RCP 4.5 highlighted expansion in Southern Africa. Contrarily, RCP 2.6 showed considerable decrease inB.zonatarange expansion in Central, East and West Africa. There was increased climatic suitability ofB.zonatain Egypt and Middle East under RCP 6.0. The dispersal model revealed thatB.zonatacould spread widely within its vicinity with decreasing infestation rates away from the source points. Our findings can help to guide biosecurity agencies in decision-making and serve as an early warning tool to safeguard against the pest invasion into unaffected areas.

Published

2020

3. Threshold temperatures and thermal requirements of black soldier fly Hermetia illucens: Implications for mass production

Author

Joop J. A. van Loon, Fathiya M. Khamis, Saliou Niassy, Samira A. Mohamed, Subramanian Sevgan, Marcel Dicke, Sunday Ekesi, Shaphan Y. Chia, Komi K. M. Fiaboe, Daisy Salifu, and Chrysantus M. Tanga

Subjects

0106 biological sciences, Life Cycles, Hermetia illucens, Physiology, Oviposition, Biomass, lcsh:Medicine, Solid Waste, 01 natural sciences, Larvae, Reproductive Physiology, Medicine and Health Sciences, Doubling time, Simuliidae, Laboratory of Entomology, lcsh:Science, media_common, education.field_of_study, Larva, Multidisciplinary, biology, Reproduction, Pupa, Temperature, Eukaryota, Fecundity, PE&RC, Insects, Engineering and Technology, Mass Production, Research Article, Arthropoda, media_common.quotation_subject, Population, 010603 evolutionary biology, Production Engineering, Animal science, Population Metrics, Animals, Humans, Life Science, Population Growth, education, Nutrition, Population Biology, lcsh:R, Organisms, Biology and Life Sciences, Pupae, biology.organism_classification, Laboratorium voor Entomologie, Invertebrates, Animal Feed, Diet, 010602 entomology, Biofuels, lcsh:Q, EPS, Developmental Biology

Abstract

Efforts to recycle organic wastes using black soldier fly (BSF) Hermetia illucens into high-nutrient biomass that constitutes a sustainable fat (biodiesel) and high-quality protein ingredient in animal feeds have recently gained momentum worldwide. However, there is little information on the most suitable rearing conditions for growth, development and survivorship of these flies, which is a prerequisite for mass production technologies. We evaluated the physiological requirements for growth and reproduction of H. illucens on two diets [spent grains supplemented with brewers' yeast (D1) and un-supplemented (D2)]. Development rates at nine constant temperatures (10-42°C) were fitted to temperature-dependent linear and non-linear day-degree models. Thereafter, life history table parameters were determined within a range of favourable temperatures. The thermal maximum (TM) estimates for larval, pre-pupal and pupal development using non-linear model ranged between 37.2 ± 0.3 and 44.0 ± 2.3°C. The non-linear and linear day-degree model estimations of lower developmental temperature threshold for larvae were 11.7 ± 0.9 and 12.3 ± 1.4°C for D1, and 10.4 ± 1.7 and 11.7 ± 3.0°C for D2, respectively. The estimated thermal constant of immature life stages development of BSF was higher for the larval stage (250±25 DD for D1 and 333±51 for D2) than the other stages evaluated. Final larval wet weight was higher on D1 compared to D2. The population growth rate was most favourable at 30-degree celsius (°C) with higher intrinsic rate of natural increase (rm = 0.127 for D1 and 0.122 for D2) and shorter doubling time (5.5 days for D1 and 5.7 days for D2) compared to the other temperatures. These results are valuable for the optimization of commercial mass rearing procedures of BSF under various environmental conditions and prediction of population dynamics patterns using computer simulation models.

Published

2018

4. Integrating temperature-dependent life table data into Insect Life Cycle Model for predicting the potential distribution of Scapsipedus icipe Hugel & Tanga

Author

Monica A. Ayieko, Daisy Salifu, Sevgan Subramanian, Khamis M. Fathiya, Saliou Niassy, Azrag G. A. Abdelmutalab, Sunday Ekesi, Komi K. M. Fiaboe, Chrysantus M. Tanga, Nana Roos, and Magara H. J. Otieno

Subjects

Male, 0106 biological sciences, Life Cycles, Physiology, Range (biology), Oviposition, Distribution (economics), Insect, 01 natural sciences, Geographical Locations, Toxicology, Reproductive Physiology, Cricket species, Faculty of Science, Medicine and Health Sciences, Life Tables, media_common, Multidisciplinary, Temperature, Eukaryota, Mass production, Scapsipedus icipe, Africa, Eastern, Fecundity, Insects, Crickets, Medicine, Female, Edible insects, Research Article, Nymph, Entomophagy, Arthropoda, Rate of natural increase, Death Rates, Science, media_common.quotation_subject, Bionomics, Biology, Models, Biological, 010603 evolutionary biology, Gryllidae, Population Metrics, Edible Insects, Animals, Sex Ratio, Population Biology, business.industry, Organisms, Biology and Life Sciences, Invertebrates, Nymphs, 010602 entomology, 13. Climate action, People and Places, Africa, business, Animal Distribution, Developmental Biology, Forecasting

Abstract

Scapsipedus icipe Hugel and Tanga (Orthoptera: Gryllidae) is a newly described edible cricket species. Although, there is substantial interest in mass production of S. icipe for human food and animal feed, no information exists on the impact of temperature on their bionomics. Temperature-dependent development, survival, reproductive and life table parameters of S. icipe was generated and integrated into advanced Insect Life Cycle Modeling software to describe relative S. icipe population increase and spatial spread based on nine constant temperature conditions. We examined model predictions and implications for S. icipe potential distribution in Africa under current and future climate. These regions where entomophagy is widely practiced have distinctly different climates. Our results showed that S. icipe eggs were unable to hatch at 10 and 40°C, while emerged nymphs failed to complete development at 15°C. The developmental time of S. icipe was observed to decrease with increased in temperature. The lowest developmental threshold temperatures estimated using linear regressions was 14.3, 12.67 and 19.12°C and the thermal constants for development were 185.2, 1111.1- and 40.7-degree days (DD) for egg, nymph and pre-adult stages, respectively. The highest total fecundity (3416 individuals/female/generation), intrinsic rate of natural increase (0.075 days), net reproductive rate (1330.8 female/female/generation) and shortest doubling time (9.2 days) was recorded at 30°C. The regions predicted to be suitable by the model suggest that S. icipe is tolerant to a wider range of climatic conditions. Our findings provide for the first-time important information on the impact of temperature on the biology, establishment and spread of S. icipe across the Africa continent. The prospect of edible S. icipe production to become a new sector in food and feed industry is discussed.

Published

2019

5. Risk assessment and spread of the potentially invasive Ceratitis rosa Karsch and Ceratitis quilicii De Meyer, Mwatawala & Virgilio sp. Nov. using life-cycle simulation models: Implications for phytosanitary measures and management

Author

Samira A. Mohamed, Chrysantus M. Tanga, Fathiya M. Khamis, Henri E. Z. Tonnang, Sunday Ekesi, Gladys Mosomtai, and Ivan Rwomushana

Subjects

Male, 0106 biological sciences, Integrated pest management, Life Cycles, Physiology, Climate, Oviposition, Biosecurity, lcsh:Medicine, Invasive Species, Introduced species, 01 natural sciences, Invasive species, Geographical Locations, Larvae, Reproductive Physiology, Medicine and Health Sciences, lcsh:Science, Multidisciplinary, Ecology, Phenology, Simulation and Modeling, Tephritidae, Temperature, Fecundity, Female, Research Article, Crops, Agricultural, Death Rates, Longevity, Biology, Research and Analysis Methods, Models, Biological, Risk Assessment, 010603 evolutionary biology, Species Specificity, Species Colonization, Population Metrics, Animals, Ecosystem, Life Cycle Stages, Population Biology, business.industry, lcsh:R, Ecology and Environmental Sciences, Pest control, Ceratitis rosa, Biology and Life Sciences, Pupae, biology.organism_classification, 010602 entomology, Fertility, Nonlinear Dynamics, People and Places, Africa, lcsh:Q, Pest Control, PEST analysis, Introduced Species, business, Software, Developmental Biology

Abstract

Integrative taxonomy has resolved the species status of the potentially invasive Ceratitis rosa Karsch into two separate species with distinct ecological requirements: C. rosa "lowland type" and the newly described species Ceratitis quilicii De Meyer, Mwatawala & Virgilio sp. nov. "highland type". Both species are tephritid pests threatening the production of horticultural crops in Africa and beyond. Studies were carried out by constructing thermal reaction norms for each life stage of both species at constant and fluctuating temperatures. Non-linear functions were fitted to continuously model species development, mortality, longevity and oviposition to establish phenology models that were stochastically simulated to estimate the life table parameters of each species. For spatial analysis of pest risk, three generic risk indices were visualized using the advanced Insect Life Cycle Modeling software. The study revealed that the highest fecundity, intrinsic rate of natural increase and net reproductive rate for C. rosa and C. quilicii was at 25 and 30°C, respectively. The resulting model successfully fits the known distribution of C. rosa and C. quilicii in Africa and the two Indian Ocean islands of La Réunion and Mauritius. Globally, the model highlights the substantial invasion risk posed by C. rosa and C. quilicii to cropping regions in the Americas, Australia, India, China, Southeast Asia, Europe, and West and Central Africa. However, the proportion of the regions predicted to be climatically suitable for both pests is narrower for C. rosa in comparison with C. quilicii, suggesting that C. quilicii will be more tolerant to a wider range of climatic conditions than C. rosa. This implies that these pests are of significant concern to biosecurity agencies in the uninvaded regions. Therefore, these findings provide important information to enhance monitoring/surveillance and designing pest management strategies to limit the spread and reduce their impact in the invaded range.

Published

2018

6. Impact of temperature on the bionomics and geographical range margins of the two-spotted field cricket Gryllus bimaculatus in the world: Implications for its mass farming.

Author

Henlay J O Magara, Chrysantus M Tanga, Brian L Fisher, Abdelmutalab G A Azrag, Saliou Niassy, James P Egonyu, Sylvain Hugel, Nana Roos, Monica A Ayieko, Subramanian Sevgan, and Sunday Ekesi

Subjects

Medicine, Science

Abstract

Gryllus bimaculatus (Orthoptera: Gryllidae) is widely considered an excellent nutrient source for food and feed. Despite its economic importance, there is limited information on the impact of temperature on the bionomics of this cricket to guide its effective and sustainable mass production in its geographical range. The biological parameters of G. bimaculatus were investigated at eight different temperatures ranging from 20-40˚C. The Insect Life-Cycle Modelling (ILCYM) program was used to fit linear and non-linear functions to the data to describe the influence of temperature on life history parameters and its farmability under the current and projected climate for 2050. Our results revealed that G. bimaculatus was able to complete its lifecycle in the temperature range of 20°C to 37°C with a maximum finite rate of population increase (= 1.14) at 35°C. The developmental time of G. bimaculatus decreased with increasing temperature. The least developmental time and mortality were attained at 32°C. The highest wet length and mass of G. bimaculatus occurred at 32°C. The lowest temperature threshold for G. bimaculatus egg and nymph development was approximated using linear regression functions to be at 15.9°C and 16.2°C with a temperature constant of 108.7 and 555.6 degree days. The maximum fecundity (2301.98 eggs per female), net reproductive rate (988.42 daughters/ generation), and intrinsic rate of natural increase (0.134 days) were recorded at 32°C and the shortest doubling of 5.2 days was observed at 35°C. Based on our findings G. bimaculatus can be farmed in countries with temperatures ranging between 20 and 37°C around the globe. These findings will help the cricket farmers understand and project the cricket population dynamics around the world as influenced by temperature, and as such, will contribute to more efficient farming.

Published

2024

7. Smallholder farmers' knowledge and willingness to pay for insect-based feeds in Kenya.

Author

Shaphan Y Chia, John Macharia, Gracious M Diiro, Menale Kassie, Sunday Ekesi, Joop J A van Loon, Marcel Dicke, and Chrysantus M Tanga

Subjects

Medicine, Science

Abstract

Edible insects are increasingly being considered as sustainable alternatives to fish and soybean meals in animal feed because of their high nutritional quality and environmental benefits. However, successful introduction of a new product to the market depends on the target user's acceptance. Thus, evaluating the potential demand of insect-based feeds would provide relevant information for policy development. The present study assessed farmers' knowledge on edible insects as feed, their acceptance of integrating insect meals in animal feeds and willingness to pay (WTP) for insect-based feed (IBF) using a contingent valuation method. A household survey was conducted among 957 randomly selected farmers including: 409 poultry, 241 fish and 307 pig farmers in four counties in Kenya. Results of the study reveal that over 70 and 80% of poultry and fish farmers, respectively, are aware that insects can be used as a feed ingredient. In addition, over 60 and 75% of poultry and fish farmers, respectively, consider insects as a good component of feed. Poultry, pig and fish farmers interviewed accepted and showed willingness to pay for IBF. Regression analysis indicated that age, gender, education, marital status, distance to feed trader, awareness of insects as feed, attitude towards insects, acceptance of insect species, availability of agricultural inputs, use of commercial feeds, availability of training and market information had a significant influence on the WTP for IBF. Therefore, increased extension services to educate famers on the nutritional benefits of insect meals in animal feeds and existing market opportunities are expected to improve farmers' attitude towards utilization and consequently enhance WTP for IBF, which in return would significantly reduce the existing pressure on conventional fishmeal feed resources. Our findings provide the first insights into the market opportunities of including insect meals in the animal feed value chain in Kenya.

Published

2020

8. Biochar and gypsum amendment of agro-industrial waste for enhanced black soldier fly larval biomass and quality frass fertilizer.

Author

Dennis Beesigamukama, Benson Mochoge, Nicholas K Korir, Komi K M Fiaboe, Dorothy Nakimbugwe, Fathiya M Khamis, Thomas Dubois, Sevgan Subramanian, Musyoka M Wangu, Sunday Ekesi, and Chrysantus M Tanga

Subjects

Medicine, Science

Abstract

Black soldier fly (BSF) (Hermetia illucens L.) is one of the most efficient bio-waste recyclers. Although, waste substrate amendments with biochar or gypsum during composting process are known to enhance nutrient retention, their impact on agro-industrial waste have not been documented. Hence, this study focuses on a comparative effect of agro-industrial waste amended with biochar and gypsum on BSF larval performance, waste degradation, and nitrogen (N) and potassium retention in frass fertilizer. Brewery spent grain was amended with biochar or gypsum at 0, 5, 10, 15 and 20% to determine the most effective rates of inclusion. Amending feedstock with 20% biochar significantly increased wet (89%) and dried (86%) larval yields than the control (unamended feedstock). However, amendment with 15% gypsum caused decrease in wet (34%) and dried (30%) larval yields but conserved the highest amount of N in frass. Furthermore, the inclusion of 20% biochar recorded the highest frass fertilizer yield and gave a 21% increase in N retention in frass fertilizer, while biomass conversion rate was increased by 195% compared to the control. Feedstock amendment with 5% biochar had the highest waste degradation efficiency. Potassium content in frass fertilizer was also significantly enhanced with biochar amendment. At maturity, frass compost with more than 10% inclusion rate of biochar had the highest cabbage seed germination indices (>100%). The findings of this study revealed that initial composting of biochar amended feedstocks using BSF larvae can significantly shorten compost maturity time to 5 weeks with enhanced nutrient recycling compared to the conventional composting methods.

Published

2020

9. Global risk of invasion by Bactrocera zonata: Implications on horticultural crop production under changing climatic conditions.

Author

Kumbirai M Zingore, George Sithole, Elfatih M Abdel-Rahman, Samira A Mohamed, Sunday Ekesi, Chrysantus M Tanga, and Mohammed E E Mahmoud

Subjects

Medicine, Science

Abstract

The peach fruit fly Bactrocera zonata (Saunders) (Diptera: Tephritidae) is an important invasive species causing substantial losses to the horticulture industry worldwide. Despite the severe economic impact caused by this pest in its native and invaded range, information on its potential range expansion under changing climate remains largely unknown. In this study, we employed maximum entropy (MaxEnt) modeling approach to predict the global potential climatic suitability of B. zonata under current climate and four Representative Concentration Pathways (RCPs) for the year 2050. Outputs from MaxEnt were merged with Spatial Production Allocation Model. A natural dispersal model using Gaussian dispersal kernel was developed. The Areas Under Curves generated by MaxEnt were greater than 0.92 for both current and future climate change scenarios, indicating satisfactory performances of the models. Mean temperature of the coldest quarter, precipitation of driest month and temperature seasonality significantly influenced the potential establishment of B. zonata. The models indicated high climatic suitability in tropical and subtropical areas in Asia and Africa, where the species has already been recorded. Suitable areas were predicted in West, East and Central Africa and to a lesser extent in Central and South America. Future climatic scenarios models, RCP 4.5 and 8.5 show significant potential range expansion of B. zonata in Western Sahara, while RCP 4.5 highlighted expansion in Southern Africa. Contrarily, RCP 2.6 showed considerable decrease in B. zonata range expansion in Central, East and West Africa. There was increased climatic suitability of B. zonata in Egypt and Middle East under RCP 6.0. The dispersal model revealed that B. zonata could spread widely within its vicinity with decreasing infestation rates away from the source points. Our findings can help to guide biosecurity agencies in decision-making and serve as an early warning tool to safeguard against the pest invasion into unaffected areas.

Published

2020

10. Integrating temperature-dependent life table data into Insect Life Cycle Model for predicting the potential distribution of Scapsipedus icipe Hugel & Tanga.

Author

Magara H J Otieno, Monica A Ayieko, Saliou Niassy, Daisy Salifu, Azrag G A Abdelmutalab, Khamis M Fathiya, Sevgan Subramanian, Komi K M Fiaboe, Nana Roos, Sunday Ekesi, and Chrysantus M Tanga

Subjects

Medicine, Science

Abstract

Scapsipedus icipe Hugel and Tanga (Orthoptera: Gryllidae) is a newly described edible cricket species. Although, there is substantial interest in mass production of S. icipe for human food and animal feed, no information exists on the impact of temperature on their bionomics. Temperature-dependent development, survival, reproductive and life table parameters of S. icipe was generated and integrated into advanced Insect Life Cycle Modeling software to describe relative S. icipe population increase and spatial spread based on nine constant temperature conditions. We examined model predictions and implications for S. icipe potential distribution in Africa under current and future climate. These regions where entomophagy is widely practiced have distinctly different climates. Our results showed that S. icipe eggs were unable to hatch at 10 and 40°C, while emerged nymphs failed to complete development at 15°C. The developmental time of S. icipe was observed to decrease with increased in temperature. The lowest developmental threshold temperatures estimated using linear regressions was 14.3, 12.67 and 19.12°C and the thermal constants for development were 185.2, 1111.1- and 40.7-degree days (DD) for egg, nymph and pre-adult stages, respectively. The highest total fecundity (3416 individuals/female/generation), intrinsic rate of natural increase (0.075 days), net reproductive rate (1330.8 female/female/generation) and shortest doubling time (9.2 days) was recorded at 30°C. The regions predicted to be suitable by the model suggest that S. icipe is tolerant to a wider range of climatic conditions. Our findings provide for the first-time important information on the impact of temperature on the biology, establishment and spread of S. icipe across the Africa continent. The prospect of edible S. icipe production to become a new sector in food and feed industry is discussed.

Published

2019