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 in | Agriculture, Forestry and Fisheries (Volume 4, Issue 4) |
| DOI | 10.11648/j.aff.20150404.12 |
| Page(s) | 159-164 |
| Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
| Copyright |
Copyright © The Author(s), 2024. Published by Science Publishing Group |
Arthrobotrys, Biological Control, Plant Parasitic Nematodes
| [1] | Bridge, J. 1996.Nematode management in sustainable and subsistence agriculture. Plant Parasitic Nematodes in Temperate48 F. JAITEH et al. Agriculture. CABI International WallingfordUK. pp. 203-209. |
| [2] | Christina, P., Stefan, O and J.Hans. 1999. Growth of Arthrobotryssuperba from a birch woodresource base into soil determined by radioactive tracing.Thorvaldsensvej 40, DK-1871. |
| [3] | Delgado, A. E., Pinero, A. J and L., M.Urolaneta.2001. Invitro preparatory activity of nematophagous fungi from Costa Rica with potential use for controlling sheep and goat parasitic. |
| [4] | Dobson, H.M., Matthews, G.A., Olembo, S., Baleguel, P and T., L.Wiles.2004. Application challenges for small-scale African farmers: a training initiative in Cameroon. International Advances in Pesticide Application. Aspects of Applied Biology 71:385–392. |
| [5] | Edmeades, D. C.2003.The long-term effects of manures and fertilizers on soil productivity and quality: a review Nutrient Cycling in Agroecosystems66: 165–180. |
| [6] | Elshafie AE, Al-Mueini R, Al- Bahry, Akindi A, Mohmoud I, Al- Rawahi S. 2006. Diversity and trapping efficiency of nematophagous fungi from Oman. Phytopathology Mediterrenian. 45: 266 - 270 |
| [7] | Farrell .F.C., Jaffee.B.A and D.,R. Strong.2006.The nematode trapping fungus Arthrobotrysoligospora in soil of the Bodega marine reserve: distribution and dependence on nematode-parasitized moth larvae. Soil Biology and Biochemistry 38:1422-1429. |
| [8] | Haugen, L. M and S., E. Smith.1992.The effect of high temperature and fallow period on infection of mung bean and cashew roots by the vesicular-arbuscular mycorrhizal fungus Glomus:Plant and Soil 145: 71 -80. |
| [9] | Hayward, A.C.1991.Biology and epidemiology of bacterial wilt caused by Pseudomonas solanacearum. Annual Review Phytopathology 29: 65-87. |
| [10] | Jaffee, B.A., Srong, D.R and A., E.Milton.1996.Nematode trapping fungi of natural shrubland: Tests for food chain involvement. Mycologia, 88:554-564. |
| [11] | Jansson, H.B., Persson, C and R. Odeslus.2000. Growth and capture activities of nematode destroying fungi in soil visualized by low temperature scanning electron microscopy. Mycologia 92:10 – 15. |
| [12] | Kaskavalci, G. 2007.Effect of soil solarization and organic amendment treatments for controlling Meloidogyne incognita in tomato cultivars in Western Anatolia. Turkish Agricultural Forum31: 159-167. |
| [13] | Keren-Zur, M., Antonov, J., Bercovitz, A.,Feldman, A., Keram, G., Morov and N. Rebhum. 2000. Baccillusfirmusformulation for the safe control of root knot nematodes. The BCPC Conference.Pests and Disease, Brighton, UK.pp.307-311. |
| [14] | Kindt, R and R. Coe, 2005. Tree diversity analysis. A manual and software for common statistical methods for ecological and biodiversity studies. Nairobi: World Agro-forestry Center (ICRAF). |
| [15] | Masoomeh, S.G., Mehdi, R.A., Sharokh, R.B., Ali, E.R.Z and E. Majid.2004. Screening of soil and sheep faecal samples for predacious fungi:Isolation and characterization of the nematode – trapping fungus Arthrobotrys oligospora. Iranian Biomedical. 8: 135 – 142. |
| [16] | Nchore, S.B., Waceke, J.W and KariukiG., M.2010. Incidence and prevalence of root-knot nematode Meloidogyne species in selected indigenous leafy vegetables in Kisii and Trans-Mara Counties of Kenya. In: Transforming Agriculture for improved livelihoods through Agricultural Product Value Chains. 12th KARI Biennial Scientific Conference,November 8-12, 2010,Nairobi,Kenya.KARI,pp. 675-681. |
| [17] | Nordbring-Hertz, B., H.B. Jansson and A. Tunlid .2002.Nematophagous Fungi: Encyclopedia of Life Sciences. Macmillan Publishers Ltd., London. |
| [18] | Pinkerton JN, Ivors KL, Miller ML and Moore LW, 2000.Effect of solarization and cover crops on populations of selected soil borne plant pathogens in western Oregon. Plant Diseases 84: 952-960. |
| [19] | Rajeswari.S and C., V.Sivakumar.1999.Occurrence of nematophagous fungi (Hyphhomycetes and their predacious ability in Tamil Nadu).Journal of Biological control 13:107-110. |
| [20] | Rodrigues, M.L.A., Castro, A.A., Oliveira, C.R., Anjos, D.H.S., Bittencourt, V.R.E.P and J., V.Aranjo.2001. Trapping capabilities of Arthrobotryssp and Monacrosporium thaumasium on Cyathostoma, larvae. Veterinary Parasitology10: 51 – 54. |
| [21] | Sanyal, P.K.2000. Screening for Indian isolates of predacious fungi for use in biological control against nematode parasites of ruminants. Veterinary Research Communications 24: 55– 62. |
| [22] | Sobita Simon and Anamika.2011. Management of Root Knot Disease in Rice Caused by Meloidogyne graminicola through Nematophagous Fungi. Journal of Agricultural Science 3: 122 – 127. |
| [23] | Wachira, P.M and Okoth, S.A. 2009. Use of nematode destroying fungi as indicators of land disturbance in TaitaTaveta, Kenya Tropical and Subtropical Agroecosystems, 11: 313 - 321 |
| [24] | Wachira, P.M., Kimenju, J.W., Okoth, S., Mibey, R.K and J. Mungatu.2008. Effect of land use on occurrence and diversity of nematode destroying fungi in TaitaTaveta, Kenya. Asian journey of Plant Sciences 7: 447-453. |
APA Style
Wachira P. M., Muindi J. N., Okoth S. A. (2015). Survey of Nematode Destroying Fungi from Selected Vegetable Growing Areas in Kenya. Agriculture, Forestry and Fisheries, 4(4), 159-164. https://doi.org/10.11648/j.aff.20150404.12
ACS Style
Wachira P. M.; Muindi J. N.; Okoth S. A. Survey of Nematode Destroying Fungi from Selected Vegetable Growing Areas in Kenya. Agric. For. Fish. 2015, 4(4), 159-164. doi: 10.11648/j.aff.20150404.12
AMA Style
Wachira P. M., Muindi J. N., Okoth S. A. Survey of Nematode Destroying Fungi from Selected Vegetable Growing Areas in Kenya. Agric For Fish. 2015;4(4):159-164. doi: 10.11648/j.aff.20150404.12
Share This Article
Twitter
Linked In
Facebook
Copy
Download@article{10.11648/j.aff.20150404.12,
author = {Wachira P. M. and Muindi J. N. and Okoth S. A.},
title = {Survey of Nematode Destroying Fungi from Selected Vegetable Growing Areas in Kenya},
journal = {Agriculture, Forestry and Fisheries},
volume = {4},
number = {4},
pages = {159-164},
doi = {10.11648/j.aff.20150404.12},
url = {https://doi.org/10.11648/j.aff.20150404.12},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.aff.20150404.12},
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.},
year = {2015}
}
TY - JOUR T1 - Survey of Nematode Destroying Fungi from Selected Vegetable Growing Areas in Kenya AU - Wachira P. M. AU - Muindi J. N. AU - Okoth S. A. Y1 - 2015/07/02 PY - 2015 N1 - https://doi.org/10.11648/j.aff.20150404.12 DO - 10.11648/j.aff.20150404.12 T2 - Agriculture, Forestry and Fisheries JF - Agriculture, Forestry and Fisheries JO - Agriculture, Forestry and Fisheries SP - 159 EP - 164 PB - Science Publishing Group SN - 2328-5648 UR - https://doi.org/10.11648/j.aff.20150404.12 AB - 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. VL - 4 IS - 4 ER -
Information
Email: