Conifer growth and reproduction in urban forest fragments: Predictors of future responses to global change?

Anna M O’Brien,Ailene K Ettinger,Janneke Hillerislambers

doi:10.1007/s11252-012-0250-7

Anna M O’Brien, Ailene K Ettinger + Show 1 more

Open Access

https://doi.org/10.1007/s11252-012-0250-7

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Abstract

Global change has a large and growing influence on forests, particularly in urban and urbanizing areas. Compared to rural forests, urban forests may experience warmer temperatures, higher CO2 levels, and greater nitrogen deposition, with exacerbated differences at urban forest edges. Thus, comparing urban to rural forests may help predict future effects of global change on forests. We focused on the conifer western red-cedar (Thuja plicata) to test three hypotheses: at urban forest edges, relative to rural forests and urban forest centers, trees experience 1) higher temperatures and nitrogen levels, 2) lower seedling recruitment, and 3) greater growth. We additionally tested anecdotal reports that 4) tree seedling recruitment in urban and rural forests is much lower than in “pristine” old-growth forests. To test these hypotheses, we quantified air temperature, soil nitrate, adult T. plicata growth and seedling recruitment in five urban and three rural parks at both forest edges and centers. We also quantified T. plicata recruitment at five old-growth “pristine” sites. Temperatures were highest at urban forest edges, and soil nitrate was highest in urban forests. In urban relative to rural forests, we observed greater T. plicata growth, but no difference in seedling densities. However, seedling densities were lower in urban and rural forests than in old-growth forests. In all, our results suggest urban influences enhance adult T. plicata growth, but not seedling recruitment. Recruitment in urban and rural forests was reduced compared to old-growth forests, implying that fragmentation and logging reduce T. plicata seedling recruitment.

Highlights

Cities can be used to study global change effects on forests because urban forest fragments are exposed to conditions that rural forests may experience in the future
We found no difference in seedling densities between urban and rural forest types or location types, but tree growth showed a similar pattern to environmental variables
Our results suggest that urban forests can ameliorate the urban influence towards their centers

Summary

Introduction

Cities can be used to study global change effects on forests because urban forest fragments are exposed to conditions that rural forests may experience in the future. Urban Ecosyst (2012) 15:879–891 exhaust (Lovett et al 2000), CO2 levels are elevated (Pataki et al 2003; Ziska et al 2004), urban heat island effects cause warmer temperatures (Taha 1997), and exotic species propagules are at higher densities (Lonsdale 1999). Together, these variables can be thought of as an “urban influence”, and they represent the future conditions all forests may experience as humans continue to modify the environment (Carreiro and Tripler 2005). Urban parks can be utilized as “natural” global change experiments, useful for predicting the response of forests to combined influences of global change factors

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