Identifying Differences in Carbon Exchange among Arctic Ecosystem Types

M. Williams, L.E. Street, M.T. van Wijk, G.R. Shaver

Research output: Contribution to journalArticleAcademicpeer-review

62 Citations (Scopus)

Abstract

Our objective was to determine how varied is the response of C cycling to temperature and irradiance in tundra vegetation. We used a large chamber to measure C exchange at 23 locations within a small arctic catchment in Alaska during summer 2003 and 2004. At each location, we determined light response curves of C exchange using shade cloths, twice during a growing season. We used data to fit a simple photosynthesis-irradiance, respiration-temperature model, with four parameters. We used a maximum likelihood technique to determine the acceptable parameter space for each light curve, given measurement uncertainty. We then explored which sites and time periods had parameter sets in common - an indication of functional similarity. We found that seven distinct parameter sets were required to explain observed C flux responses to temperature and light variation at all sites and time periods. The variation in estimated maximum photosynthetic rate (Pmax) was strongly correlated with measurements of site leaf area index (LAI). The behavior of tussock tundra sites, the dominant vegetation of arctic tundra, could largely be described with a single parameter set, with a Pmax of 9.7 ¿mol m-2 s -1. Tussock tundra sites had, correspondingly, similar LAI (mean = 0.66). Non-tussock sites (for example, sedge and shrub tundras) had larger spatial and temporal variations in both C dynamic parameters (Pmax varying from 9.7-25.7 ¿mol m-2 s-1) and LAI (0.6-2.0). There were no clear relationships between dominant non-tussock vegetation types and a particular parameter set. Our results suggest that C dynamics of the acidic tussock tundra slopes and hilltops in northern Alaska are relatively simply described during the peak growing season. However, the foot-slopes and water tracks have more variable patterns of LAI and C exchange, not simply related to the dominant vegetation type.
Original languageEnglish
Pages (from-to)288-304
JournalEcosystems
Volume9
Issue number2
DOIs
Publication statusPublished - 2006

Keywords

  • species composition
  • tundra ecosystems
  • global change
  • co2 exchange
  • water-vapor
  • landscape
  • dioxide
  • fluxes
  • energy
  • models

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