Abstract

AbstractMulti‐scale forest inventory and monitoring data are increasingly being used in studies assessing forest diversity, structure, disturbance, and carbon dynamics. Also, local‐level urban forest inventories are providing plot data and protocols to study tree diversity and ecosystem services in urban forests worldwide. But, differences in the sampling methods underlying these disparate protocols and data sources is a non‐trivial concern in formulating comparative analyses. We assess commonly used methods for comparing tree diversity in peri‐urban and urban forests when available data have different sample sizes, plot sizes, and sampling intensities. We present methods for appropriately evaluating species richness, as well as methods for comparing species distributions via community data matrices. Using permanent plot data from the southeastern United States, we present a case study comparing urban and peri‐urban forests along a north–south gradient, and assessing species richness and the ecological homogenization hypothesis. Our findings indicate that comparisons of tree species richness among communities, or forest types, are often inconclusive since commonly used sample sizes do not provide precise estimates of the number of species present. While the ecological homogenization hypotheses can be tested under conditions of unequal sampling effort, we suggest robust methods such as PERMANOVA and the Raup‐Crick dissimilarity index. A framework for selecting appropriate methods is also discussed. As forests are increasingly being altered by anthropogenic drivers, future studies using disparate data sources must account for differences in measurements and sampling protocols in order to produce results that are both statistically defensible and useful for science‐based management.

Highlights

  • Forest composition and tree species diversity have been recognized as primary drivers of ecosystem resilience and function (Jenerette et al 2016)

  • We present findings in a case study that evaluates several commonly used methods for analyzing tree species richness metrics and test the ecological homogenization hypothesis across different forested contexts

  • Our results suggest that UFs and peri-urban forests (PF) were very similar within a particular region in the United States

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Summary

Introduction

Forest composition and tree species diversity have been recognized as primary drivers of ecosystem resilience and function (Jenerette et al 2016). Further information is needed on how the increasing use of available plot-level data in both rural and urban forests can be used to address questions regarding ecological disturbance, functionality, and homogenization (Staudhammer et al 2015, Speak et al 2018). Such studies of tree and plant diversity among and within forested. Comparative analyses of tree and forest data collected from different ecosystems often use different inventory and sampling protocols This can be problematic due to varying sampling intensities, plot shapes, and sizes (Laurance et al 1998, Hou et al 2015). By consolidating, formatting, and matching data sampled for different projects with different objectives, regional and international databases and clearing houses could be developed

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