Stemflow chemistry in relation to tree size: A preliminary investigation of eleven urban park trees in British Columbia, Canada
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- 作者:Julie T. Schoolinga ; ju2@shaw.ca ; Delphis F. Leviab ; Darryl E. Carlyle-Mosesc ; Asia L. Dowtind ; Sharon E. Brewere ; Kingsley K. Donkore ; Scott A. Bordene ; Alicja A. Grzybowskic
- 关键词:Cation concentration ; Enrichment ratio ; Green space conservation ; Stemflow ; Urban forestry
- 刊名:Urban Forestry & Urban Greening
- 出版年:2017
- 出版时间:January 2017
- 年:2017
- 卷:21
- 期:Complete
- 页码:129-133
- 全文大小:431 K
- 卷排序:21
文摘
Given increased atmospheric loads in cities, quantification of stemflow chemistry is necessary for a holistic understanding of elemental cycling in urban ecosystems. Accordingly, the stemflow volume and associated solute fluxes (K+, Ca2+, Na+, Mg2+) were measured for eleven deciduous trees in a manicured park setting in Kamloops, British Columbia, Canada. Over nine rainfall events from late June to early September 2013, larger trees [diameter at breast height (DBH) > 30 cm] were found to generally produce higher event stemflow volumes but lower funneling ratios than the smaller trees (DBH < 30 cm). The median flux-based enrichment ratio, which compares the solute input of stemflow to that of rainfall on a per unit trunk basal area, also tended to be greater for smaller trees than larger ones. Under all-tree and single-leader tree conditions, significant negative non-linear relationships between tree DBH and mean flux-based enrichment ratios were found for Ca2+, Na+, and Mg2+, but not for K+. These preliminary results indicate that urban trees can considerably enrich rainfall that is partitioned into stemflow, and that ion concentrations and enrichment ratios exhibit notably high interspecific variability. In this study, tree size and presence of single versus multiple leaders explained some of this heterogeneity; however, further study into those physical tree characteristics that affect stemflow volume and stemflow chemistry must be carried out if the impact and challenges of urban greening, nutrient cycling, and stormwater management initiatives are to be more fully understood.