Unraveling the dynamic interplay of microbial communities associated to Lupinus angustifolius in response to environmental and cultivation conditions DOI Creative Commons
Maite Ortúzar, Raúl Riesco,

Marco Criado

et al.

The Science of The Total Environment, Journal Year: 2024, Volume and Issue: 946, P. 174277 - 174277

Published: June 27, 2024

Microorganisms form dynamic communities with plants, providing benefits such as nutrient acquisition and stress resilience. Understanding how these microorganisms are affected by environmental factors growth conditions soil characteristics essential for harnessing sustainable agriculture practices their response to climate change. The microbiome associated Lupinus angustifolius, a legume native in Europe, high protein value resilience was characterized the first time. Using 16S rRNA gene ITS amplicon sequencing, we compositional temporal changes of bacterial fungal soil, rhizosphere, plant compartments where angustifolius grows naturally. Our results suggest that main difference microbial is related edaphic properties, although temperature, humidity or rainfall also influenced composition communities. We roots, nodules, leaves wild plants collected field compared them against obtained under greenhouse conditions. In compartments, appeared be more growing (field vs greenhouse), than location. These can used identify key taxa may play crucial roles development adaptation host its microbiota highlight importance characterizing microbiomes natural habitats. Soil, climatic seasons, shapes assembly. recruits core across leaves, stable locations. However, cultivation alter dynamics, impacting adaptability components. Wild show resilient adaptable while germination vulnerability.

Language: Английский

Succession dynamics of microbial communities responding to the exogenous microalgae ZM-5 and analysis of the environmental sustainability of a constructed wetland system DOI

Xinyue Zhao,

Xiangwei Meng,

Bin Dang

et al.

Bioresource Technology, Journal Year: 2023, Volume and Issue: 371, P. 128642 - 128642

Published: Jan. 18, 2023

Language: Английский

Citations

19
Harnessing microbes to pioneer environmental biophotoelectrochemistry DOI
Shaofu Huang, Jie Ye, Jiangtao Gao

et al.

Trends in biotechnology, Journal Year: 2024, Volume and Issue: unknown

Published: Aug. 1, 2024

Language: Английский

Citations

8
Response mechanism of microalgae-based constructed wetland to day-night alternations DOI

Xiangwei Meng,

Mengran Guo,

Yunan Wang

et al.

Chemical Engineering Journal, Journal Year: 2024, Volume and Issue: 487, P. 150544 - 150544

Published: March 19, 2024

Language: Английский

Citations

7
Microbial interactions enhanced environmental fitness and expanded ecological niches under dibutyl phthalate and cadmium co-contamination DOI
Xuejun Wang, Hao Wu,

Chuhan Dai

et al.

Environmental Pollution, Journal Year: 2022, Volume and Issue: 306, P. 119362 - 119362

Published: April 27, 2022

Language: Английский

Citations

25
Unraveling the dynamic interplay of microbial communities associated to Lupinus angustifolius in response to environmental and cultivation conditions DOI Creative Commons
Maite Ortúzar, Raúl Riesco,

Marco Criado

et al.

The Science of The Total Environment, Journal Year: 2024, Volume and Issue: 946, P. 174277 - 174277

Published: June 27, 2024

Microorganisms form dynamic communities with plants, providing benefits such as nutrient acquisition and stress resilience. Understanding how these microorganisms are affected by environmental factors growth conditions soil characteristics essential for harnessing sustainable agriculture practices their response to climate change. The microbiome associated Lupinus angustifolius, a legume native in Europe, high protein value resilience was characterized the first time. Using 16S rRNA gene ITS amplicon sequencing, we compositional temporal changes of bacterial fungal soil, rhizosphere, plant compartments where angustifolius grows naturally. Our results suggest that main difference microbial is related edaphic properties, although temperature, humidity or rainfall also influenced composition communities. We roots, nodules, leaves wild plants collected field compared them against obtained under greenhouse conditions. In compartments, appeared be more growing (field vs greenhouse), than location. These can used identify key taxa may play crucial roles development adaptation host its microbiota highlight importance characterizing microbiomes natural habitats. Soil, climatic seasons, shapes assembly. recruits core across leaves, stable locations. However, cultivation alter dynamics, impacting adaptability components. Wild show resilient adaptable while germination vulnerability.

Language: Английский

Citations

5