Browsing by Author "Katumanyane, Agil"
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- ItemProspects for using entomopathogenic nematodes as a biocontrol agent against fungus gnats, bradysia spp. (Diptera: Sciaridae) in nursery and glass house crops(Stellenbosch : Stellenbosch University, 2017-12) Katumanyane, Agil; Malan, Antoinette P.; Ferreira, Tiarin; Stellenbosch University. Faculty of AgriSciences. Dept. of Conservation Ecology and Entomolgy.ENGLISH ABSTRACT: Fungus gnats of the genus Bradysia, have become important pests to undercover, cultivated crops. Commonly referred to as mushroom fly, nuisance flies, or dark-winged flies, they have a global distribution. Their larval stage, which is the main feeding stage of the insect, feeds on the radical system of the plant, as well as tunnels into the stems, resulting in direct physical damage to the plant. Coupled herewith is the indirect damage that is caused through the creation of entry points for soil-borne pathogens. In South Africa, Bradysia impatiens, which is one of the most important species of fungus gnats that specialises in feeding on living plants, has recently been identified in association with major tree nursery beds. In the course of this study, the same species, B. impatiens was found to be living in association with greenhouse-grown cucumbers, mushrooms, blueberries, tomatoes, herbs, and chrysanthemums. Bradysia impatiens was concluded as being a well-established pest species in South African undercover farming systems. Lycoriella sativae was reported for the first time, as a pest on mushroom, for South Africa, and the Afro tropical region. The use of entomopathogenic nematodes (EPNs) for the control of Bradysia spp. has proved to be relatively advantageous, since sciarids are mainly pests of protected crops that are either too close to harvest, or for which, otherwise, the application of pesticides is unsuitable. The control of Bradysia spp. using EPNs has been dominated by the use of Steinernema feltiae, which, despite having a global distribution, has, to date, not yet been isolated either from South Africa, or from the rest of the African continent, except for Algeria. Steinernema feltiae has also been cited as being biologically constrained at relatively high temperatures, corresponding to most greenhouse temperatures in South Africa. The objective of this study was to identify the Bradysia spp. causing problems in greenhouses in the Western Cape province, as well as to test locally isolated EPN species for their potential to control Bradysia spp. Using molecular techniques and morphological observations, the species involved were identified as Bradysia impatiens Johannsen and Lycoriella sativae Johannsen. A laboratory culture for B. impatiens was established using a 3:1:1 mixture of pine sawdust, cornmeal and soy meal. The number of eggs laid per single adult female was between 100 and 250. A new phenomenon of egg laying, in the form of chains, was observed for the first time, for B. impatiens. In length, the first instar larvae measured between 1.2 and 2.5 mm, the second instars between 2.6 and 4.5 mm, and the third instars between 4.6 and 6.5 mm, while the fourth instar larvae measured about 6.5 to 7.2 mm. The life cycle of B. impatiens lasted for approximately three weeks in a growth chamber, at 25°C in the dark. Eight South African local EPN species, and a foreign S. feltiae, were tested for their ability to kill fourth instar larvae of B. impatiens. Bioassay protocols were performed to determine the insecticidal activity, the lethal dose, and the efficacy of the EPNs at different temperatures. The results showed four local EPN species, Steinernema yirgalemense, Heterorhabditis noenieputensis, Heterorhabditis indica, and Heterorhabditis zealandica, achieving higher than 80% mortality, at 25°C and 30°C, from the different bioassays performed. In contrast, S. feltiae achieved higher percentage mortality at 13°C, (82%), at which temperature, none of the local isolates was able to infect fourth instar larvae of B. impatiens. Steinernema feltiae maintained a high percentage mortality at 25°C, (72%) but registered a much lower mortality for B. impatiens at 30°C, (47%). Heterorhabditis zealandica had the lowest LD50 of 2.6 infective juveniles (IJs) per larva, and an LD90 of 18.68 IJs/larva, while S. yirgalemense and H. indica had LD50 and LD90 of 9; 64, and 9; 64, respectively. Steinernema yirgalemense, H. indica and H. zealandica were all able to reproduce inside the fourth instar larvae of B. impatiens, and to produce a new cohort of IJs. The relatively bigger nematodes, S. jeffreyense, S. khoisanae, and Steinernema sp. (WS9), were unable to infect the fourth instar larvae of B. impatiens, which showed that the size of the EPNs affected their ability to infect fungus gnat larvae. The locally isolated EPNs were concluded as having high potential for use against fungus gnats in South Africa. The effect of different concentrations of a local entomopathogenic nematode, S. yirgalemense, for its potential to control a natural infestation of B. impatiens in a commercial cucumber greenhouse was tested. Additionally, the effect of potting media on nematode movement to control an artificial population of fungus gnats was tested. The concentrations used were based on the recommended concentration of S. feltiae (a commercial product) for the control of sciarids (5 × 105 IJs per m2). Doubling the number of nematodes in the recommended dosage reduced the number of fungus gnats by 77% after 14 days, and by 76% after 21 days. However, the fungus gnat populations were observed to restore quickly to their original levels, after a period of approximately three weeks, emphasising the short life cycle of the fly, as well as the importance of the pre-treatment, and of consecutive applications, of EPNs throughout the whole production process. The three different types of potting media, consisting of pine sawdust, coco coir, and a mixture of both bale coir and vermiculite, all had a positive effect on the infection of S. yirgalemense. Mortality of >75 % was achieved for the fungus gnat larvae that were added to the media, as indicated by the number of adult fungus gnats caught on the yellow sticky cards used. The results of the current study show that, under optimum conditions, the locally isolated EPNs, namely H. zealandica, S. yirgalemense, and H. indica, have great potential for use as biocontrol agents for B. impatiens. However, additional research should be undertaken into the effect of timing, concentrations, and nematode application techniques, among other factors, so as to obtain further critical information regarding the field applications of the nematodes. Further studies should look at different factors that might affect the optimum field performance of S. yirgalemense. The factors involved could include the pre-treatment of the substrates, and the use of higher concentrations of EPNs, and follow-up applications, the timely applications of EPNs, and other factors, such as pre-treatment with cadaver application, versus the aqueous drench application of the EPN species. However, the application of nematodes should not be seen as a stand-alone, but it should, rather, be implemented as part of an integrated pest management system, with sanitation being the most important consideration.
- ItemSciarid pests (Diptera: Sciaridae) from undercover crop production in South Africa(Academy of Science of South Africa, 2020-03-26) Katumanyane, Agil; Kanzi, Aquillah M.; Malan, Antoinette P.Fungus gnats (sciarids) are among the most important pests in undercover crop production. They cause direct physical damage to plant roots, transfer fungal pathogens and create entry points for soil-borne plant pathogens. In 2007, Bradysia impatiens, an important fungus gnat pest was found in association with major tree nursery beds in the Mpumalanga and KwaZulu-Natal Provinces of South Africa and was considered invasive. In this study, eight greenhouses were surveyed in the Western Cape Province and B. impatiens was found to be present in all the greenhouses. Similar to the results of the previous studies, a high haplotype diversity was identified for B. impatiens, which may indicate multiple strain introductions into South Africa. Two other fungus gnat species, Lycoriella sativae and Lycoriella ingenua – globally important sciarid pests of mushroom cultures – were identified as new from South Africa. Through a laboratory culture, the life cycle of B. impatiens was observed to be approximately 21 days at 25 °C. Females laid between 100 and 250 eggs. Possible introduction sources include contaminated vegetative material and growth media, thus there maybe need to revise the importation restrictions on these commodities. The identification of two novel species of sciarid pests that have only previously been identified in the Holarctic region could further emphasise this need. However, the recent discovery of such high sciarid diversity could also be due to only a few studies having been previously done on sciarid pests in South Africa. Significance: • The fungus gnat species Bradysia impatiens is reported as present in several undercover crops in the Western Cape Province of South Africa, including cucumbers, tomatoes, chrysanthemums, mushrooms, blueberries and various herbs. • Lycoriella ingenua and Lycoriella sativae were also found to be present in mushroom gardens – the first report of Lycoriella from the Afro-tropical region. • The three fungus gnat species are some of the most important sciarid pests in undercover crop production worldwide. This study highlights the need for more studies on the distribution of these sciarids and possible invasion history.