Every year we get asked whether lady bugs can be used to manage pests. In this episode, we discuss a review paper on the effectiveness of exotic lady beetles to manage insect pests, but we'll also discuss the use of lady beetles in biological control in general.

Randoni et al. (2020). Exotic ladybirds for biological control of herbivorous insects – a review. Entomologia Experimentalis et Applicata 169: 6 - 27.

A new invasive snail has been observed near Miami (Florida) in August of 2020. If established, the snail can be problematic in nursery, greenhouse, fruit and vegetable production. Recognition is vital - if you see this snail, please report to state regulatory agencies right away (i.e. Texas Department of Agriculture). We also talk about the practical challenges with growing plants on Mars; something we're all going to encounter in the next 5 years or so... probably.

Horntail Snail: https://www.fdacs.gov/content/download/93400/file/horntail-snail-pest-alert.pdf

Growing plants on Mars: https://www.sciencenews.org/article/mars-farming-harder-martian-regolith-soil

ACC, or more commonly known as 1-Aminocyclopropane-1-carboxylic acid on the streets, is a precursor to ethylene, the compound most known for its ability to ripen fruit. ACC was not thought to have its own set of functions, but this recent article supports otherwise. A better understanding of plant physiology can lead to a whole new area of plant research, which includes potential management strategies.

Citation:

Van de Poel, B. 2020. Ethylene’s fraternal twin steals the spotlight. Nat. Plants. 1–2. 

I've received reports of large migrations of whiteflies recently in the landscape, from Dallas, Austin and even east Texas regions. It's not uncommon to see large clouds of whiteflies when cotton is 'defoliated' in preparation for harvest; however, whiteflies often need some time to get used to their new plant host (acclimation). Changes in endosymbionts, bacteria found inside the insect that commonly have a mutualistic positive relationship with the insect, are a potential explanation for host shift acclimation. For fun, we also talk about the diabolical ironclad beetle and it's incredibly resilient properties that make engineers interested enough to study.

Some references:

Asplen, M. K., N. Bano, C. M. Brady, N. Desneux, K. R. Hopper, C. Malouines, K. M. Oliver, J. A. White, and G. E. Heimpel. 2014. Specialisation of bacterial endosymbionts that protect aphids from parasitoids. Ecol. Entomol. 39: 736–739.

Hu, F.-Y., and C.-W. Tsai. 2020. Nutritional relationship between Bemisia tabaci and its primary endosymbiont, Portiera aleyrodidarum, during host plant acclimation. Insects. 11: 1–13.

Liu, X. D., and H. F. Guo. 2019. Importance of endosymbionts Wolbachia and Rickettsia in insect resistance development. Curr. Opin. Insect Sci. 33: 84–90.

Kanakala, S., and M. Ghanim. 2019. Global genetic diversity and geographical distribution of Bemisia tabaci and its bacterial endosymbionts. PLoS One. 14.

Weinert, L. A., E. V. Araujo-Jnr, M. Z. Ahmed, and J. J. Welch. 2015. The incidence of bacterial endosymbionts in terrestrial arthropods. Proc. R. Soc. B Biol. Sci. 282: 3–8.

Vorburger, C. 2018. Symbiont-conferred resistance to parasitoids in aphids – Challenges for biological control. Biol. Control. 116: 17–26. 

The Asian Giant Hornet is one of the many plagues that's hit us in 2020; but as fall approaches, it's thought they will enter the slaughter phase, when they can take out an entire bee hive within hours. Fortunately for us in Texas, recent models suggest that the the Asian Giant Hornet won't establish in Texas due to our suboptimal climate (and because they take "Don't mess with Texas" seriously).

We also discuss new findings on the importance of plant guttation as a nutritional resource for insects and the potential implications for systemic insecticides.

Citations:

Matsuura, M., and S. F. Sakagami. 1973. A bionomic sketch of the giant hornet, Vespa mandarinia, a serious pest for Japanese apiculture. 北海道大學理學部紀要. 19: 125–162.

University of Melbourne. 2020. 'Insect Armageddon': Low doses of the insecticide, Imidacloprid, cause blindness in insects: Findings show even small doses of insecticides reduce capacity of insects to survive. ScienceDaily. ScienceDaily, 28 September 2020. .

Urbaneja-Bernat, P., A. Tena, J. González-Cabrera, and C. Rodriguez-Saona. 2020. Plant guttation provides nutrient-rich food for insects. Proceedings. Biol. Sci. 287: 20201080.

Zhu, G., J. Gutierrez Illan, C. Looney, and D. W. Crowder. 2020. Assessing the ecological niche and invasion potential of the Asian giant hornet. Proc. Natl. Acad. Sci. 0: 202011441.

Increasing levels of CO2 is one of the driving factors for global climate change. This same CO2 also happens to be vital for plant growth via photosynthesis. As a result, fast-growing plants, such as poison ivy, are actually becoming more abundant and more hazardous.

https://www.southernliving.com/news/poison-ivy-more-poisonous-bigger-climate-change?fbclid=IwAR24gBcp2fknpLYUcnG6IDvLEndKF6RyMhAUqFDgYiWbpoSWsHIN0kXll3A

If you were eaten by a frog, how would you survive? Well, these water beetles survive by swimming 'downstream'.

https://www.sciencenews.org/article/water-beetle-frog-eaten-alive-escape-death-butt-excretion?fbclid=IwAR2OhiL1E6IEqQs6ZjoK_ukVoL82-Ikx-zJaaUqkdO7_wnvKuprSOzcjt6Q

And lastly, here is a link to provide you nightmares of swarms of fungus gnat larvae.

https://www.youtube.com/watch?v=6MwYvLaJ6Ho

Potted plants are arguably overwatered in the greenhouse and nursery industry. Over-watering can be considered a waste of water, results in leaching of pesticides and fertilizers, and can promote plant pathogens. In this episode, we discuss a study that uses various sensors to assess plant stress to determine how much watering can be reduced before the plant is 'too stressed'.

For the full article:

Nackley, L. L., E. Fernandes de Sousa, B. J. L. Pitton, J. Sisneroz, and L. R. Oki. 2020. Developing a Water-stress Index for Potted Poinsettia Production. HortScience. 55: 1295–1302.

A common assumption is that ornamental plants must be perfectly clean when they hit the retailer. No pests. Nada. This assumption is unrealistic and rather harmful. By making this assumption, we limit our pest management decisions to options that are most likely to kill all the insects: synthetic insecticides. However, how true is it that synthetic insecticides give us perfectly clean plants? And if "zero" pests is unrealistic, what is? Listen to this episode to learn more about a study looking at whitefly densities on poinsettia cuttings received by growers and finished poinsettias that make it to the retailer.

Citation:

Vafaie, E. K., H. B. Pemberton, M. Gu, D. Kerns, M. D. Eubanks, and K. M. Heinz. 2020. Whitefly Abundance on Rooted Poinsettia Cuttings and Finished Poinsettias. Horttechnology. 1–6.

https://journals.ashs.org/horttech/view/journals/horttech/30/4/article-p486.xml