MODEL Task Team NEMURO NEMURO.FISH Dynamic link Coupled with population dynamics model PEST Regional comparison E-NEMURO 3D-NEMURO ECOPATH/ECOSIM+NEMURO Ecological Modelling special volume Future perspectives Support by Heiwa-Nakajima, FRA, APN
MODEL Task Team Result of coupled lower trophic level - fish models (NEMURO.FISH) Shin-ichi Ito Bernard. A. Megrey Francisco E. Werner Michio J. Kishi NEMURO North Pacific Ecosystem Model for Understanding Regional Oceanography NEMURO.FISH NEMURO For Including Saury and Herring 18 cm 30 cm
Workshop 2000
Workshop 2002
Workshop 2003
PICES-APN Workshop 2004
NEMURO Courtesy of Dr. Yamanaka
Courtesy of Dr. Yamanaka NEMURO.FISH
Bioenergetics Model for herring and saury dw W dt = [ C ( R + S + F + E + P) ] CAL CAL z f change of weight C: consumption P: egg production E: excretion R: respiration (loses through metabolism) F: egestion S: specific dynamic action (digesting food)
Dynamic linkage between LTL & HTL dw W dt = [ C ( R + S + F + E + P) ] CAL CAL z f NH4 PON dn/dt = - (F+M) N Population dynamics model Decrease ZS, ZL, ZP
Effect of Dynamic Linkage and Predation Pressure Average weight (g wet weight) 250 200 150 100 50 (a) Uncoupled Reduction in large zooplankton 0 0 2 4 6 8 10 Age-0 Age-1 Age-2 Age-3 Age-4 Age-5 Age-6 Age-7 Age-8 Age-9 Age-10 Slower herring growth Average weight (g wet weight) 250 200 150 100 50 (b) Coupled 0 0 2 4 6 8 10 Year
PEST: a free software to make optimal parameter calibration Concentration (micro-moles N/Liter) 7.5 5.0 2.5 0.0 3.0 1.5 0.0 0.6 0.4 0.2 0.0 (a) Total Phytoplankton (c) Large Phytoplankton (e) Large Zooplankton 3.0 1.5 0.0 0.3 0.2 0.1 0.0 0.3 0.2 0.1 0.0 (b) Small Phytoplankton (d) Small Zooplankton Field data Ad-hoc PEST (f) Predatory Zooplankton 0.9 (g) Total Zooplankton 30 (h) Nitrate >200 microns (ZL+ZP) 0.6 0.3 0.0 1 2 3 4 5 6 Month 7 8 9 10 1112 20 10 0 1 2 3 4 5 6 Month 7 8 9 10 1112 Field data Ad-hoc calibration PEST PEST gives better fits to observed data. PEST is automated and independent to any models. It is easy to calibrate model parameter than adjoint method. PEST enables NEMURO to be applied any stations which has seasonal LTL data. Rose et al. (in prep.)
PEST to NEMURO.FISH Weight (g ww) Weight (g ww) Total Biomass (g ww/m 2 ) 6 4 2 0 12 14 16 18 20 22 24 26 Simulated Year 300 200 100 0 12 14 16 18 20 22 24 26 Simulated Year 300 200 100 Predicted Size-at-age Obs erved-s ize-at-age 0 0 20 40 60 80 100 120 140 Month 1 2 3 4 5 6 7 8 9 10 It is possible to apply PEST to NEMURO.FISH itself. Bern et al. (in prep.)
Regional comparison 3D-NEMURO LTL input to NEMURO.FISH Bering PWS WVCI Oregon Aita-Noguchi et al. (submitted)
14 Regional comparison 3D-NEMURO output (water temp.) Water Temperature ( o C) 12 10 8 6 4 2 0 Bering Sea Prince William Sound West Vancouver Island Oregon Coast 1950 1960 1970 1980 1990 2000 Year
0.4 0.3 0.2 0.1 0.0 Regional comparison 3D-NEMURO output (zooplankton) Bering Sea Concentration (g ww/m 3 ) Small zooplankton Large zooplankton Predatory zooplankton Prince William Sound West Vancouver Island Oregon Coast 1950 1960 1970 1980 1990 2000 Year
300 200 Regional comparison NEMURO.FISH output (wet weight of Herring) Age-5 Bering Sea Prince William Sound West Vancouver Island Oregon Coast Weight (g ww/individual) 100 0 400 300 200 100 0 Age-10 1950 1960 1970 1980 1990 2000 Year Bern et al. (in prep.)
Example of Field data Schweigert, Funk, Oda, and Moore. 2002. Herring size-at-age variation in the North Pacific. PICES Scientific Report 20, pp 47-57.
Life History of Pacific Saury with Oceanographic Features 45 40 Fishing ground in autumn Feeding ground in summer Oyashio Front Mixed water region Migration spawning ground in spring & autumn 35 Kuroshio Extension spawning ground in winter Migration 30 130 135 140 145 150 155 160 165 Fig.1 Schematic picture of life history of Pacific saury (Cololabis Saira). Spawning of the saury starts in September and continues until June, shifting the location between the mixed water region and Kuroshio region. The main spawning season is winter. The juveniles are advected to the Kuroshio extension region and migrate to the Oyashio region through the mixed region for feeding. After sufficient feeding they migrate back to the Kuroshio region for spawning. On the back migration, fishing ground is made around Japanese coastal zone. Ito et al. (2002)
3-box version Kuroshio Mixed Water region Oyashio Table 2. Life stages of Pacific saury in the saruy bioenergetics model Stage period model-day region larvae Feb.01-Feb.28 1-28 Kuroshio juvenile & young Mar.01-Jun.30 29-150 mixed region small Jul.01-Oct.31 151-273 Oyashio adult Nov.01-Dec.14 274-317 mixed region adult matured Dec.15-Feb.28 318-393 Kuroshio adult Mar.01-Jun.14 394-499 mixed region adult Jun.15-Oct.31 500-638 Oyashio adult Nov.01-Dec.14 639-682 mixed region adult matured Dec.15-Jan.31 683-730 Kuroshio Ito et al. (2004) 9 life stages
Simulated wet weight & observed growth (Kurita et al.) Terms of the bioenergetics equation black solid: consumption red solid: respiration blue solid: egestion black dotted: excretion red dotted: specific dynamic action green: egg production open circle: observed consumption by Kurita (2002) maximum consumption rate multiplied by temperature function (solid line) & water temperature (dotted line). Ito et al. (2004)
comparison: autumn, winter, spring spawned saury Pacific saury spawns from autumn to spring. growth rate of juvenile : winter > spring > autumn time span for becoming 30 cm adult saury: spring < winter < autumn Autumn & winter cohort spawn at first & second year. Spring cohort only spawns at second year. Similar to observation Mukai et al. (in prep.)
Extension to 3D Global NEMURO Extension to 3D Global NEMURO Primary production relative to Regime Shift Aita-Noguchi et al. (submitted)
Extension to 3D Global NEMURO Primary production & zooplankton response to Regime Shift Aita-Noguchi et al. (submitted)
Fish migration with 3D-NEMURO Saury track by Lagragian model Fig. 2 (a)swimming speed, current speed, temperature where the saury exists, (b), body length and body weight, (c) number of saury, (d) concentration of zooplankton of the point where the saury exists which is given from the results files calculated by 3-D NEMURO model. Courtesy of Dr. Yamanaka
enemuro From Subtropical to Subarctic
Future Perspective 1. Regional comparison PESTed NEMURO+NEMURO.FISH is useful apply NEMURO.FISH to other species sardine, anchovy, mackerel, squid,.. 2. Regime Shift PESTed NEMURO+ NEMURO.FISH 3D-eNEMURO + NEMURO.FISH 3. Global Change 3D-eNEMURO + NEMURO.FISH
History of MODEL Task Team NEMURO NEMURO.FISH Dynamic link Coupled with population dynamics model PEST Regional comparison E-NEMURO 3D-NEMURO ECOPATH/ECOSIM+NEMURO Ecological Modelling special volume Future perspectives
Funding & Support 1. Heiwa-Nakajima Foundation of Japan 2. Japan International Science and Technology Exchange Center 3. City of Nemuro Japan 4. Fisheries Research Agency (FRA) of Japan 5. Asia Pacific Network (APN) North Pacific Marine Science Organization (PICES) Collaboration of NEMURO&NEMURO.FISH member