Microbial seasonality promotes soil carbon emission

Liyuan applied the CLM-Microbe model to study the impacts of microbial seaonality on soil carbon emission. The key finding is that microbial seasonality promotes soil carbon emission. This has important implication for climate change research. The paper is published in Global Change Biology and the finding has been widely reported in various media. Congratulations, Liyuan!

SDSU Newscenter: https://newscenter.sdsu.edu/sdsu_newscenter/news_story.aspx?sid=78418.

ScienceDaily: https://www.sciencedaily.com/releases/2021/05/210510104355.htm#:~:text=Microbes%20consume%20carbon%20as%20the,carbon%20emissions%20and%20vice%20versa.

EurekAlert: https://www.eurekalert.org/pub_releases/2021-05/sdsu-ish050721.php

The Education Magazine: https://www.theeducationmagazine.com/education-now/microbial-fluctuations-soil-emits-carbon/

Samachar Central: https://samacharcentral.com/in-soil-high-microbial-fluctuation-leads-to-more-carbon-emissions/

Environmental Health News: https://www.ehn.org/soil-climate-change-2653014050.html

My Droll: https://mydroll.com/in-soil-high-microbial-fluctuation-leads-to-more-carbon-emissions/

News Break: https://www.newsbreak.com/news/2233138207694/in-soil-high-microbial-fluctuation-leads-to-more-carbon-emissions

Phys.org: https://phys.org/news/2021-05-soil-high-microbial-fluctuation-carbon.html

FuntiTech: https://fuentitech.com/in-soil-large-microbial-variability-increases-carbon-emissions/34821/