Climate-Induced Changes in Spring Snowmelt Impact Ecosystem Metabolism and Carbon Fluxes in an Alpine Stream Network

Amber J. Ulseth, Enrico Bertuzzo, Gabriel A. Singer, Jakob Schelker, Tom J. Battin

Research output: Contribution to journalArticlepeer-review

43 Scopus citations

Abstract

Although stream ecosystems are recognized as an important component of the global carbon cycle, the impacts of climate-induced hydrological extremes on carbon fluxes in stream networks remain unclear. Using continuous measurements of ecosystem metabolism, we report on the effects of changes in snowmelt hydrology during the anomalously warm winter 2013/2014 on gross primary production (GPP), ecosystem respiration (ER), and net ecosystem production (NEP) in an Alpine stream network. We estimated ecosystem metabolism across 12 study reaches of the 254 km2 subalpine Ybbs River Network (YRN), Austria, for 18 months. During spring snowmelt, GPP peaked in 10 of our 12 study reaches, which appeared to be driven by PAR and catchment area. In contrast, the winter precipitation shift from snow to rain following the low-snow winter in 2013/2014 increased spring ER in upper elevation catchments, causing spring NEP to shift from autotrophy to heterotrophy. Our findings suggest that the YRN transitioned from a transient sink to a source of carbon dioxide (CO2) in spring as snowmelt hydrology differed following the high-snow versus low-snow winter. This shift toward increased heterotrophy during spring snowmelt following a warm winter has potential consequences for annual ecosystem metabolism, as spring GPP contributed on average 33% to annual GPP fluxes compared to spring ER, which averaged 21% of annual ER fluxes. We propose that Alpine headwaters will emit more within-stream respiratory CO2 to the atmosphere while providing less autochthonous organic energy to downstream ecosystems as the climate gets warmer.

Original languageEnglish (US)
Pages (from-to)373-390
Number of pages18
JournalEcosystems
Volume21
Issue number2
DOIs
StatePublished - Mar 1 2018
Externally publishedYes

Bibliographical note

Publisher Copyright:
© 2017, The Author(s).

Keywords

  • alpine
  • annual carbon fluxes
  • climate change
  • ecosystem metabolism
  • ecosystem respiration
  • gross primary production
  • net ecosystem production
  • snowmelt

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