supplementation using steelhead fry: performance, interactions with natural steelhead, & effect...
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![Page 1: Supplementation using steelhead fry: performance, interactions with natural steelhead, & effect of enriched hatchery environments Christopher P. Tatara](https://reader036.vdocument.in/reader036/viewer/2022062805/5697bfb51a28abf838c9d6f3/html5/thumbnails/1.jpg)
Supplementation using steelhead fry: performance, interactions with
natural steelhead, & effect of enriched hatchery environments
Christopher P. Tatara NOAA Fisheries, Northwest Fisheries Science Center
Stephen C. Riley USGS, Great Lakes Science Center
Julie A. ScheurerNOAA Fisheries, Sustainable Fisheries Division
Barry A. BerejikianNOAA Fisheries, Northwest Fisheries Science Center
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Overview
Current status of steelhead under ESA
Role of hatcheries in steelhead management
2 potential pre-release techniques for steelhead conservation hatcheriesEnvironmental
enrichmentStocking fry
Field evaluation of these two conservation hatchery techniques
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ESA Status of SteelheadDPS ESA Status
1 Puget Sound Threatened
2 Olympic Peninsula Not Warranted
3 Southwest Washington Not Warranted
4 Lower Columbia River Threatened
5 Upper Willamette River Threatened
6 Oregon Coast Species of Concern
7 Klamath Mountain Province
Not Warranted
8 Northern California Threatened
9 Central California Coast Threatened
10 South Central CA Coast Threatened
11 Southern California Endangered
12 Central Valley Threatened
13 Middle Columbia River Threatened
14 Upper Columbia River Endangered
15 Snake River Basin Threatened
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Hatcheries in steelhead management
• Historic and current - Stock Enhancement– Provide fish for harvest and recreational
angling
• More recent – Restocking and Conservation– Restore spawning biomass/population to
sustainable/stable level
• Controversy over the use of hatchery fish for rebuilding imperiled natural populations– Changes to minimize genetic and
environmental influences of hatcheries
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Photo: NWPCC
Photo: DIPAC
Conservation hatchery techniques
190 mm 90 mm
Conventional Hatchery Enrichment Stream
Smolt release – 1 year Fry release – 4-5 months
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Rearing Environments
Enriched
Photo: Scotty Corp.Photo: USFWS
Photo: USFWS
Natural
Conventional
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Upstream
Downstream
11 Creek
12 Creek
Upstream
Downstream
E + N
E + N
E + N
E + N
E + N
E + NC + N
C + N
C + N
C + N
C + N
C + N
Stocked: 31 July 2003
Final sampling: 16-17 September 2003
Observed: 5 occasions between6 August and 11 Sept 2003
Evaluating conservation hatchery techniques: Experimental Design
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Evaluating conservation hatchery techniques: Responses and
HypothesesUpstream
Downstream
11 Creek
12 Creek
Upstream
Downstream
E + N
E + N
E + N
E + N
E + N
E + NC + N
C + N
C + N
C + N
C + N
C + N
Response Variables:Behavior, Territory size,
Habitat use, Spatial distribution,Growth, and Survival
H1: How do conventional and
enriched hatchery frycompare to natural fry?
C = E = NH2: Are natural fry differentially
affected by type of hatchery fry stocked?
NCON = NENR
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Results: Foraging and aggressive behavior – natural
fry
Observation week
0 1 2 3 4 5
Agg
ress
ion
rate
((t
hrea
ts +
atta
cks)
· fis
h -1
· m
in -
1 )
0.0
0.2
0.4
0.6
0.8
1.0
1.2
1.4
Hatchery type x Week interaction (F3,79 = 3.97, p = 0.011)
Observation week
0 1 2 3 4 5
Fora
ging
rate
(fee
ding
stri
kes
* min
-1)
0.8
1.0
1.2
1.4
1.6
1.8
2.0
2.2
2.4
2.6
2.8
3.0
Hatchery type (F1,79 = 5.01, p = 0.028)Week (F3,79 = 4.34, p = 0.007)
natural fry with conventional hatchery frynatural fry with enriched hatchery fry
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Results: Territory size
• H1: C = E = N– (F2,135 = 0.043, p = 0.653)
• H2: NCON= NENR
– (F1,45 = 0.45, p = 0.504)
• Additional analyses– Fork length (F1,
132 = 9.40, p = 0.003)
– Spatial use (T-value = 4.37, p < 0.001)
• C = E = N (F2,133 = 0.66, p = 0.520)
– Local density (p = 0.129)
Log10 length (cm)
0.68 0.70 0.72 0.74 0.76 0.78 0.80 0.82 0.84 0.86 0.88 0.90
Lo
g 10
terr
itory
siz
e (
m2 )
-2.0
-1.8
-1.6
-1.4
-1.2
-1.0
-0.8
-0.6
-0.4
-0.2
0.0
Enriched Hatchery FryConventional Hatchery FryNatural FryRegression Relationship This StudyRegression Relationship Grant & Kramer (1990)
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Results: habitat use
Eleven Creek Twelve Creek
Poo
l Use
Ind
ex
0
1
2
3
4
Natural fry Conventional hatchery fry Enriched hatchery fry
a a a
bc
d
ac
Eleven Creek Twelve Creek
Poo
l Use
Ind
ex
0.0
0.5
1.0
1.5
2.0
2.5
3.0
3.5
Natural with Conventional Natural with Enriched
a
a
b
a
Pool Use Index = (# frypool/# fryencl)/(Areapool/Areaencl)
Stream x type interactionF2,74 = 11.68, p<0.001
Stream x hatchery type stocked interactionF1,36 = 14.40, p = 0.001
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Results: spatial distribution
Eleven Creek Twelve Creek
Sta
ndar
dize
d M
oris
ita in
dex
of d
ispe
rsio
n
0.0
0.2
0.4
0.6
0.8
1.0 Natural fryConventional hatchery fryEnriched hatchery fry
ad
cd
b
ad
bbc
A
Eleven Creek Twelve Creek
Sta
ndar
dize
d M
oris
ita in
dex
of d
ispe
rsio
n0.0
0.2
0.4
0.6 Natural with Conventional Natural with Enriched
a
a
a
a
B
Standardized Morisita Index• = 0 indicates randomness• > 0 indicates clumping (+)• < 0 indicates uniformity (-)
Hatchery type, F1,33 = 3.51, p = 0.07Stream x fish type, F2,76 = 6.42, p = 0.04
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Results: Growth
Natural w/ C
onventional
Natural w/ E
nriched0.000
0.002
0.004
0.006
0.008
0.010
0.012
Eleven Creek
Twelve Creek
Inst
anta
neou
s gr
owth
rat
e (ln
gra
ms/
day)
0.000
0.002
0.004
0.006
0.008
0.010
0.012
0.014Natural fry Conventional fry Enriched fry
a
b
a
a
(ANOVA, F1,18 = 7.23, p = 0.02)
n=6 for natural n=3 for hatchery
Mann-Whitney, n=6
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Natural Conventional Enriched
Sur
viva
l (pe
rcen
t)
0
20
40
60
80
100
Natural + Conventional Natural + Enriched0
20
40
60
80
100
Natur
al re
mov
al
Natur
al sn
orke
l
Hatch
ery r
emov
al
Hatch
ery s
nork
el0
20
40
60
80
100a a
a
b
a
b
b
b
a
Results: Survival after 6 weeks
(ANOVA, F2,18 = 27.57, p < 0.001)n=12 for natural n=6 for hatchery Paired t-test, n=16Mann-Whitney, n=6
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Results: Estimated survival over the course of the experiment
Sampling occasion
8/4/03 8/11/03 8/18/03 8/25/03 9/1/03 9/8/03 9/15/03
Est
imat
ed
sur
viva
l (pr
opo
rtio
n)
0.0
0.2
0.4
0.6
0.8
1.0
1.2
mean hatchery fry survivalmean natural fry survival
Removal
Stocking
Sheirer-Ray-Hare,F1,95 = 45.2, p < 0.001
Pro
port
ion o
f in
itia
l popula
tion
obse
rved
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0
0.2
0.4
0.6
0.8
1
1.2
1.4
CO
N1
CO
N2
CO
N3
CO
N4
CO
N5
CO
N6
EN
R1
EN
R2
EN
R3
EN
R4
EN
R5
EN
R6
Enclosure
Densi
ty
(fry
/sq
. m
ete
r)
HATCHERYNATURAL
0
0.2
0.4
0.6
0.8
1
1.2
1.4
CO
N1
CO
N2
CO
N3
CO
N4
CO
N5
CO
N6
EN
R1
EN
R2
EN
R3
EN
R4
EN
R5
EN
R6
Enclosure
Densi
ty
(fry
/sq
. m
ete
r)
HATCHERYNATURAL
Effectiveness of steelhead fry supplementation
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Supporting research evaluating effectiveness of fry stocking
• Hatchery program established 2002– Featured fry stocking (after complete yolk absorbance)– Extensive genetic monitoring & adult & outmigrant traps
• Used genetic monitoring to compare # age-2 smolts produced by female steelhead– Spawning naturally in the river– Spawned artificially in hatchery with their offspring
released as fryYearClass
Comparison
Relative smolt
production
2002 H2:NS 6.2**
2003 H1:NS 2.1**
2003 H2:NS 1.3*
Carrofino et al. 2008. Can J Fish Aquat Sci : 65: 309-318
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Conclusions
• Fry from conventional and enriched hatchery environments develop natural social behaviors shortly after release
• Individual hatchery fry establish and use territories like natural fry
• Hatchery fry use pools like natural fry, but have a more clumped spatial distribution
• Stocking enriched hatchery fry altered the foraging and aggressive behavior of natural fry– No effect on growth or survival of natural fry
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Conclusions• Conventional and enriched hatchery fry grow as well
as natural fry• Natural fry have higher survival than hatchery fry
– most mortality of hatchery fry occurred within 2 weeks of stocking
• Growth and survival of natural fry was similar when stocked with conventional or enriched hatchery fry
• Supplementation with hatchery fry increased steelhead populations over the short-term (density increase of 2.9X) – no differences using conventional or enriched fry– Fry supplementation increases relative production of age-2 smolts
• Longer studies of fry supplementation are needed to fully evaluate effectiveness
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Acknowledgements
• Rob Endicott • Jeff Atkins• Skip Tezak • Eric Kummerow • Rudy Wynn• Brandon Nickerson• Weyerhaeuser Corporation • WDFW, Bingham Creek Hatchery