Productivity, pathogenicity, host range, and spore mass-propagation of local strain of Mattesia sp. isolated from insect cadavers of certain stored grain pests in Egypt

Productivity, pathogenicity, host range, and spore mass-propagation of local strain of Mattesia sp. isolated from insect cadavers of certain stored grain pests in Egypt

Abstract Average yields of Mattesia spores (spore productivity) had varied from a minimum yield (0.17 × 107 spores) for Laemophloeus turcicus adult to a maximum yield (7.46 × 107 spores) for Plodia interpunctella larva. Comparatively, the highest increase in Mattesia spore yield, recorded from P. in...

Full description

Bibliographic Details
Main Authors: Ahlam Ahmed Alfazairy, Yasien Mohamed Gamal Zedan El-Abed, Hanan Mohamed Ramadan, Hedaya Hamza Karam
Format: Article
Language:English
Published: SpringerOpen 2019-12-01
Series:Egyptian Journal of Biological Pest Control
Subjects:
Entomopathogenic protozoans
Stored grain insect pests
Mattesia
Spore productivity
Host range
Pathogenicity
Online Access:https://doi.org/10.1186/s41938-019-0195-8
id doaj-582de203e173482f9cbc330bd211ff4c
record_format Article
spelling doaj-582de203e173482f9cbc330bd211ff4c2020-12-27T12:08:54ZengSpringerOpenEgyptian Journal of Biological Pest Control2536-93422019-12-0129111110.1186/s41938-019-0195-8Productivity, pathogenicity, host range, and spore mass-propagation of local strain of Mattesia sp. isolated from insect cadavers of certain stored grain pests in EgyptAhlam Ahmed Alfazairy0Yasien Mohamed Gamal Zedan El-Abed1Hanan Mohamed Ramadan2Hedaya Hamza Karam3Emeritus Professor of Economic Entomology Department of Applied Entomology and Zoology, Faculty of Agriculture, Alexandria UniversityDepartment of Applied Entomology and Zoology, Faculty of Agriculture, Alexandria UniversityProfessor of Economic Entomology Department of Applied Entomology and Zoology, Faculty of Agriculture, Alexandria UniversityEmeritus Professor of Economic Entomology Department of Applied Entomology and Zoology, Faculty of Agriculture, Alexandria UniversityAbstract Average yields of Mattesia spores (spore productivity) had varied from a minimum yield (0.17 × 107 spores) for Laemophloeus turcicus adult to a maximum yield (7.46 × 107 spores) for Plodia interpunctella larva. Comparatively, the highest increase in Mattesia spore yield, recorded from P. interpunctella larva (7.46 × 107 spores) over the lowest one, estimated for L. turcicus adult (0.17 × 107 spores), was nearly 44-fold. The increase in Mattesia spore yields that calculated from the other hosts (P. interpunctella pupa or moth; Galleria mellonella larva; Rhyzopertha dominica adult; Sitophilus zeamais), over that estimated for L. turcicus adult, was less than 10-fold (6–9-fold). Based on the weight of 1 g of the insect host infected with Mattesia sp., small stored grain insect hosts (e.g. L. turcicus, S. zeamais, and R. dominica) seemed to achieve Mattesia spore yields more than the larger ones (e.g. P. interpunctella). The increase in spore yields over that used for the inoculum, based on an average of 25 P. interpunctella larvae per bioassay container, was ca. 2 to 31-fold. These results revealed that the Indianmeal moth, P. interpunctella, could serve as a potential host for mass propagating the isolated entomopathogenic protozoan, Mattesia sp. Besides Mattesia larval mortality, survivors of Mattesia infection suffered deformities and noticeable undersized pupae or adults than the control ones. Also, many copulated moths (ca.46%) were unable to become separated after copulation until they had died. Bioassay of siftings, obtained from L. turcicus-protozoan-infected stock cultures, was carried out in order to emphasize the suppressive potent role of such protozoan entomopathogens in long-term storage. With the highest tested concentration of the studied siftings (10%), mortality responses due to Mattesia infection ranged from 13 to 68% at 14–169 days post-treatment. The corresponding figures for Adelina infection were 7–42%.https://doi.org/10.1186/s41938-019-0195-8Entomopathogenic protozoansStored grain insect pestsMattesiaSpore productivityHost rangePathogenicity
collection DOAJ
language English
format Article
sources DOAJ
author Ahlam Ahmed Alfazairy
Yasien Mohamed Gamal Zedan El-Abed
Hanan Mohamed Ramadan
Hedaya Hamza Karam
spellingShingle Ahlam Ahmed Alfazairy
Yasien Mohamed Gamal Zedan El-Abed
Hanan Mohamed Ramadan
Hedaya Hamza Karam
Productivity, pathogenicity, host range, and spore mass-propagation of local strain of Mattesia sp. isolated from insect cadavers of certain stored grain pests in Egypt
Egyptian Journal of Biological Pest Control
Entomopathogenic protozoans
Stored grain insect pests
Mattesia
Spore productivity
Host range
Pathogenicity
author_facet Ahlam Ahmed Alfazairy
Yasien Mohamed Gamal Zedan El-Abed
Hanan Mohamed Ramadan
Hedaya Hamza Karam
author_sort Ahlam Ahmed Alfazairy
title Productivity, pathogenicity, host range, and spore mass-propagation of local strain of Mattesia sp. isolated from insect cadavers of certain stored grain pests in Egypt
title_short Productivity, pathogenicity, host range, and spore mass-propagation of local strain of Mattesia sp. isolated from insect cadavers of certain stored grain pests in Egypt
title_full Productivity, pathogenicity, host range, and spore mass-propagation of local strain of Mattesia sp. isolated from insect cadavers of certain stored grain pests in Egypt
title_fullStr Productivity, pathogenicity, host range, and spore mass-propagation of local strain of Mattesia sp. isolated from insect cadavers of certain stored grain pests in Egypt
title_full_unstemmed Productivity, pathogenicity, host range, and spore mass-propagation of local strain of Mattesia sp. isolated from insect cadavers of certain stored grain pests in Egypt
title_sort productivity, pathogenicity, host range, and spore mass-propagation of local strain of mattesia sp. isolated from insect cadavers of certain stored grain pests in egypt
publisher SpringerOpen
series Egyptian Journal of Biological Pest Control
issn 2536-9342
publishDate 2019-12-01
description Abstract Average yields of Mattesia spores (spore productivity) had varied from a minimum yield (0.17 × 107 spores) for Laemophloeus turcicus adult to a maximum yield (7.46 × 107 spores) for Plodia interpunctella larva. Comparatively, the highest increase in Mattesia spore yield, recorded from P. interpunctella larva (7.46 × 107 spores) over the lowest one, estimated for L. turcicus adult (0.17 × 107 spores), was nearly 44-fold. The increase in Mattesia spore yields that calculated from the other hosts (P. interpunctella pupa or moth; Galleria mellonella larva; Rhyzopertha dominica adult; Sitophilus zeamais), over that estimated for L. turcicus adult, was less than 10-fold (6–9-fold). Based on the weight of 1 g of the insect host infected with Mattesia sp., small stored grain insect hosts (e.g. L. turcicus, S. zeamais, and R. dominica) seemed to achieve Mattesia spore yields more than the larger ones (e.g. P. interpunctella). The increase in spore yields over that used for the inoculum, based on an average of 25 P. interpunctella larvae per bioassay container, was ca. 2 to 31-fold. These results revealed that the Indianmeal moth, P. interpunctella, could serve as a potential host for mass propagating the isolated entomopathogenic protozoan, Mattesia sp. Besides Mattesia larval mortality, survivors of Mattesia infection suffered deformities and noticeable undersized pupae or adults than the control ones. Also, many copulated moths (ca.46%) were unable to become separated after copulation until they had died. Bioassay of siftings, obtained from L. turcicus-protozoan-infected stock cultures, was carried out in order to emphasize the suppressive potent role of such protozoan entomopathogens in long-term storage. With the highest tested concentration of the studied siftings (10%), mortality responses due to Mattesia infection ranged from 13 to 68% at 14–169 days post-treatment. The corresponding figures for Adelina infection were 7–42%.
topic Entomopathogenic protozoans
Stored grain insect pests
Mattesia
Spore productivity
Host range
Pathogenicity
url https://doi.org/10.1186/s41938-019-0195-8
work_keys_str_mv AT ahlamahmedalfazairy productivitypathogenicityhostrangeandsporemasspropagationoflocalstrainofmattesiaspisolatedfrominsectcadaversofcertainstoredgrainpestsinegypt
AT yasienmohamedgamalzedanelabed productivitypathogenicityhostrangeandsporemasspropagationoflocalstrainofmattesiaspisolatedfrominsectcadaversofcertainstoredgrainpestsinegypt
AT hananmohamedramadan productivitypathogenicityhostrangeandsporemasspropagationoflocalstrainofmattesiaspisolatedfrominsectcadaversofcertainstoredgrainpestsinegypt
AT hedayahamzakaram productivitypathogenicityhostrangeandsporemasspropagationoflocalstrainofmattesiaspisolatedfrominsectcadaversofcertainstoredgrainpestsinegypt
_version_ 1724369296941907968

Similar Items