Higher vascular plant abundance associated with decreased ecosystem respiration after 20 years of warming in the forest-tundra -ecotone

The ongoing climate warming is promoting shrub abundance in high latitudes, but the effect of this phenomenon on ecosystem functioning is expected to depend on whether deciduous or evergreen species increase in response to warming. To explore effects of long-term warming on shrubs and further on eco...

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Bibliographic Details
Main Authors: Myrsky, Eero, Mikola, Juha, Kaarlejärvi, Elina, Olofsson, Johan, Sjögersten, Sofie, Tupek, Boris, Mannisto, Minna, Stark, Sari
Format: Other/Unknown Material
Language:unknown
Published: Zenodo 2023
Subjects:
CO2 exchange
Climate change
evergreen dwarf shrubs
deciduous dwarf shrubs
moth outbreaks
Arctic
Betula nana
Empetrum nigrum
Tundra
Online Access:https://doi.org/10.5061/dryad.612jm649d
Description
Summary:The ongoing climate warming is promoting shrub abundance in high latitudes, but the effect of this phenomenon on ecosystem functioning is expected to depend on whether deciduous or evergreen species increase in response to warming. To explore effects of long-term warming on shrubs and further on ecosystem functioning, we analyzed vegetation and ecosystem CO 2 exchange after 20 years of warming in the forest-tundra ecotone in sub-arctic Sweden. A previous study conducted nine years earlier had found increased evergreen Empetrum nigrum ssp. hermaphroditum in the forest and increased deciduous Betula nana in the tundra. Following current understanding, we expected a continued increase in shrub abundance that would be stronger in tundra than in forest. We expected warming to increase ecosystem respiration ( R e ) and gross primary productivity (GPP), with a greater increase in R e in tundra due to increased deciduous shrub abundance, leading to a less negative net ecosystem exchange (NEE) and reduced ecosystem C sink strength. As predicted, vascular plant abundances were higher in the warmed plots with a stronger response in tundra than in forest. However, whereas B. nana had increased in abundance since the last survey, E. hermaphroditum abundance had declined due to several moth and rodent outbreaks during the past decade. I n contrast to predictions, R e was significantly lower in the warmed plots irrespective of habitat, and GPP increased marginally only in the forest. The lower R e and a higher GPP under warming in the forest together led to increased net C sink. R e was negatively associated with the total vascular plant abundance. Our results highlight the importance of disturbance regimes for vegetation responses to warming. Climate warming may promote species with both a high capacity to grow under warmer conditions and a resilience towards herbivore outbreaks. Negative correlation between R e and total vascular plant abundance further indicates that t he indirect impacts of increased plants on soil ...

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