Abstract

Studies have documented many biophysical factors that are correlated with urban forest carbon storage. This urban forest function is also increasingly being promoted as a nature-based solution for cities. While urbanization affects both the structure and function of urban forest ecosystems, quantitative analyses of specific casual drivers of carbon storage in urban versus peri-urban forests are scarce. To address this lack of information, we used field data of random plots located along an urban to rural gradient in Shanghai, China, region-specific biomass equations, and path analysis of commonly studied urban forest socioeconomic and ecological drivers to analyze their effects on above ground tree carbon storage. An urbanization index was also developed to quantitatively differentiate urban from peri-urban sites along the transect. Results show that in both urban and peri-urban forests, percent tree and shrub cover had a significant and positive effect on tree and shrub carbon, but tree and shrub density had an even greater effect. Further, tree and shrub species diversity had no effects on carbon storage, while the effects of species composition on tree and shrub carbon in urban forests was different from those in peri-urban areas. Peri-urban forests also exhibited a significant effect of percent tree and shrub cover on tree and shrub species diversity. This approach, using a path analysis of field and plot data and site-specific dendrometric and urbanization information, can be used to quantitatively identify little explored causal dependences between drivers and ecosystem services without relying exclusively on spatial land cover data often not available in developing countries.

Highlights

  • Urban forests are the sum of all trees, shrubs, and palms present in a city and are a key nature-based solution for mitigating climate change effects and providing other ecosystem services [1,2,3]

  • Previous urban forest ecosystem studies have documented a correlation between structure, composition, diversity and carbon storage, and that tree cover and land use and land cover (LULC) are correlated to carbon storage [2,3,4,13,17,18]

  • Given the growing urbanization effects on forests literature and studies assessing the carbon storage of urban forests internationally [21,22,23] there is little information outside of developed and temperate Europe and North America regarding the quantitative relationships between tree carbon storage and urbanization [9,24]

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Summary

Introduction

Urban forests are the sum of all trees, shrubs, and palms present in a city and are a key nature-based solution for mitigating climate change effects and providing other ecosystem services [1,2,3]. The structure, function and subsequent ecosystem services from urban forests are highly influenced by land use change and human decisions [11,12]. Different levels of urbanization, urban morphologies LULC will affect urban forest functions as seen in studies such as those of Dobbs et al (2014) [11] Information on such dynamics are needed in places such as China due to its rapid urbanization, on-going large-scale tree planting projects, and the need to promote and conserve urban forests [6,7]

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