关注
Tiia Määttä
Tiia Määttä
PhD candidate, University of Zürich
在 geo.uzh.ch 的电子邮件经过验证
标题
引用次数
引用次数
年份
Excess soil moisture and fresh carbon input are prerequisites for methane production in podzolic soil
M Korkiakoski, T Määttä, K Peltoniemi, T Penttilä, A Lohila
Biogeosciences 19 (7), 2025-2041, 2022
162022
The hidden roots of wetland methane emissions
T Määttä, A Malhotra
Global Change Biology 30 (2), e17127, 2024
62024
Belowground plant allocation regulates rice methane emissions from degraded peat soils
N Sriskandarajah, C Wüst-Galley, S Heller, J Leifeld, T Määttä, Z Ouyang, ...
Scientific Reports 14 (1), 14593, 2024
2024
Methane Unearthed: Linking Root Ecology to Wetland Methane Emissions
T Määttä, A Malhotra
AGU Fall Meeting Abstracts 2023 (2193), B31H-2193, 2023
2023
Effects of spatial heterogeneity within the eddy covariance (EC) footprint on up-scaled methane fluxes across multiple wetland sites
T Määttä, A Malhotra
EGU General Assembly Conference Abstracts, EGU-3338, 2023
2023
How do moisture changes influence root-derived methane cycling in wetland soils?
A Malhotra, T Määttä, N Hertel, N Sriskandarajah, M Schiedung, ...
EGU23, 2023
2023
Root traits and wetland methane emissions: trade offs between substrate and transport processes
A Malhotra, C Wüst-Galley, N Sriskandarajah, S Heller, N Hertel, J Leifeld, ...
AGU Fall Meeting Abstracts 2022, B42E-03, 2022
2022
AI4 plant trait-based wetland CH4 predictions
K Delwiche
系统目前无法执行此操作,请稍后再试。
文章 1–8