2017
DOI: 10.1111/1365-2435.12853
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Root phenology unresponsive to earlier snowmelt despite advanced above‐ground phenology in two subarctic plant communities

Abstract: Summary Earlier snowmelt at high latitudes advances above‐ground plant phenology, thereby affecting water, nutrient and carbon cycles. Despite the key role of fine roots in these ecosystem processes, phenological responses to earlier snowmelt have never been assessed below‐ground. We experimentally advanced snowmelt in two contrasting plant community types (heath and meadow) in northern Sweden and measured above‐ and below‐ground phenology (leaf‐out, flowering and fine root growth). We expected earlier snowm… Show more

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Cited by 30 publications
(32 citation statements)
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“…Earlier canopy green‐up in the Northern Hemisphere has been observed as a consequence of snow removal in previous experimental manipulation studies (e.g. Blume‐Werry, Jansson, & Milbau, ; Rosa et al., ; Wipf, ) as well as a result of decreasing snowpack and higher spring temperatures in natural observations (Menzel & Fabian, ; Penuelas & Filella, ). Our result suggests that higher spring soil temperatures specifically drive this advanced green‐up rather than the earlier snowmelt, since the fleece treatment did not advance snowmelt timing.…”
Section: Discussionmentioning
confidence: 74%
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“…Earlier canopy green‐up in the Northern Hemisphere has been observed as a consequence of snow removal in previous experimental manipulation studies (e.g. Blume‐Werry, Jansson, & Milbau, ; Rosa et al., ; Wipf, ) as well as a result of decreasing snowpack and higher spring temperatures in natural observations (Menzel & Fabian, ; Penuelas & Filella, ). Our result suggests that higher spring soil temperatures specifically drive this advanced green‐up rather than the earlier snowmelt, since the fleece treatment did not advance snowmelt timing.…”
Section: Discussionmentioning
confidence: 74%
“…Shrub phenology is tightly linked to the extent to which shrubs are vulnerable to spring frost events (Inouye, ; Wheeler et al., ; Wheeler, Hoye, Schmidt, Svenning, & Forchhammer, ), whereby species with later phenology seem to exhibit higher frost sensitivity compared to species with earlier phenology (CaraDonna & Bain, ). The deciduous B. nana which naturally has a later bud break and growth onset than the evergreens V. vitis‐idaea and E. nigrum (Blume‐Werry et al., ; Wipf, ) showed highest frost damage overall. We expected leaf frost damage in shrubs to be generally lower with winter warming due to less severe autumn‐to‐late winter frost (Palacio et al., ; Saarinen & Lundell, ), which could have been counteracted by the increased number of FTCs in the spring warming treatment.…”
Section: Discussionmentioning
confidence: 99%
“…This identification mainly includes three steps: First, we smoothed the NDSI time series by using the 3-points median filter and performed linear fitting using the continuous consecutive 4 points. The use of 4 points (8-day temporal frequency for each point) is because snowmelt usually lasts 2-4 weeks [31,32]; Second, a preliminary period of snowmelt was determined to be the one with the lowest negative slope. The 4 points of this period can be expressed as Pi, Pi+1, Pi+2, and Pi+3; Third, we refined the preliminary period of snowmelt by further investigating edge points (i.e., Pi-1 and Pi at the left edge; Pi+3 and Pi+4 at the right edge).…”
Section: Quantifying Gud Uncertainty Caused By Spring Snowmeltmentioning
confidence: 99%
“…In most ecosystems, root biomass changes substantially throughout the year, although understanding drivers of this phenology is limited, especially when using quantitative metrics (Radville et al, 2016). In many cases, root growth is desynchronized from production of shoots (Blume-Werry et al, 2017;Mccormack et al, 2017;Steinaker and Wilson, 2008) and linkages between root function and root dynamics are often poorly understood. As a major function of roots is nutrient uptake, supplying resources which are often limiting, nutrient availability may play an important role in regulating the timing and magnitude of root production.…”
Section: Introductionmentioning
confidence: 99%