Comparison of fine root biomass and soil organic carbon stock ...

The 22-year-old S. apetala already had a higher vegetation biomass and fine root biomass than the 20-year-old and 40-year-old native mangrove.

Fine root dynamics and its contribution to soil organic carbon stocks ...

Fine root production and mortality were negative correlated with soil nutrients at depth of 0–20 and 20–40 cm. The variation range of carbon input by fine root ...

apetala does not increase the soil organic carbon (SOC) storage comparing with native mangroves. The belowground biomass of mangrove, especially its fine roots, ...

Comparison of fine root biomass and soil organic carbon stock ...

51 References · Changes of ecosystem carbon stock following the plantation of exotic mangrove Sonneratia apetala in Qi'ao Island, China.

Fine root dynamics and its contribution to soil organic carbon stocks ...

root production and mortality increased as soil depth increased. There was no significant difference in fine root biomass, productivity,.

Fine root dynamics and its contribution to soil organic carbon stocks ...

At depth of 0–20 cm, fine root biomass had a significant negative correlation with SBD and positive correlation with SOC and STN content. Fine ...

Correlation between fine roots carbon stock and ... - ResearchGate

The soil C stocks were positively correlated with belowground C input and negatively associated with C mineralization. RS and SG increased soil ecosystem ...

Fine root contribution to the soil carbon stock of an agroforestry ...

The root carbon stock at a distance of 0.75 m was higher at a depth of 0–10 cm (0.60 Mg ha−1). The soil organic carbon stock also showed higher results in the 0 ...

Contribution of Fine Roots to Soil Organic Carbon Accumulation in ...

Root biomass, ecological factors, and SOC in different layers of a 0–100 cm soil profile were investigated. The results demonstrated that almost ...

Fine root biomass and nutrient availability in a community managed ...

fine root carbon stock ... The combined effects of season x forest site and season x soil depth, soil organic carbon, site and soil depth also ...

The effect of drainage on fine‐root biomass, production, and ...

Information on the capacity of organic soils to capture and store carbon in old-growth forests in the hemiboreal forest zone is scarce and ...

Soil organic carbon stocks did not change after 130 years of ...

3 Root biomass and frequency. We found significant differences in the fine root biomass (0-2 mm) between pasture and the different forest ...

Degradation-driven changes in fine root carbon stocks, productivity ...

Regarding dissimilarities between vegetation categories, fine root C biomass was higher in M. flexuosa adults than in seedlings and trees at ...

Fine root contribution to the soil carbon stock of an agroforestry ...

Fine root and soil organic carbon stock. Root (after oven drying) and ... Fine root biomass was also twofold higher in the row compared with between rows.

Improving models of fine root carbon stocks and fluxes in European ...

Average fine root biomass was 332 g/m2, and necromass 379 g/m2, for European forests where the average fine root production was 250 g m−2 year−1 ...

Soil organic carbon stocks did not change after 130 years of ...

The highest root C:N ratio was observed in the pasture (0–5 cm) soil with 65.3 ± 6.1, followed by the 130-year old (59.9 ± 3.9), the 40-year old ...

Fine Root and Soil Organic Carbon Depth Distributions are Inversely ...

Root b and SOC b values were inversely related, such that a large fine root biomass in surface soils corresponded to large SOC stocks in subsoils (50–100 cm).

Biotic and Abiotic Determinants of Soil Organic Matter Stock ... - MDPI

Fine roots may be considered a vital element of the physical connection between trees and soil [48], and by releasing various substances into the surrounding ...

Climate and Management Effects on Soil Organic Carbon in ...

MAOM carbon is more resistant to carbon losses compared to POM due to binding with soil minerals, although POM contained in soil aggregates can also persist if ...

Fine root morphological traits and production in coniferous- and ...

Fine root production is one of the key elements of carbon (C) turnover in soil in afforested peatlands and forest lands with organic soils. We ...