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06/11/2024 12:27

Unknown helpers of the soil: How invertebrates support the decomposition of plants

Stephanie Mayer-Bömoser LOEWE-Zentrum Translationale Biodiversitätsgenomik
Senckenberg Gesellschaft für Naturforschung

    When plants or parts of them die, billions of small creatures help to break down the organic material. Next to microorganisms such as bacteria and fungi, also some soil-living invertebrates seem to be involved in this process. A team of researchers from the LOEWE Centre for Translational Biodiversity Genomics (TBG) in Hesse, Germany, and further institutions has now started to unravel the genetic basis of plant cell wall degradation in these invertebrates. Their findings will help to improve predictions of carbon and nutrient cycling in the soil.

    When plants or parts of them die, billions of small creatures help to break down the organic material. Next to microorganisms such as bacteria and fungi, also some soil-living invertebrates seem to be involved in this process. A team of researchers from the LOEWE Centre for Translational Biodiversity Genomics (TBG) in Hesse, Germany, and further institutions has now started to unravel the genetic basis of plant cell wall degradation in these invertebrates. Their findings will help to improve predictions of carbon and nutrient cycling in the soil.

    They live in large numbers in the soil and are represented by a wide variety of species: microscopically small invertebrate soil animals such as springtails and horn mites. They break down organic matter and release nutrients for plants. In a study published in the journal “Molecular Ecology”, researchers have now discovered that a much larger proportion of their species may also be directly involved in decomposing dead plant material. Until now, this ability has been attributed mainly to bacteria and fungi. To break down cellulose, the main component of plant cell walls, the organisms must be able to produce certain enzymes.

    In detailed genome analyses of different species of springtails (Collembola) and horn mites (Oribatida), the researchers revealed that a particular gene encoding one of these special enzymes is present in most of the investigated species. It belongs to a class of enzymes called glycoside hydrolases, which break down complex sugar molecules into simpler components. Cellulose is such a polysaccharide. For their study, the scientists analysed 232 species of soil invertebrates. The “Metagenomic monitoring of soil communities (MetaInvert)” project, which is based at the LOEWE Centre TBG and provides genomic data on these under-researched organisms, offered a comprehensive resource.

    “New genomic analysis methods are helping us to gain important insights into this species-rich group of animals, which is difficult to study due to its small size and enormous diversity,” reports co-study leader Ingo Ebersberger, Professor of Applied Bioinformatics at the Faculty of Biosciences at Goethe University Frankfurt and member of the LOEWE Centre TBG. “With the help of bioinformatic analyses, we were able to test all samples for the presence of the gene that enables the animals to break down cellulose.” New software developed by Ebersberger's PhD student and first author of the study, Hannah Mülbaier, contributed significantly to the success of the study and made it possible to search for specific genes in genomes in a targeted and very precise way. “What is new about this software is that it eliminates a very complex, time-consuming and labour-intensive step: predicting all the genes in a genome. Instead, we can now search for our candidate genes directly in a genome sequence,” says Ebersberger.

    The interdisciplinary collaboration of the study's authors enabled them to draw far-reaching conclusions. “In our genome comparisons, we also found that the ability to degrade cellulose was acquired early in the phylogenetic history of the species. This means that soil invertebrates have probably been helping to break down plant residues for a long time, either alone or in cooperation with fungi or bacteria living in their gut,” explains co-leader of the study Miklós Bálint, Professor of Functional Environmental Genomics at the Senckenberg Biodiversity and Climate Research Centre, Justus Liebig University Giessen, and co-spokesperson of the LOEWE Centre TBG. “Until now, little was known about the contribution of animals to this decomposition process – beyond purely mechanical shredding. Our results now highlight that soil invertebrates such as springtails and horn mites likely play an important but previously overlooked role in the carbon cycle of soils, given their abundance worldwide,” Bálint continues. This is because most of the carbon fixed on land by photosynthesis is contained in plants in the form of cellulose. It decomposes mainly in soils, releasing carbon back into the atmosphere.

    Based on the new findings and their implications for understanding food webs and the carbon cycle in soil, the authors of the study argue that soil invertebrates should be considered as a third evolutionary and ecologically independent group with the ability to degrade cellulose, alongside bacteria and fungi. This is particularly important because these animals respond differently to environmental changes than microorganisms, and decomposition processes could change as a result. The data is also important for calculating models that make predictions about the development of ecosystems and carbon and nutrient cycles.


    Contact for scientific information:

    Prof. Dr Ingo Ebersberger
    Programme area Comparative Genomics at the LOEWE Centre for Translational Biodiversity Genomics
    and Applied Bioinformatics working group at the Faculty of Biosciences at Goethe University Frankfurt am Main
    ebersberger@bio.uni-frankfurt.de

    Prof. Dr Miklós Bálint
    Programme area Functional Environmental Genomics and Co-Speaker at the LOEWE Centre for Translational Biodiversity Genomics
    Senckenberg Society for Nature Research
    miklos.balint@senckenberg.de


    Original publication:

    Publication in Molecular Ecology:
    Hannah Muelbaier, Freya Arthen, Gemma Collins, Thomas Hickler, Karin Hohberg, Ricarda Lehmitz, Yannick Pauchet, Markus Pfenninger, Anton Potapov, Juliane Romahn, Ina Schaefer, Stefan Scheu, Clément Schneider, Ingo Ebersberger, Miklós Bálint
    “Genomic evidence for the widespread presence of GH45 cellulases among soil invertebrates”
    https://doi.org/10.1111/mec.17351


    Images

    Small invertebrate soil animals such as springtails (here Disparrhopalites patrizi) break down organic substances. New genomic analyses indicate that this could also include cellulose, the main component of plant cell walls.
    Small invertebrate soil animals such as springtails (here Disparrhopalites patrizi) break down organ ...
    Andy Murray
    Andy Murray, chaosofdelight.org

    According to the study, soil animals such as horn mites (here Steganacarus sp.) could also play an important, previously overlooked role in the carbon cycle of soils.
    According to the study, soil animals such as horn mites (here Steganacarus sp.) could also play an i ...
    Andy Murray
    Andy Murray, chaosofdelight.org


    Criteria of this press release:
    Journalists
    Biology, Environment / ecology, Oceanology / climate, Zoology / agricultural and forest sciences
    transregional, national
    Research results, Scientific Publications
    English


     

    Small invertebrate soil animals such as springtails (here Disparrhopalites patrizi) break down organic substances. New genomic analyses indicate that this could also include cellulose, the main component of plant cell walls.


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    According to the study, soil animals such as horn mites (here Steganacarus sp.) could also play an important, previously overlooked role in the carbon cycle of soils.


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