Plant-soil feedback: incorporating untested influential drivers and reconciling terminology
Background Plants condition the soil in which they grow, thereby altering the performance of
subsequent plants growing in this soil. This phenomenon, known as plant-soil feedback …
subsequent plants growing in this soil. This phenomenon, known as plant-soil feedback …
Carbon limitation overrides acidification in mediating soil microbial activity to nitrogen enrichment in a temperate grassland
Higher ecosystem nitrogen (N) inputs resulting from human activities often suppress soil
microbial biomass and respiration, thereby altering biogeochemical cycling. Soil …
microbial biomass and respiration, thereby altering biogeochemical cycling. Soil …
[HTML][HTML] Does liming grasslands increase biomass productivity without causing detrimental impacts on net greenhouse gas emissions?
Soil acidification has negative impacts on grass biomass production and the potential of
grasslands to mitigate greenhouse gas (GHG) emissions. Through a global review of …
grasslands to mitigate greenhouse gas (GHG) emissions. Through a global review of …
Diversity‐stability relationships in temperate grasslands as a function of soil pH
Diversity‐stability relationships in grasslands depend on the environment. Climate change
and land degradation potentially alter soil pH and community stability within grassland …
and land degradation potentially alter soil pH and community stability within grassland …
Intermediate soil acidification induces highest nitrous oxide emissions
Global potent greenhouse gas nitrous oxide (N2O) emissions from soil are accelerating, with
increases in the proportion of reactive nitrogen emitted as N2O, ie, N2O emission factor (EF) …
increases in the proportion of reactive nitrogen emitted as N2O, ie, N2O emission factor (EF) …
Nitrogen-induced acidification plays a vital role driving ecosystem functions: Insights from a 6-year nitrogen enrichment experiment in a Tibetan alpine meadow
F Yang, Z Zhang, A Barberán, Y Yang, S Hu… - Soil Biology and …, 2021 - Elsevier
Anthropogenic nitrogen (N) input has overtaken natural N fixation as the leading source of
reactive N, and can profoundly alter the structure and functions of terrestrial ecosystems. N …
reactive N, and can profoundly alter the structure and functions of terrestrial ecosystems. N …
Genome-wide identification of KCS gene family in Carya illinoinensis and their roles under abiotic stress conditions
H Wang, T He, C Huang, K Wang, D Shi, X Si, Y Xu… - Scientia …, 2023 - Elsevier
Pecan (Carya illinoinensis) is an important economic tree species of genus Carya in the
Juglandaceae. Its nuts are rich in nutrients, becoming one of the consumer's favorite ones …
Juglandaceae. Its nuts are rich in nutrients, becoming one of the consumer's favorite ones …
Higher pH is associated with enhanced co‐occurrence network complexity, stability and nutrient cycling functions in the rice rhizosphere microbiome
The rice rhizosphere microbiota is crucial for crop yields and nutrient use efficiency.
However, little is known about how co‐occurrence patterns, keystone taxa and functional …
However, little is known about how co‐occurrence patterns, keystone taxa and functional …
Precipitation-mediated responses of plant biomass production and allocation to changing soil pH in semiarid grasslands
Biomass and its allocation are crucial to understand carbon cycling. Climate change and
human disturbance potentially alter soil pH, but it remains unclear how biomass production …
human disturbance potentially alter soil pH, but it remains unclear how biomass production …
Nitrogen redistribution and seasonal trait fluctuation facilitate plant N conservation and ecosystem N retention
Low available soil nitrogen (N) limits plant productivity in alpine regions, and alpine plants
thus resorb and reallocate N from senescing tissues to conserve this limited N during the …
thus resorb and reallocate N from senescing tissues to conserve this limited N during the …