Establishment and persistence of the entomopathogenic nematodes, Steinernema feltiae and Heterorhabditis bacteriophora

Susurluk, Ismail Alper.

Unknown Date

University, Diss., 2005--Kiel.

Conservation of insect natural enemies in heterogeneous vegetable landscapes

Lawrence, Janet L.

January 2004

Thesis (Ph. D.)--Ohio State University, 2004. / Title from first page of PDF file. Document formatted into pages; contains xvi, 166 p.; also includes graphics (some col.). Includes bibliographical references. Available online via OhioLINK's ETD Center.

Biologické metody ochrany kukuřice před bázlivcem kukuřičným Diabrotica virgifera

Doležalová, Jana

January 2015

This work focuses on verifying the efficacy of the protection product Dianem (includes bioagens Heterorhabditis bacteriophora) in maize targeted against corn rootworm larvae which cause characteristic damage to stalks. The tests were initiated in April 2014 in south Moravia in three locations - Otrokovice, Čejč and Hostěradice -- in pursuance of experiments. Dianem was applied during sowing, the same way as chemical protection product Force in the chemical protection variant. The number of beetles hatched from larvae caugh in the textile cage K (untreated control), D (biologic control) and CH (chemical control) were evaluated in the tests. The evaluation took place from mid July to September in Čejč and Hostěradice where there was no statistically significant difference in the number of hatched beetles from soil in individual variants. At the end of July, goosenecks were evaluated in Otrokovice and Čejč. There was no statistically significant difference in Otrokovice between the treated and control variant. On the other hand, there was a statistically highly significant impact of Dianem in Čejč. Another part of the tests was monitoring the corn rootworm using pheromone traps Csalomon PAL.

Non chemical alternatives for pest management: Entomopathogenic nematodes and UV-C light

Higginbotham, Matthew Travis

10 November 2021

The primary objectives of this research are to determine effective biological and alternative control strategies of insect and disease pests in order to reduce harsh chemical use during greenhouse crop production and transport s. This research includes two separate studies: 1) testing the practical viability of rearing and storing four species of entomopathogenic nematode (EPN), Steinernema feltiae, Steinernema carpocapsae, Heterorhabditis bacteriophora, Heterorhabditis indica; and, 2) the efficacy of UV-C radiation applied, pre-transport, as a preventative disease control strategy against Botrytis cinerea. A study was conducted testing EPN infectious juvenile (IJ) rearing production counts and IJ viability after a six-day storage period. When all four species are compared, S. feltiae had a greater number of infectious juveniles emerge from the wax moth cadavers and S. carpocasae had the least. All four species survived the six day storage period but EPN infectious juvenile counts were significantly different among species. Our second study tested the efficacy of UV-C radiation as an alternative control to traditional fungicides to deactivate B. cinerea in vitro and to determine plant tolerance to UV-C. The crops tested were poinsettia (Euphorbia pulcherrima) and primula (Primula vulgaris). All the UV-C doses, 1.0, 2.8, 3.7 or 4 W/m2, significantly decreased B. cinerea conidial germination in vitro and resulted in zero percent damage on poinsettia bracts. However, all UV-C doses during both replications caused minor damage, 15% or less, to primula flowers. / Master of Science in Life Sciences / Entomopathogenic nematodes (EPN) shows promise in being non-chemical and environmentally friendly solution for greenhouse pest and disease control. These can also be referred to as Biological Controls (Biocontrols). Entomopathogenic nematodes are used widely to control multiple greenhouse plant pests which include both Lycoriella spp., Fungus Gnats, and Frankliniella spp., Western Flower Thrips. However, there are challenges with EPN viability and storage from the manufacture to the greenhouse producer. We studied four EPN species, Steinernema feltiae, Steinernema carpocapsae, Heterorhabditis bacteriophora, Heterorhabditis indica, which were reared and stored to determine differences in production viability between species. Results show that the EPN species do not respond the same to storage and produce different amounts of infectious juveniles during rearing when conditions are the same. Separate from, but just as concerning as greenhouses plant pests are plant diseases. Ultraviolet radiation in the C spectra is known to be germicidal due to its narrow wavelengths. Because of this, UV-C has been shown to deactivate many different plant pathogens on contact and is being considered as a possible Biocontrol alternative to harsh traditional fungicides and bactericides. One disease that is known to contribute to the highest volume of annual crop losses is Botrytis cinerea. Botrytis cinerea is a plant disease that impacts floricultural crops to vegetables during propagation through the production supply chain to shipping and storage. We evaluated UV-C radiation at different doses, to determine if it could be used to replace a traditional fungicide before plants are shipped to reduce B. cinerea infection during transport. We found that UV-C successfully deactivated B. cinerea in vitro, but the viability of the application to plant tissue before transport has yet to be proven successful as a practical method of reducing B. cinerea during transport.

Steinernema feltiae

Steinernema carpocasae

Heterorhabditis bacteriophora

Heterorhabditis indica

infective juvenile

Fungus gnat

Western flower thrips

shore fly

Xenorhabdus

UV-C

Botrytis cinerea

Primula

poinsettia

Euphorbia

Genomic Analysis of Nematode-Environment Interaction

Adhikari, Bishwo

15 July 2010

The natural environments of organisms present a multitude of biotic and abiotic challenges that require both short-term ecological and long-term evolutionary responses. Though most environmental response studies have focused on effects at the ecosystem, community and organismal levels, the ultimate controls of these responses are located in the genome of the organism. Soil nematodes are highly responsive to, and display a wide variety of responses to changing environmental conditions, making them ideal models for the study of organismal interactions with their environment. In an attempt to examine responses to environmental stress (desiccation and freezing), genomic level analyses of gene expression during anhydrobiosis of the Antarctic nematode Plectus murrayi was undertaken. An EST library representative of the desiccation induced transcripts was established and the transcripts differentially expressed during desiccation stress were identified. The expressed genome of P. murrayi showed that desiccation survival in nematodes involves differential expression of a suite of genes from diverse functional areas, and constitutive expression of a number of stress related genes. My study also revealed that exposure to slow desiccation and freezing plays an important role in the transcription of stress related genes, improves desiccation and freezing survival of nematodes. Deterioration of traits essential for biological control has been recognized in diverse biological control agents including insect pathogenic nematodes. I studied the genetic mechanisms behind such deterioration using expression profiling. My results showed that trait deterioration of insect pathogenic nematode induces substantial overall changes in the nematode transcriptome and exhibits a general pattern of metabolic shift causing massive changes in metabolic and other processes. Finally, through field observations and molecular laboratory experiments the validity of the growth rate hypothesis in natural populations of Antarctic nematodes was tested. My results indicated that elemental stoichiometry influences evolutionary adaptations in gene expression and genome evolution. My study, in addition to providing immediate insight into the mechanisms by which multicellular animals respond to their environment, is transformative in its potential to inform other fundamental ecological and evolutionary questions, such as the evolution of life-history patterns and the relationship between community structure and ecological function in ecosystems.

Plectus murrayi

Heterorhabditis bacteriophora

Scottnema lindsayae

stress survival

complementary DNA library

subtractive hybridization

comparative transcriptomics

transcriptional profiling

functional analysis

Antarctic nematode

desiccation

anhydrobiosis

stoichiometry

McMurdo Dry Valleys

microarray analysis

trait deterioration

Biology