Saturday, July 11, 2026
Science
No Result
View All Result
  • Login
  • HOME
  • SCIENCE NEWS
  • CONTACT US
  • HOME
  • SCIENCE NEWS
  • CONTACT US
No Result
View All Result
Scienmag
No Result
View All Result
Home Science News Biology

Barley plants fine-tune their root microbial communities through sugary secretions

April 25, 2024
in Biology
Reading Time: 3 mins read
0
Barley plants fine-tune their root microbial communities through sugary secretions
67
SHARES
605
VIEWS
Share on FacebookShare on Twitter
ADVERTISEMENT

Different types of barley recruit distinct communities of soil microbes to grow around their roots by releasing a custom mix of sugars and other compounds, according to a new study led by Jacob Malone of the John Innes Center, UK, publishing April 25th in the open-access journal PLOS Biology.

Barley plants fine-tune their root microbial communities through sugary secretions

Credit: Alba Pacheco-Moreno (CC-BY 4.0,

Different types of barley recruit distinct communities of soil microbes to grow around their roots by releasing a custom mix of sugars and other compounds, according to a new study led by Jacob Malone of the John Innes Center, UK, publishing April 25th in the open-access journal PLOS Biology.

Beneficial soil microbes that live on or around plant roots can provide nutrition, help the plant withstand stress and protect it from pathogenic microbes. In return, the plant secretes a portion of the sugars it makes through photosynthesis, along with amino acids and other metabolites, into the surrounding environment. The composition of soil microbes that a plant attracts can vary widely, depending on what kinds of compounds the plant provides.

In the new study, researchers took a closer look at the relationship between a plant’s genetics and its root microbes. They analyzed the microbiomes from two types of barley plants – a modern type named Tipple, and a traditional one, named Chevallier. The two barley types each had an overlapping core group of microbes associated with their roots, but with some distinct differences in the overall communities.

One common group of root microbes – the Pseudomonas genus – was especially abundant around Tipple roots. The researchers discovered that this is because Tipple plants secrete large amounts of sugars called hexoses (such as glucose or fructose), which Pseudomonas especially like to eat. They also observed differences in gene activity between the two barley types that helped explain the variation in their root communities. When researchers tried to swap the microbial communities between the two plant types, each barley variety grew better when exposed to its original community.

The new findings suggest that plants can fine-tune the population of microbes colonizing its root zone, which can have important outcomes for plant health. While these findings came from plants grown in greenhouses, researchers said that determining the extent to which these differences occur in barley growing in farm fields will be a key challenge for future research.

The authors add, “Our research shows that different barley varieties recruit distinct microbial communities from the soil, based on the sugars and other nutrients they secrete from their roots. These microbes help some varieties to grow but not others, suggesting that breeding cereals to recruit beneficial, growth promoting microbes may be possible in the future.”

#####

In your coverage, please use this URL to provide access to the freely available paper in PLOS Biology:

Citation: Pacheco-Moreno A, Bollmann-Giolai A, Chandra G, Brett P, Davies J, Thornton O, et al. (2024) The genotype of barley cultivars influences multiple aspects of their associated microbiota via differential root exudate secretion. PLoS Biol 22(4): e3002232.

Author Countries: United Kingdom

Funding: APM was funded by UKRI-BBSRC DTP Studentship Award (BB/M011216/1) to the Norwich Research Park. ABG was supported by a John Innes Foundation Rotation PhD Studentship. GC, PB, JD, OT, JKMB, PN, CR and JGM were supported by BBSRC Institute Strategic Programme Grant BBS/E/J/000PR9797 to the John Innes Centre. PP and VR were supported by UKRI-BBSRC Responsive mode Grant BB/T001801/1 to PP. CR and SD were supported by UKRI-BBSRC Responsive mode Grant BB/K02003X/1 to CR. The funders played no role in the study design, data collection and analysis, decision to publish, or preparation of the manuscript.



Journal

PLoS Biology

DOI

10.1371/journal.pbio.3002232

Method of Research

Observational study

Subject of Research

Not applicable

COI Statement

Competing interests: The authors have declared that no competing interests exist.

Share27Tweet17
Previous Post

Exposure to noise – even while in the egg – impairs bird development and fitness

Next Post

Nationwide, 32 local schools win NFL PLAY 60 grants for physical activity

Related Posts

Han directs new $15M NIH center for organ-on-chip technology
Biology

Han directs new $15M NIH center for organ-on-chip technology

July 10, 2026
Bacteriophages Enable Next-Gen Smart Pathogen Detection Sensors
Biology

Bacteriophages Enable Next-Gen Smart Pathogen Detection Sensors

July 10, 2026
Temperature Fluctuations Have Greater Impact Than Previously Believed
Biology

Temperature Fluctuations Have Greater Impact Than Previously Believed

July 10, 2026
New Study Uncovers Biology Behind Glioma Cancer Progression
Biology

New Study Uncovers Biology Behind Glioma Cancer Progression

July 10, 2026
Ecological Limits and Functions in Microbiome-Based Integrative Medicine
Biology

Ecological Limits and Functions in Microbiome-Based Integrative Medicine

July 10, 2026
New Therapy Accelerates Bone Marrow Recovery by Targeting Microenvironment
Biology

New Therapy Accelerates Bone Marrow Recovery by Targeting Microenvironment

July 10, 2026
Next Post
Nationwide, 32 local schools win NFL PLAY 60 grants for

Nationwide, 32 local schools win NFL PLAY 60 grants for physical activity

  • Mothers who receive childcare support from maternal grandparents show more

    Mothers who receive childcare support from maternal grandparents show more parental warmth, finds NTU Singapore study

    27656 shares
    Share 11059 Tweet 6912
  • University of Seville Breaks 120-Year-Old Mystery, Revises a Key Einstein Concept

    1061 shares
    Share 424 Tweet 265
  • Bee body mass, pathogens and local climate influence heat tolerance

    682 shares
    Share 273 Tweet 171
  • Researchers record first-ever images and data of a shark experiencing a boat strike

    546 shares
    Share 218 Tweet 137
  • Groundbreaking Clinical Trial Reveals Lubiprostone Enhances Kidney Function

    531 shares
    Share 212 Tweet 133
Science

Embark on a thrilling journey of discovery with Scienmag.com—your ultimate source for cutting-edge breakthroughs. Immerse yourself in a world where curiosity knows no limits and tomorrow’s possibilities become today’s reality!

RECENT NEWS

  • Deep Learning Predicts Antidepressant Response from Electronic Health Records
  • Study Finds Dopamine System Damage in Long COVID Patients’ Brains
  • HMGA Proteins Linked to Brain Tumors and Neurodegenerative Diseases
  • Physical Activity Lowers Frailty Risk in Older Adults: Review and Analysis

Categories

  • Agriculture
  • Anthropology
  • Archaeology
  • Athmospheric
  • Biology
  • Biotechnology
  • Blog
  • Bussines
  • Cancer
  • Chemistry
  • Climate
  • Earth Science
  • Editorial Policy
  • Marine
  • Mathematics
  • Medicine
  • Pediatry
  • Policy
  • Psychology & Psychiatry
  • Science Education
  • Social Science
  • Space
  • Technology and Engineering

Subscribe to Blog via Email

Success! An email was just sent to confirm your subscription. Please find the email now and click 'Confirm Follow' to start subscribing.

Join 5,146 other subscribers

© 2025 Scienmag - Science Magazine

Welcome Back!

Login to your account below

Forgotten Password?

Retrieve your password

Please enter your username or email address to reset your password.

Log In
No Result
View All Result
  • HOME
  • SCIENCE NEWS
  • CONTACT US

© 2025 Scienmag - Science Magazine