Abstract Detail

Conservation Biology

McCoy, Dakota [1], Goulet, Benjamin [2], Meng, Weilin [3], Atahan, Bulent Furkan [4], Kiros, Hana [5], Nishino, Misako [6], Kartesz, John [6].

A dataset of 5 million city trees: species clustering and climate effects in urban forests.

Sustainable cities depend on urban forests. City trees improve our health, clean the air, store CO₂, and cool local temperatures. Comparatively less is known about urban forests as ecosystems, particularly their spatial composition, nativity statuses, biodiversity, and tree health. Here, we assembled and standardized a new dataset of N=5,132,890 trees from 63 of the largest US cities with detailed information on location, health, nativity status, and species. We further designed new tools to analyze the ecosystem structure of urban forests, including spatial clustering and abundance of native trees, and validate these tools in comparison to past methods. We show that city trees are significantly clustered by species in 93% of cities, potentially increasing pest vulnerability (even in cities with biodiverse urban forests). Further, non-native species significantly homogenize urban forests across cities, while native trees comprise 0.44%-85.6% (median=45.6%) of city tree populations. Native trees are less frequent in drier cities, and indeed climate significantly shapes both nativity and biodiversity in urban forests. Parks are more biodiverse than urban settings. Compared to past work which focused primarily on canopy cover and species richness, we show the importance of analyzing spatial composition and nativity statuses in urban forests (and we created new datasets and tools to do so). This dataset could be analyzed in combination with citizen-science datasets on bird, insect, or plant biodiversity; social and demographic data; or data on the physical environment. Urban forests offer a rare opportunity to intentionally design biodiverse, heterogenous, rich ecosystems.

1 - Stanford University, 496 Lomita Mall, Stanford, CA, 94305, USA
2 - Harvard University, 1300 Centre Street, Boston, MA, 02131, United States
3 - Boston, Boston, MA, USA
4 - Worcester Polytechnic Institute, Worcester, MA, 01605, USA
5 - Harvard University, 26 Oxford St, Cambridge, MA, 02138, USA
6 - The Biota of North America Program (BONAP); , Chapel Hill, NC, 27516, USA

Keywords:
Trees
Urban
urban biodiversity
ecology
non-native species
Biodiversity.

Presentation Type: Oral Paper
Number: CB3005
Abstract ID:571
Candidate for Awards:None