Your search keyword '"Peter Wachira"' showing total 33 results

1. Salmonella Typhi Haplotype 58 biofilm formation and genetic variation in isolates from typhoid fever patients with gallstones in an endemic setting in Kenya

Author

Peter Muturi, Peter Wachira, Maina Wagacha, Cecilia Mbae, Susan M. Kavai, Michael M. Mugo, Musa Mohamed, Juan F. González, Samuel Kariuki, and John S. Gunn

Subjects

Salmonella Typhi, AMR genes, genetic variation, biofilm, typhoid carriage, Microbiology, QR1-502

Abstract

Although typhoid fever has largely been eliminated in high-income countries, it remains a major global public health concern especially among low- and middle-income countries. The causative agent, Salmonella enterica serovar Typhi (S. Typhi), is a human restricted pathogen with a limited capacity to replicate outside the human host. Human carriers, 90% of whom have gallstones in their gallbladder, continue to shed the pathogen for an ill-defined period of time after treatment. The genetic mechanisms involved in establishing the carrier state are poorly understood, but S. Typhi is thought to undergo specific genetic changes within the gallbladder as an adaptive mechanism. In the current study, we aimed to identify the genetic differences in longitudinal clinical S. Typhi isolates from asymptomatic carriers with gallstones in a typhoid endemic setting in Nairobi, Kenya. Whole-genome sequences were analyzed from 22 S. Typhi isolates, 20 from stool samples, and 2 from blood samples, all genotype 4.3.1 (H58). Out of this, 19 strains were from four patients also diagnosed with gallstones, of whom three had typhoid symptoms and continued to shed S. Typhi after treatment. All isolates had point mutations in the quinolone resistance-determining region (QRDR), and only sub-lineage 4.3.1.2.EA3 encoded multidrug resistance genes. There was no variation in antimicrobial resistance patterns among strains from the same patient/household. Non-multidrug resistant (MDR) isolates formed significantly stronger biofilms in vitro than the MDR isolates, p

Published

2024

2. Evaluation of Agronomic Characteristics, Disease Incidence, Yield Performance, and Aflatoxin Accumulation among Six Peanut Varieties (Arachis hypogea L.) Grown in Kenya

Author

Loise Njoki, Sheila Okoth, Peter Wachira, Abigael Ouko, James Mwololo, Margherita Rizzu, Safa Oufensou, and Truphosa Amakhobe

Subjects

peanut diseases, aflatoxins, Arachis hypogea L., agronomic characteristics, yield, biomass, Medicine

Abstract

Diseases contribute to attainment of less than 50% of the local groundnut potential yield in Kenya. This study aimed to evaluate the agronomic characteristics (flowering and germination), disease incidence, yield performance (biomass, harvest index, 100-pod, 100-seed, and total pod weight), and aflatoxin accumulation in six peanut varieties. A field experiment was conducted using four newly improved peanut varieties: CG9, CG7, CG12, and ICGV-SM 90704 (Nsinjiro), and two locally used varieties: Homabay local (control) and 12991, and in a randomized complete block design with three replications. The disease identification followed the International Crop Research Institute for the Semi-Arid Tropics (ICRISAT) rating scale and further isolation of fungal contaminants was conducted by a direct plating technique using potato dextrose agar. The aflatoxin levels in the peanuts were determined after harvesting using the ultrahigh performance liquid chromatography and fluorescence detection (UHPLC-FLD) technique. ICGV-SM 90704 showed the least average disease incidence of 1.31 ± 1.75%, (P < 0.05); the lowest total aflatoxin levels (1.82 ± 1.41 μg kg−1) with a range 0.00–0.85 μg kg−1 for total aflatoxins and a range 0.00–1.24 μg kg−1 for Aflatoxin B1. The locally used varieties (12991 and the control) revealed the highest disease incidence (5.41 ± 8.31% and 7.41 ± 1.88%), respectively. ICGV-SM 90704 was the best performing among all the six varieties with an average total pod weight (9.22 ± 1.19 kg), 100-pod weight (262.93 ± 10.8 g), and biomass of (27.21 ± 5.05 kg) per row. The 12991 variety and the control showed the least total pod weight (1.60 ± 0.28 and 1.50 ± 1.11 kg, respectively) (P = 0.0001). The newly improved varieties showed lower disease rates, low levels of aflatoxins, and higher yields than the locally used varieties.

Published

2023

3. Genetic Profiling of Aspergillus Isolates with Varying Aflatoxin Production Potential from Different Maize-Growing Regions of Kenya

Author

Richard Dooso Oloo, Sheila Okoth, Peter Wachira, Samuel Mutiga, Phillis Ochieng, Leah Kago, Fredrick Nganga, Jean-Baka Domelevo Entfellner, and Sita Ghimire

Subjects

Aspergillus flavus, Aspergillus minisclerotigenes, internal transcribed spacer, calmodulin, aflatoxigenicity, aflatoxin biosynthesis genes, Kenya, Medicine

Abstract

Highly toxigenic strains of Aspergillus flavus have been reported to frequently contaminate maize, causing fatal aflatoxin poisoning in Kenya. To gain insights into the environmental and genetic factors that influence toxigenicity, fungi (n = 218) that were culturally identified as A. flavus were isolated from maize grains samples (n = 120) from three regions of Kenya. The fungi were further characterized to confirm their identities using a PCR-sequence analysis of the internal transcribed spacer (ITS) region of rDNA which also revealed all of them to be A. flavus. A subset of 72 isolates representing ITS sequence-based phylogeny cluster and the agroecological origin of maize samples was constituted for subsequent analysis. The analysis of partial calmodulin gene sequences showed that the subset consisted of A. flavus (87%) and Aspergillus minisclerotigenes (13%). No obvious association was detected between the presence of seven aflatoxin biosynthesis genes and fungal species or region. However, the presence of the aflD and aflS genes showed some association with aflatoxin production. The assessment of toxigenicity showed higher aflatoxin production potential in A. minisclerotigenes isolates. Given that A. minisclerotigenes were mainly observed in maize samples from Eastern Kenya, a known aflatoxin hotspot, we speculate that production of copious aflatoxin is an adaptative trait of this recently discovered species in the region.

Published

2019

4. EFFECT OF SOIL FERTILITY MANAGEMENT PRACTICES AND BACILLUS SUBTILIS ON PLANT PARASITIC NEMATODES ASSOCIATED WITH COMMON BEAN

Author

Miriam Wepukhulu, John Kimenju, Beatrice Anyango, Peter Wachira, and Gerald Kyallo

Subjects

Diversity, inorganic fertilizers, organic amendments, biological control, Agriculture, Agriculture (General), S1-972

Abstract

On-farm and on-station field experiments were carried out to determine the potential of combining Bacillus subtilis with soil fertility management practices on plant parasitic nematodes and growth of common bean (Phaseolus vulgaris). The treatments were Bacillus subtilis (isolate K194), B. subtilis plus cow manure, B. subtilis plus mavuno, Bacillus subtilis plus farmer practice, manure alone ,mavuno alone with farmer practice as the control. The farmers’ practice entailed application of tripple super phosphate and calcium ammoniun nitrate at the rate of 1000 and 890 kg/ha, respectively. Manure and mavuno were applied at the rate of 10 tons and 890 kg/ha, respectively. The on-farm trial was carried out in 12 different farms. The combination of Bacillus subtilis and cow manure led to a 54% reduction in numbers of plant parasitic nematodes, compared to the untreated control. Consequently, damage by root-knot nematodes was 1.6 and 4.5 in plots treated with the combination (B. subtilis and cow manure) and the untreated control, respectively. Compared to the other treatments, combining B. subtilis and organic amendments resulted in the highest nematode evenness diversity. It can be therefore be concluded that the plant parasitic nematodes associated with common bean can be maintained at levels below economic threshold using B. subtilis combined with cow manure, an integration which also demonstrated conservation of the nematode diversity.

Published

2010

5. NEMATODE COMMUNITY STRUCTURE AS INFLUENCED BY LAND USE AND INTENSITY OF CULTIVATION

Author

John Kimenju, Nancy Karanja, Gerald Kyalo Mutua, Benson Rimberia, and Peter Wachira

Subjects

Abundance, diversity, richness and maturity index., Agriculture, Agriculture (General), S1-972

Abstract

This study was conducted to determine the effect of land use and intensity of land cultivation on the nematode community structure. The land use types represented in the study sites were natural forest, plantation forest, tea, coffee, napier grass, agroforestry, fallow and annual crop cultivation dominated by maize intercropped with beans. Nematode diversity and abundance decreased with intensity of land cultivation, with the natural forest being regarded as the benchmark. The decrease in nematode diversity was assessed using Shannon, Simpson and species richness indices and was used to reflect the underlying changes in physical, chemical and biological properties of soil environment. The highest maturity indices for free-living and plant parasitic index were recorded in the natural forest and intensively cultivated land under annual crops (maize/beans), respectively. Plant parasitic nematodes were predominant in soils that were under agricultural production while saprofagic nematodes dominated the forested land as exemplified by the ratios of free-living to plant parasitic which were, 5.18 and 0.54 in the natural forest and annual crop production systems respectively. Changes in the nematode community structure, as exhibited by diversity indices, may be a reflection of real differences in the soil characteristics and changes in ecosystem functions.

Published

2009

6. USE OF NEMATODE DESTROYING FUNGI AS INDICATORS OF LAND DISTURBANCE IN TAITA TAVETA, KENYA

Author

Peter Wachira and Sheila Okoth

Subjects

Arthrobotrys oligospora, evenness, vegetable field, natural forest., Agriculture, Agriculture (General), S1-972

Abstract

This study was undertaken to determine whether nematode destroying fungi can be used as indicators of soil disturbances. Soil samples were collected from an indigenous forest, maize/bean, napier grass, shrub and vegetable fields, which represented the main land use types in Taita Taveta district of Kenya. The fungal isolates obtained were grouped into seven genera. The species identified were, Acrostalagums obovatus, Arthrobotrys dactyloides, Arthrobotrys oligospora, Arthrobotrys superba, Dactyllela lobata, Haptoglosa heterospora, Harposporium anguillulae, Harposporium.sp, Monacrosporium cionopagum and Nematoctonous georgenious. Occurrence of nematode destroying fungi was significantly (P = 3.81 x 10 -7) different among the land use systems in the study area. Out of the isolates that were positively identified, 33.7 %, 27.9 %, 20.9 %, 11.6 % and 5.8 % were from fields under vegetable, maize/bean, napier grass, shrub and forest, respectively. Soil disturbance accounted for the highest occurrence of nematode destroying fungi (60.77 %) of the two main factors in the principal component analysis. While moisture, the second factor accounted for 23.35%. Fungal isolates from vegetable gardens were most diverse but the least even while the forest land use was most even but least diverse. The total richness of nematode destroying fungi was nine, in vegetable and maize/bean fields while was seven, six, and three in napier, shrub and forest habitats respectively in their decreasing order of disturbance. This study has established that nematode destroying fungi increases with increased land disturbance.

Published

2009

7. INFLUENCE OF SOIL FERTILITY AMENDMENT PRACTICES ON EX-SITU UTILISATION OF INDIGENOUS ARBUSCULAR MYCORRHIZAL FUNGI AND PERFORMANCE OF MAIZE AND COMMON BEAN IN KENYAN HIGHLANDS

Author

John Nyaga, Joyce Jefwa, Catherine Muthuri, Sheila Okoth, Viviene Matiru, and Peter Wachira

Subjects

Arbuscular Mycorrhizae Fungi (AMF), Soil fertility amendment practices, indigenous species, inoculation, crop yield, colonisation intensity, Agriculture, Agriculture (General), S1-972

Abstract

Arbuscular Mycorrhizal Fungi (AMF) are important in agriculture and have received attention as they are considered a part of an active and diverse soil biological community essential for increasing the sustainability of agricultural systems. However, most of agricultural practices have a negative impact on AMF association and agricultural soils are AMF impoverished. Interventions to replenish AMF include re-introduction through inoculation or manipulation of existing AMF to increase density. A major problem with inoculation is that there is possible competition with native (indigenous) AMF species. Indigenous AMF will be more adapted to the soil environment than introduced strains but with conflicting results on the effects of AMF inoculation on crop yield, more field studies for different ecological areas are required. The objective of the study was to compare the effect of inoculating crops with indigenous AMF applied applied singly or combined with other Soil Fertility Amendment Practices (SFAP) on root colonisation and subsequent performance of maize (Zea mays L.) and common bean (Phaseolus vulgaris L.). Analysis was also done on the best soil amendment practice that encourages crop colonisation by AMF. This was tested under field experiment and compared with control treatment (no soil amendment practice) and three other soil fertility amendment practices used singly or in combination with AMF; (1) MAVUNO (macro- and micronutrients and secondary nutrients) fertilizer, and (2) Calcium Ammonium Nitrate (CAN) and Triple Super Phosphate (TSP) (3) cattle manure. Maize and bean performances were determined and compared between the treatments for a period of two consecutive seasons with the experiment replicated in two benchmark sites of Embu district (highlands of central Kenya) and Taita-Taveta district (coastal highlands). Soils at Embu have high soil pH than at Taita which results in low phosphorus levels and possible micronutrients deficiencies. Even though no significant differences were observed from root colonisation by AMF with application of SFAP, significant differences were observed at the crop yield. Bean crop was more responsive to AMF inoculation than maize in terms of yield. Combination of AMF inoculant with other organic and inorganic fertilizers resulted in higher crop yield compared to AMF applied singly. Thus, utilisation of indigenous AMF species has potential to constitute an environmentally friendly method of soil fertility amendment over time to improve maize and bean production potential of small-scale holders but consideration should be done on the local soil nutrients conditions, other soil fertility amendment practices in use and the targeted crop.

Published

2014

8. Mycoflora, aflatoxin, and fumonisin levels present in layer feed in Nairobi County

Author

Peter Wachira, Truphosa Viola Amakhobe, and Sheila Okoth

Subjects

Fusarium, Veterinary medicine, Aflatoxin, biology, business.industry, Immunology, food and beverages, Poultry farming, biology.organism_classification, chemistry.chemical_compound, chemistry, Fumonisin, Potato dextrose agar, media_common.cataloged_instance, European union, Mycotoxin, business, Cladosporium, media_common

Abstract

Layer feeds in Africa largely comprise cereals that are susceptible to mycotoxin contamination. Mycotoxins pose a health and production hazard in the poultry industry. This study investigated the mycoflora associated with layer feeds and mycotoxin content. 50 samples each of chick mash, grower mash, and layer mash were sampled from five regions in Nairobi County where urban poultry farming is carried out. Dilution plate technique was used to isolate fungi in Potato Dextrose Agar (PDA) and identified using morphological and molecular methods. Total aflatoxins (AF) and total fumonisins (FUM) levels were screened using Enzyme-Linked Immunosorbent Assay (ELISA). Aspergillus (91%), Penicillium (77%), Fusarium (13%), Mucor (11%), Rhizopus (9%), Cladosporium (4%), and Cochliobolus (1%) were isolated. AF was detected in 65% of feed samples (0.22 μg/kg - 157.89 μg/kg) while FUM in 91% of feed samples (210 μg/kg - 15173 μg/kg). Sixty-two samples (42%) had AF levels greater than the Kenya Bureau of Standards (KEBS) recommended limit of 10 μg/kg in poultry feed. No sample contained FUM levels higher than the European Union (EU) recommended limit of 20000 μg/kg. Our results highlight AF contamination in farms in the County, raising concern to poultry and public health due to AF residues in eggs.&nbsp

Published

2021

9. Characterization and pathogenicity of symbiotic bacteria associated with entomopathogenic nematode: Steinernema species KALRO

Author

Sheila Okoth, Jesca Mbaka, Peter Wachira, Peter Mangua, and Ceciliah Ngugi

Subjects

biology, fungi, Biological pest control, Xenorhabdus, Tuta absoluta, Entomopathogenic nematode, biology.organism_classification, 16S ribosomal RNA, Bacterial cell structure, Bacteria, Microbiology, Symbiotic bacteria

Abstract

The soil inhibiting entomopathogenic nematodes (EPNs), in the family Steinernematidae and Heterorhabditidae, are useful insect biological control agents. They have been used in the management of economically important crop pests. The EPNs are mutually associated with symbiotic bacteria genus Xenorhabdus and Photoharbdus respectively. The study aimed to isolate, characterize and evaluate the pathogenicity of symbiotic bacteria associated with EPN Steinernema sp. Kalro (Accession MW151701). The EPN Steinernema sp. Karlo was multiplied using the insect baiting technique. Its bacteria symbiont was isolated and characterized based on microscopic, biochemical, and physiological features like Gram staining, urease, motility test, and glucose fermentation test). Molecular identification and phylogenetic analysis were performed on 16S rDNA nucleotide sequence. Pathogenicity of the bacteria isolate was evaluated against Tuta absoluta larvae with mortality data recorded after 24 and 48hours of exposure to the bacterial cell suspension. The bacteria were found to be motile and glucose fermentation positive. Sequence analysis of 16S rDNA region resulted in 1500bp sequence with maximum similarity of between 97 and 98.93%, with Xenorhabdus spp Accessions from Genbank. It closely matched to Xenorhabdus sp. My8NJ with 98.93% similarity (Accession AB507811.1). Mean percent larval mortality of 68±4.9 and 88±8.0 in the lowest cell suspension was observed in 24 and 48h of exposure. It’s concluded that, the symbiotic bacteria associated with Steinernema sp. Kalro is Xenorhabdus sp. strain Kalro Genbank Accession MW245845. The bacteria is a potential biological control agent against Tuta absoluta larvae. Further classification of the bacteria to species level and pathogenicity trials in the screen house and field are recommended.

Published

2021

10. Mycotoxins contaminating herbs and spices in Africa: A review

Author

C N Wakhungu, Peter Wachira, Sheila Okoth, and Otieno. N. A.

Subjects

chemistry.chemical_compound, chemistry, Herbs, Spices, Fungi, Mycotoxins, Immunology, food and beverages, Mycotoxin, complex mixtures

Abstract

There is an increasing demand for herbs and spices within the African continent either for culinary or medicinal purposes. Though herbs and spices are regularly consumed in small quantities in the diets, they serve as good sources for antioxidant components. Their nutritive nature renders them susceptible to contamination with toxigenic fungi such as Aspergillus, Penicillium and Fusarium species. Exposure to mycotoxins leads to mycotoxicoses that are detrimental to human health. Aflatoxins and ochratoxins are the most prevalent mycotoxins found contaminating herbs and spices and they have been reported to be carcinogenic in nature. Contamination of herbs and spices with mycotoxins also contributes to rejection of produce from Africa by the global market leading to economic losses. Good agricultural practices such as plant disease management and proper post harvest handling of herbs and spices limits mycotoxin levels in herbs and spices but do not eliminate them completely. Currently, physical techniques offer the most efficient post harvest reduction of mycotoxins in herbs and spices but the largest potential for future developments lies with biotechnology. The present review focuses on occurrence of mycotoxins in culinary herbs and spices within African countries providing insights into mitigation strategies for reduced human exposure to mycotoxicoses.

Published

2021

11. Biocontrol Potential of Four Indigenous Entomopathogenic Nematodes From Kenya

Author

Sheila Okoth, Peter Wachira, C. N. Ngugi, S. Haukeland, J. N. Mbaka, and E. G. Thuranira

Subjects

Integrated pest management, Larva, Veterinary medicine, Nematode, biology, Biological pest control, Virulence, Tuta absoluta, PEST analysis, Pesticide, biology.organism_classification

Abstract

Globally, vegetable production including tomato is constrained by pests and diseases. The tomato leafminer, Tuta absoluta (Meyrick.), is a major pest of tomato, mainly managed using chemical pesticides. There is a need for integrated pest management (IPM), approaches that are human and environmentally friendly. The study aimed at molecular identification and virulence evaluation of four entomopathogenic nematodes (EPNs) against T. absoluta larvae. The DNA was extracted, sequenced, and phylogeny analyzed. The EPNs virulence was evaluated using the insect baiting technique at different nematode concentrations (0-Control, 100, 150, 200, and 250 infective juveniles/ml of distilled water). Larval mortality data were collected for five days. Molecular identification resulted in nucleotide sequence lengths of 877-895 base pairs (bp). All the isolates were found to be Steinernema species of EPNs. The % similarity of the isolates and their close relatives ranged between 82-100%. The isolates closely matched Steinernema spp. AY230184 (Sri Lanka); AY230186 (Kenya), JN651414 (Ethiopia), and MW151701 (Kenya). The sequences were deposited to Genbank as Steinernema sp. Isolate Kalro 75 (MW150871), Steinernema sp. Isolate Kalro S86 (MW150872), Steinernema sp. isolate Kalro97 (MW150873) and Steinernema sp. Isolate KalroR52 (MW150874). All the EPN isolates were virulent against T. absoluta. Isolate Kalro R52 and Kalro S86 recorded the highest mortality of 76±7.5%; 72±15.0% respectively in the 48 h. There was a significant difference (P < 0.001), between all the isolates and the Control. The four EPNs were virulent and have bio-control potential against, T. absoluta. Research on their virulence against T. absoluta in the field is recommended.

Published

2021

12. Susceptibility of locally cultivated groundnut (Arachis hypogaea) varieties to aflatoxin accumulation in Homa Bay County, Kenya

Author

Victor Omondi Kagot, Ndisio Boaz, Peter Wachira, and Sheila Okoth

Subjects

0106 biological sciences, Aflatoxin, biology, food and beverages, Sowing, Aspergillus flavus, 04 agricultural and veterinary sciences, Plant Science, biology.organism_classification, 01 natural sciences, Microbiology, Nutrient content, Arachis hypogaea, Toxicology, chemistry.chemical_compound, Infectious Diseases, chemistry, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, heterocyclic compounds, Colonization, Mycotoxin, Bay, 010606 plant biology & botany

Abstract

Groundnut is one of the staple foods in many parts of the world. Due to its high nutrient content, the nuts are liable to colonization by aflatoxigenic fungi and subsequent aflatoxin accumulation. This study was aimed at determining susceptibility of locally grown groundnut varieties to Aspergillus flavus in Homa Bay County, Western Kenya. A pretested questionnaire was used to survey agronomic practices on groundnut cultivation in 75 randomly selected households in the study site. From each household farm, 100 g soil samples and 500 g of groundnuts were collected at harvest and A. flavus isolated on Modified Rose-Bengal Agar and identified. Aflatoxin was then extracted from each of the groundnut samples and quantified using direct competitive enzyme linked immunosorbent assay (ELISA). Red Valencia was the most cultivated among the 8 varieties identified. Farmers (66%) obtained the planting seeds from the local market and most (92%) did not use fertilizers with majority (94%) having no knowledge of aflatoxins. There was no significant inter-variety difference in aflatoxin accumulation (p=0.744, F=0.581, Df=6, 61). A highly significant association (t = 2.652; P = 0.010) was found between storage state of the groundnuts and aflatoxin levels, with 94% of the samples stored unshelled having aflatoxin levels below 10 ppb. Overall, only 6.7% of kernels sampled from all the divisions did not meet the EC aflatoxin limit of ≤4 ppb while 4% did not meet the KEBS limit of ≤10 ppb. Though the agronomic practices were poor, aflatoxin levels were predominantly low in the region suggesting that the aflatoxin accumulation is likely influenced by agro-ecological zoning as other studies have also been indicated. Key words: Groundnuts, Aflatoxins, Aspergillus flavus.

Published

2017

13. Cultural, Morphological and Pathogenic Variability among Fusarium oxysporum f. sp. phaseoli Causing Wilt in French Bean (Phaseolus vulgaris L.)

Author

John W. Kimenju, Sheila Okoth, Peter Wachira, and P. K. Maina

Subjects

Horticulture, Botany, Fusarium oxysporum, General Medicine, Biology, Phaseolus, biology.organism_classification

Published

2017

14. Genetic Profiling of Aspergillus Isolates with Varying Aflatoxin Production Potential from Different Maize-Growing Regions of Kenya

Author

Samuel Mutiga, Jean-Baka Domelevo Entfellner, Richard Dooso Oloo, Peter Wachira, Fredrick Nganga, Phillis Emelda Ochieng, Sheila Okoth, Leah Kago, and Sita R. Ghimire

Subjects

Aflatoxin, Veterinary medicine, calmodulin, Health, Toxicology and Mutagenesis, Genes, Fungal, lcsh:Medicine, Aspergillus flavus, Toxicology, Zea mays, Article, 03 medical and health sciences, Aflatoxins, Phylogenetics, heterocyclic compounds, Internal transcribed spacer, Gene, aflatoxin biosynthesis genes, 030304 developmental biology, 0303 health sciences, Aspergillus, biology, 030306 microbiology, Gene Expression Profiling, lcsh:R, food and beverages, Aspergillus minisclerotigenes, biology.organism_classification, aflatoxigenicity, Kenya, Culture Media, internal transcribed spacer, DNA profiling

Abstract

Highly toxigenic strains of Aspergillus flavus have been reported to frequently contaminate maize, causing fatal aflatoxin poisoning in Kenya. To gain insights into the environmental and genetic factors that influence toxigenicity, fungi (n = 218) that were culturally identified as A. flavus were isolated from maize grains samples (n = 120) from three regions of Kenya. The fungi were further characterized to confirm their identities using a PCR-sequence analysis of the internal transcribed spacer (ITS) region of rDNA which also revealed all of them to be A. flavus. A subset of 72 isolates representing ITS sequence-based phylogeny cluster and the agroecological origin of maize samples was constituted for subsequent analysis. The analysis of partial calmodulin gene sequences showed that the subset consisted of A. flavus (87%) and Aspergillus minisclerotigenes (13%). No obvious association was detected between the presence of seven aflatoxin biosynthesis genes and fungal species or region. However, the presence of the aflD and aflS genes showed some association with aflatoxin production. The assessment of toxigenicity showed higher aflatoxin production potential in A. minisclerotigenes isolates. Given that A. minisclerotigenes were mainly observed in maize samples from Eastern Kenya, a known aflatoxin hotspot, we speculate that production of copious aflatoxin is an adaptative trait of this recently discovered species in the region.

Published

2019

15. Co-occurrence and Diversity of Soil Trichoderma and Fusarium species from Different Land Use Intensities in Machakos County, Kenya

Author

Sheila Okoth, P. K. Maina, Peter Wachira, John W. Kimenju, and Joseph Mwangi

Subjects

0106 biological sciences, 0301 basic medicine, Soil health, Fusarium, Irrigation, Topsoil, Soil test, Soil biology, General Medicine, Biology, biology.organism_classification, 01 natural sciences, 03 medical and health sciences, 030104 developmental biology, Agronomy, Abundance (ecology), Trichoderma, 010606 plant biology & botany

Abstract

Soil fungi are important components of the soil biota and their diversity is a good indicator of soil health. Soil fungi respond differently to land use practices and to their relative populations. The cooccurrence and diversity of Trichoderma and Fusarium species against various land use types (LUTs) was investigated. The genus Trichoderma contains many important species with potential for biocontrol of soil-borne plant pathogens as well as high saprophytic capacity while the genus Fusarium has many species that are highly pathogenic to plants and with potential for mycotoxin production. This research adopted a cross-sectional study design. Soil samples were collected from 3 land-use types (LUTs) in Kabaa irrigation scheme in Machakos County, Kenya, that is, intensive land-uses under irrigation and rain-fed agriculture and undisturbed lands. From the top soil layer, 100 soil samples were collected. The samples were processed and 369 Trichoderma Original Research Article Maina et al.; ACRI, 4(1): 1-13, 2016; Article no. ACRI.24894 2 and 1,546 Fusarium isolates recovered. Fusarium had a higher abundance than Trichoderma in the highly disturbed lands. In the undisturbed lands, Trichoderma had a higher abundance than Fusarium. There was a clear negative correlation between Trichoderma and Fusarium occurrence and diversity. The study further revealed that disturbance had a positive effect on Fusarium but a negative one on Trichoderma.

Published

2016

16. Arbuscular mycorrhizal fungi with different soil fertility amendment practices in agricultural landscapes of Kenyan highlands

Author

John Nyaga, J.M. Jefwa, Peter Wachira, Viviene Matiru, Catherine Muthuri, and Sheila Okoth

Subjects

biology, fungi, food and beverages, Soil Science, engineering.material, biology.organism_classification, Manure, Arbuscular mycorrhiza, Calcium ammonium nitrate, chemistry.chemical_compound, Nutrient, Agronomy, chemistry, Soil pH, Soil water, engineering, Fertilizer, Soil fertility, Agronomy and Crop Science

Abstract

Several interrelated and site-specific agronomic factors ranging from agroecological conditions to systems management practices have been shown to variably affect arbuscular mycorrhizal fungi (AMF) diversity in the soil. Also, there have been various attempts in the past to evaluate the potential of AMF field inoculation but a majority focussed on the use of exotic strains, disregarding the potential of the existing naturally occurring strains. In an attempt to address these problems, our study aimed to develop ‘best-bet practice’ based on soil fertility amendment practice (SFAP) that encourages occurrence and diversity of AMF in the soil. Control treatment (no application) was compared with three (3) SFAP used singly or in combination with AMF or two other soil nutrients enhancing organisms (Bacillus and Trichoderma) which included the following: (1) Mavuno (macro- and micronutrients and secondary nutrients) fertilizer, (2) calcium ammonium nitrate (CAN) plus triple super phosphate (TSP) and (3) cattle manure. Maize (Zea mays L.) and common bean (Phaseoli vulgaris L.) were planted at on-station and on-farm plots for two consecutive cropping seasons with the experiment replicated in two benchmark sites of Embu and Taita-Taveta Districts. Embu site recorded a lower soil pH and also very low phosphorus levels compared to Taita site. The number of AMF spores per kg of soil was very low, ranging from 30 to 100, at Embu in the first season and application of SFAP resulted in no significant difference. However, in the second season, use of Trichoderma + CAN plus TSP was shown to significantly stimulate AMF species in the soil, with a 250 % increase in species density compared to use of Bacillus + Manure. At Taita, after the first cropping season, significant change in spore density was only recorded from AMF applied singly with a 66.1 % increase in spore density compared to Control treatment. In comparison, after the second cropping season, use of AMF applied singly, AMF + CAN plus TSP and AMF + Manure increased spore density by 135.4, 109.6 and 100 % respectively compared to Control treatment. Use of AMF applied singly increased species density in the soil by 100 and 81.1 % compared to CAN plus TSP and Trichoderma treatments respectively after first season at Taita site: while after the second cropping season, application of AMF + CAN plus TSP, AMF + Manure and AMF + Mavuno increased AMF species density in the soil by 60.3, 51.5 and 55.9 % respectively compared to Control treatment. These findings provide evidence that it is possible to increase the number of AMF spores in the soil through inoculation with native species and also possibly stimulate dormant species through other SFAP treatments.

Published

2015

17. Effects of Medicinal Plant Extracts and Photosensitization on Aflatoxin Producing Aspergillus flavus (Raper and Fennell)

Author

Loise M. Njoki, Sheila Okoth, and Peter Wachira

Subjects

0301 basic medicine, Microbiology (medical), Lippia, Aflatoxin, biology, Article Subject, 030106 microbiology, fungi, food and beverages, Aspergillus flavus, Syzygium cordatum, Solanum aculeastrum, biology.organism_classification, Ocimum, 01 natural sciences, Microbiology, QR1-502, 0104 chemical sciences, Spore, 010404 medicinal & biomolecular chemistry, 03 medical and health sciences, Minimum inhibitory concentration, Botany, Food science

Abstract

This study was undertaken with an aim of exploring the effectiveness of medicinal plant extracts in the control of aflatoxin production. Antifungal properties, photosensitization, and phytochemical composition of aqueous and organic extracts of fruits from Solanum aculeastrum, bark from Syzygium cordatum, and leaves from Prunus africana, Ocimum lamiifolium, Lippia kituiensis, and Spinacia oleracea were tested. Spores from four-day-old cultures of previously identified toxigenic fungi, UONV017 and UONV003, were used. Disc diffusion and broth dilution methods were used to test the antifungal activity. The spores were suspended in 2 ml of each extract separately and treated with visible light (420 nm) for varying periods. Organic extracts displayed species and concentration dependent antifungal activity. Solanum aculeastrum had the highest zones of inhibition diameters in both strains: UONV017 (mean = 18.50±0.71 mm) and UONV003 (mean = 11.92±0.94 mm) at 600 mg/ml. Aqueous extracts had no antifungal activity because all diameters were below 8 mm. Solanum aculeastrum had the lowest minimum inhibitory concentration at 25 mg/ml against A. flavus UONV017. All the plant extracts in combination with light reduced the viability of fungal conidia compared with the controls without light, without extracts, and without both extracts and light. Six bioactive compounds were analyzed in the plant extracts. Medicinal plant extracts in this study can control conidia viability and hence with further development can control toxigenic fungal spread.

Published

2017

18. Geospatial Digital Rights Management

Author

Joseph M. Ndung’u, Margaret N. Ndungo, Titus M. Ng’ang’a, Tim L. Wango, and Peter Wachira

Subjects

Spatial data infrastructure, Geospatial analysis, Digital rights management, Computer science, business.industry, Environmental resource management, computer.software_genre, business, computer

Abstract

This Chapter introduces the need for general Digital Rights Management (DRM) requirements. Further, it intertwines DRM with its spatial counterpart, Geospatial DRM (GeoDRM). However, unlike DRM, GeoDRM is far much complicated due to issues such as the development of Web Mapping technology among other issues. The Chapter discusses the ability of GeoDRM to mitigate transgression of Intellectual Property Rights (IPR). Highlighting economical and environmental wellbeing and other benefits of Spatial Data Infrastructure (SDI) geared towards global sustainable developments, the Chapter focuses on challenges of National Spatial Data Infrastructures (NSDIs) and Regional SDIs and the need to harmonize their standards for the upward mobility of global SDI (GSDI). Emphasizing the undisputed need for Local, Regional and Global Spatial Data Infrastructures (SDIs), in the presence of various Geo-communities and different GeoDRM models, the Chapter concludes that capacity building need to be urgently but carefully harnessed across all levels in order to develop cohesive GeoDRM policies.

Published

2017

19. Impact of land use types and farming practices on occurrence of arbuscular mycorrhizal fungi (AMF) Taita-Taveta district in Kenya

Author

J.M. Jefwa, Sheila Okoth, Nancy Karanja, Peter F. Okoth, Jeroen Huising, Peter Wachira, Joseph Mung’atu, S. Njuguini, J. Kahindi, and S. Ichami

Subjects

Ecology, biology, Land use, business.industry, Acaulosporaceae, Species diversity, biology.organism_classification, Spore, Agronomy, Agriculture, Abundance (ecology), Botany, Animal Science and Zoology, Species richness, business, Agronomy and Crop Science, Glomus

Abstract

A study was undertaken along land use gradients in Taita-Taveta district, southeast Kenya to evaluate the occurrence of arbuscular mycorrhizal fungi (AMF) in seven land use types (LUT). The gradient was from indigenous forest (IF) to croplands with coffee (CO), maize (MA), horticulture (HT), napier (NA) and planted forest (PF). A total of 12 AMF morphotypes comprising of 4 Glomus , 1 Claroideoglomus , 5 Acaulosporaceae, 1 Racocetra sp. and 1 Gigaspora were isolated from the study site. Occurrnace of Acaulospora denticulata , Glomus ambisporum and Claroideoglomus etunicatum was significantly ( p A. denticulata , Acaulospora laevis , G. ambisporum , Glomus sp. 1, Glomus sp. 2 and Gigaspora margarita were common in all LUT; C. etunicatum and Glomus sp. 3 were restricted and Acaulospora scrobiculata and two additional undescribed morpotypes were found only in trap cultures. Mean spore abundance was significantly ( p = 0.007) different in cropped systems with CO (35), HT (36.6) and MA (41.7) recording lower mean spore abundance compared to non-cropped systems with PF (130), NA (91.3), FA (89.7) and NA (84.3). AMF species showed preference for either cropped or non-cropping systems and species diversity and richness were maintained despite dramatic changes in LUT.

Published

2012

20. Suitability of Locally Available Substrates for Oyster Mushroom (Pleurotus ostreatus) Cultivation in Kenya

Author

G. O. M. Odero, John W. Kimenju, Rama D. Narla, Eunice Mutitu, Peter Wachira, and W. M. Muiru

Subjects

Mushroom, Oyster, biology, Crop yield, Plant Science, Straw, biology.organism_classification, Stipe (botany), Agronomy, biology.animal, Pileus, Pleurotus ostreatus, Coir, Agronomy and Crop Science

Published

2009

21. Diversity of nematode destroying fungi in Taita Taveta, Kenya

Author

John W. Kimenju, Peter Wachira, R. K. Mibey, JW Kiarie, and Sheila Okoth

Subjects

Ecology, biology, ved/biology, Ecological Modeling, ved/biology.organism_classification_rank.species, Biological pest control, Biodiversity, Plant Science, biology.organism_classification, Shrub, Nematoctonus, Taxon, Nematode, Harposporium, Monacrosporium, Botany, Ecology, Evolution, Behavior and Systematics

Abstract

The diversity of nematode destroying fungi in Taita Taveta, Wundanyi division, Coast Province, Kenya, was investigated between May 2006 and December 2007 aiming at harnessing their potential in the biological control of plant parasitic nematodes in the area. Given that the intensity of land cultivation is continually increasing in the study area, it is prudent to document the status of the nematode destroying fungi before the remaining forest habitats are ultimately disrupted. Soil samples were collected from forest, maize/bean, napier grass, shrub and vegetable fields, which represented the main land use types in the study area. The soil sprinkle technique method was used to isolate the nematode destroying fungi from the soil. The fungi were identified to species level. Eighty-five isolates, distributed in eight genera and 14 taxa were identified as nematode destroying fungi. The species identified were Arthrobotrys dactyloides , Arthrobotrys oligospora , Arthrobotrys superba , Acrostalagamus obovatus , Dactyllela lobata , Harposporium aungulilae , Harposporium liltiputanum , Harposporium spp, Haptoglosa heterospora , Monacrosporium asterospernum , Monacrosporium cianopagum , Myzocytium , spp, Nematoctonus georgenious and Nematoctonus leptosporus . Vegetable land use had the highest diversity of nematode destroying fungi. The results show that the study area is rich in nematode destroying fungi with A. oligospora being widespread and a possible candidate for biological control of plant parasitic nematodes.

Published

2009

22. Stimulation of Nematode-Destroying Fungi by Organic Amendments Applied in Management of Plant Parasitic Nematode

Author

John W. Kimenju, Sheila Okoth, Peter Wachira, and R. K. Mibey

Subjects

Nematode, Agronomy, biology, business.industry, Botany, Biological pest control, Pest control, Plant Science, Natural enemies, Poultry manure, business, biology.organism_classification, Agronomy and Crop Science

Published

2009

23. Effect of Land Use on Occurrence and Diversity of Nematode Destroying Fungi in Taita Taveta, Kenya

Author

Sheila Okoth, R. K. Mibey, Peter Wachira, J Mung`atu, and John W. Kimenju

Subjects

Arthrobotrys oligospora, Land use, Ecology, Agroforestry, media_common.quotation_subject, Natural forest, Plant Science, Biology, biology.organism_classification, Nematode, Species evenness, Agronomy and Crop Science, Diversity (politics), media_common

Published

2008

24. Susceptibility of locally cultivated groundnut (Arachis hypogaea) varieties to aflatoxin accumulation in Homa Bay County, Kenya

Author

Ndisio, Boaz, primary, Peter, Wachira, additional, Victor, Kagot, additional, and Sheila, Okoth, additional

Published

2017

25. Effects of Land-Use Intensification on Distribution and Diversity of Fusarium Species in Machakos County, Kenya

Author

M. Otipa, Sheila Okoth, P. K. Maina, John W. Kimenju, Peter Wachira, and JW Kiarie

Subjects

Fusarium, Irrigation, Land use, business.industry, Biology, biology.organism_classification, Crop, Agronomy, Abundance (ecology), Agriculture, Fusarium oxysporum, Botany, Species richness, business

Abstract

Land-use intensification has a significant influence on occurrence of soil microorganisms. The effect of this phenomenon on Fusarium species is poorly characterized. One hundred soil samples were obtained from 3 replicated land- use types (LUT) in Mwala and Kauti irrigation regions in Machakos County. These included two intensive land-uses under irrigation and rain-fed agriculture and undisturbed lands. Mwala irrigated lands were divided into four blocks based on history of cultivation. Using soil dilution plate technique, 1,546 isolates of Fusarium were recovered and identified into twelve species namely; F. oxysporum, F. solani, F. nygamai, F. equiseti, F. chlamydosporum, F. beomiforme, F. verticillioides, F. proliferatum, F. acuminatum, F. compactum, F. semitectum, and F. merismoides. Fusarium oxysporum was the most abundant and diverse Fusarium species. Fusarium semitectum, F. compactum and F .merismoides had the least distribution being isolated from only one LUT. Fusarium beomiforme and F. acuminatum were recovered from irrigated farmlands only while F. verticillioides, F. proliferatum and F. acuminatum were restricted to disturbed lands only. The difference in abundance of Fusarium between the three LUTs was significant (P = 0.047) with irrigated lands having the highest abundance. Mwala block A had the highest abundance, richness and diversity of Fusarium. Lands with a higher intensity of disturbance had a higher abundance and richness of Fusarium than the less undisturbed lands. This may have severe implication on crop production as most species of Fusarium isolated are pathogenic. Sustainable ways of controlling these potential crop pathogens should be sought.

Published

2015

26. Effect of Land Use on Abundance and Diversity of Nematode Destroying Fungi and Soil nematodes in Embu County, Kenya

Author

J. W. Wangu, Sheila Okoth, J. K. Kimenju, Peter Wachira, and T. M. Ng’ang’a

Subjects

Nematoctonus, Diversity index, biology, Agronomy, Monacrosporium, Harposporium, Biological pest control, Biodiversity, Species richness, biology.organism_classification, Arthrobotrys

Abstract

Belowground biodiversity is one of the key indicators of the sustainability of a land use. This study sought to document the occurrence and diversity of nematode destroying fungi in an area characterized by small scale agriculture in Embu County, Kenya. The study area was divided into six main land use types namely; coffee, fallow, forest, maize/bean intercrop, napier and tea. Nematode destroying fungi were extracted from five soil samples from each of the land uses. A total of 161 isolates of nematode destroying fungi belonging to nine genera and 19 species were isolated and identified. The genera represented were Arthrobotrys, Dactyllela, Dactylaria, Harposporium, Monacrosporium, Myzocytium, Nematoctonous, Paecilomyces and Stylophage. The occurrence of nematode destroying fungi was significantly (P=0.02519) affected by the land use types in the study area. With the exception of Arthrobotrys superb, Dactyllela haptospora, Dactyllela reticulate, Harposporium anguillulae and Monacrosporium ellipsoporum all the other 19 isolated species were not affected by land use types. The highest total mean occurrence of nematode destroying fungi was recorded in maize/bean, followed by nappier, coffee, forest, fallow and tea , in that order. The respective frequency of detection of the fungal species was 7.6, 7.2, 5.0, 4.0 and 3.6. The Shannon index of diversity was highest and lowest at 1.971and 1.177 in the land under maize/bean intercrop and tea, respectively. The species richness was higher in napier, followed by maize bean, coffee, forest and least in tea. Out of the fungi that were isolated, the highest proportion of 23% was from the maize/bean intercrop, while the least 11% was from land under ea. Arthrobotrys oligospora was the most frequently isolated species with a frequency of 24% while Nematoctonus pachysporus had the least frequency of occurrence of 1%. It can be concluded that land use influences the diversity of nematode destroying fungi and nematodes in the soil. More work is needed to determine the efficacy of these indigenous isolates on plant parasitic nematodes.

Published

2014

27. Evaluation of Selected Methods in the Control of Plant Parasitic Nematodes Infecting Carnation

Author

G.K. Mutua, John W. Kimenju, W. Otineo, J. K. Lang’at, and Peter Wachira

Subjects

biology, Carnation, biology.organism_classification, Nematophagous fungus, chemistry.chemical_compound, Horticulture, Nematode, Agronomy, chemistry, Helicotylenchus, Monoculture, Longidorus, Bagasse, Fenamiphos

Abstract

Plant parasitic nematodes, whose control options are restricted, continue to cause enormous losses in crop production systems including carnations. This study was carried out with the aim of developing environmentally sound approaches for adoption in the management of phytonematodes affecting carnations. Various organic amendments were evaluated namely sugarcane bagasse, tea and assorted flower composts and molasses, in addition nematophagous fungus Paecilomyces lilacinus (PL plus ® ) and neem (Achook ® ). Meanwhile, a standard chemical nematicide, fenamiphos (Nemacur ® ), was used next to untreated plots were as control. The experiments were carried out under greenhouse conditions. Soil samples were collected before application of the amendments and at 90 and 180 days after treatment. Parasitic nematodes belonging to 16 genera were detected in plots where carnation had been produced under monoculture over several years. The most predominant of the nematodes detected were in the genera Scutellonema, Helicotylenchus and Meloidogyne, with 100, 82 and 100% frequencies of occurrence, respectively. Treatments effects caused a reduction in numbers of plant parasitic nematodes, with the exception of nematodes in the genera Helicotylenchus, Criconema and Longidorus. Galling due to root-knot nematode was reduced by between 53%, in plots treated with sugarcane bagasse, and 69% in those treated with neem. This study has established that application of organic substrates, neem and P. lilacinus reduced plant parasitic nematodes. The materials can be recommended for use in sustainable carnation production systems.

Published

2014

28. Conservation and Sustainable Management of Soil Biodiversity for Agricultural Productivity

Author

Peter Wachira, John W. Kimenju, JW Kiarie, and Sheila Okoth

Subjects

chemistry.chemical_classification, Soil health, Resistance (ecology), Soil biodiversity, Agroforestry, fungi, food and beverages, complex mixtures, Agronomy, chemistry, Sustainable management, Environmental science, Organic matter, Agricultural biodiversity, Agricultural productivity, Plant nutrition

Abstract

Soil biodiversity represents the variety of life belowground whose interaction with plants and small animals forms a web of biological activity. It improves the entry and storage of water, resistance to soil erosion, and plant nutrition, while also controlling soil pests and disease, and facilitating recycling of organic matter in the soil. Soil biodiversity is therefore the driver of healthy soil for sustainable crop production.

Published

2014

29. Occurrence and Diversity of Nematode Destroying Fungi in Banana Production Zones in Maragua, Kenya

Author

Peter Wachira, JW Kiarie, John W. Kimenju, S. W. Mwaniki, and A. W. Kihurani

Subjects

biology, business.industry, fungi, biology.organism_classification, Diversity index, Altitude, Nematode, Taxon, Agronomy, Lobata, Harposporium, Agriculture, Soil water, Botany, business

Abstract

The occurrence and diversity of nematode destroying fungi in banana based farming systems was investigated in Maragua, Kenya. The ultimate aim of the study is to harness the potential of these beneficial fungi in the control of plant parasitic nematodes, one of the most important banana pests in the region. The study area was stratified into three agro-ecological zones; high, middle and lower from which soil samples were collected. The soil sprinkle method was used to isolate the nematode destroying fungi from the soil. Fifty eight isolates from five genera and six taxa were identified to species level. The species identified were; Arthrobotrys oligospora, A. dactyloides, Monacrosporium cionopagum, Meria coniospora, Dactyllela lobata and Harposporium aungullilae. The results also indicated that, the occurrence of nematode destroying fungi was significantly (2.2 x 10 -16 ) different among the production zones with the frequency of detection decreasing with altitude. The mean frequency of nematode destroying fungi occurrence was 2.8 in the lower zone, while 1.8 and 1.2 was recorded in middle and high zones, respectively. The Shannon diversity index also indicated that, the low ecological zone was the most diverse followed by the middle and the least being the high zone. Monacrosporiun cionopagum was the most frequently isolated of the nematode destroying fungi in the study area with an accumulative frequency of 37.9%. It can be concluded that, soils in the banana production zones are rich in nematode destroying fungi and M. cionopagum is being the most wide spread species.

Published

2013

30. Diversity of Nematodes and Nematode Destroying Fungi as Influenced by Land Use in Taita Taveta, Kenya

Author

Sheila Okoth, JW Kiarie, John W. Kimenju, and Peter Wachira

Subjects

Total organic carbon, Nematode, biology, Land use, Soil test, Agronomy, Soil biodiversity, Soil retrogression and degradation, Soil water, Species diversity, biology.organism_classification

Abstract

Land intensification is thought to lead to soil degradation and consequently to loss of soil biodiversity. A study was undertaken to assess the effect of land use on nematode community and nematode destroying fungi in Taita districts, Kenya. Soil samples were collected from land under various uses which were natural forest, plantation forest, tea, coffee, napier grass, fallow, maize/beans intercrop and horticultural crops production. Chemical analysis of the soil properties was done to determine the amount of carbon, nitrogen and potassium in every land use system. The level of carbon declined with land-use intensification with the highest organic carbon level of 7.6% being recorded in soils from the forest while land with high disturbance recorded 1.6% carbon. Similarly, the intensively cultivated soils had lower nitrogen and phosphorous levels compared to the forest. Nematode and nematode destroying fungi were isolated from the soil and identified. Eighty five isolates, distributed in eight genera and fourteen taxa of nematode destroying fungi were identified. The frequency of isolating nematode destroying fungi increased with increased in land use intensity. All the sampled land use types were significantly (P-value = 3.81x10 -07 ) different in occurrence of nematode destroying fungi. The ratios of free-living to plant parasitic nematodes were 5.18 and 0.54 in the natural forest and annual crop production systems, respectively. The frequency of isolation of nematode destroying fungi was positively correlated to abundance of plant parasitic nematodes.

Published

2013

31. Agrobiodiversity and Potential Use for Enhancing Soil Health in Tropical Soils of Africa

Author

Nancy Karanja, G.K. Mutua, Julius J. Okello, Peter Wachira, Fredrick O. Ayuke, D.K. Lelei, and Charles K. K. Gachene

Subjects

Soil health, Geography, Poverty, Human welfare, Agroforestry, Tropical soils, Developing country, Population growth, Agricultural biodiversity, Limited resources, Agricultural economics

Abstract

Lack of food is of central concern in Africa and presents a fundamental challenge for human welfare and economic growth. Increased population growth coupled with limited resources in many developing countries has contributed to increased levels of poverty, resulting in land sub-division and environm...

Published

2012

32. Change in Diversity and Abundance of Nematode Destroying Fungi in Land Use under Irrigation in Selected Small Scale Irrigation Schemes in Kenya

Author

John W. Kimenju, Peter Wachira, and M. Otipa

Subjects

Irrigation, biology, Land use, Soil biodiversity, Mechanical Engineering, Energy Engineering and Power Technology, Management Science and Operations Research, biology.organism_classification, Arthrobotrys, Diversity index, Nematoctonus, Agronomy, Harposporium, Monacrosporium

Abstract

Intensity of land cultivation is usually associated with increase in crop production and loss of soil biodiversity or its function. This study was conducted to determine the effect of intensity of land use under irrigation on the occurrence, abundance and diversity of nematode destroying fungi in selected small scale irrigation systems in Kenya. The study was conducted in four spatially separated irrigation schemes namely Kabaa and Kauti in Machakos and Kathiga Gacheru and Mbogooni) in Embu. The study areas were stratified according to land use, which included the irrigated land, rain-fed cultivated land and undisturbed land under fallow. The period of cultivation also differed with the oldest cultivated irrigation system, having been opened in 1960, while the youngest having been opened in 2011.Soil samples were collected from the study site for isolation of nematode destroying fungi. The soil sprinkle and culture technique was used to isolate soil nematode destroying fungi from the soil samples. A total of 216 fungal isolates were identified as nematode destroying fungi belonging to six genera namely Acrostalagmus, Arthrobotrys, Haptoglossa, Harposporium and Monacrosporium. All the isolates were identified resultingto nine species. 49.5% of all the fungi were isolated from irrigated land while, the rain-fed and the undisturbed land uses accounted for 29.7 and 20.8% of the isolates, respectively. The oldest irrigation systems had the least diversity (0.110) of nematode destroying fungi compared to the youngest which had a diversity index of 1.311.The species Arthrobotrys oligospora was the most frequently isolated fungus followed by Monacrosporium cionapagum with occurrence frequencies of 57 and 53%, respectively. The least frequently isolated species was Nematoctonus leiospora with an occurrence frequency of 2.3%. Of the total identified species, only Nematoctonus leiosporus and Arthrobotrys dactyloides were not affected by the irrigation activities.). From the study, it is evident that land use intensity under irrigation system and the duration of cultivation impacts on occurrence and diversity of nematode destroying fungi in the soil.

Published

2015

33. Survey of Nematode Destroying Fungi from Selected Vegetable Growing Areas in Kenya

Author

J. N. Muindi, Peter Wachira, and Sheila Okoth

Subjects

education.field_of_study, biology, Mechanical Engineering, Population, Biological pest control, Energy Engineering and Power Technology, Management Science and Operations Research, biology.organism_classification, Arthrobotrys, Toxicology, Diversity index, Nematode, Agronomy, Monacrosporium, Beneficial organism, Species richness, education

Abstract

Plant parasitic nematodes cause up-to 5% yield losses to a wide range of economic crops. In Kenya vegetables yield loss attributed to plant parasitic nematodes is estimated to 80%. Over the years, nematode control has heavily on the use of chemical nematicides which unfortunately leads to biological magnification and elimination of the beneficial microorganisms in the soil. This has triggered a growing interest in search of alternate management strategies. The objective of this study was, therefore, to document nematode destroying fungi in selected major vegetable growing areas in Kenya as a step towards developing self-sustaining system for management of plant parasitic nematodes. Soil samples were collected from five vegetable production zones in Kenya which were Kinare, Kabete, Athi-river, Machakos and Kibwezi and transported to the laboratory for extraction of the nematode destroying fungi. Soil sprinkle technique as described by Jaffee et al., (1996) was used to isolate the fungi from the soil while identification was done using identification keys described by Delgado et al.,(2001). From the study a total of 171 fungi isolates were identified as nematode destroying fungi. The highest population was recorded at Kabete area recording 33.9% of the total record, followed by Machakos, Kibwezi, Athi-river and the least in Kin are with 24.6, 22.2, 11.7 and 7. 6% of the total population in that order. Arthrobotrys was the most frequent genera with a mean occurrence of 7.3 followed by Monacrosporium with 6 and Stylophage with 5.2. A.dactyloides was significantly (P=0.002) affected by the agro-ecological zones with the highest occurrence being recorded in Kabete and the least in Athi-river. The highest diversity index and species richness of nematode destroying fungi was recorded in Kibwezi while the least was recorded in Athi-river. The genera Arthrobotrys had the highest number of trapped nematodes with a total population of 57, followed by Monacrosporium and least was Stylopage with 45 and 36 respectively, within a period of 104 hours. From the study, it is evident that agricultural practices affect the occurrence and diversity of nematode destroying fungi and Arthrobotrys can be developed as a bio-control agent for management of plant parasitic nematodes.

Published

2015