Reduction of microbial diversity in grassland soil is driven by long-term climate warming.

Linwei Wu, Ya Zhang, Xue Guo, Daliang Ning, Xishu Zhou, Jiajie Feng, Mengting Maggie Yuan, Suo Liu, Jiajing Guo, Zhipeng Gao, Jie Ma, Jialiang Kuang, Siyang Jian, Shun Han, Zhifeng Yang

July 2022 Nat Microbiol

Synopsis of Social media discussions

The discussions reflect high agreement and recognition of the study's importance, with posts describing how soil microbial diversity decline threatens ecosystem health, using phrases like 'significant impact' and 'urgent issue.' The tone and word choices emphasize concern and the potential global consequences, illustrating both engagement and recognition of the research's societal relevance.

A
Agreement
 Strong agreement

Most discussions strongly support the findings, emphasizing the significance of climate change on soil biodiversity.

I
Interest
 Moderate level of interest

Posts show curious engagement with the topic, especially with mentions of the research's implications.

E
Engagement
 Moderate level of engagement

The exchanges include references to the study's details and relevance, indicating moderate reflection.

I
Impact
 High level of impact

Many participants highlight the profound consequences of microbial loss, suggesting notable ecological implications.

Social Mentions

YouTube

1 Videos

Bluesky

1 Posts

Facebook

2 Posts

Twitter

7 Posts

Blogs

6 Articles

News

26 Articles

Metrics

Video Views

54

Total Likes

10

Extended Reach

86,804

Social Features

43

Timeline: Posts about article

Top Social Media Posts

Posts referencing the article

Climate Warming Reduces Soil Microbial Diversity and Ecosystem Health

Climate Warming Reduces Soil Microbial Diversity and Ecosystem Health

Climate change negatively affects soil biodiversity, crucial for ecosystem functions, as shown by a 7-year study revealing significant decreases in microbial communities due to warming and reduced moisture.

Today's Sciencology

June 16, 2022

54 views

  • Infopoint #Klimawandel #Artensterben
    @infopointa.bsky.social (Bluesky)

    Reduction of microbial diversity in grassland soil is driven by long-term climate warming Wu et al. 2022 www.nature.com/articles/s41...
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    August 8, 2024

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  • Purple Trees
    @PurpleTrees7 (Twitter)

    Reduction of microbial diversity in grassland soil is driven by long-term climate warming https://t.co/QlpR1gc3jY
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    July 10, 2022

  • EarthShot Labs
    @EarthShot_Labs (Twitter)

    RT @EarthShot_Labs: Reduction of microbial diversity in grassland soil is driven by long-term climate warming https://t.co/dLW9xFi1xN
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    June 14, 2022

    1

  • Ecology Tweets
    @ecology_tweets (Twitter)

    RT @NatureMicrobiol: Out now: Reduction of microbial diversity in grassland soil is driven by long-term climate warming. By Linwei Wu, Ya Z…
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    June 13, 2022

    3

  • François Mayer
    @Francois_Mayer1 (Twitter)

    RT @NatureMicrobiol: Out now: Reduction of microbial diversity in grassland soil is driven by long-term climate warming. By Linwei Wu, Ya Z…
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    June 13, 2022

    3

  • Nature Microbiology
    @NatureMicrobiol (Twitter)

    Out now: Reduction of microbial diversity in grassland soil is driven by long-term climate warming. By Linwei Wu, Ya Zhang, Xue Gu, Jizhong Zhou & colleagues. @IEGatOU #ClimateWarming #biodiversity Read it here: https://t.co/9SQlT4Sg7V https://t.co/QVZZusV3pS
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    June 13, 2022

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  • HungryMicrobe
    @hungrymicrobe (Twitter)

    Reduction of microbial diversity in grassland soil is driven by long-term climate warming https://t.co/FrXXCnA1V8
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    June 13, 2022

    1

  • EarthShot Labs
    @EarthShot_Labs (Twitter)

    Reduction of microbial diversity in grassland soil is driven by long-term climate warming https://t.co/dLW9xFi1xN
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    June 13, 2022

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Abstract Synopsis

  • Anthropogenic climate change is negatively affecting the functioning of ecosystems, particularly by threatening soil biodiversity.
  • Over a 7-year study, researchers found that warming and reduced soil moisture significantly decrease the richness of soil bacterial, fungal, and protistan communities.
  • The study highlights that decreased microbial biodiversity can harm essential ecosystem processes like productivity and biomass, suggesting a more serious impact in a warming climate.