Add to ORKGAbstract We used a minirhizotron method to investigate spatial and temporal dynamics of fine roots (diameter B2 mm) in five Chinese temperate forests: Mongolian oak forest, aspen-birch forest, hardwood forest, Korean pine plantation and Dahurian larch plantation. Fine root dynamics were significantly influenced by forest type, soil layer, and sampling time. The grand mean values varied from 1.99 to 3.21 mm cm-2 (root length per minirhizotron viewing area) for the fine root standing crop; from 6.7 to 11.6 lm cm-2 day-1 for the production; and from 3.2 to 6.1 lm cm-2 day-1 for the mortality. All forests had a similar seasonal ‘‘sinusoidal’ ’ pattern of standing crop, and a ‘‘unimodal’ ’ pattern of production. However, the seasonal dynamics of...
Fine roots play a crucial role in plant survival potential and biogeochemical cycles of forest ecosy...
We measured the productivity and morphological traits of fine roots in seven forests between 170 and...
Aims Soil respiration (Rs) is a major process controlling soil carbon loss in forest ecosystems. How...
Fine roots play an important role in plant growth as well as carbon (C) and nutrient cycling in terr...
Fine root ( CK > FH > OX > CF. There were significant seasonal changes of biomass and necromass in a...
International audienceAbstract Key messageWe tested the life span of fine roots of Chinese fir trees...
Fine roots and rhizomorphs have important implications for the global carbon balance, but the proces...
The aim of this study was to estimate fine root production (FP) and fine root mortality (FM) at 0–10...
Despite the great importance of fine roots, which are referred to as roots smaller than 2 mm in diam...
Several studies have focused on fine roots characteristics because they provide a major pathway for ...
Development of direct and indirect methods for measuring root turnover and the status of knowledge o...
Estimating production of fi ne roots (diameter ≤ 2 mm) is signifi cant important to understand carbo...
Quantifying the fine root (FR) dynamics of understory plants and canopy trees is essential to accura...
Aims: We aim to show the seasonality of fine root dynamics and examine the relationship between root...
Current understanding of litterfall and fine root dynamics in temperate forests is limited, even tho...
Fine roots play a crucial role in plant survival potential and biogeochemical cycles of forest ecosy...
We measured the productivity and morphological traits of fine roots in seven forests between 170 and...
Aims Soil respiration (Rs) is a major process controlling soil carbon loss in forest ecosystems. How...
Fine roots play an important role in plant growth as well as carbon (C) and nutrient cycling in terr...
Fine root ( CK > FH > OX > CF. There were significant seasonal changes of biomass and necromass in a...
International audienceAbstract Key messageWe tested the life span of fine roots of Chinese fir trees...
Fine roots and rhizomorphs have important implications for the global carbon balance, but the proces...
The aim of this study was to estimate fine root production (FP) and fine root mortality (FM) at 0–10...
Despite the great importance of fine roots, which are referred to as roots smaller than 2 mm in diam...
Several studies have focused on fine roots characteristics because they provide a major pathway for ...
Development of direct and indirect methods for measuring root turnover and the status of knowledge o...
Estimating production of fi ne roots (diameter ≤ 2 mm) is signifi cant important to understand carbo...
Quantifying the fine root (FR) dynamics of understory plants and canopy trees is essential to accura...
Aims: We aim to show the seasonality of fine root dynamics and examine the relationship between root...
Current understanding of litterfall and fine root dynamics in temperate forests is limited, even tho...
Fine roots play a crucial role in plant survival potential and biogeochemical cycles of forest ecosy...
We measured the productivity and morphological traits of fine roots in seven forests between 170 and...
Aims Soil respiration (Rs) is a major process controlling soil carbon loss in forest ecosystems. How...