Date: September 21, 2016
Source: Asociación RUVID
The microbial communities of toxic plant feeders in the Albufera lake in Valencia, Spain have been the focus of recent research. Aside from explaining the insects’ tolerance to a toxic diet, the findings may have applications in bioremediation: a waste management technique that involves the use of organisms to remove or neutralize pollutants from a contaminated materials.
Toxic plant feeders: moth larvae from the Albufera lake, Valencia, Spain.
Credit: Image courtesy of Asociación RUVID
Scientists at the Universitat de València's Cavanilles Institute have studied the microbial communities of toxic plant feeders in the Albufera lake in Valencia, Spain. Aside from explaining the insects' tolerance to a toxic diet, their findings may have applications in bioremediation: a waste management technique that involves the use of organisms to remove or neutralise pollutants from a contaminated materials.
Specifically, the researchers looked at the bacteria present in the gut of the larvae of two types of moth, Hyles euphorbiae and Brithys crini, which feed exclusively on latex-rich Euphorbia sp. and alkaloid-rich sea daffodil (Pancratium maritimum), respectively. The bacteria are capable of degrading these toxic compounds, which explains how it is that these insects can feed on plants that are generally toxic to insects.
Aside from an understanding of the different mechanisms by which the toxic compounds are rendered harmless to the insect (crystallisation and direct degradation), the work has revealed how an ordinarily generalist bacteria, E. casseliflavus, found in the gut of many an insect, in the digestive tract of the H. euphorbiae becomes pivotal in the detoxification of the ingested latex.
In the words of Cristina Vilanova, "this work characterises and reveals a new relationship between an apparently generalist bacteria and a specialist insect. The microbiota analysed in this study, especially E. casseliflavus, may prove fundamental to understanding the ecology of these specialist insects, as well as being of use in the biotechnology industry. Microorganisms and enzymes that can neutralise alkaloids and latex molecules might find applications in bioremediation, for instance."
Indeed, these findings could be used in the removal or controlled transformation of latex- and alkaloid-based toxic compounds, organic substances found in nature that are the main active ingredients in many common drugs and vegetable toxins.
The insight provided by researchers Amparo Latorre, Joaquin Baixeras and Cristina Vilanova (left) at the Cavanilles Institute, I2SysBio and FISABIO opens up the lines of research focused on gut microbial communities in insects and butterflies. Until now research has focused primarily on species considered agricultural or forestal pests.
The work has been published in the journal Frontiers in Microbiology, and received funding from the Spanish ministries of Science and Innovation, and Education, as well as European FEDER funds.
The above post is reprinted from materials provided byAsociación RUVID. Note: Content may be edited for style and length.
Cristina Vilanova, Joaquín Baixeras, Amparo Latorre, Manuel Porcar. The Generalist Inside the Specialist: Gut Bacterial Communities of Two Insect Species Feeding on Toxic Plants Are Dominated by Enterococcus sp..Frontiers in Microbiology, 2016; 7 DOI:10.3389/fmicb.2016.01005
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Asociación RUVID. "Gut bacteria explain insects' tolerance to a toxic diet." ScienceDaily. ScienceDaily, 21 September 2016. <www.sciencedaily.com/releases/2016/09/160921084722.htm>.