Chilling and Forcing From Cut Twigs—How to Simplify Phenological Experiments for Citizen Science

Menzel, Annette; Yuan, Ye; Hamann, Andreas; Ohl, Ulrike; Matiu, Michael

doi:10.3389/fpls.2020.561413

Cited by 12 publications

(12 citation statements)

References 53 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…These two indicators provide both a sensitive (time to earliest budburst) and a robust (budburst percentage) indicator, which both reflected the same patterns of dormancy progression. In addition, the method used here has been proved to be reliable in reflecting the phenology of the donor trees (Vitasse & Basler, 2014; Menzel et al ., 2020) and has been applied to better understand chilling and photoperiod effects on temperate (Laube et al ., 2014; Flynn & Wolkovich, 2018), and even subtropical, trees (Du et al ., 2019). As the trees examined in this study were taken from only one population near Zurich, it is possible that the results of both chilling and forcing requirements found here may vary within the species distribution range (e.g.…”

Section: Discussionmentioning

confidence: 99%

Chilled to be forced: the best dose to wake up buds from winter dormancy

et al. 2021

View full text Add to dashboard Cite

Summary Over the last decades, spring leaf‐out of temperate and boreal trees has substantially advanced in response to global warming, affecting terrestrial biogeochemical fluxes and the Earth's climate system. However, it remains unclear whether leaf‐out will continue to advance with further warming because species’ effective chilling temperatures, as well as the amount of chilling time required to break dormancy, are still largely unknown for most forest tree species. Here, we assessed the progress of winter dormancy and quantified the efficiency of different chilling temperatures in six dominant temperate European tree species by exposing 1170 twig cuttings to a range of temperatures from −2°C to 10°C for 1, 3, 6 or 12 wk. We found that freezing temperatures were most effective for half of the species or as effective as chilling temperatures up to 10°C, that is, leading to minimum thermal time to and maximum success of budburst. Interestingly, chilling duration had a much larger effect on dormancy release than absolute chilling temperature. Our experimental results challenge the common assumption that optimal chilling temperatures range c. 4–6°C, instead revealing strong sensitivity to a large range of temperatures. These findings are valuable for improving phenological models and predicting future spring phenology in a warming world.

show abstract

Section: Discussionmentioning

confidence: 99%

Chilled to be forced: the best dose to wake up buds from winter dormancy

et al. 2021

View full text Add to dashboard Cite

show abstract

“…Branch experiments can simulate variation in chilling length using different harvest dates prior to actual flowering or higher temperatures in the climate chamber/window sill can be used to study the effect of accelerated warming (forcing) (see e.g. Menzel et al 2020a , b ).…”

Section: Discussionmentioning

confidence: 99%

“…The goal of these studies was among others to identify key influences on seasonal patterns and pollen emission, including the effects of climate change (Marselle et al 2019 ), and to study pollen characteristics, such as variation in allergic content among different grass species (Jung et al 2018 ). It is already known that climate change alters seasonal patterns of pollen, e.g., leading to an earlier start of pollen season (Frei and Gassner 2008 ; Menzel et al 2006 ; Menzel et al 2020a , b ; Rosenzweig et al 2008 ). Seasonal patterns and their trends are normally captured by phenological studies and/or longer time series of measured airborne pollen concentrations (e.g., Menzel et al 2021 ).…”

Section: Introductionmentioning

confidence: 99%

“…Thus, this method has the benefit that in the face of climate change different climatic scenarios and their impacts on pollen characteristics can be studied. The twig method has already been well described in previous studies (Basler and Körner 2012 ; Dantec et al 2014 ; Menzel et al 2020a , b ; Primack et al 2015 ). Vitasse and Basler ( 2014 ) observed for the tree species hornbeam, European beech, and sycamore that the timing of budburst is comparable between cut and uncut twigs from a donor tree.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Establishing the twig method for investigations on pollen characteristics of allergenic tree species

2021

Self Cite

View full text Add to dashboard Cite

The twig method in climate chambers has been shown to successfully work as a proxy for outdoor manipulations in various experimental setups. This study was conducted to further establish this method for the investigation of allergenic pollen from tree species (hazel, alder, and birch). Direct comparison under outdoor conditions revealed that the cut twigs compared to donor trees were similar in the timing of flowering and the amount of pollen produced. Cut twigs were able to flower in climate chambers and produced a sufficient amount of pollen for subsequent laboratory analysis. The addition of different plant or tissue fertilizers in the irrigation of the twigs did not have any influence; rather, the regular exchange of water and the usage of fungicide were sufficient for reaching the stage of flowering. In the experimental setup, the twigs were cut in different intervals before the actual flowering and were put under warming conditions in the climate chamber. An impact of warming on the timing of flowering/pollen characteristics could be seen for the investigated species. Therefore, the twig method is well applicable for experimental settings in pollen research simulating, e.g., accelerated warming under climate change.

show abstract

“…An important feature of the climate system is the diversity of climatic conditions, and the picture of regional climate changes in recent decades has been shown to be complex and diverse. Thus, research on the long‐term dynamics of phenological events influenced by climatic factors remains among the most interesting topics in the natural sciences (Menzel, Yuan, Hamann et al., 2020).…”

Section: Introductionmentioning

confidence: 99%

Extreme temperatures help in identifying thresholds in phenological responses

Askeyev

et al. 2021

Global Ecol Biogeogr

View full text Add to dashboard Cite

Aim:The aim was to investigate temperature drivers of the spring phenology of 12 flowering events and six leafing events. Boreal phenology has previously exhibited only a modest response to temperature, but record-breaking temperatures in March 2020 led to some extreme phenological timing and provided the opportunity for a more rigorous look at the nature and complexity of the relationship between temperature and phenology.Location: Boreal habitat in the Tatarstan Republic of Russia.

show abstract

Chilling and Forcing From Cut Twigs—How to Simplify Phenological Experiments for Citizen Science

Cited by 12 publications

References 53 publications

Chilled to be forced: the best dose to wake up buds from winter dormancy

Chilled to be forced: the best dose to wake up buds from winter dormancy

Establishing the twig method for investigations on pollen characteristics of allergenic tree species

Extreme temperatures help in identifying thresholds in phenological responses

Contact Info

Product

Resources

About