Waceke Wanjohi

Last updated April 10, 2024

Prof. Waceke Wanjohi is a professor at Kenyatta University who works in plant pathology, research, teaching, networking, and graduate education. She is the Deputy Vice Chancellor (Academic) at Kenyatta University. She was appointed to act as the Vice chancellor of the same university from July 2022. Dedicated to boosting Africa's competitiveness in the global arena by improving agricultural output in smallholder farming systems in Sub-Saharan Africa.^[1]

Research interests

Vegetable nematode infestations
Plant nematology capacity building in the regions At all levels, both human and infrastructure

Publications

Publications:^[2]

Wanjiku, E.K., Waceke, J.W. and Mbaka, J.N., 2021. Suppression of Stem-End Rot on Avocado Fruit Using Trichoderma spp. in the Central Highlands of Kenya. Advances in Agriculture, 2021.
Wanjiku, E.K., Waceke, J.W., Wanjala, B.W. and Mbaka, J.N., 2020. Identification and Pathogenicity of Fungal Pathogens Associated with Stem End Rots of Avocado Fruits in Kenya.
Juma, W.S., Waceke, J.W. and Nchore, S.B., 2020. Diversity of Plant Parasitic Nematodes of Tree Tomato (Solanum betaceum Cav.) In Kiambu and Embu Counties, Kenya. Middle East J, 9(3), pp. 605–616.
Onduso, J.N., Muthomi, J.W., Mutitu, E.W., Kathimba, F.K., Kimani, P.M., Kiriika, L.M., Narla, R.D., Mulugo, L., Kibwika, P., Kyazze, F.B. and Omondi, B.A., 2018. Management of bacterial wilt of tomato using resistant rootstocks.
Horn, L.N. and Shimelis, H.A., 2018. Importance of cowpea production, breeding and production constrains under dry areas in Africa. RUFORUM Working Document series, 17(1), pp. 499–514.
Waceke, J.W., 2018. Response of Common Beans Varieties to a Mixed Population of Root Knot Nematodes (Meloidogyne spp) in Central Highlands of Kenya.
Nchore, S.B., Waceke, J.W., Buttner, C., Omwoyo, O. and Ulrichs, C., 2016. Efficacy of soil solarization and selected organic amendments for the control of root-knot nematodes in African nightshades. In Fifth African Higher Education Week and RUFORUM Biennial Conference 2016," Linking agricultural universities with civil society, the private sector, governments and other stakeholders in support of agricultural development in Africa, Cape Town", South Africa, 17–21 October 2016 (pp. 771–777). RUFORUM.
Mwangi, J.M., Kariuki, G.M., Waceke, J.W. and Grundler, F.M., 2015. First report of Globodera rostochiensis infesting potatoes in Kenya. New Disease Reports, 31, pp. 18–18.
Muturi, J., Gichuki C., Waceke J. W., Runo S.M.2010 Use of Isoenzyme phenotypes to characterize the major root – knot nematodes (Meloidogyne spp.) parasitizing indigenous leafy vegetables in Kisii Kenya. In “Transforming Agriculture for improved livelihoods through Agricultural Product Value Chains: The Proceedings of the 12th KARI Biennial Scientific Conference”8- 12th Nov 2010 Nairobi Kenya Pg. 605-612
Kavuluko J. M., C. Gichuki, J.W. Waceke and S.M. Runo 2010. Characterization of root-knot nematodes (Meloidogyne spp.) from selected legumes in Mbeere District Kenya using isoenzyme phenotypes. In “Transforming Agriculture for improved livelihoods through Agricultural Product Value Chains: The Proceedings of the 12th KARI Biennial Scientific Conference”8- 12th Nov 2010 Nairobi Kenya Pg. 92- 97
Luambano, N., B.R. Kerry, J.W. Kimenju, R.D. Narla and Waceke J.W. 2009. Screening of locally available organic materials for the mass production of a biological agent, Pochonia chlamydosporia, used against root-knot nematodes in the 5th International Congress of Nematology proceedings
Waceke J. W. and J. W. Kimenju 2007. Intensive Subsistence Agriculture: Impacts, Challenges and Possible Interventions. Dynamic Soil, Dynamic Plant 1(1): 43-53
Waceke J. W. 2007. Plant parasitic nematodes associated with cabbages in Kenya. In The African Crop Science Conference Proceedings Vol. 8 (2), 27–31 October 2007,El- Minia- Egypt. Pg. 1071-1074
Waceke, J. W., Arim, J. O., Waudo, S. W. and Kimenju, J. W. 2007. Impact of some soil fertility management practices on lesion nematodes of maize in Kenya. First Biennual Meeting of the Regional Universities Forum for Capacity Building In Agriculture, 23 – 27 April 2007, Mangochi, Malawi. Pp 179 – 186
H.A.L.Talwana, J.W. Kimenju, Z. Sibanda, Waceke .J. W, S.R. Gowen, D.J. Hunt and B.R.Kerry. 2006. Sustainable management of nematodes in east and southern Africa requires capacity building in the region. XXVIII International Symposium of the European Society of Nematologists
Arim, J. O., Waceke, J.W., Waudo, S. W. and Kimenju, J. W. 2006. Effects of Canavalia ensiformis and Mucuna pruriens intercrops on Pratylenchus zeae damage and yield of maize in subsistence agriculture. Plant and Soil 284(1-2), 243 – 251
Waceke, J.W. 2006. A Review –Arbuscular Mycorrhizal Fungi (AMF) inoculum production for use in horticulture .Journal of Tropical Microbiology and Biotechnology Vol. 2(1) 2006: 45–51. http://www.ajol.info/viewarticle.php?jid=259&id=27921
Waceke, J. W., Bumbarger D. J., Mundo-Ocampo, M., Subbotin, S. A. and Baldwin, J.G. 2005. Zeldia spannata sp. n. (Nematoda: Cephalobidae) from the Mojave Desert, California. Journal of Nematode Morphology and Systematics 8 (1), 57 – 67.

Related Research Articles

<span class="mw-page-title-main">Collard (plant)</span> Variety of plant

Collard is a group of loose-leafed cultivars of Brassica oleracea, the same species as many common vegetables including cabbage and broccoli. Part of the Acephala (kale) cultivar group, it is also classified as the variety B. oleracea var. viridis.

Root-knot nematodes are plant-parasitic nematodes from the genus Meloidogyne. They exist in soil in areas with hot climates or short winters. About 2000 plants worldwide are susceptible to infection by root-knot nematodes and they cause approximately 5% of global crop loss. Root-knot nematode larvae infect plant roots, causing the development of root-knot galls that drain the plant's photosynthate and nutrients. Infection of young plants may be lethal, while infection of mature plants causes decreased yield.

Meloidogyne incognita, also known as the southern root-nematode or cotton root-knot nematode is a plant-parasitic roundworm in the family Heteroderidae. This nematode is one of the four most common species worldwide and has numerous hosts. It typically incites large, usually irregular galls on roots as a result of parasitism.

Meloidogyne arenaria is a species of plant pathogenic nematodes. This nematode is also known as the peanut root knot nematode. The word "Meloidogyne" is derived from two Greek words that mean "apple-shaped" and "female". The peanut root knot nematode, M. arenaria is one of the "major" Meloidogyne species because of its worldwide economic importance. M. arenaria is a predominant nematode species in the United States attacking peanut in Alabama, Florida, Georgia, and Texas. The most damaging nematode species for peanut in the USA is M. arenaria race 1 and losses can exceed 50% in severely infested fields. Among the several Meloidogyne species that have been characterized, M. arenaria is the most variable both morphologically and cytologically. In 1949, two races of this nematode had been identified, race 1 which reproduces on peanut and race 2 which cannot do so. However, in a recent study, three races were described. López-Pérez et al (2011) had also studied populations of M. arenaria race 2, which reproduces on tomato plants carrying the Mi gene and race 3, which reproduces on both resistant pepper and tomato.

Meloidogyne javanica is a species of plant-pathogenic nematodes. It is one of the tropical root-knot nematodes and a major agricultural pest in many countries. It has many hosts. Meloidogyne javanica reproduces by obligatory mitotic parthenogenesis (apomixis).

Pratylenchus brachyurus is a plant parasitic nematode.

Pratylenchus penetrans is a species of nematode in the genus Pratylenchus, the lesion nematodes. It occurs in temperate regions worldwide, regions between the subtropics and the polar circles. It is an animal that inhabits the roots of a wide variety of plants and results in necrotic lesions on the roots. Symptoms of P. penetrans make it hard to distinguish from other plant pathogens; only an assay of soil can conclusively diagnose a nematode problem in the field. P. penetrans is physically very similar to other nematode species, but is characterized by its highly distinctive mouthpiece. P. penetrans uses its highly modified mouth organs to rupture the outer surface of subterranean plant root structures. It will then enter into the root interior and feed on the plant tissue inside. P. penetrans is considered to be a crop parasite and farmers will often treat their soil with various pesticides in an attempt to eliminate the damage caused by an infestation. In doing this, farmers will also eliminate many of the beneficial soil fauna, which will lead to an overall degradation of soil quality in the future. Alternative, more environmentally sustainable methods to control P. penetrans populations may be possible in certain regions.

Heterodera carotae is a plant pathogenic nematode commonly known as the carrot root nematode or carrot cyst nematode. It is found in Europe, Cyprus and India and is considered an invasive species in the United States. It causes damage to carrot crops and is very specific in its choice of hosts, only infecting Daucus carota and Daucus pulcherrima.

Meloidogyne acronea, the African cotton root-knot nematode or African cotton root nematode, is a plant pathogenic nematode affecting pigeonpeas. It is also an invasive species. The roots and surrounding soils of cereals, grasses, and Gossypium spp. provide habitat for this organism. M. acronea was confirmed as a potentially problematic pest of cotton, Gossypium hirsutum cv. Makoka, which was proven through pot experiments.

Meloidogyne brevicauda is a plant-parasitic nematode. It is also called tea root-knot nematode, mature tea nematode or Indian root-knot nematode. It is a member of the root-knot nematodes, which was identified by C. A. Loos in 1953 in Sri Lanka.

Meloidogyne partityla is a plant pathogenic nematode infecting pecan. One of the first described cases of this nematode where noted in pecan trees in South Africa by Brito et al. (2013). It is thought to have been introduced into South Africa by pecan seedlings that came from the United States. Today, this nematode is seen infecting pecan trees in Arizona, Arkansas, Florida, Georgia, New Mexico, Oklahoma, and Texas. They not only infect pecans, but they also infect the California black walnut, English walnut, shagbark hickory, and laurel oak. The first report in the US, was reported in South Carolina in which it infected laurel oaks but later started infecting neighboring pecan trees in the shared orchards. The health of infested trees continue to decline every year.

There are many plant-parasitic species in the root-knot nematode genus (Meloidogyne) that attack coffee such as M. incognita, M. arenaria, M. exigua, M. javanica and M. coffeicola. Study has already shown interspecific variability coffee, in which show how this species can be adapting to new hosts and environments.

<span class="mw-page-title-main">Nematology</span> Scientific study of roundworms

Nematology is the scientific discipline concerned with the study of nematodes, or roundworms. Although nematological investigation dates back to the days of Aristotle or even earlier, nematology as an independent discipline has its recognizable beginnings in the mid to late 19th century.

Meloidogyne enterolobii was originally described from a population collected from the pacara earpod tree in China in 1983. In 2001 it was reported for the first time in the continental USA in Florida. M. enterolobii is now considered one of the most important root-knot nematode species because of its ability of reproducing on root-knot nematode-resistant bell pepper and other economically important crops.

Purpureocillium lilacinum is a species of filamentous fungus in the family Ophiocordycipitaceae. It has been isolated from a wide range of habitats, including cultivated and uncultivated soils, forests, grassland, deserts, estuarine sediments and sewage sludge, and insects. It has also been found in nematode eggs, and occasionally from females of root-knot and cyst nematodes. In addition, it has frequently been detected in the rhizosphere of many crops. The species can grow at a wide range of temperatures – from 8 to 38 °C for a few isolates, with optimal growth in the range 26 to 30 °C. It also has a wide pH tolerance and can grow on a variety of substrates. P. lilacinum has shown promising results for use as a biocontrol agent to control the growth of destructive root-knot nematodes.

The Pasteuriaceae are a family of nonmotile Gram-positive bacteria. They are moderately to strongly resistant to heat. Species in this family produce a septate mycelium with one refractile endospore. The mycelium grows bigger on one end to form sporangia and sometimes endospores. The size of the endospores is different for each species of the genus Pasteuria. Species of the family of Pastueriaceae are endoparasitic in plant, soil, and freshwater invertebrates.

Pasteuria is a genus of mycelial and endospore-forming, nonmotile gram-positive bacteria that are obligate parasites of some nematodes and crustaceans. The genus of Pasteuria was previously classified within the family Alicyclobacillaceae, but has since been moved to the family Pasteuriaceae.

Johannes Hallmann is a German agricultural scientist of phytomedicine. He is a scientific adviser at the Julius Kühn-Institut, the Federal Research Institute for Cultivated Plants, the Institute for Epidemiology and Pathogen Diagnostics in Münster, the University Professor for Nematology and the President of the German Phytomedicine Society.

Mononchoides fortidens, of the order Diplogasterida, is a free-living predacious nematode that feeds on both nematodes and bacteria . The predatory behavior of this nematode presents the opportunity to use it as a bio-control agent against other plant parasitic nematodes. It has been shown to have a preference for the second stage juveniles of Meloidogyne incognita.

California is the largest grower of peaches in the United States, producing about 70% of the total.

References

↑ Christiaensen, Luc; Tollens, Eric; Ezedinma, Chuma (January 1995). "Development patterns under population pressure: Agricultural development and the cassava-livestock interaction in smallholder farming systems in Sub-Saharan Africa". Agricultural Systems. 48 (1): 51–72. doi:10.1016/0308-521x(95)93645-t. ISSN 0308-521X.
↑ webmaster, Parks. "Prof. Waceke Wanjohi". www.ku.ac.ke. Retrieved 2021-10-12.

External links

"Waceke Wanjohi Profile – Dean, SAED" (PDF). Kenyatta University. Retrieved 14 October 2021.
"Waceke Wanjohi". LinkedIn . Retrieved 13 October 2021.
"Waceke J.W". scholar.google.com. Retrieved 13 October 2021.
"2008 AWARD Fellow Professor Waceke Wanjohi" (PDF). African Women in Agricultural Research and Development. Retrieved 14 October 2021.

This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.

[1] Christiaensen, Luc; Tollens, Eric; Ezedinma, Chuma (January 1995). "Development patterns under population pressure: Agricultural development and the cassava-livestock interaction in smallholder farming systems in Sub-Saharan Africa". Agricultural Systems. 48 (1): 51–72. doi:10.1016/0308-521x(95)93645-t. ISSN 0308-521X.

[2] webmaster, Parks. "Prof. Waceke Wanjohi". www.ku.ac.ke. Retrieved 2021-10-12.

[1]

[2]