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Effects of bird community dynamics on the seasonal distribution of cultural ecosystem services

Effects of bird community dynamics on the seasonal distribution of cultural ecosystem services Abstract Biodiversity-based cultural ecosystem services (CES), such as birdwatching, are strongly influenced by biotic community dynamics. However, CES models are largely static, relying on single estimates of species richness or land-use/land-cover proxies, and may be inadequate for landscape management of CES supply. Using bird survey data from the Appalachian Mountains (USA), we developed spatial–temporal models of five CES indicators (total bird species richness, and richness of migratory, infrequent, synanthrope, and resident species), reflecting variation in birdwatcher preferences. We analyzed seasonal shifts in birdwatching supply and how those shifts impacted public access to projected birdwatching hotspots. Landscape patterns of CES supply differed substantially among indicators, leading to opposing conclusions about locations of highest birdwatching supply. Total species richness hotspots seldom overlapped with hotspots of migratory or infrequent species. Public access to CES hotspots varied seasonally. Our study suggests that simple, static biodiversity metrics may overlook spatial dynamics important to CES users. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png "Ambio" Springer Journals

Effects of bird community dynamics on the seasonal distribution of cultural ecosystem services

"Ambio" , Volume 48 (3): 13 – Mar 1, 2019

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References (66)

Publisher
Springer Journals
Copyright
2018 Royal Swedish Academy of Sciences
ISSN
0044-7447
eISSN
1654-7209
DOI
10.1007/s13280-018-1068-1
Publisher site
See Article on Publisher Site

Abstract

Abstract Biodiversity-based cultural ecosystem services (CES), such as birdwatching, are strongly influenced by biotic community dynamics. However, CES models are largely static, relying on single estimates of species richness or land-use/land-cover proxies, and may be inadequate for landscape management of CES supply. Using bird survey data from the Appalachian Mountains (USA), we developed spatial–temporal models of five CES indicators (total bird species richness, and richness of migratory, infrequent, synanthrope, and resident species), reflecting variation in birdwatcher preferences. We analyzed seasonal shifts in birdwatching supply and how those shifts impacted public access to projected birdwatching hotspots. Landscape patterns of CES supply differed substantially among indicators, leading to opposing conclusions about locations of highest birdwatching supply. Total species richness hotspots seldom overlapped with hotspots of migratory or infrequent species. Public access to CES hotspots varied seasonally. Our study suggests that simple, static biodiversity metrics may overlook spatial dynamics important to CES users.

Journal

"Ambio"Springer Journals

Published: Mar 1, 2019

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