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Spatiotemporal Drivers of Seabird Distribution at the Pacific Marine Energy Center off Newport, Oregon

ScholarsArchive at Oregon State University

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Title Spatiotemporal Drivers of Seabird Distribution at the Pacific Marine Energy Center off Newport, Oregon
Names Porquez, Jessica M. (creator)
Suryan, Robert M. (advisor)
Date Issued 2016-02-05 (iso8601)
Note Graduation date: 2016
Abstract The central Oregon coast was selected as an ideal site for wave energy
development and establishment of the Pacific Marine Energy Center (PMEC). PMEC
will consist of two nearshore sites, one north (NETS) and one south (SETS) of the
Yaquina River, Oregon. Our study aims to assess how the development of wave energy
sites might impact marine birds. We used vessel-based strip transect surveys to detect
spatial and temporal patterns of seabirds during 28 surveys of NETS and SETS from
2013-2015. We also conducted 29 surveys along the Newport Hydrographic Line (NHL)
(2006-2009, 2013-2015), a cross-shelf oceanographic sampling line that extends 40 km
west of NETS. We collected in situ measurements of surface conductivity, temperature
and fluorescence to test correlations between spatial variables and seabird abundance.
Common murres (Uria aalge) were the most abundant resident species (70%) while sooty
shearwaters (Puffinus griseus) were the most abundant migratory species (78%). We
identified 7 focal species (common murres, sooty shearwaters, Brandt's and pelagic
cormorants (Phalacrocorax penicillatus and pelagicus), western gull (Larus
occidentalis), Cassin's auklet (Ptychoramphus aleuticus), and red-necked phalaropes
(Phalaropus lobatus), 5 foraging niches and 3 species of interest for analysis. We used
non-metric multidimensional scaling ordinations to assess seasonal shifts in the seabird
community at a focal species and foraging group level. Both ordinations depicted strong
seasonal gradients with distinct seasonal communities. Focal species were also driven by
a distance to shore gradient, while foraging niches were more influenced by foraging type
(diving versus surface feeding). The shoreward shift or outward dispersal of species
appears driven by a combination of factors, including the diffusion of nearshore
concentration of murres and cormorants on Yaquina Head post chick fledging, and the
inshore movement of migratory species with the onset of upwelling and greater prey
abundance. We employed generalized additive mixed models for the focal species, and
tested for correlations with in situ data (salinity, temperature and fluorescence), depth,
substrate, season, and a random 'site' effect. We identified correlations between several
species and measured oceanographic variables, which indicated species' selection of
specific water masses. With Inverse Distance Weighted maps we detected high use zones
by sooty shearwaters and common murres outside of both site boundaries, except during
the spring and summer, when murres occur densely within the NETS. None of our
observed species of concern (brown pelicans (Pelicanus occidentalis), black footed
albatrosses (Phoebastria nigiripes) and marbled murrelets, (Brachyramphus
marmoratus)) were detected within either site boundary. Rather, pelicans and murrelets
were observed inshore of the SETS and south of the NETS, and albatrosses were all
detected west of the sites. We observed overall low abundance of focal species within the
sites, relative to adjacent areas, although the whole study area appears to be productive
foraging habitat used by many species. As a baseline characterization of the seabird
community off Newport, this work can help inform citing and permitting processes of
similar wave energy test facilities and provide a platform for continued monitoring of
seabirds in the area.
Genre Thesis/Dissertation
Access Condition http://creativecommons.org/licenses/by-nc-nd/3.0/us/
Topic Oregon
Identifier http://hdl.handle.net/1957/58557

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