Numerous studies have examined the effects of essential nutrients like nitrogen (N), phosphorus (P), and potassium (K) on soil bacterial and fungal diversity, as well as their community composition10,11,12. These changes in the soil microbial community can enhance plant growth by improving nutri...
The unique viral infection mode of prokaryotes suggests that microbial symbionts represented by keystone taxa like CPR bacteria and DPANN archaea are more susceptible to viral lysis in groundwater. Moreover, diverse AMGs related to methane, nitrogen, sulfur, and phosphorous cycles imply the important...
of organic pollutants as carbon sources and restore the polluted environment. Furthermore, halophiles can enhance plant growth under stress conditions and produce vital bio-enzymes. Halophilic microorganisms can contribute to increasing soil microbial diversity, pollutant degradation, stabilizing soil structure...
e, f). The elemental composition of microbial proteins is also highly related to resource availability in environments36,37. Accordingly, higher N-ARSC and S-ARSC of viral proteins might reflect higher availabilities of nitrogen and sulfur in groundwater, while ...
[27,29,30,31,33], detailed investigations on methane, nitrogen and sulfur cycling genes/pathways [4,11,34], enzymes with potential use in biotechnological processes [15,16,22,23,25,26,30,35], community responses to global warming and sea level rising [5,12,21,36], and microbial ...
Since RAS and aquaponic systems are engineered for biological output, their success depends in part on operationally controlling microbial activities10. Bacterial communities are not only intrinsic to but also fundamental for the proper functioning of both RAS and aquaponic systems11. Several reviews on...
Copper plays vital roles in numerous cellular processes and its imbalance can lead to oxidative stress and dysfunction. Recent research has unveiled a unique form of copper-induced cell death, termed cuproptosis, which differs from known cell death mecha
All the techniques that have been proposed to be applied in space will need to rely on resources taken from the Earth, such as oxygen supply, nutrients, and chemicals to support microbial growth. Some of these can be obtained directly from the minerals present on other planetary bodies, while...
Microbial nitrogen cycling processes in oxygen minimum zone. Annu. Rev. Mar. Sci. 2011, 3, 317–345. [Google Scholar] [CrossRef] [PubMed] Anas, A.; Tharakan, B.; Jasmin, C.; Divya, B.; Ameri, S.; Narayanan, S. Microbial distribution and diversity along a vertical profile in the...