for puntarenas developing a new fishing production model
Mar 08, 2016
for puntarenasdeveloping a new fishing production model
developing under a constant state of contradictionfor puntarenas
index
INTRODUCTION
RESEARCH
SITE ANALYSIS
A. Macro B. Micro
PROJECT
1
2
3
4
for puntarenas
golfo de nicoyaTAREPUNNAS
costa rica
puntarenas
territorial extension 7.8 km
0.6 km 105 000 + inhabitants FISHING
TOURISM
a settlement with shifting natural borders...
...or a rigid settlement with artificial borders?
Is there a programmatic function which has altered Puntarenas further than the geomorphological circumstances that formed it?
NORTH COAST
30%of income is produced by
the fishing industry
NORTH COASTSOUTH COAST
10%accounts for only
30%of income is produced by the fishing industry
“I don’t understand why people think that tourism sustains Puntarenas, the fishing industry does.”
10%tourism accounts for only
“I don’t understand why people think that tourism sustains Puntarenas, the fishing industry does.”
executive INCOPESCA
INTRODUCTION
Puntarenas embodies a different type of industrial activ-ity, one which consists of multiple smaller scale industrial sites, all lined up to form an industrial shore of scat-tered scenarios of the Puntarenas north coast. Even though small scale, their impact on the materiality of the coastline is imminent, causing a solidification of an oth-erwise maleable and ductile geomorphological behavior.
This type of programmatic solidifcation has had a greater impact on the ecologies which inter-act with the urban development of Puntarenas. So strong is this solidified development that the bor-der breaks with the urban process of Puntarenas.
INTRODUCTION
Most of Costa Rica’s fishing income is obtained from the gulf of Nicoya’s fishing industry.
67%of the fishing produce is delivered and pro-
cessed in Puntarenas’ northern industrial
coastline
boats of a fleet of 60 are being used today
2020
1boat could suffice the
current production
20kg of shrimp are
brought by each boat
ISLA CHIRA
PUNTARENAS
TEMPISQUE RIVER DELTA
TAMBOR
INDUSTRIAL IMPACT ZONE
PRIMARY FERRY ROUTE
BOAT FISHING ROUTE
INDUSTRIAL FISHING ROUTE
HIGH TRANSIT ZONE 28 km
6Hrs. of programmatic activity
2Hrs. programmatic activity
8Hrs. of programmatic activity
FERRY CONECTION 18 km
BOAT FISHING SEMI-BOAT FISHING SEMI-INDUSTRIAL INDUSTRIAL
ISLA CHIRA
PUNTARENAS
TEMPISQUE RIVER DELTA
TAMBOR
ZONA DE ALTA DEPENDENCIA
aprox. 50km2
CONECTIVIDAD INDUSTRIAL+ZONAS PRODUCTIVAS
PESCA ARTESANAL SEMI-ARTESANAL SEMI-INDUSTRIAL INDUSTRIAL
ZONA DE EXPLOTA-CION CERCA DE LA COSTA
aprox. 8km2
There is just one location in the gulf which meets the needs for Puntarenas’ fishing model, creating a monode-pendent system which creates a sum of over exploitation and ecologi-cal degradation.
ISLA CHIRA
PUNTARENAS
TEMPISQUE RIVER DELTA
TAMBOR
40% ECOLOGIC DECAY
8%
20%2%
10%
60%
THE MAINDEPENDENCYZONES MEETS THE MAYOR ECOLOGIC DECAY ZONE
BOAT FISHING SEMI-BOAT FISHING SEMI-INDUSTRIAL INDUSTRIAL
52% PERMANENCIAEN LA ZONA CON
MAYOR PRODUCTIVIDAD
Is the industrial model in Puntarenas working or is it becoming obsolete?
Is the industrial model in Puntarenas working or is it becoming obsolete?
FISHINGproduction
25%35% 40%
1.8 km
3.7km
1.5 km 2.2 km
ECOLOGICAL DEGRADATIONLOW PRODUCTIVITYLOW TIME USENON RESPONSIVE COASTLINE
actual conditions puntarenas
The industrial model is definitely
becoming obsolete
What will embody the new industrial model
for Puntarenas?
TRADITIONAL BOAT FISHING SYSTEM
MODEL
Current situation
GAS
ICE
PRODUCT ECONOMICAL EXCHANGE
Inner Nicoya Golf
Prohibition period(Complete fishing banned)
Uncertain product extraction
Time spent on open sea fishing
Uncertain production exchange
Resaler stablishes the conditions of the trade
It is more profitable to sell the gas than to go under this fishing process.
8 HRS
FISHINGINDUSTRY
INDUSTRY
MODEL
FISH
FARMING
NEW FISH FARMING SYSTEMMODEL
NURSING
Algae natural cleaning process
Training and genetics
FISH INDUSTRY MODELS
FISHINGINDUSTRY
INDUSTRY
FISH
FARMING
Ene Feb Mar Abr May Jun Jul Ago Set Oct Nov Dec
Intensive fish farming
Time frame productivity 23% less time
High Productivity in Small Territorial Extensions
Ene Feb Mar Abr May Jun Jul Ago Set Oct Nov Dec
Extensive fish farming
Time frame productivity
High Productivity in Large Territorial Extensions
Intensive fish farming
HARVESTING TIME PERIODS
time productivity frame
Specie Time
Lobster
Pargo
Shrimp
Oyster
AAB1
AAB2
AAC
JanF eb MarA pr MayJ un JulA ug SepO ct NovD ec
Oyster
Shrimp
Shrimp
Lobster
JanF eb MarA pr MayJ un JulA ug SepO ct NovD ecShrimp
Shrimp
Pargo
JanF eb MarA pr MayJ un JulA ug SepO ct NovD ecShrimp
Shrimp
HARVESTING TIME PERIODS
AB1B1
AB1B2
AB1C
JanF eb MarA pr MayJ un JulA ug SepO ct NovD ec
Oyster
Shrimp
Lobster
Lobster
Lobster
Lobster
JanF eb MarA pr MayJ un JulA ug SepO ct NovD ecShrimp
Pargo
JanF eb MarA pr MayJ un JulA ug SepO ct NovD ecShrimp
COMBINATIONS
time productivity frame for different possible combinations of species.
00 mts
02 mts
01 mts
access
slope 2:1
harvesting pond
r=17
00 mts
02 mts
1mts
18 mts
01 mts
access
2.2 mts
1 mts
slope 2:1
1mts
1 mts
15 mts 1 mts
1 mts
harvesting pond
r=18
r=14
r=15
r=9
r=10
1
3 2
1. STAGE ONE Nursing
2.STAGE TWOGrowth
3.STAGE THREEHarvest
Generic pond floor plan and section
00 mts
02 mts
01 mts
access
slope 2:1
harvesting pond
r=17
00 mts
02 mts
1mts
18 mts
01 mts
access
2.2 mts
1 mts
slope 2:1
1mts
1 mts
15 mts 1 mts
1 mts
harvesting pond
r=18
r=14
r=15
r=9
r=10
3 2
00 mts
02 mts
01 mts
access
slope 2:1
harvesting pond
r=17
00 mts
02 mts
1mts
18 mts
01 mts
access
2.2 mts
1 mts
slope 2:1
1mts
1 mts
15 mts 1 mts
1 mts
harvesting pond
r=18
r=14
r=15
r=9
r=10
Geometric pond study
18 15 11 11 9 8 8 7 6
eff icient pondarea
00 mts
04 mts
06 mts
08 mts
10 mts
12 mts
12 mts
10 mts
08 mts
06 mts
04 mts
00 mts
ineff icient pondarea
pond area
17 14 12 12 9 9 9 9
00 mts
04 mts
06 mts
08 mts
10 mts
12 mts
12 mts
10 mts
08 mts
06 mts
04 mts
00 mts
ineff icient pondarea
00 mts
04 mts
06 mts
08 mts
10 mts
12 mts
10 mts
08 mts
06 mts
04 mts
00 mts
ineff icient pondarea
minimumproduction area
of 250 sqm
eff icient pondarea
pond areaminimum
production areaof 250 sqm
eff icient pondarea
pond areaminimum
production areaof 250 sqm
eff icient pondthreshold
eff icient pondthreshold
eff icient pondthreshold
21 15 13 11 11 9 9 9
eff icient pondarea
16.9 14.3 12.2 12.5
ineff icient pondarea
ineff icient pondarea
pond areaminimum
production areaof 250 sqm
eff icient pondarea
pond areaminimum
production areaof 250 sqm
eff icient pondthreshold
eff icient pondthreshold
21 15 13
variation 1
V1 V2 V3 V4
18 15 11 11 9
pond areaminimum
production areaof 250 sqm
eff icient pondarea
eff icient pondthreshold
50 kg per250 sqm
pathcircumference
ineff icient pondarea
pathcircumference
variation 1
V1 V2 V3 V4 V5
00 mts
04 mts
06 mts
08 mts
10 mts
12 mts
12 mts
10 mts
08 mts
06 mts
04 mts
00 mts
50 kg per250 sqm
00 mts
04 mts
06 mts
08 mts
10 mts
12 mts
12 mts
10 mts
08 mts
06 mts
04 mts
00 mts
50 kg per250 sqm
00 mts
04 mts
06 mts
08 mts
10 mts
12 mts
12 mts
10 mts
08 mts
06 mts
04 mts
00 mts
ineff icient pondarea
pathcircumference
variation 1
V1 V2 V3
V1-550 kg per250 sqm
00 mts
04 mts
06 mts
06 mts
04 mts
00 mts
00 m
ts
09 m
ts
09 m
ts
V1-450 kg per250 sqm
00 mts
06 mts04 mts02 mts
08 mts
00 mts
06 mts04 mts02 mts
08 mts
00 m
ts
09 m
ts
09 m
ts
06 m
ts
06 m
ts
V1-350 kg per250 sqm
10 mts08 mts
00 mts
04 mts
02 mts
04 mts
12 mts
00 m
ts
09 m
ts
09 m
ts
06 m
ts
06 m
ts
efficient pondarea
16.9 14.3 12.2 12.5
pond area
minimumproduction area
of 250 sqm
efficient pondthreshold
variation 1
V1 V2 V3 V4 50 kg per250 sqm
00 mts
04 mts
06 mts
08 mts
10 mts
12 mts
12 mts
10 mts
08 mts
06 mts
04 mts
00 mts
120°100°
82°76°
efficient angleopening from 140°
to 76 °140°
138°130°120°
Hexagon sideranges from
10-15m
9.8 9.3 9.2 10.06
15.6
-1-
-2-
-3-
-1- Circulation parameters�Length ranges 15.6m to 9.8m �
-2- Efficiency�Angle ranges 140° to 76° �
Area: 193 sq m Area: 195 sq m Area: 190 sq m Area: 227 sq m
-3- Scale variation�Manages areas from 100 sq m to 500 sq m �
00000
000000000
-1- Circulation parame-ters length ranges from 15.6 mts to 9.8 mts
-2- Efficiency angle ranges from 140 to 76
-3- Scale variation man-ages areas from 100 sqm to 500 sqm
o o
16.92
8.46 8.46
16.92
8.46 8.46
19.6
9.8
9.8
4.9
4.9
4.9
4.9
16.92
8.46 8.46
16.92
8.46 8.46
00010203
0102030201000102030201000102
00010203
0102030201000102030201000102
14
7 7
00010203
0102030201000102030201000102
24
1212
66
66
14
7 7 7Geometric threshold
capacity
xx
AA
BB
CC
Pond and Speciescombinations
A-AA-B1A-B2A-C
B1-B1B1-B2B1-C
B2-B2B2-C
C-C
AA
B1B1
B2B2
CC
Specie ProductivityC ost per kg Income Combinations
0.025 Ha Multipurpose
0.050 Ha Shrimp
0.075 Ha0.075 Ha
Lobster
0.100 Ha Pargo
100 kg per harvest
150 kg per harvest
200 kg per harvest
9500 CRC
35 000 CRCOyster 150 kg per harvest 9000 CRC
6715 CRC
257 000 CRC
1 750 000 CRC225 000 CRC
350 000 CRC
Area
AA AB1 AB2 AC
B1B1 B1B2 B1CB2B2 B2C
CC
xAB
C
capacityProduction
Specie ProductivityC ost per kg IncomeArea
0.050 Ha Shrimp 100 kg per harvest 9500 CRC 257 000 CRC
0.050 Ha Shrimp 100 kg per harvest 9500 CRC 257 000 CRC
0.100 Ha 200 kg per harvest 19 000 CRC 514 000 CRC
0.075 Ha Lobster 150 kg per harvest 35 000 CRC1 750 000 CRC
0.050 Ha Shrimp 100 kg per harvest 9500 CRC 257 000 CRC
0.015 Ha 250 kg per harvest 44 500 CRC2 007 000 CRC
0.075 Ha Oyster 150 kg per harvest 9000 CRC2 25 000 CRC
0.050 Ha Shrimp 100 kg per harvest 9500 CRC 257 000 CRC
0.125 Ha 250 kg per harvest 18 500 CRC 482 000 CRC
0.100 Ha Pargo2 00 kg per harvest 6715 CRC 350 000 CRC
0.050 Ha Shrimp 100 kg per harvest 9500 CRC 257 000 CRC
0.150 Ha 300 kg per harvest 16 215 CRC 607 000 CRC
A A
A B1
A B2
AC
AA
AB1
AB2
AC
type type A combinations
Specie ProductivityC ost per kg IncomeArea
0.075 Ha Lobster 150 kg per harvest 9000 CRC1 750 000 CRC
0.075 Ha Lobster 150 kg per harvest 9000 CRC1 750 000 CRC
0.075 Ha Lobster 150 kg per harvest 9000 CRC1 750 000 CRC
0.15 Ha 300 kg per harvest 18 000 CRC3 500 000 CRC
0.15 Ha 250 kg per harvest 44 500 CRC 482 000 CRC
0.100 Ha Pargo 200 kg per harvest 6715 CRC 350 000 CRC
0.050 Ha Shrimp 100 kg per harvest 9500 CRC 257 000 CRC
0.150 Ha 300 kg per harvest 16 215 CRC 607 000 CRC
B1B1
B2
B2
B1
B1 C
B1B1
B1B2
B1C
B2B2B2
0.075 Ha Oyster 150 kg per harvest 35 000 CRC 225 000 CRC
0.075 Ha Oyster 150 kg per harvest 35 000 CRC 225 000 CRC
0.075 Ha Oyster 150 kg per harvest 35 000 CRC 225 000 CRC
0.15 Ha 300 kg per harvest 70 000 CRC 450 000 CRC
type B1
combinations
0.100 Ha Pargo 200 kg per harvest 6715 CRC 350 000 CRC
0.100 Ha Pargo 200 kg per harvest 6715 CRC 350 000 CRC
0.200 Ha 400 kg per harvest 13 430 CRC 700 000 CRC
C
Specie ProductivityC ost per kg IncomeArea
B2B2C
0.075 Ha Oyster 150 kg per harvest 35 000 CRC 225 000 CRC
0.075 Ha Oyster 150 kg per harvest 35 000 CRC 225 000 CRC
0.15 Ha 300 kg per harvest 70 000 CRC 450 000 CRC
CCB2C
B
C
2type combinations
Deformation 1
Walkway Type BWalkway Type A Walkway Type C
Deformation 2
Deformation 3
5m width
5m width
5m width
3m width
3m width
3m width
2.25m width
2.25m width
2.25m widthWalkway Type A
Walkway Type C
Walkway Type BWalkway Type A
Walkway Type CWalkway Type B
Walkway Type C
Walkway Type BWalkway Type A
Generic Geometric
Walkways
90m 50m
VOIDS AS PLUG-IN WHICH ARE USED TO ADAPT THE NEW FISHING SYSTEM
NEW COAST LINEPROPOSAL TO CREATETHE BEST ORGANIC SHAPETO GENERATE A BUFFERZONE
Intervention Zonesite delimitation
urban voidssea currents
vp_A vp_B vp_C vp_D vp_E vp_F vp_G vp_H vp_I vp_J
vp_K vp_L vp_N vp_Pvp_O vp_Q vp_R
vp_M
PublicIndustrialAccesability 100m 195m 15m 100m 250m 65m 30m 125m 125m 100m 75 m 100m 35m 90m 50m 30m 50m85m
vp_Cvp_D vp_E vp_F vp_G vp_H
vp_I vp_Jvp_k XXX vp_l vp_N vp_O vp_P vp_Q vp_R
vp_Avp_B
Fishing IndustryCommerceHousingResidual ProgramUnexisting Block
vp_A vp_B vp_C vp_D vp_E vp_F vp_G vp_H vp_I vp_J
vp_K vp_L vp_N vp_Pvp_O vp_Q vp_R
vp_M
PublicIndustrialAccesability 100m 195m 15m 100m 250m 65m 30m 125m 125m 100m 75 m 100m 35m 90m 50m 30m 50m85m
vp_Cvp_D vp_E vp_F vp_G vp_H
vp_I vp_Jvp_k XXX vp_l vp_N vp_O vp_P vp_Q vp_R
vp_Avp_B
Fishing IndustryCommerceHousingResidual ProgramUnexisting Block
Urban Characterprogrammatic function
urban accesibilitysite delimitation
vp_A vp_B vp_C vp_D vp_E vp_F vp_G vp_H vp_I vp_J
vp_K vp_L vp_N vp_Pvp_O vp_Q vp_R
vp_M
PublicIndustrialAccesability 100m 195m 15m 100m 250m 65m 30m 125m 125m 100m 75 m 100m 35m 90m 50m 30m 50m85m
vp_C vp_D vp_E vp_F vp_G vp_H vp_I vp_J vp_k XXX vp_l vp_N vp_O vp_P vp_Q vp_Rvp_A vp_B
Fishing IndustryCommerceHousingResidual ProgramUnexisting Block
-75
-100
-50
-25
0
25
50
75
100
THE PROYECTUAL EXTENSION ISBASED ON THE PROGRAMATICRELATIONS BETWEEN THE COASTIMPACT AND IT’S REACTION
vp_A vp_B vp_C vp_D vp_E vp_F vp_G vp_H vp_I vp_J
vp_K vp_L vp_N vp_Pvp_O vp_Q vp_R
vp_M
PublicIndustrialAccesability 100m 195m 15m 100m 250m 65m 30m 125m 125m 100m 75 m 100m 35m 90m 50m 30m 50m85m
vp_C vp_D vp_E vp_F vp_G vp_H vp_I vp_J vp_k XXX vp_l vp_N vp_O vp_P vp_Q vp_Rvp_A vp_B
Fishing IndustryCommerceHousingResidual ProgramUnexisting Block
-75
-100
-50
-25
0
25
50
75
100
THE PROYECTUAL EXTENSION ISBASED ON THE PROGRAMATICRELATIONS BETWEEN THE COASTIMPACT AND IT’S REACTION
Site Delimitationsite delimitation
urban voidssea currents
vp_A vp_B vp_C vp_D vp_E vp_F vp_G vp_H vp_I vp_J
vp_K vp_L vp_N vp_Pvp_O vp_Q vp_R
vp_M
PublicIndustrialAccesability 100m 195m 15m 100m 250m 65m 30m 125m 125m 100m 75 m 100m 35m 90m 50m 30m 50m85m
vp_C vp_D vp_E vp_F vp_G vp_H vp_I vp_J vp_k XXX vp_l vp_N vp_O vp_P vp_Q vp_Rvp_A vp_B
Fishing IndustryCommerceHousingResidual ProgramUnexisting Block
-75
-100
-50
-25
0
25
50
75
100
THE PROYECTUAL EXTENSION ISBASED ON THE PROGRAMATICRELATIONS BETWEEN THE COASTIMPACT AND IT’S REACTION
vp_A vp_B vp_C vp_D vp_E vp_F vp_G vp_H vp_I vp_J
vp_K vp_L vp_N vp_Pvp_O vp_Q vp_R
vp_M
PublicIndustrialAccesability 100m 195m 15m 100m 250m 65m 30m 125m 125m 100m 75 m 100m 35m 90m 50m 30m 50m85m
vp_C vp_D vp_E vp_F vp_G vp_H vp_I vp_J vp_k XXX vp_l vp_N vp_O vp_P vp_Q vp_Rvp_A vp_B
Fishing IndustryCommerceHousingResidual ProgramUnexisting Block
-75
-100
-50
-25
0
25
50
75
100
THE PROYECTUAL EXTENSION ISBASED ON THE PROGRAMATICRELATIONS BETWEEN THE COASTIMPACT AND IT’S REACTION
Site Delimitationcoast impact
project extension
vp_A
vp_B vp_C vp_D vp_E vp_F vp_G vp_H vp_I vp_J
vp_K vp_L vp_N vp_Pvp_O vp_Q vp_R
vp_M
PublicIndustrialAccesability 100m 195m 15m 100m 250m 65m 30m 125m 125m 100m 75 m 100m 35m 90m 50m85m
-75
-100
-50
-25
0
25
50
75
100
THE LINKS BETWEEN VOIDSBASED ON THEIR SIMILARITIESEACH VOID HAS IT’S OWN LINKTO THE NEXT VOID TYPOLOGYTHIS LINKS WOULD HELP TO PLUG INTO THE COAST
t y p e A t y p e A t y p e Bl y n kT W O
l y n kT R E E
l y n kO N E
l y n kF O U R
zzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzzz
vp_A
vp_B vp_C vp_D vp_E vp_F vp_G vp_H vp_I vp_J
vp_K vp_L vp_N vp_Pvp_O vp_Q vp_R
vp_M
PublicIndustrialAccesability 100m 195m 15m 100m 250m 65m 30m 125m 125m 100m 75 m 100m 35m 90m 50m85m
-75
-100
-50
-25
0
25
50
75
100
THE LINKS BETWEEN VOIDSBASED ON THEIR SIMILARITIESEACH VOID HAS IT’S OWN LINKTO THE NEXT VOID TYPOLOGYTHIS LINKS WOULD HELP TO PLUG INTO THE COAST
t y p e A t y p e A t y p e Bl y n kT W O
l y n kT R E E
l y n kO N E
l y n kF O U R
Site Delimitationplug in
typologieslinks
vp_A
vp_B vp_C vp_D vp_E vp_F vp_G vp_H vp_I vp_J
vp_K vp_L vp_N vp_Pvp_O vp_Q vp_R
vp_M
100m 195m 15m 100m 250m 65m 30m 125m 125m 100m 75 m 100m 35m 90m 50m85m
-15
-20
-10
-5
0
5
10
15
20
URGENCY LEVELS
t y p e A t y p e A t y p e Bl y n kT W O
l y n kT R E E
l y n kO N E
l y n kF O U R
URGENCY L.2second intervention
URGENCY L.1 URGENCY L.3third intervention
URGENCY L.4forth intervention
vp_C vp_D vp_E vp_F vp_G vp_H vp_I vp_J vp_k XXX vp_l vp_N vp_O vp_Pvp_A vp_B
Fishing IndustryCommerceHousingResidual ProgramUnexisting Block
PRODUCTIVITY
BOAT-FISHING SEMI-INDBOAT SEMI-INDUSTRIAL INDUSTRIAL
sea current
vp_A
vp_B vp_C vp_D vp_E vp_F vp_G vp_H vp_I vp_J
vp_K vp_L vp_N vp_Pvp_O vp_Q vp_R
vp_M
100m 195m 15m 100m 250m 65m 30m 125m 125m 100m 75 m 100m 35m 90m 50m85m
-15
-20
-10
-5
0
5
10
15
20
URGENCY LEVELS
t y p e A t y p e A t y p e Bl y n kT W O
l y n kT R E E
l y n kO N E
l y n kF O U R
URGENCY L.2second intervention
URGENCY L.1 URGENCY L.3third intervention
URGENCY L.4forth intervention
vp_C vp_D vp_E vp_F vp_G vp_H vp_I vp_J vp_k XXX vp_l vp_N vp_O vp_Pvp_A vp_B
Fishing IndustryCommerceHousingResidual ProgramUnexisting Block
PRODUCTIVITY
BOAT-FISHING SEMI-INDBOAT SEMI-INDUSTRIAL INDUSTRIAL
sea current
Site Delimitationcoast intervention level
urgency levels
vp_A vp_D vp_E vp_H vp_I vp_P
100m 100m 250m 125m 125m 50m
URGENCY LEVELS
t y p e Bl y n kT W O
l y n kT R E E
l y n kO N E
l y n kF O U R
URGENCY L.2second intervention
URGENCY L.1 URGENCY L.3third intervention
URGENCY L.4forth intervention
sea current
Genetic labsTraining Facilities
Produce StorageEquipment Storage
Ice CellarsProduce StorageEquipment Storage
Ice CellarsTouristic Centers Gastronomic Center
Sanitary Services
Commercial Facilities
Recycling Treatment Facilities Recycling Treatment Facilities
INCOPESCA Institution MarketLeisure CentersLeisure Centers
Distribution Center
Access Control Check PointAccess Control Check Point
Informal Commercial Centers
Territorial reach
vp_A vp_D vp_E vp_H vp_I vp_P
100m 100m 250m 125m 125m 50m
URGENCY LEVELS
t y p e Bl y n kT W O
l y n kT R E E
l y n kO N E
l y n kF O U R
URGENCY L.2second intervention
URGENCY L.1 URGENCY L.3third intervention
URGENCY L.4forth intervention
sea current
Genetic labsTraining Facilities
Produce StorageEquipment Storage
Ice CellarsProduce StorageEquipment Storage
Ice CellarsTouristic Centers Gastronomic Center
Sanitary Services
Commercial Facilities
Recycling Treatment Facilities Recycling Treatment Facilities
INCOPESCA Institution MarketLeisure CentersLeisure Centers
Distribution Center
Access Control Check PointAccess Control Check Point
Informal Commercial Centers
Territorial reach Site Delimitationgeometric reach
architectural program
vp_A vp_D vp_E vp_H vp_I vp_P
100m 100m 250m 125m 125m 50m
URGENCY LEVELS
t y p e Bl y n kT W O
l y n kT R E E
l y n kO N E
l y n kF O U R
URGENCY L.2second intervention
URGENCY L.1 URGENCY L.3third intervention
URGENCY L.4forth intervention
sea current
Genetic labsTraining Facilities
Produce StorageEquipment Storage
Ice CellarsProduce StorageEquipment Storage
Ice CellarsTouristic Centers Gastronomic Center
Sanitary Services
Commercial Facilities
Recycling Treatment Facilities Recycling Treatment Facilities
INCOPESCA Institution MarketLeisure CentersLeisure Centers
Distribution Center
Access Control Check PointAccess Control Check Point
Informal Commercial Centers
Territorial reach
vp_A vp_D vp_E vp_H vp_I vp_P
100m 100m 250m 125m 125m 50m
URGENCY LEVELS
t y p e Bl y n kT W O
l y n kT R E E
l y n kO N E
l y n kF O U R
URGENCY L.2second intervention
URGENCY L.1 URGENCY L.3third intervention
URGENCY L.4forth intervention
sea current
Genetic labsTraining Facilities
Produce StorageEquipment Storage
Ice CellarsProduce StorageEquipment Storage
Ice CellarsTouristic Centers Gastronomic Center
Sanitary Services
Commercial Facilities
Recycling Treatment Facilities Recycling Treatment Facilities
INCOPESCA Institution MarketLeisure CentersLeisure Centers
Distribution Center
Access Control Check PointAccess Control Check Point
Informal Commercial Centers
Territorial reach
System implementation approximation
Spatial exploration01
02
Spatial exploration03