Rhizosphere tripartite interactions and PGPR-mediated metabolic reprogramming towards ISR and plant priming: A metabolomics review
Simple Summary Plant growth-promoting rhizobacteria (PGPR) are rhizosphere-inhabiting
eco-friendly bacteria that indirectly/directly enhance plant growth and development and are …
eco-friendly bacteria that indirectly/directly enhance plant growth and development and are …
Root exudates shift how N mineralization and N fixation contribute to the plant-available N supply in low fertility soils
Nitrogen (N) availability is a primary constraint to plant productivity, especially in marginal
lands with inherently low fertility. Root exudates change with plant nutrient status, and are …
lands with inherently low fertility. Root exudates change with plant nutrient status, and are …
Arbuscular mycorrhizal fungi alleviate erosional soil nitrogen loss by regulating nitrogen cycling genes and enzymes in experimental agro-ecosystems
X Gou, Y Hu, H Ni, X Wang, L Qiu, X Chang… - Science of The Total …, 2024 - Elsevier
Nutrient losses from agricultural ecosystems are increasingly threatening global
environmental and human health. Although arbuscular mycorrhizal (AM) fungi have the …
environmental and human health. Although arbuscular mycorrhizal (AM) fungi have the …
Nitrogen Fertilization and Native C4 Grass Species Alter Abundance, Activity, and Diversity of Soil Diazotrophic Communities
Native C4 grasses have become the preferred species for native perennial pastures and
bioenergy production due to their high productivity under low soil nitrogen (N) status. One …
bioenergy production due to their high productivity under low soil nitrogen (N) status. One …
Switchgrass cropping systems affect soil carbon and nitrogen and microbial diversity and activity on marginal lands
Abstract Switchgrass (Panicum virgatum L.), as a dedicated bioenergy crop, can provide
cellulosic feedstock for biofuel production while improving or maintaining soil quality …
cellulosic feedstock for biofuel production while improving or maintaining soil quality …
Temporal dynamics of free‐living nitrogen fixation in the switchgrass rhizosphere
Free‐living nitrogen fixation (FLNF) represents an important terrestrial N source and is
gaining interest for its potential to contribute plant available N to bioenergy cropping …
gaining interest for its potential to contribute plant available N to bioenergy cropping …
Comparative productivity of six bioenergy cropping systems on marginal lands in the Great Lakes Region, United States
Growing lignocellulosic crops on marginal lands is a promising solution for sustainable
biofuel production. We evaluated the productivity of bioenergy cropping systems …
biofuel production. We evaluated the productivity of bioenergy cropping systems …
Early production of switchgrass (Panicum virgatum L.) and willow (Salix spp.) indicates carbon accumulation potential in Appalachian reclaimed mine and agriculture …
S Grover, HM Anderson, J Fleck… - Soil Science Society …, 2024 - Wiley Online Library
The production of bioproduct feedstocks such as switchgrass (Panicum virgatum L.) and
willow (Salix spp.) on degraded lands provides an opportunity to grow dedicated bioenergy …
willow (Salix spp.) on degraded lands provides an opportunity to grow dedicated bioenergy …
Urea fertilization and grass species alter microbial nitrogen cycling capacity and activity in a C4 native grassland
Soil microbial transformation of nitrogen (N) in nutrient-limited native C 4 grasslands can be
affected by N fertilization rate and C 4 grass species. Here, we report in situ dynamics of the …
affected by N fertilization rate and C 4 grass species. Here, we report in situ dynamics of the …
Regional biogeography versus intra-annual dynamics of the root and soil microbiome
Background Root and soil microbial communities constitute the below-ground plant
microbiome, are drivers of nutrient cycling, and affect plant productivity. However, our …
microbiome, are drivers of nutrient cycling, and affect plant productivity. However, our …