Environmental drivers of Sphagnum growth in peatlands across the Holarctic region

Fia Bengtsson, Håkan Rydin, Jennifer L. Baltzer, Luca Bragazza, Zhao Jun Bu, Simon J.M. Caporn, Ellen Dorrepaal, Kjell Ivar Flatberg, Olga Galanina, Mariusz Gałka, Anna Ganeva, Irina Goia, Nadezhda Goncharova, Michal Hájek, Akira Haraguchi, Lorna I. Harris, Elyn Humphreys, Martin Jiroušek, Katarzyna Kajukało, Edgar KarofeldNatalia G. Koronatova, Natalia P. Kosykh, Anna M. Laine, Mariusz Lamentowicz, Elena Lapshina, Juul Limpens, Maiju Linkosalmi, Jin Ze Ma, Marguerite Mauritz, Edward A.D. Mitchell, Tariq M. Munir, Susan M. Natali, Rayna Natcheva, Richard J. Payne, Dmitriy A. Philippov, Steven K. Rice, Sean Robinson, Bjorn J.M. Robroek, Line Rochefort, David Singer, Hans K. Stenøien, Eeva Stiina Tuittila, Kai Vellak, James Michael Waddington, Gustaf Granath

Результат исследований: Научные публикации в периодических изданияхстатья

Аннотация

The relative importance of global versus local environmental factors for growth and thus carbon uptake of the bryophyte genus Sphagnum—the main peat-former and ecosystem engineer in northern peatlands—remains unclear. We measured length growth and net primary production (NPP) of two abundant Sphagnum species across 99 Holarctic peatlands. We tested the importance of previously proposed abiotic and biotic drivers for peatland carbon uptake (climate, N deposition, water table depth and vascular plant cover) on these two responses. Employing structural equation models (SEMs), we explored both indirect and direct effects of drivers on Sphagnum growth. Variation in growth was large, but similar within and between peatlands. Length growth showed a stronger response to predictors than NPP. Moreover, the smaller and denser Sphagnum fuscum growing on hummocks had weaker responses to climatic variation than the larger and looser Sphagnum magellanicum growing in the wetter conditions. Growth decreased with increasing vascular plant cover within a site. Between sites, precipitation and temperature increased growth for S. magellanicum. The SEMs indicate that indirect effects are important. For example, vascular plant cover increased with a deeper water table, increased nitrogen deposition, precipitation and temperature. These factors also influenced Sphagnum growth indirectly by affecting moss shoot density. Synthesis. Our results imply that in a warmer climate, S. magellanicum will increase length growth as long as precipitation is not reduced, while S. fuscum is more resistant to decreased precipitation, but also less able to take advantage of increased precipitation and temperature. Such species-specific sensitivity to climate may affect competitive outcomes in a changing environment, and potentially the future carbon sink function of peatlands.

Язык оригиналаанглийский
ЖурналJournal of Ecology
Ранняя дата в режиме онлайн27 авг 2020
DOI
СостояниеЭлектронная публикация перед печатью - 27 авг 2020

Предметные области Scopus

  • Экология, эволюция поведение и систематика
  • Экология
  • Прикладная ботаника

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