Adaptation of soil fungal community structure and assembly to long-versus short-term nitrogen addition in a tropical forest
Soil fungi play critical roles in ecosystem processes and are sensitive to global changes.
Elevated atmospheric nitrogen (N) deposition has been well documented to impact on …
Elevated atmospheric nitrogen (N) deposition has been well documented to impact on …
Anthropogenic N deposition increases soil C storage by reducing the relative abundance of lignolytic fungi
EM Entwistle, DR Zak, WA Argiroff - Ecological Monographs, 2018 - Wiley Online Library
Atmospheric nitrogen (N) deposition has increased dramatically since preindustrial times
and continues to increase across many regions of the Earth. In temperate forests, this agent …
and continues to increase across many regions of the Earth. In temperate forests, this agent …
Change in root-associated fungal communities affects soil enzymatic activities during Pinus massoniana forest development in subtropical China
H Dong, J Ge, K Sun, B Wang, J Xue… - Forest Ecology and …, 2021 - Elsevier
Root-associated fungal communities play a key role in plant productivity and soil processes
in forest ecosystems. However, how diversity and composition of root-associated fungi …
in forest ecosystems. However, how diversity and composition of root-associated fungi …
Differences in microbial community response to nitrogen fertilization result in unique enzyme shifts between arbuscular and ectomycorrhizal‐dominated soils
While the effect of nitrogen (N) deposition on belowground carbon (C) cycling varies,
emerging evidence shows that forest soils dominated by trees that associate with …
emerging evidence shows that forest soils dominated by trees that associate with …
[HTML][HTML] Predictors of mushroom production in the European temperate mixed deciduous forest
K Stojek, L Gillerot, B Jaroszewicz - Forest Ecology and Management, 2022 - Elsevier
Mushrooms play an important role in the maintenance of ecosystem processes and
delivering ecosystem services, including food supply. They are also an important source of …
delivering ecosystem services, including food supply. They are also an important source of …
Distinct roles of bacteria and fungi in mediating soil extracellular enzymes under long-term nitrogen deposition in temperate plantations
Soil microbes decompose soil organic matter by producing various extracellular enzymes,
and also regulate soil carbon (C) and nutrient cycles. However, how shifts in soil microbial …
and also regulate soil carbon (C) and nutrient cycles. However, how shifts in soil microbial …
Positive response of soil microbes to long-term nitrogen input in spruce forest: Results from Gårdsjön whole-catchment N-addition experiment
K Tahovská, M Choma, E Kaštovská, F Oulehle… - Soil Biology and …, 2020 - Elsevier
Chronic nitrogen (N) deposition from anthropogenic emissions alter N cycling of forests in
Europe and in other impacted areas. It disrupts plant/microbe interactions in originally N …
Europe and in other impacted areas. It disrupts plant/microbe interactions in originally N …
Mycorrhizal nutrient acquisition strategies shape tree competition and coexistence dynamics
Mycorrhizal fungi with different nutrient acquisition strategies influence plant species
performance and physiology, thereby defining their trophic niche. This might drive resource …
performance and physiology, thereby defining their trophic niche. This might drive resource …
Soil multifunctionality predicted by bacterial network complexity explains differences in wheat productivity induced by fertilization management
W Li, F Shi, S Yi, T Feng, C Wang, Z Li, W Zheng… - European Journal of …, 2024 - Elsevier
Fertilization will cause changes in crop growth, soil microbial community and multiple
ecosystem functions, but it is unclear whether and how the optimal productivity obtained by …
ecosystem functions, but it is unclear whether and how the optimal productivity obtained by …
Growth and survival relationships of 71 tree species with nitrogen and sulfur deposition across the conterminous US
Atmospheric deposition of nitrogen (N) influences forest demographics and carbon (C)
uptake through multiple mechanisms that vary among tree species. Prior studies have …
uptake through multiple mechanisms that vary among tree species. Prior studies have …