Songbirds as Biosentinels for Songbirds as Biosentinels for Tidal Wetlands Tidal Wetlands Initial results from North and South San Initial results from North and South San Francisco Bay Francisco Bay Letitia Grenier, Josh Collins, Jen Hunt, Shira Bezalel, Letitia Grenier, Josh Collins, Jen Hunt, Shira Bezalel, and April Robinson and April Robinson San Francisco Estuary Institute San Francisco Estuary Institute Royce LaTourrette LaTourrette
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Songbirds as Biosentinels for Tidal Wetlands Initial results from North and South San Francisco Bay Letitia Grenier, Josh Collins, Jen Hunt, Shira Bezalel,
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Songbirds as Biosentinels for Songbirds as Biosentinels for Tidal WetlandsTidal Wetlands
Initial results from North and South San Francisco Initial results from North and South San Francisco BayBay
Letitia Grenier, Josh Collins, Jen Hunt, Shira Letitia Grenier, Josh Collins, Jen Hunt, Shira Bezalel, and April RobinsonBezalel, and April Robinson
San Francisco Estuary InstituteSan Francisco Estuary Institute
RoyceLaTourrette
LaTourrette
Problem StatementProblem Statement
Mercury bioaccumulation problem in the Mercury bioaccumulation problem in the EstuaryEstuary
Tidal wetlands restoration on large scaleTidal wetlands restoration on large scale Restoration provides tremendous benefits Restoration provides tremendous benefits
for wildlifefor wildlife Concern that increased mercury in the Concern that increased mercury in the
food web a possible side effectfood web a possible side effect
Sentinel Species ApproachSentinel Species Approach
Direct measurement of Hg problemDirect measurement of Hg problem MethylmercuryMethylmercury Food web = wildlife, peopleFood web = wildlife, people
Integrate over appropriate spatial Integrate over appropriate spatial and temporal scalesand temporal scales
Link to water/sediment processesLink to water/sediment processes
Uses of Sentinel SpeciesUses of Sentinel Species
Identify areas where mercury Identify areas where mercury bioaccumulation is a problembioaccumulation is a problem HabitatsHabitats Areas slated for management actionsAreas slated for management actions
Track change in food web mercury Track change in food web mercury over timeover time
Each sentinel species is specific Each sentinel species is specific to one habitatto one habitat
Year-round residentsYear-round residents Small home rangeSmall home range Abundant Abundant Important role in food webImportant role in food web
Wren Wren (0.82 ug/g ww, n = 1)(0.82 ug/g ww, n = 1) ~ leopard ~ leopard shark median shark median (RMP 2003 data)(RMP 2003 data)
Mercury Varied by Mercury Varied by SpeciesSpecies
Blo
od H
g ug
/g w
w
0
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
Sparrow Swallow Wren Yellowthroat
Marsh Plain: aerial insect and spider food chain
Marsh Plain: more epibenthic food chain
(transient)
South Bay data
Higher Hg in North Bay Higher Hg in North Bay MarshesMarshes
Song Sparrow
Unpublished data provided by Darell Slotton
Combined Combined FMP and RMP FMP and RMP datadata
Highest Highest concentratioconcentrations in South ns in South Bay fishBay fish
MississiMississippi ppi
SilversidSilversidee
Data from Darell Slotton and Ben Greenfield
Higher Variability in Higher Variability in North BayNorth Bay
Song Sparrow
HH1: 1: Elevation leads to Elevation leads to MercuryMercury
Lower, newer, subsided marshes
Higher, older marshes, with more variable elevation
ElevationElevation Proxy forProxy for
Frequency of wetting/dryingFrequency of wetting/drying TideTide GroundwaterGroundwater
Amount of organic matter Amount of organic matter (peat)(peat)
Marsh ageMarsh age
Implications of Marsh Plain Implications of Marsh Plain ElevationElevation
Affects connectivity to slough/bay Affects connectivity to slough/bay food web(?)food web(?)
Slowly increases as restored marshes Slowly increases as restored marshes ageage Need long-term monitoringNeed long-term monitoring
Ele
vati
on o
f m
ars
h p
lain
Food w
eb co
nnectiv
ityFish HgBird Hg
HH2:2:
SummarySummary Sentinel species directly measure the Sentinel species directly measure the
mercury problem at appropriate scales of mercury problem at appropriate scales of space and timespace and time
Songbirds can be used to monitor Hg in Songbirds can be used to monitor Hg in nearly every tidal marsh across the Estuary nearly every tidal marsh across the Estuary within the same specieswithin the same species
Initial songbird Hg data suggest several Initial songbird Hg data suggest several hypotheses for future studyhypotheses for future study
Next StepsNext Steps Wider regional survey of sentinel Wider regional survey of sentinel
speciesspecies Test hypotheses by Test hypotheses by
Comparing different types of marshesComparing different types of marshes Monitoring restoration projectsMonitoring restoration projects Studying diets with stable isotopesStudying diets with stable isotopes
Riparian areas, coastal fog beltRiparian areas, coastal fog belt Consider Hg effects on passerinesConsider Hg effects on passerines
AcknowledgementsAcknowledgements
Thanks to the following funding Thanks to the following funding sources: Santa Clara Valley Water sources: Santa Clara Valley Water District, State Coastal District, State Coastal Commission, San Francisco Commission, San Francisco Foundation Bay Fund, Regional Foundation Bay Fund, Regional Monitoring Program for Trace Monitoring Program for Trace Substances, San Francisco Substances, San Francisco Estuary Institute.Estuary Institute.