Mr Johannes Christoff Joubert

Feeding occurs mostly on young and tender developing leaves which may lead to complete defoliation and a loss in apical dominance. Severe Gonipterusspp. outbreaks, which annually consume up to 50% of the tree’s crown, are thought to reduce wood production by an estimated 85% over a 10-year growth period.

Gonipterussp. n. 2 is primarily controlled by Anaphes nitens, an egg parasitoid, which was introduced from the weevils’ native range into countries with significant weevil damage such as South Africa and Spain.

(https://bicep.net.au/fabi-biocontrol-centre-imports-anaphes-nitens-from-australia/)

While historically A. nitensreduced Gonipterus sp. n. 2 damage enough to be considered under economic control, many large-scale outbreaks have been recorded over the last two decades in South Africa. The reason for these outbreaks is unknown, but it is hypothesized that the efficacy of A. nitensas a biocontrol agent may have decreased. Therefore, alternative management strategies, such as planting resistant trees, should be considered.

MSc (Zoology) - 2018/2019:

The chemical basis of Eucalyptus resistance against Gonipterus sp. n. 2 is currently unknown, which complicates breeding for resistant genotypes. Therefore my Msc project was designed to help better understand the which constitutive metabolites within Eucalyptus leaves would affect adult Gonipterus sp. n. 2 feeding behavior. We began by using a laboratory choice assay to assess the relative levels of susceptibility of 62 Eucalyptusgenotypes from 23 species toward Gonipterussp. n. 2.

These bioassays revealed large intraspecific variation in susceptibility to weevil feeding, which for certain species, exceeded the interspecific variation. This variation allowed for easier identification of the important metabolites associated with resistance. Therefore we conducted a metabolite profile analysis on 17 genotypes from three species, which revealed strong correlations of 10 metabolites.

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We then wanted to confirm that the metabolites with strong correlation did have a true behavioral effect, which was assessed through an in vitro feeding preference assay using an artificial diet developed for this project. This revealed three phagostimulants (1,8-cineole, oxalic acid, and sucrose) and two repellent compounds (shikimic acid and palmitic acid) for Gonipterussp. n. 2.

PhD (Zoology) - 2020/Current:

During my PhD my focus remained on Gonipterus sp. n. 2. We began by answering the questions left over from my MSc. Collaborating with the ICFR to confirm our laboratory results under field conditions, using 12 unique genotypes. Next, we investigated why behavioral effects occur in oxalic, palmitic, and shikimic acid. Testing the differential concentration of oxalic acid and palmitic acid between differing leaf ages and assessing the effect of shikimic acid on phytohormone production between resistant and susceptible genotypes.

We then endeavored to create a simpler method of screening for the three phagostimulants and two repellent metabolites we identified. We turned to a spectroradiometer, using a newly acquired ASD FieldSpec to take readings from a new ICFR plantation at 3-time points and correlate the concentration of our 5 metabolites of interest to levels of Gonipterus damage. Then using the light spectrum in conjunction with basic artificial intelligence algorithms to try and identify the metabolites via the wavelength, which once identified can be applied to cheaper spectroradiometers for easy screening.

After finishing the work on the constitutive chemical compounds we turned our attention to induced defense metabolites. We conducted a volatile collection experiment to determine which Eucalyptus metabolites were induced due to feeding and oviposition, feeding only, oviposition only, and mechanical wounding. These results were enhanced through an mRNA sequencing experiment to determine the differential expression of the Eucalyptus genes in response to oviposition by Gonipterus sp. n. 2 and mechanical wounding. The metabolites highly expressed after feeding and oviposition were tested via y-tube olfactometer assays to determine their behavioral effects on both Anaphes nitens and Gonipterus sp. n. 2.

Lastly, we wanted to understand how the changes to the Eucalyptus species planted have impacted Anaphes nitens. Therefore we fed Gonipterus sp. n. 2 adult leaves from Eucalyptus species that were both historically and currently planted, then compare the behavior and fidelity of Anaphes nitens between their eggs. We will then conduct a chemical analysis to find the compounds corrected with wasp behavior and test them via y-tube olfactometer assays to confirm their effect.

Conferences:

Oral Presentations:

Bioassay and mass spectrometry-guided identification of constitutive plant metabolites associated with the feeding preference of the Eucalyptus snout beetle, Gonipterus sp. n. 2. Joubert J., Sivparsad B., Schröder M., Germishuizen I, Chen J., Hurley B., Allison J. and Hammerbacher A. 36th Annual meeting of the International Society of Chemical Ecology. 05/09/2021

Susceptibility of Eucalyptus trees to defoliation by the Eucalyptus snout beetle, Gonipterus sp. n. 2, is enhanced by high foliar contents of 1,8-cineole, oxalic acid, and sucrose and low contents of palmitic and shikimic acid. Joubert J., Sivparsad B., Schröder M., Germishuizen I, Chen J., Hurley B., Allison J. and Hammerbacher A. IUFRO Conference Division 7 – Forest Health, Pathology and Entomology. 06/09/2022

Posters:

Host preference of Gonipterus sp. 2 and chemical analysis of susceptible and resistant Eucalyptus species. Joubert J., Schroder M., Hurley B., and Hammerbacher A. 35th Annual meeting of the International Society of Chemical Ecology. 02/06/2019

Host preference of Spondyliaspis cf. plicatuloides (Froggatt) (Hemiptera: Aphalaridae) in South Africa. Makunde P., Slippers B., Hammerbacher A., Joubert J., Hurley B. National Symposium on Biological Invasions 2021. 05/05/2021

Public Outreach:

Filmed, Directed, Edited and Acted in the FABI video: A Virtual Tour of the FABI Biocontrol Facility:

A Virtual Tour of the FABI Biocontrol Facility

Participated in the FameLab competition, reaching the national finals:

Speed Talk by Christoff Joubert | FameLab

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Training:

August 2020: DRONE01x: Drones for Agriculture course - Wageningen University.

March 2022: Bioinformatics and statistical genomics training program – Module 5: RNA-Seq data analysis - ARC-BTP

Additional Duties:

2020/Current- Manage volatile collection equipment of the Hammerbacher group - Forestry and Agricultural Biotechnology Institute

2020/Current- Manage Priva greenhouses - Forestry and Agricultural Biotechnology Institute

2022- Hosted a local workshop on statistical analysis in Rstudio

Awards:

November 2019: MSc oral presentation award - Department of Zoology & Entomology Annual General Meeting – University of Pretoria

July 2020: FameLab SA - Participation - National Finals

November 2020: Mentorship award - Forestry and Agricultural Biotechnology Institute.

November 2021: Getting the message to the public award - Forestry and Agricultural Biotechnology Institute.

December 2021: PhD presentation award – Department of Zoology & Entomology Annual General Meeting – University of Pretoria

February 2022: IUFRO WP 7.03.16 webinar series - Africa session – Winner

November 2022: Mentorship award - Forestry and Agricultural Biotechnology Institute.

December 2022: PhD presentation award – Department of Zoology & Entomology Annual General Meeting – University of Pretoria

November 2023: FABIan of the year - Forestry and Agricultural Biotechnology Institute.

December 2023: PhD presentation award – Department of Zoology & Entomology Annual General Meeting – University of Pretoria