[HTML][HTML] Nitrogen deposition drives the intricate changes of fine root traits
W Gao, D Chen, X Hu, X Fang, Q Li, Q Huang… - Global Ecology and …, 2023 - Elsevier
Increase in nitrogen (N) deposition will cause changes of root morphological and functional
traits, thus deeply affecting ecosystem carbon (C) and N cycles. However, the influence of N …
traits, thus deeply affecting ecosystem carbon (C) and N cycles. However, the influence of N …
The rhizosphere and hyphosphere differ in their impacts on carbon and nitrogen cycling in forests exposed to elevated CO2
While multiple experiments have demonstrated that trees exposed to elevated CO 2 can
stimulate microbes to release nutrients from soil organic matter, the importance of root …
stimulate microbes to release nutrients from soil organic matter, the importance of root …
Trade‐offs in above‐and below‐ground biomass allocation influencing seedling growth in a tropical forest
MN Umaña, M Cao, L Lin, NG Swenson… - Journal of …, 2021 - Wiley Online Library
Plants allocate biomass to different organs in response to resource variation for maximizing
performance, yet we lack a framework that adequately integrates plant responses to the …
performance, yet we lack a framework that adequately integrates plant responses to the …
Short‐term carbon cycling responses of a mature eucalypt woodland to gradual stepwise enrichment of atmospheric CO2 concentration
Projections of future climate are highly sensitive to uncertainties regarding carbon (C)
uptake and storage by terrestrial ecosystems. The Eucalyptus Free‐Air CO 2 Enrichment …
uptake and storage by terrestrial ecosystems. The Eucalyptus Free‐Air CO 2 Enrichment …
Nutrient dynamics in a coupled terrestrial biosphere and land model (ELM‐FATES‐CNP)
We present a representation of nitrogen and phosphorus cycling in the Functionally
Assembled Terrestrial Ecosystem Simulator, a demographic vegetation model within the …
Assembled Terrestrial Ecosystem Simulator, a demographic vegetation model within the …
Magnitude and mechanisms of nitrogen‐mediated responses of tree biomass production to elevated CO2: A global synthesis
Z Wang, C Wang - Journal of Ecology, 2021 - Wiley Online Library
Elevated atmospheric CO2 concentration (eCO2) typically stimulates tree growth, which is
mediated by nitrogen (N) availability; but how N regulates tree biomass responses to eCO2 …
mediated by nitrogen (N) availability; but how N regulates tree biomass responses to eCO2 …
Changes in root architecture under elevated concentrations of CO2 and nitrogen reflect alternate soil exploration strategies
Predicting the response of fine roots to increased atmospheric CO2 concentration has
important implications for carbon (C) and nutrient cycling in forest ecosystems. Root …
important implications for carbon (C) and nutrient cycling in forest ecosystems. Root …
Contrasting effects of ectomycorrhizal and arbuscular mycorrhizal tropical tree species on soil nitrogen cycling: the potential mechanisms and corresponding adaptive …
G Lin, D Guo, L Li, C Ma, DH Zeng - Oikos, 2018 - Wiley Online Library
While it is increasingly recognized that ectomycorrhizal (ECM) and arbuscular mycorrhizal
(AM) tree species vary in their effects on soil nitrogen (N) cycling, little is known about the …
(AM) tree species vary in their effects on soil nitrogen (N) cycling, little is known about the …
Arbuscular Mycorrhizal Fungus Species Dependency Governs Better Plant Physiological Characteristics and Leaf Quality of Mulberry (Morus alba L.) Seedlings
SM Shi, K Chen, Y Gao, B Liu, XH Yang… - Frontiers in …, 2016 - frontiersin.org
Understanding the synergic interactions between arbuscular mycorrhizal fungi (AMF) and its
host mulberry (Morus alba L.), an important perennial multipurpose plant, has theoretical …
host mulberry (Morus alba L.), an important perennial multipurpose plant, has theoretical …
Effects of elevated CO2 on fine root biomass are reduced by aridity but enhanced by soil nitrogen: A global assessment
J Piñeiro, R Ochoa-Hueso, M Delgado-Baquerizo… - Scientific reports, 2017 - nature.com
Plant roots play a crucial role in regulating key ecosystem processes such as carbon (C)
sequestration and nutrient solubilisation. Elevated (e) CO2 is expected to alter the biomass …
sequestration and nutrient solubilisation. Elevated (e) CO2 is expected to alter the biomass …