1 – 24 of 24
- show: 50
- |
- sort: year (new to old)
Close
Embed this list
<iframe src=" "
width=" "
height=" "
allowtransparency="true"
frameborder="0">
</iframe>
- 2024
-
Mark
Shifts in microbial community composition and metabolism correspond with rapid soil carbon accumulation in response to 20 years of simulated nitrogen deposition
(
- Contribution to journal › Article
-
Mark
Fungal decomposition and transformation of molecular and colloidal fractions of dissolved organic matter extracted from boreal forest soil
(
- Contribution to journal › Article
- 2023
-
Mark
Fungal communities mediate but do not control leaf litter chemical transformation in a temperate oak forest
(
- Contribution to journal › Article
- 2022
-
Mark
Decomposition of soil organic matter by ectomycorrhizal fungi : Mechanisms and consequences for organic nitrogen uptake and soil carbon stabilization
(
- Contribution to journal › Scientific review
- 2021
-
Mark
Anthropogenic nitrogen enrichment increased the efficiency of belowground biomass production in a boreal forest
(
- Contribution to journal › Article
-
Mark
Secretion of iron(III)-reducing metabolites during protein acquisition by the ectomycorrhizal fungus paxillus involutus
(
- Contribution to journal › Article
-
Mark
Long-term nitrogen enrichment does not increase microbial phosphorus mobilization in a northern coniferous forest
(
- Contribution to journal › Article
-
Mark
Carbon–nitrogen relations of ectomycorrhizal mycelium across a natural nitrogen supply gradient in boreal forest
(
- Contribution to journal › Article
-
Mark
Root presence modifies the long-term decomposition dynamics of fungal necromass and the associated microbial communities in a boreal forest
(
- Contribution to journal › Article
-
Mark
Partial overlap of fungal communities associated with nettle and poplar roots when co-occurring at a trace metal contaminated site
(
- Contribution to journal › Article
- 2019
-
Mark
Exploring the role of ectomycorrhizal fungi in soil carbon dynamics
(
- Contribution to journal › Article
-
Mark
Wood ash application in a managed Norway spruce plantation did not affect ectomycorrhizal diversity or N retention capacity
(
- Contribution to journal › Article
-
Mark
Influence of ammonium on formation of mineral-associated organic carbon by an ectomycorrhizal fungus
(
- Contribution to journal › Article
- 2016
-
Mark
Role of Mycorrhizal Symbiosis in Mineral Weathering and Nutrient Mining from Soil Parent Material
2016) p.35-46(
- Chapter in Book/Report/Conference proceeding › Book chapter
-
Mark
Soil organic matter decomposition mechanisms in ectomycorrhizal fungi
2016) p.257-275(
- Chapter in Book/Report/Conference proceeding › Book chapter
- 2014
-
Mark
Insights into the Molecular Mechanisms of Litter Decomposition and Assimilation of Nitrogen by Ectomycorrhizal Fungi
2014)(
- Thesis › Doctoral thesis (compilation)
-
Mark
Effects of nitrogen deposition on the growth, metabolism and activity of ectomycorrhizal fungi
2014)(
- Thesis › Doctoral thesis (compilation)
- 2013
-
Mark
Growth of ectomycorrhizal fungal mycelium along a Norway spruce forest nitrogen deposition gradient and its effect on nitrogen leakage
(
- Contribution to journal › Article
-
Mark
Ectomycorrhizal fungi: Their role in nitrogen retention and carbon sequestration in northern coniferous forests
2013)(
- Thesis › Doctoral thesis (compilation)
- 2012
-
Mark
Changes in microbial activities and biomasses over a forest floor gradient in C-to-N ratio
(
- Contribution to journal › Article
- 2009
-
Mark
Increasing abundance of soil fungi is a driver for (15)N enrichment in soil profiles along a chronosequence undergoing isostatic rebound in northern Sweden.
(
- Contribution to journal › Article
- 2003
-
Mark
Colonisation of spruce roots by two interacting ectomycorrhizal fungi in wood ash amended substrates
(
- Contribution to journal › Article
-
Mark
The Growth of External Ectomycorrhizal Mycelia in the Field in Relation to Host Nutrient Status and Local Addition of Mineral Sources
2003)(
- Thesis › Doctoral thesis (compilation)
- 1994
-
Mark
Metabolism of [C-14] glutamate and [C-14] glutamine by the ectomycorrhizal fungus Paxillus involutus
(
- Contribution to journal › Article