Global negative vegetation feedback to climate warming responses of leaf litter decomposition rates in cold biomes

Cornelissen, Johannes H. C.; Bodegom, Peter M. van; Aerts, Rien; Callaghan, Terry V.; Logtestijn, Richard S. P. van; Alatalo, Juha M.; Chapin, F. Stuart; Gerdol, Renato; Guðmundsson, Jón; Gwynn‐Jones, Dylan; Hartley, Anne E.; Hik, David S.; Hofgaard, Annika; Jónsdóttir, Ingibjörg S.; Karlsson, P. S.; Klein, Julia A.; Laundre, James A.; Magnússon, Borgþór; Michelsen, Anders; Molau, Ulf; Онипченко, В. Г.; Quested, Helen M.; Sandvik, Sylvi M.; Schmidt, Inger Kappel; Shaver, Gus; Solheim, Bjørn; Soudzilovskaia, Nadejda A.; Stenström, Anna; Tolvanen, Anne; Totland, Ørjan; Wada, Naohisa; Welker, Jeffrey M.; Zhao, Xinquan; Team, Mcs

doi:10.1111/j.1461-0248.2007.01051.x

Cited by 398 publications

(392 citation statements)

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“…Other studies have shown that increasing temperature results in the lengthening of the growing season and improved productivity (Kimball et al, 2006;Barichivich et al, 2013). These effects may partly counteract the negative effects of climate warming (Cornelissen et al, 2007). Additionally, Kumar et al (2013) suggested that the impact of climate change on soil microbes in Arctic regions may be impossible to predict.…”

Section: Comparisons With Previous Resultsmentioning

confidence: 99%

Changes in the timing and duration of the near-surface soil freeze/thaw status from 1956 to 2006 across China

2015

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Abstract. The near-surface soil freeze/thaw status is an important indicator of climate change. Using data from 636 meteorological stations across China, we investigated the changes in the first date, the last date, the duration, and the number of days of the near-surface soil freeze over the period 1956-2006. The results reveal that the first date of the near-surface soil freeze was delayed by about 5 days, or at a rate of 0.10 ± 0.03 day yr −1 , and the last date was advanced by about 7 days, or at a rate of 0.15 ± 0.02 day yr −1 . The duration of the near-surface soil freeze decreased by about 12 days or at a rate of 0.25 ± 0.04 day yr −1 , while the actual number of the near-surface soil freeze days decreased by about 10 days or at a rate of 0.20 ± 0.03 day yr −1 . The rates of changes in the near-surface soil freeze/thaw status increased dramatically from the early 1990s through the end of the study period. Regionally, the changes in western China were greater than those in eastern China. Changes in the nearsurface soil freeze/thaw status were primarily controlled by changes in air temperature, but urbanization may also play an important role.

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Section: Comparisons With Previous Resultsmentioning

confidence: 99%

Changes in the timing and duration of the near-surface soil freeze/thaw status from 1956 to 2006 across China

2015

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“…For example, needles, hardwood leaves, grass, and forbs showed different mass loss rates, 10.0, 15.6, 21.0, and 39.0 %, respectively, under snow cover in a balsam fir (A. balsamea) forest over a 6-month snow-covered season (Taylor and Jones 1990). Moreover, the decomposition rate of different plant types is generally in the order of forbs [ graminoids [ deciduous shrubs [ evergreen shrubs (Cornelissen 1996;Cornelissen et al 2007). In general, our results are consistent with the above studies to some degree, as the litter of deciduous shrubs decomposed significantly faster than that of evergreen shrubs and trees.…”

Section: Discussionmentioning

confidence: 99%

“…For example, graminoids and herbs have been gradually replaced by shrubs in alpine ecosystems (Cornelissen et al 2007;Baptist et al 2010), leading to alterations of plant community structure and species composition (Lenoir et al 2008), as well as plant litter decomposition (Gavazov 2010).…”

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confidence: 99%

Changes in foliar litter decomposition of woody plants with elevation across an alpine forest–tundra ecotone in eastern Tibet Plateau

et al. 2016

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To determine litter decomposition rates at different elevations in the alpine forest-tundra ecotone under climate change scenarios in which woody plants shift their ranges upward, litterbags containing foliar litter were incubated on the surface of forest, tree line, and alpine meadow soils (3900, 4000, and 4200 m above sea level, respectively) in the eastern Tibet Plateau of China in October 2012. The selected woody plant species were Abies faxoniana, Betula albosinensis, Sorbus rufopilosa, Rhododendron taliense, Lonicera lanceolata, and L. myrtillus. Mass loss, carbon (C), nitrogen (N), and phosphorus (P) release, and cellulose and lignin degradation in litter were examined from retrieved litterbags over a 6 month period at the end of one snow-covered season. The results showed that the mass loss of A. faxoniana, L. lanceolata, and S. rufopilosa litter, but not that of the other species, was accelerated at higher elevations. Abies faxoniana, B. albosinensis, and S. rufopilosa C release, A. faxoniana and S. rufopilosa N release, L. myrtillus, L. lanceolata, and S. rufopilosa P release, B. albosinensis, S. rufopilosa, and R. taliense cellulose degradation, and L. myrtillus lignin degradation significantly increased with increasing elevation. These results imply that changes in foliar litter decomposition with elevation, although species-specific, could indicate a possible shift in woody plant composition in the alpine forest-tundra ecotone under climate change scenarios. Thus, further studies regarding how elevation shifts could alter litter decomposition and ecosystem sustainability are warranted.

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“…In this approach, litters of multiple species are incubated simultaneously, in the same litter matrix ('litterbed'), so that mass loss rates can be interpreted directly in terms of species' litter 'decomposability'. After the first study of this kind on leaf litter in a temperate flora (Cornelissen 1996), this common garden approach made some key advances at Abisko Research Station in sub-Arctic Sweden under the guidance and directorship of Terry Callaghan (Quested et al 2003;Cornelissen et al 2007;Freschet et al 2012c) and eventually in many biomes of the world. Together these studies revealed that the range of variation in leaf litter decomposition rates among species within sites worldwide was generally greater than the range of variation of a given litter type across climatic zones from the Arctic to the Tropics (Cornwell et al 2008).…”

Section: Common Garden Experimentsmentioning

confidence: 99%

Controls on Coarse Wood Decay in Temperate Tree Species: Birth of the LOGLIFE Experiment

Cornelissen¹,

Sass‐Klaassen

Poorter

et al. 2012

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Dead wood provides a huge terrestrial carbon stock and a habitat to wide-ranging organisms during its decay. Our brief review highlights that, in order to understand environmental change impacts on these functions, we need to quantify the contributions of different interacting biotic and abiotic drivers to wood decomposition. LOG-LIFE is a new long-term 'common-garden' experiment to disentangle the effects of species' wood traits and siterelated environmental drivers on wood decomposition dynamics and its associated diversity of microbial and invertebrate communities. This experiment is firmly rooted in pioneering experiments under the directorship of Terry Callaghan at Abisko Research Station, Sweden. LOGLIFE features two contrasting forest sites in the Netherlands, each hosting a similar set of coarse logs and branches of 10 tree species. LOGLIFE welcomes other researchers to test further questions concerning coarse wood decay that will also help to optimise forest management in view of carbon sequestration and biodiversity conservation.

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Global negative vegetation feedback to climate warming responses of leaf litter decomposition rates in cold biomes

Cited by 398 publications

References 58 publications

Changes in the timing and duration of the near-surface soil freeze/thaw status from 1956 to 2006 across China

Changes in the timing and duration of the near-surface soil freeze/thaw status from 1956 to 2006 across China

Changes in foliar litter decomposition of woody plants with elevation across an alpine forest–tundra ecotone in eastern Tibet Plateau

Controls on Coarse Wood Decay in Temperate Tree Species: Birth of the LOGLIFE Experiment

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