The role of the understory in litter DOC and nutrient leaching in boreal forests

G. Hensgens, H. Laudon, M. Peichl, I.A. Gil, Q. Zhou, M. Berggren

Research output: Contribution to JournalArticleAcademicpeer-review

Abstract

© 2020, The Author(s).Dissolved organic carbon (DOC) derived from plant litter plays an important role in the ecosystem carbon balance and soil biogeochemistry. However, in boreal coniferous forests no integrated understanding exists of how understory vegetation contributes to litter leaching of DOC, nitrogen (N) and phosphorus (P) with different bioavailability at the forest stand level. We characterized water extractable leachates from fresh and decayed litter of dominant canopy and understory sources in a boreal coniferous forest, in order to explore the contribution of understory vegetation as a source of both total and bioavailable forms of DOC, N and P. Recently produced litter from deciduous species (including Vaccinium myrtillus) yielded the highest amounts of DOC. However, this leaching potential decreased exponentially with mass loss through litter decay. The DOC lability generally showed little interspecific variation, although wood derived DOC was more recalcitrant. Lability decreased progressively with litter aging. Water extractable nutrients increased proportionally with DOC, and roughly a quarter (N) or half (P) had directly bioavailable inorganic forms. Scaled to annual litterfall at the forest stand, understory vegetation contributed ~ 80% of the water extractable DOC and nutrients from fresh litter, with > 60% coming from Vaccinium myrtillus alone. However, as litter decomposes, the data suggest a lower leaching potential is maintained with a larger contribution from needle, wood and moss litter. Our study shows that understory vegetation, especially V. myrtillus, is a key driver of litter DOC and nutrient leaching in boreal coniferous forests.
Original languageEnglish
Pages (from-to)87-103
JournalBiogeochemistry
Volume149
Issue number1
DOIs
Publication statusPublished - 1 May 2020
Externally publishedYes

Funding

Open access funding provided by Lund University. This research was supported by Formas (#239-2014-698 & #2015-00049) and the Royal -Physiographic Society of Lund. The Krycklan Catchment Study is founded by VR through the SITES program, Formas, SKB, Kempe Foundation and SKB. We also want to thank Carlos Arrelano for help in the lab and Per Lofgren, Nadine Shatilla and Svenja Agathen for help in the field. Open access funding provided by Lund University. This research was supported by Formas (#239-2014-698 & #2015-00049) and the Royal -Physiographic Society of Lund. The Krycklan Catchment Study is founded by VR through the SITES program, Formas, SKB, Kempe Foundation and SKB. We also want to thank Carlos Arrelano for help in the lab and Per Lofgren, Nadine Shatilla and Svenja Agathen for help in the field.

FundersFunder number
Royal -Physiographic Society of Lund
Svenska Forskningsrådet Formas239-2014-698, 2015-00049
Lunds Universitet
Svensk Kärnbränslehantering
Vetenskapsrådet
Kungliga Fysiografiska Sällskapet i Lund
Kempestiftelserna

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