Emerging sensing, imaging, and computational technologies to scale nano-to macroscale rhizosphere dynamics–Review and research perspectives
The soil region influenced by plant roots, ie, the rhizosphere, is one of the most complex
biological habitats on Earth and significantly impacts global carbon flow and transformation …
biological habitats on Earth and significantly impacts global carbon flow and transformation …
Global mycorrhizal plant distribution linked to terrestrial carbon stocks
Vegetation impacts on ecosystem functioning are mediated by mycorrhizas, plant–fungal
associations formed by most plant species. Ecosystems dominated by distinct mycorrhizal …
associations formed by most plant species. Ecosystems dominated by distinct mycorrhizal …
Altered plant carbon partitioning enhanced forest ecosystem carbon storage after 25 years of nitrogen additions
Decades of atmospheric nitrogen (N) deposition in the northeastern USA have enhanced
this globally important forest carbon (C) sink by relieving N limitation. While many N …
this globally important forest carbon (C) sink by relieving N limitation. While many N …
Research advances in mechanisms of climate change impacts on soil organic carbon dynamics
Soil, as the largest terrestrial carbon pool, has garnered significant attention 15 concerning
its response to global warming. However, accurately estimating the stocks and 16 dynamics …
its response to global warming. However, accurately estimating the stocks and 16 dynamics …
Ericoid mycorrhizal shrubs alter the relationship between tree mycorrhizal dominance and soil carbon and nitrogen
Plant–fungal associations strongly influence forest carbon and nitrogen cycling. The
prevailing framework for understanding these relationships is through the relative …
prevailing framework for understanding these relationships is through the relative …
Biogeography of root‐associated fungi in foundation grasses of North American plains
JA Rudgers, S Fox, A Porras‐Alfaro… - Journal of …, 2022 - Wiley Online Library
Aim Roots and rhizospheres host diverse microbial communities that can influence the
fitness, phenotypes, and environmental tolerances of plants. Documenting the biogeography …
fitness, phenotypes, and environmental tolerances of plants. Documenting the biogeography …
Modeling the carbon cost of plant nitrogen and phosphorus uptake across temperate and tropical forests
Nutrient limitation is a key source of uncertainty in predicting terrestrial carbon (C) uptake.
Models have begun to include nitrogen (N) dynamics; however, phosphorus (P), which can …
Models have begun to include nitrogen (N) dynamics; however, phosphorus (P), which can …
Tree canopies reflect mycorrhizal composition
Mycorrhizae alter global patterns of CO2 fertilization, carbon storage, and elemental cycling,
yet knowledge of their global distributions is currently limited by the availability of forest …
yet knowledge of their global distributions is currently limited by the availability of forest …
Tree growth response to shifting soil nutrient economy depends on mycorrhizal associations
JL DeForest, RS Snell - New Phytologist, 2020 - Wiley Online Library
The mycorrhizal‐associated nutrient economy hypothesis proposes a strong connection
between plant and fungal traits and the dominant form of soil nutrients. If true, then shifting …
between plant and fungal traits and the dominant form of soil nutrients. If true, then shifting …
[HTML][HTML] Can models adequately reflect how long-term nitrogen enrichment alters the forest soil carbon cycle?
Abstract Changes in the nitrogen (N) status of forest ecosystems can directly and indirectly
influence their carbon (C) sequestration potential by altering soil organic matter (SOM) …
influence their carbon (C) sequestration potential by altering soil organic matter (SOM) …