Phenological changes in six Australian subalpine plants in response to experimental warming and year‐to‐year variation

Hoffmann, Ary A.; Camac, James; Williams, Richard J.; Papst, W. A.; Jarrad, Frith; Wahren, Carl-Henrik

doi:10.1111/j.1365-2745.2010.01667.x

Cited by 62 publications

(63 citation statements)

References 32 publications

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“…Nevertheless, other studies that only altered growing season temperatures found that the same species as in our study showed phenological advances under air warming [18] or that other alpine species showed a lagged response after multiple years of warming [10]. The distinct methodologies applied in these experiments (e.g.…”

Section: Discussionmentioning

confidence: 51%

Growth and Phenology of Three Dwarf Shrub Species in a Six-Year Soil Warming Experiment at the Alpine Treeline

Anadon‐Rosell

Rixen²,

Cherubini

et al. 2014

PLoS ONE

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Global warming can have substantial impacts on the phenological and growth patterns of alpine and Arctic species, resulting in shifts in plant community composition and ecosystem dynamics. We evaluated the effects of a six-year experimental soil warming treatment (+4°C, 2007–2012) on the phenology and growth of three co-dominant dwarf shrub species growing in the understory of Larix decidua and Pinus uncinata at treeline in the Swiss Alps. We monitored vegetative and reproductive phenology of Vaccinium myrtillus, Vaccinium gaultherioides and Empetrum hermaphroditum throughout the early growing season of 2012 and, following a major harvest at peak season, we measured the biomass of above-ground ramet fractions. For all six years of soil warming we measured annual shoot growth of the three species and analyzed ramet age and xylem ring width of V. myrtillus. Our results show that phenology of the three species was more influenced by snowmelt timing, and also by plot tree species (Larix or Pinus) in the case of V. myrtillus, than by soil warming. However, the warming treatment led to increased V. myrtillus total above-ground ramet biomass (+36% in 2012), especially new shoot biomass (+63% in 2012), as well as increased new shoot increment length and xylem ring width (+22% and +41%, respectively; average for 2007–2012). These results indicate enhanced overall growth of V. myrtillus under soil warming that was sustained over six years and was not caused by an extended growing period in early summer. In contrast, E. hermaphroditum only showed a positive shoot growth response to warming in 2011 (+21%), and V. gaultherioides showed no significant growth response. Our results indicate that V. myrtillus might have a competitive advantage over the less responsive co-occurring dwarf shrub species under future global warming.

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Section: Discussionmentioning

confidence: 51%

Growth and Phenology of Three Dwarf Shrub Species in a Six-Year Soil Warming Experiment at the Alpine Treeline

Anadon‐Rosell

Rixen²,

Cherubini

et al. 2014

PLoS ONE

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“…Artificial warming has frequently been reported to either advance or delay the time of flowering (Sherry et al. , 2007; Hoffmann et al. , 2010).…”

Section: Introductionmentioning

confidence: 99%

Global warming reduces plant reproductive output for temperate multi‐inflorescence species on the Tibetan plateau

Liu

Niklas

et al. 2012

New Phytologist

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Summary• Temperature is projected to increase more during the winter than during the summer in cold regions. The effects of winter warming on reproductive effort have not been examined for temperate plant species.• Here, we report the results of experimentally induced seasonal winter warming (0.4 and 2.4°C increases in growing and nongrowing seasons, respectively, using warmed and ambient open-top chambers in a Tibetan Plateau alpine meadow) for nine indeterminate-growing species producing multiple (single-flowered or multi-flowered) inflorescences and three determinate-growing species producing single inflorescences after a 3-yr period of warming.• Warming reduced significantly flower number and seed production per plant for all nine multi-inflorescence species, but not for the three single-inflorescence species. Warming had an insignificant effect on the fruit to flower number ratio, seed size and seed number per fruit among species. The reduction in seed production was largely attributable to the decline in flower number per plant. The flowering onset time was unaffected for nine of the 12 species. Therefore, the decline in flower production and seed production in response to winter warming probably reflects a physiological response (e.g. metabolic changes associated with flower production).• Collectively, the data indicate that global warming may reduce flower and seed production for temperate herbaceous species and will probably have a differential effect on single-vs multi-inflorescence species.

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“…However, data from experimental warming studies indicate that many species that initiate leaf growth and flowering earlier also reach seed maturation and senesce earlier, shortening their active and reproductive periods [6][7][8][9][10] . A conceptual model to explain this apparent contradiction 11 , and an analysis of the effect of elevated CO 2 -which can delay annual life cycle events 12-14 -on changing season length, have not been tested.…”

mentioning

confidence: 99%

Elevated CO2 further lengthens growing season under warming conditions

Reyes-Fox¹,

Steltzer

Trlica

et al. 2014

Nature

170

119

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Phenological changes in six Australian subalpine plants in response to experimental warming and year‐to‐year variation

Cited by 62 publications

References 32 publications

Growth and Phenology of Three Dwarf Shrub Species in a Six-Year Soil Warming Experiment at the Alpine Treeline

Growth and Phenology of Three Dwarf Shrub Species in a Six-Year Soil Warming Experiment at the Alpine Treeline

Global warming reduces plant reproductive output for temperate multi‐inflorescence species on the Tibetan plateau

Elevated CO2 further lengthens growing season under warming conditions

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