Distinct patterns of below- and aboveground growth phenology and litter carbon inputs along a boreal site type gradient

•Belowground litter was 23–37% of total litter C inputs in boreal pine forests.•Belowground litter C inputs did not significantly vary between site types.•EcM fungi and understory roots constituted 8–13% and 18–41% of belowground litter.•Understory root litter equaled to that of pine in mesic site t...

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Published in:Forest ecology and management 2021-06, Vol.489, p.119081, Article 119081
Main Authors: Ding, Yiyang, Leppälammi-Kujansuu, Jaana, Salemaa, Maija, Schiestl-Aalto, Pauliina, Kulmala, Liisa, Ukonmaanaho, Liisa, Nöjd, Pekka, Minkkinen, Kari, Makita, Naoki, Železnik, Peter, Merilä, Päivi, Helmisaari, Heljä-Sisko
Format: Article
Language:English
Subjects:
Carbon allocation
Ectomycorrhizal mycelia
Fine root longevity
Forest Science
Minirhizotron
Pinus sylvestris
Skogsvetenskap
Soil fertility
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Summary:•Belowground litter was 23–37% of total litter C inputs in boreal pine forests.•Belowground litter C inputs did not significantly vary between site types.•EcM fungi and understory roots constituted 8–13% and 18–41% of belowground litter.•Understory root litter equaled to that of pine in mesic site type. Forest ecosystem productivity is strongly linked to site nutrient availability, which is influenced by litter inputs and their decomposition rates. Fine roots and mycelia are key contributors in belowground soil carbon (C) accumulation, but studies have seldom reported how belowground litter C input is related to site types in boreal forests. In this study, three mature and one young Pinus sylvestris forests along a site type gradient in southern Finland were chosen for measurements of fine root biomass, fine root longevity, below- and aboveground growth phenology and annual litter input from tree and understorey vegetation. Site types were distinguished by understorey vegetation composition, which indicated the site fertility. Fine root biomass per tree stand basal area decreased significantly from nutrient-poor to nutrient-rich sites, the nutrient-poor sites with longer fine root longevity resulted in an equal belowground litter input with the nutrient-rich site. Above- and belowground annual litter inputs were 131–236 and 70–91 g m−2 year−1, respectively. Aboveground litter increased with site fertility, resulting into belowground litter having a decreasing trend from 37% to 23% of total litter inputs with increasing site fertility. Ectomycorrhizal mycelia and understory production contributed 8–13% and 18–41% of belowground production, respectively. Contribution of understorey vegetation to the belowground litter C input was lower than that of trees at xeric and sub-xeric sites but equaled to that of trees at the mesic site. Our study showed distinct dimensions of below- and aboveground litter inputs influenced by site types. Moreover, we emphasize that the belowground C inputs from ectomycorrhizal mycelia and the understorey in addition to those of trees should always be considered in C balances and C reporting in boreal conifers.
ISSN:0378-1127
1872-7042
1872-7042
DOI:10.1016/j.foreco.2021.119081