Seasonal changes and vertical distribution of root standing biomass of graminoids and shrubs at a Siberian tundra site

Peng Wang,Trofim C Maximov,Frank Berendse,Jasper Van Ruijven,Liesje Mommer,Monique M P D Heijmans

doi:10.1007/s11104-016-2858-5

Abstract

Shrub expansion is common in the tundra biome and has been linked to climate warming. However, the underlying mechanisms are still not fully understood. This study aimed to investigate the seasonal and vertical rooting patterns of different plant functional types, which is important for predicting tundra vegetation dynamics. We harvested root samples by soil coring and investigated seasonal changes in root biomass and vertical root distribution across a vegetation gradient, focusing on the differences between graminoids and dwarf shrubs, at a northeastern Siberian tundra. Graminoid fine root biomass increased significantly during the growing season, whereas that of shrubs was already high at the beginning and did not change later on. Shrubs had a much shallower rooting pattern than graminoids. Also, shrub roots did not respond to increases in permafrost thawing depth over the growing season, whereas graminoids grew fine roots in deeper, recently thawed soil layers during the growing season. Our results show that shrubs are predominantly shallow-rooted and grow roots earlier than graminoids, which allows shrubs to take advantage of the nutrient pulse after snowmelt in the early growing season. In contrast, the deep-rooted graminoids can access the nutrients in deeper soil and may profit from increasing permafrost thawing depth. The outcome of the competitive interactions between graminoids and shrubs in tundra may depend on the balance between the benefits associated with earlier root growth and deeper root distribution, respectively. The shrub expansion with climate warming observed in recent decades suggests that earlier root growth in the upper soil layer may be more important than increased rooting depth later in the growing season.

Highlights

Global annual air temperature is predicted to increase by more than 1.5 °C at the end of this century, and the temperature increase in the Arctic areas is predicted to be higher than in other regions of the globe (IPCC 2013)
The outcome of the competitive interactions between graminoids and shrubs in tundra may depend on the balance between the benefits associated with earlier root growth and deeper root distribution, respectively
The shrub expansion with climate warming observed in recent decades suggests that earlier root growth in the upper soil layer may be more important than increased rooting depth later in the growing season

Summary

Introduction

Global annual air temperature is predicted to increase by more than 1.5 °C at the end of this century, and the temperature increase in the Arctic areas is predicted to be higher than in other regions of the globe (IPCC 2013). As a result of these environmental changes, aboveground productivity of tundra vegetation has been shown to increase (Epstein et al 2012; Hill and Henry 2011; Verbyla 2008). Following this increase, vegetation composition is changing, as shrub expansion at the expense of graminoids and/or cryptogams has been observed in many tundra areas (Callaghan et al 2011; Myers-Smith et al 2011a; Myers-Smith et al 2011b; Tape et al 2006; Wookey et al 2009). All kinds of environmental changes that take place due to climate warming can affect the competitive interactions between the dominant plant functional types (PFTs) in tundra, change vegetation composition, and further influence ecosystem functioning such as carbon and nutrient fluxes (Mack et al 2004; Shaver and Chapin 1991)

Methods

Results

Discussion

Conclusion