Results 221 to 230 of about 94,989 (292)

Non‐Additive Interactions Between Multiple Mutualists and Host Plant Genotype Simultaneously Promote Increased Plant Growth and Pathogen Defence

Plant, Cell &Environment, EarlyView.
ABSTRACT Understanding the impact of microbial interactions on plants is critical for maintaining healthy native ecosystems and sustainable agricultural practices. Despite the reality that genetically distinct plants host multiple microbes of large effect in the field, it remains unclear the extent to which host genotypes modulate non‐additive ...
Amanda H. Rawstern, Lucas J. Carbajal, Tyler J. Slade, Michelle E. Afkhami   +3 more
wiley   +1 more source

Interactions between native soil microbiome and a synthetic microbial community reveals bacteria with persistent traits. [PDF]

mSystems
Velte JM, Mudiyanselage S, Hofmann OF, Lee STM, Huguet-Tapia J, Miranda M, Martins SJ.   +6 more
europepmc   +1 more source

Unveiling Potato Cultivars With Microbiome Interactive Traits for Sustainable Agricultural Production

Plant, Cell &Environment, EarlyView.
ABSTRACT Root traits significantly shape rhizosphere microbiomes, yet their interaction with microbes is often overlooked in plant breeding programs. Here, we propose that selecting modern cultivars based on microbiome interactive trait (MIT), such as root biomass, exudate patterns and the rhizosphere microbiome, can enhance agricultural sustainability
Tianci Zhao, Stefanie N. Vink, Xiu Jia, Alexander Erban, Stephanie Schaarschmidt, Joachim Kopka, Ellen Zuther, Krzysztof Treder, Dorota Michałowska, Rémy Guyoneaud, J. Theo M. Elzenga, Eléonore Attard, Joana Falcão Salles   +12 more
wiley   +1 more source

Quantifying Soil Microbiome Abundance by Metatranscriptomics and Complementary Molecular Techniques-Cross-Validation and Perspectives. [PDF]

Mol Ecol Resour
Dahl MB, Brachmann S, Söllinger A, Schnell M, Ahlers L, Wutkowska M, Hoff KJ, Nath N, Groß V, Wang H, Weil M, Piecha M, Schaffer M, Jensen C, Kuss AW, Gall C, Wimmer E, Pribasnig T, Tveit AT, Sigurdsson BD, Schleper C, Richter A, Urich T.   +22 more
europepmc   +1 more source

Rhizobacteria‐Induced Systemic Priming Against Fungal Pathogens Involves Hydroxycinnamic Acid Amides

Plant, Cell &Environment, EarlyView.
ABSTRACT The rhizosphere, a narrow region of soil surrounding roots, contains diverse microorganisms with a composition that is distinct from the surrounding soil. Some rhizosphere bacteria can trigger a heightened state of immunity in the whole plant, termed Induced Systemic Resistance (ISR).
Mackenzie Eli William Loranger, Wolfgang Moeder, Hyunsuh Lee, David K. Liscombe, Eric Déziel, Keiko Yoshioka   +5 more
wiley   +1 more source

Rapid reshaping of the soil microbiome and metabolome during short-term flooding and draining in rice. [PDF]

Front Microbiol
Lu Y, Lai D, Cai S, Wang H, Hu Z, Xiong Q.   +5 more
europepmc   +1 more source

Calcium and Nitrogen Availability Controls Root Exudation in Hydroponically Cultured Barley

Plant, Cell &Environment, EarlyView.
ABSTRACT Root exudation is a key component of plant‐rhizosphere interactome. It is increasingly evident that root exudates influence rhizospheric microbial communities and in turn can benefit plants through improved resource allocation. However, how suboptimal nutrient availability relates to control of root exudation is poorly understood.
Ibadete Denjali, Vijay Kumar, Joana Janzen, Marcus Persicke, László Cselényi, Refat Abdel‐Basset, Karl‐Josef Dietz   +6 more
wiley   +1 more source

Soil microbiome analysis of Uruguayan grasslands and croplands reveals losses of microbial diversity and necromass recycling traits. [PDF]

Environ Microbiome
Giménez M, Berenstecher P, Ligrone A, Iraola G, Piñeiro G.   +4 more
europepmc   +1 more source

Bacillus cereus T146 Enhances Wheat Salt Tolerance by Restructuring the Rhizosphere Microbiome and Activating TaPIN1‐Dependent Auxin Transport

Plant, Cell &Environment, EarlyView.
ABSTRACT Salinity stress disrupts rhizosphere homoeostasis and inhibits root development. Although PGPR are known to alleviate such stress, critical knowledge gaps remain regarding the specific mechanisms by which they enhance tolerance under moderate to high salinity, particularly within the wheat rhizosphere ‐root interface.
Fuqiang Zhu, Taotao Wang, Zhen Wang, Yelin Shan, Panrong Ren, Xiaomin Bie, Duojia Wang, Zheng Gao, Qingjie Guan, Lei Ge, Yuan Chen   +10 more
wiley   +1 more source