Scenario analysis for understanding the future of dietary seafood intake: integration of ecological and nutritional

modelling approaches

Jessica A. Gephart

Postdoctoral Fellow, The National Socio-Environmental Synthesis Center

Christopher D. Golden

Research Scientist, Harvard T.H. Chan School of Public Health

Bapu Vaitla

Postdoctoral fellow, Harvard T.H. Chan School of Public Health

Global Workshop on Nutrition-sensitive Fish Agri-food Systems,

Siem Reap, Cambodia December 8, 2017

The THETIS project

• Ecosystem transformation economic effects on producers and

consumers human nutrition and health

• Motivation: declining fish catch

• Producing national and global models to evaluate scenarios of large scale

pressures on fish for nutrition

• Goal to provide evidence and prompt discussion around scenarios for

policymaking and advocacy

• Collaboration of universities, NGOs, and policymakers

<50% -51 – -30% -31 – 10% -10 – 6% -5 - -1% 0 – 4% 5 – 19% 20 – 49% 50 – 100% >100%

Cheung et al. (2014)

Climate change and fisheries

Change in maximum catch potential 2041–2060 relative to 1981 – 2000

Fish declines and nutrition dependence

Golden et al. (2016), Nature

1. Useful for dealing with uncertainty

2. Presents range of possible futures

3. Prompts dialogue about desirable futures

4. Useful for charting courses

Why study scenarios?

Percent change relative to 1981 – 2000

Catch-climate change projection

(Cheung et al., 2014)

Percent change relative to 1981 – 2000

Catch-climate change projection

Country economic models

Partial equilibrium model

based on AsiaFish model

Global economic model

Trade and diet

substitution scenarios

(Cheung et al., 2014)

Percent change relative to 1981 – 2000

Catch-climate change projection

Country economic models

Partial equilibrium model

based on AsiaFish model

Global economic model

Nutrition impacts

GENuS Database:

See Smith et al. (2016) PlosOne(Cheung et al., 2014)

Trade and diet

substitution scenarios

Country Example: Bangladesh

0

100,000

200,000

300,000

400,000

500,000

600,000

201

0

201

2

201

4

201

6

201

8

202

0

202

2

202

4

202

6

202

8

203

0

203

2

203

4

203

6

203

8

204

0

204

2

204

4

204

6

204

8

205

0

Pro

ject

ed c

atc

h, a

ll m

od

eled

sp

ecie

s,

RC

P 8

.5

Subsistence

Artisanal

Industrial

Projected total catch by fishing sector

0

50000

100000

150000

200000

250000

300000

350000

400000

2010 2012 2014 2016 2018 2020 2022 2024 2026 2028 2030 2032 2034 2036 2038 2040 2042 2044 2046 2048 2050

Pro

ject

ed

ca

tch

, by

ta

xo

n, a

rtis

an

al

sect

or,

RC

P 8

.5

Others

Hilsa shad

Silver pomfret

FourfingerthreadfinBombay duck

Indo-Pacific kingmackerelIndian mackerel

Acetes shrimps

Thryssas

Threadfins

Drums, croakers

Sea catfishes,coblers

Projected artisanal catch by taxon

-2 -1 0 1 2 3 4 5 6

BH3

BH4

BH5

BH6

BH7

BH8

BH9

BH10

BH11

BH12

BH13

BH14

BH15

BH16

BH17

BH18

ANNUAL CHANGE (%) IN TOTAL FISH CONSUMPTION

Urban

Rural

Changes in urban & rural consumption

Scenario combinations of:

• Climate scenario

• Aquaculture growth rate

• Economic growth rate

• Inland capture trend

• Aquaculture demand

Rural iron-deficient population Urban iron-deficient population

Changes in nutrition

Rural zinc-deficient population Urban zinc-deficient population

Changes in nutrition

Percent change relative to 1981 – 2000

Catch-climate change projection

Country economic models

Partial equilibrium model

based on AsiaFish model

Global economic model

Nutrition impacts

GENuS Database:

See Smith et al. (2016) PlosOne(Cheung et al., 2014)

Trade and diet

substitution scenarios

Global scenarios

National catch

decline

Global distribution

Tra

de o

pen

ness

Nutritional Need-based GDP

Pro

tect

ion

ism Countries meet own needs

and remaining seafood

distributed through trade

based on need

Countries meet own needs

and remaining seafood

distributed through trade

based on GDP

Fre

e All seafood is distributed

through trade based on need

All seafood is distributed

through trade based on

GDP

Trade

• How much is replaced?

• Composition of

substitutes (including

farmed fish)Substitution

in diets

Global scenarios

National catch

decline

Global distribution

Tra

de o

pen

ness

Nutritional Need-based GDP

Pro

tect

ion

ism Countries meet own needs

and remaining seafood

distributed through trade

based on need

Countries meet own needs

and remaining seafood

distributed through trade

based on GDP

Fre

e All seafood is distributed

through trade based on need

All seafood is distributed

through trade based on

GDP

Trade

• How much is replaced?

• Composition of

substitutes (including

farmed fish)Substitution

in diets

Nutrition

outcomes

Interactive Management Tool

Tool built by Andrea Julca, UMD

Interactive Management Tool

Tool built by Andrea Julca, UMD

Summary

Scenario analysis:

1. Useful for dealing with uncertainty

2. Presents range of possible futures

3. Prompts dialogue about desirable

futures

4. Useful for charting courses