Extended leaf phenology has limited benefits for invasive species growing at northern latitudes

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ORIGINAL PAPER

Extended leaf phenology has limited benefits for invasive species growing at northern latitudes Erin O’Connell

. Jessica Savage

Received: 14 July 2019 / Accepted: 19 June 2020 Ó Springer Nature Switzerland AG 2020

Abstract Many understory woody invasive plants in North America leaf out earlier or retain leaves later than their native associates. This extended leaf phenology is thought to grant invasive species an advantage over native species because spring and fall are crucial times for light access and carbon acquisition in understory habitats. However, it is unclear whether this advantage persists at northern latitudes where freezing temperatures constrain growing season length and low light levels reduce carbon gain. To investigate the costs and benefits of extended leaf phenology at northern latitudes, we observed leaf phenology, estimated total carbon gain, measured growth, and tested susceptibility to freezing temperatures for four native and four invasive woody shrubs in a disturbed forest in northern Minnesota, USA. We found that the invaders leafed out simultaneously with the natives in the spring but retained their leaves later in the autumn than native species. This extended fall phenology did not enable greater total carbon gain for the invaders because they assimilated less carbon earlier in the year than the natives. There was also no significant

Electronic supplementary material The online version of this article (https://doi.org/10.1007/s10530-020-02301-w) contains supplementary material, which is available to authorized users. E. O’Connell (&) J. Savage University of Minnesota – Duluth, 1035 Kirby Drive Swenson, Duluth, MN 55812, USA e-mail: [email protected]

difference between native and invasive species in their susceptibility to freezing temperatures. Instead freezing tolerance related more to native range then leaf phenology. Our results suggest that freezing temperatures do not limit invasive species’ northern expansion and instead indicate that at the northern edge of their ranges, these species may lose any competitive advantage granted by extended leaf phenology over their native associates. This study demonstrates the importance of considering latitude and forest structure when investigating phenology and growth. Keywords Carbon assimilation Photosynthesis Distribution Leaf out Senescence

Introduction Many understory woody invasive plants in North America, such as Rhamnus cathartica, Lonicera x bella, and Berberis thunbergii, leaf out before and/or retain functional leaves after their native associates (Harrington et al. 1989; Xu et al. 2007; Fridley 2012) because they evolved in Europe and Asia, where growing seasons are longer than in North America (Zohner and Renner 2017). This extended leaf phenology may increase these species’ competitive advantage over natives in North America by granting

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E. O’Connell, J. Savage

greater access to understory light and lengthening their growing season (Wolkovich and

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Extended leaf phenology has limited benefits for invasive species growing at northern latitudes

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