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From the same journal

Biotic and Abiotic Constraints on the Decomposition of Fagus sylvatica Leaf Litter Along an Altitudinal Gradient in Contrasting Land-Use Types

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Published copy (DOI)

Author(s)

  • Konstantin Gavazov
  • Robert Mills
  • Thomas Spiegelberger
  • Jonathan Lenglet
  • Alexandre Buttler

Department/unit(s)

Publication details

JournalEcosystems
DateAccepted/In press - 5 Jun 2014
DateE-pub ahead of print - 19 Jul 2014
DatePublished (current) - Dec 2014
Issue number8
Volume17
Number of pages12
Pages (from-to)1326–1337
Early online date19/07/14
Original languageEnglish

Abstract

Climate change can affect the process of carbon cycling and leaf litter decomposition in multiple ways, both directly and indirectly, though the strength and direction of this relationship is often context dependent. In this experiment, we followed decomposition of a standard litter type—senescent leaves of Fagus sylvatica collected from a single location—along a 1000 m altitudinal gradient of four sites over 2.5 years. To control the edaphic conditions, we transplanted intact turf mesocosms from three different land-use types [densely wooded, sparsely wooded, and unwooded (UW) pastures] from the highest altitude site into UW pastures along the altitudinal gradient from the moist, cool high-elevation site to the dry, warm low-elevation site, using shade cloth to mimic the light conditions in the original habitats. Decomposition in the drier UW pasture mesocosms increased with altitude, likely because of higher moisture at the highest sites. Decomposition in the more mesic mesocosms from sparsely and densely wooded sites was insensitive to altitude, suggesting an overriding moisture, rather than temperature, constraint on decomposition across these sites. The functional composition of decomposer microbial communities (fungal/bacterial ratio) was similarly insensitive to altitude. Our findings bring substantial evidence for the controlling role of soil moisture on litter decomposition, as well as for the indirect effects of climate through changes in the decomposer community.

    Research areas

  • beech, C/N ratio, climate change, fungal/bacterial ratio, JURA mountains, litter bag, litter decay rate (K), pasture-woodlands, PLFA, transplantation

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