SIQI WANG Apply for Master of Landscape Architecture of the University of College London 2019-2020 Selected work
CONTENT
MANIFESTO As a student who is accustomed to thinking ecologically. My projects are to make the landscape more sustainable and be able to show strong adaptability to future crises and current crises. I would like to use the landscape to protect the local ecology and wildlife diversity as much as possible. This collection of works will introduce four projects. Vision will express its response to the current and future problems from the perspective of the landscape.
SEA-LEVEL RISE
04 — 13
Jakarta Floating System Date: 08/2020 Location: Jakarta, Indonesia Scale: no limit Collaborator: Jingjing Huang, Jingjing Cui Instructor: Tianyu Xu
FLOODING
14 — 19
Newater Park Date: 06/2019 Location: Newark on trent, UK Scale: 6.2 ha Individual Instructor: Andy Clayden
2
PANGOLINS
20 — 28
Pangolin Reserve Planning Date: 04/2020 Location: Ruili, China Scale: 75.8 ha Collaborator: Cai Yongxi, Xueying Zhuo Instructor: Nicole Ni
BOTANICAL GARDEN Winter Botanical Garden Date: 03/2019 Location: Sheffield, UK Scale: 0.4 ha Individual Instructor: Sally O'Halloran
29 — 33
OTHER WORKS
34 — 35
Model Making Photography
3
JAKARTA FLOATING SPACE As the climate changes, the capital city of Indonesia, Jakarta, is now facing the threat of the inundation of cities with rising sea levels. Based on this background, we hope to create an infinitely expandable floating space and make it become a shelter for homeless people. In addition, by transforming and changing the basic modules, it can also have the functions of regenerating the local ecology and recycling marine garbage. As well as providing a considerable number of jobs for homeless people.
4
SEA LEVEL RISING OF JAKARTA Jakarta, is the fastest sinking city in the world. Most of the land to the north will be lost. The subsidence of the ground is exacerbating this change due to excessive drilling for water. Jakarta has the most population in Indonesia with more than 14 million people. This means that there would be more than 3 million people lost their home due to sea level rising
THE FASTEST-SINKING CITY IN THE WORLD
95 PERCENT OF NORTH JAKARTA UNDER WATER IN 2050
CITIES UNDER THREAT OF CLIMATE CHANGE Jakarta, Indonesia
17 cm
Mexico City, Mexico
7.8cm
Houston, Texas
5.8 cm
New Orleans, Louisiana Bangkok, Thailand
JAKARTA
Venice, Italy
city under threat of sea level risng in 2050
>14,000,000 10,000,000 <1,000,000
2 cm 0.2cm
LEGEND
MOST OF POPULATION UNDER THREAT
JAKARTA
5 cm
0-1m 1-2 m 3-4 m 4-5 m
Vulnerable Community Frontline Vulnerable Community Flooding Area Residential Low Area High Density Population Contour River
SITE
JAKARTA 5
POLLUTION OF JAKARTA JAVA SEA
DADAP
JAVA SEA
LEGEND polluted rivers building block existing mangrove green space
LITTER POPULATION DENSITY COMPARE TO EACH POLLUTED RIVER DADAP
River dadap brings the most number of trash into the ocean. Trash and waste is the most serious environmental issue of Jakarta. Every year, there are tons of trash flows into the Java sea, which contains 78% plastics waste in percentage. It means that the eight rivers bring 26 tons of plastics waste to the ocean each year. Debris type by weight
SITE LOCATION ENVIRONMENTAL ISSUES OF JAKARTA
0
RIVER WATER QUALITY IN JAKARTA (SOURCE BPLHD (2009)
72% 21
capital: JAKARTA population of
28 million people lack access to safe water Quality status high polluted moderate polluted low polluted good 2005
2006
LITTER AND WASTE
OF TRASH FLOWS INTO tons THE OCEAN
264 million
2004
2007
2008
2009
DEBRIS TYPE BY ABUNDANCE
Plastic Cloth/fibre Others Wood/paper Glass Metal
years
78%
PLASTICS
26
5
tons
10
15
20
25
30
35
OF PLASTIC FLOWS INTO THE OCEAN EACH YEAR
Jakarta is currently facing a serious pollution problem, that is, water pollution mainly caused by garbage pollution. The eight rivers that flow into the Java Sea are all polluted to varying degrees. Residents dump garbage into the rivers and then into the sea. Based on the preliminary analysis, we selected river dapdap as the design site, which is the most polluted river. We hope to minimize the amount of garbage flowing into the sea through design.
6
THREAT AND OPPORTUNITY OF INDONESIA FISH AS INDONESIA ‘S MAJOR FOOD SOURCE stock status by WWP, 2007 potential catch (ton)
global fish production, tonnes m
MANGROVE’S QUANTITY ARE DECLINING
tidal stations over the world
percentage of world mangrove area by country, 2005
total allowable catch (ton) overexploited
160
penaeid shrimp
overexploited
160 120
lobster
overexploited
big pelagics
fully exploited
demersal fish
fully exploited
reef fish
TIDAL ENERGY DEVELOPMENT VISION
Farmed
120 80
Farmed Caught
80 40
Caught 1974
80
90
0
2000
Overfished
80
90
100
Indoneisa hydro power vision
80100
capactiry power plants (GW)
15.6 GW
area of mangroves (ha) 21.0GW
45GW
4,133,000 3,220,000
Indonesia
173,000
40 60
Underfished Fully fished
1974
40
6080
Fully fished
1974Underfished 80 90
Indonesia
19% 10% 7% 7% 5% 4% 4% 3% 3% 3% 35%
0
1974 80 90 2000 global marine fish stocks, % Overfished
Indonesia has the largest archipelago in the world, which can form powerful ocean currents that move between thousands of islands. So this country is rich in ecological resources and can be used as an ideal place for tidal energy. Besides, Indonesia has the largest area of mangrove forests in the world, but studies have shown that the area of mangroves is currently being greatly reduced.
Indonesia Australia Brazil Nigeria Mexico Malaysia Cuba Myanmar Bangladesh India Others
2000
2000
10
10
45,000
20 40 0
20 0
percentage of loss 75% 1800
committed
2025 target
Java 2012 year
2050 target
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CIRCULAR SELF-SUFFICIENCY PROCESS SYSTEM STRATEGY
According to the local site conditions, we wish to recycle the waste like plastic, that has drifted from Jakarta. Then use some technique for secondary processing to make it become the original material of our floating modules. And this community will utilize marine resources to achieve recycling and self-sufficiency.
Support
Support
Provide Jobs
AUTARKIC CYCLING Filter
REUSE MATERIAL
Form
Duplicate Construct Expand
MODULAR EXPANSION
FORMING PROGRAMS
Habitat
Food
Wood
Shelter
IMPROVE PEOPLE'S LIFE
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EXPLOSION AND FUNCTION DIFFERENT TYPOLOGY EVALUATION ON FUNCTION
BASIC UNIT WITH LIVING FUNCTION
TRANSPORTATION METHOD
ceilings removable for piling up
roof
TRANSFORMATION
pure living
trash collecting
fishing
eco-restoring
corridor
living box (3m*5m)
best option
supporting structure
social space
The site will be divided into different functional zones, which will be reflected in our master plan. The basic units can be transformed into different types to satisfy the needs of the functions. They can have four modes shown above.
PUBLIC PLATFORM
TYPOLOGY EVOLUTION unit
group
neighborhood
plastic floating base
private space semi-open space open space
POPULATION (per) 24 (max72)
144 (max432)
312 (max936)
Public space is indispensable. These adjustable public spaces will also become small markets or for festival celebrations, if needed
PUBLIC SPACE (m^2) AREA(m^2) 18*N+25 (+198)
510*N (+1188)
1087 (+1530)
overall module
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BASIC LIVING UNITS SECTION A
SECTION B
5M
CONNECTION BETWEEN GROUP AND PLATFORM
We set up a floating communal platform that can gather residents living in one group. In addition, it can be transformed into an event space or a small trade market to satisfy the needs of local citizens.
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MASTER PLAN OF FLOATING SYSTEM
EXPANSION PHASE AS SEA RISING First Year 2
1
Tenth Year HEAVY POLLUTED RIVER
3
Fiftieth Year
4
ZONE 1 TRASH COLLECTIN
ZONE 2 FISHING
ZONE 3 MARKET TRADING
ZONE 4 MANGROVE DEFENSING
EXISTING MANGROVE FOREST
Existing magrove Water level Contour North Jakarta boundary Water edge
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LITTER COLLECTION MODULE
TRASH WERE WASHED BY CUREENT
PROPOSED SYSTEM BLOCK TRASH
TRASH COLLECTION STATION Collecting Station
Manufacture Station
Sorting Station roof
roof
opening for kiln
trash filter board
sorting machine
cooler storage machine
hallway
sorting pavilion
COLLECTION SYSTEM PROCESS Step 2 Sorting
Step 3 Manufacture
floating base
cleaner kiln shredder
floating base
floating base
Step 1 Collecting We focus on garbage collection and disposal, and these operations will also provide some jobs for the homeless due to sea rising.
step 3 SCALE 1:200
step 2
step 1
Trash filter
Manual sorting pavilion allow aquatic creatures pass under the filter
Collecting Station
Sorting Station
Sorting machine
Shredder and cooler
Kiln
Cleaner and storage
Manufacture Station
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MANGROVES DEFENSE SYSTEM
TetraPOT defense system also promote biodiversity
MANGROVE TETRAPOT OPERATION PROCESS
GROWTH OF MANGROVE OVER TIME
planning new trees existing trees
Because there is an existing original mangrove belt in the south of the site, our restoration system used a kind of device called ‘TetraPOT’ to cultivate mangrove, which has been tested in the world. Link our floating modules with the original forest through the cultivated mangrove forest. So that they can become the nature reserve park for the floating system.
PLANTING STATION
FISHING STATION Transparent roof
roof
green house and cultivation zone
fish ponds and storing rooms
irrigation system
hollow fishing zone
floating base
fishing net
expand
offshore sea
13
NEWARTER RIVERSIDE PARK The waterfront town of Newark in the United Kingdom is often affected by flooding, resulting in low land utilization. The large lawn near the river embankment cannot keep the ecological diversity. In order to make full use of this grassland, I plan to transform it into a resilient and sustainable open park. The park will have different landscape during flooding or droughts, which can provide surrounding residents with a place to play and gather.
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NEWATER PARK NEAR NEWARK ON TRENT LOCATION AND FLOODING STATUS OF NEWARK ON TRENT
LWA YL
INE
british sugar
railway station
RAI
UK
livestock market RAI Y LI LWA
GRE
waterfront path
NE
AT N
railway station
R OA D
Nottingham Shire
Newark and Sherwood District
bridge Properties flooded in summer 2007 by District
Terrain impact on flooding risk zone town council
rain water direction
101-1000
high risk zone
11-100
medium risk zone
below 11
low risk zone
SITE
The small town Newark-On-Trent in the United Kingdom is affected by floods every year. So the green space opposite the town’s castle has almost been discarded. My purpose is to redesign this green space and make it become a resilient and sustainable landscape park so that citizens come back again.
Number of settlements known to have flooded on the past flooding 90 70 50 30
Newark Castle otter park
royal market
LEGEND green cover
10
building block
0 1979
1993
1998
2000
2002 year
2004
2007
2009
main walking route
casthedral
RIV
T ER
RE
NT
newark cinema
cycling route
TOWN PHOTOS BEFORE / AFTER FLOODING
15
NEWATER PARK NEAR RIVER TRENT DIFFERENT LANDSCAPE TYPOLOGY AROUND SITE subsurb town
RA
Location
City
AY ILW
LI
NE
Agriculture landscape
Two typical shapes split each other to form the Newater park basic typology LEGEND
3
GR
1
1
Parking zone
2
DEFRA building
3
Open green space
4
BRIDGE
5
Woodland zone
6
Sink basins
7
Demolished structure area
EA TN
RO
AD
2 4
5
NEWARK CASTLE
6
7 N
0
10
20
30
40
50 m
16
WOODLAND ZONE WITH VARIOUS DENSITY TERRAIN AND PLANTING DENSITY CHANGE
SPATIAL EXPERIENCE AND TYPICAL VEGETATION SPECIES
HIGH DENSITY
MEDIUM DENSITY
LOW DENSITY shrub
SOWING
GROWING
Quercus robur
Betula pendula
Fraxinus excelsior
Mixed Meadow
Astelia chathamica
Hyacinthoides non-scripta
Viburnum
Haleakala Silverswords
MATURE
tree
WOODLAND EYE-BIRD VIEW AND ANIMAL DISTRIBUTION tree canopy The forest area focuses on the development of biodiversity, providing a semi-natural low land mixed oak and ash wood for humans and animals. For humans, this will be the closest natural hiking park to the city, and for animals, it will be a shelter that keep them away from disturbance.
tree bark shrub meadow
17
OPEN GREEN SPACE VIEW POINT OF THE CASTLE TOURIST SPOT PERSPECTIVE
ACROSS THE ENTRENCE TO SEE THE CASLE
Bridge
open plaza space
The waving meadow slopes and open vision are suitable for various gathering activities. In the past, this area was also used as a second-hand auction place for local residents. Staff working in department building can integrate into local life and live together with residents. The Bridge as the entrance enhances the connection between both two spots, the bridge also provides a better view of the scenery. yorkstone castle
square in front of the building
intersection on two paths
MOOD ELEVATION peaceful
depressive
corten steel bridge
OVERALL SECTION FROM BUILDING TO BRIDGE ALONE THE RIVER TRENT
department of health + social care
yorkstone pavement
department for transport (railway) department for transport (seaport)
department for environment, food + rural affairs
department for bussiness, energy + industrial strategy
vibrant
department for education
VIEW ELEVATION
department for digital, culture, media + sport
DEFRA
18
SINK BASIN DURING THE FLOODING PERIOD SECTION AND VISUALIZATION BEFORE FLOODING
When basins are empty. They can be used as entertainment area and botanical garden.
SECTION AND VISUALIZATION DURING FLOODING Based on research, the water level will rise about 3 meters as flooding. So the Bridge can be waterfront platform.
SECTION AND VISUALIZATION AFTER FLOODING Different depth of basins keep water after flooding. The paths emerge and allow passenger to pass.
19
RUILI PANGOLIN RESERVE Pangolins are one of the most smuggled wild animals in the world. When pangolins are considered as the most likely intermediate host of the Covid-19, the conflict between the wildlife and the city once again becomes the issue. At this project, we will research pangolins as our object to establish an area of interest to explore the possible coexistence between humans and animals.
20
CURRENT STATUS OF PANGOLINS AND SITE SELECTION PANGOLINS SMUGGLE FROM ASIA TO RUILI, CHINA
CITY EVALUATION OF RUILI Tongbiguan nature reserve
Due to poaching and smuggling, pangolins are in an endangered situation. Wild pangolins in China have almost disappeared. Pangolins smuggled into China from abroad to satisfy the domestic demand.
N
reserve
city zone
woodland
smuggled route
farmland
border
housing
LAND USE THAT SUITABLE FOR PANGOLINS LIVING Other legend
Slope
Altitude
Site Country City Trade routes
690-884m 884-2054m 1254-1993m
River system City area
Pangolins species distribution
20-50 degree 15-20 degree 0-15 degree
India Pangolin Chinese Pangloin
Vegetation
Philippine Pangolin
Water
Sunda Pangolins
NUMBER OF PANGLINS ARE DECLINING ESTIMATED NUMBER AND SEIZED DERIVATIVE PRODUCT
CHINA IS THE LARGEST PLANGOLINS IMPORTER (2005-2015)
Tigers
Top-5 source countries by pangolins seized Indonesia
Pangolins 1000 4% Meat
48% Scales
Uganda Myanmar
Rhino 100,000 200
1% Others
48% Body
13,462 7,022 4,413
Ivory Coast
1,883
Cameroon
588
green coverage
river network
Top-5 destination countries by pangolins seized China Vietnam Thailand
33,204 10,390 4,528
Philippines
3,874
Malaysia
2,692
Source: United Nations Office on Drugs and Crime
Choose as a specific area of interest for pangolins reservation. Because this place has geographical advantage and close to the city RuiLi that can attract people for tourism.
21
THE OVERALL RESCUE STRATEGY FOR RUILI FRAMWORK
border
injured
Area of Interest
healthy
reintroduction
day
seize
rescue system
pangolins
PHASE 1. SEIZED BY CUSTOM
pregnant
breeding
night
PHASE 3. NATURE RESERVE
PHASE 2. INJURY TREATMENT The Customs seized pangolins and pangolin derivative product along the border.
visitor
produce benefit
PHASE 4. WILD RELEASE The injured pangolins are released into the wild after rescuing and recovering.
Pangolins propagated in breeding areas to increase the number of populations quantity.
Classify the seized and send the injured pangolins to rescue centre.
RESCUE SYSTEM PLANNING MAP
AREA OF INTEREST LOCATION
rescue station
forest for rewilding
existing rescue station
half-wild buffer zone
the customs
border
Train station
rescue circulation
observed points
river
22
SPECIFIC AREA OF INTEREST SELECTION SPECIFIC AREA OF INTEREST AS SITE CLOSE TO RESCUE CIRCULATION
SITE GEOGRAPHIC ANALYSIS SLOPE
VEGETATION
0-8 degree 8-16 degree 16-24 degree 24-50 degree
2 km
2 km
1 km
1 km
0 km
The place from 0° to 15° is suitable for human activities and the slope above 15° has a slope greater than 30° to 50° suitable for pangolin activities.
No vegetation Low vegetation Secondary forest Forest
Suitable for human activities in places with low vegetation levels, and suitable for pangolin activities in secondary forests and primitive monsoon forests.
THE IMPACT OF DIFFERENT SLOPE ON BIOLOGICAL ACTIVITIES MAIN ACTIVITY ZONE FOR HUMAN
open square (0-5°)
gathering area (0-5°)
half-close space (5-10°)
closed forest path (5-10°)
MAIN ACTIVITY ZONE FOR PANGOLINS
Secondary bush forest (10-15°)
Semi-plantation forest (15-30°)
Original mixed forest (15-30°)
Primitive Monsoon Forest (30-50°)
23
MASTER PLAN AND OVERALL SECTION
CIRCULATION
F
first path second path
HUMAN ACTIVITY
high medium low
FUNCTIONAL SUBAREA
E research education parking zone entertainment
GREEN COVER
A
D
B green space
C
G
A
Breeding
D
Scientific research
B
Entertainment
E
Rescue station
C
Education
F
Wild release
G
Parking
N 0
50m
100m
200m
24
FUNCTIONAL PARTITION BLOCK HUMAN VISIT ROUTE rescue
breeding
Entrance area
VR experience area
wild release
Drilling experience area
Breeding area
High-altitude plank area
PANGOLIN RESCUE ROUTE rescue
wild release
breeding
Rescue station
Research area
Breeding area
Underground observation point
Wild training area
25
BIOLOGICAL DISTRIBUATION AND FUNCTIONAL DIVISION POTENTIAL VEGETATION FOR PLANTING canopy layer
Amentotaxus yunnanensisH. L. Li
Diospyros mollifolia.
Acacia confusa Merr.
Croton caudatus Geisel.
shrub layer
Machilus thunbergii sieb. et Zucc.
Machilns Quercus Actinidia variabilis Bl. pilosula(Fin. yunnanensis & Gagn.
Elaeagnus pungens Thunb.
Pyracantha fortuneana (Maxim.) Li
Fatsia japonica Thunb.Decne. et Planch
Coriaria sinica.
ferns
Barleria cristata L.
Luculia pinceana Hook.
Rhapis Philadelphus incanus. humilis Bl.
Camellia reticulata Lindl.
Shibataea chinensis Nakai
Pteridium Nephrolepis yunnanense auriculata (L. )Trimen
Aglaomor phame. yeniana. Schott
herbaceous
Asplenium nidus
Lygodium Pteris cretica flexuosum L. var. nervosa (Linn.) Sw. (Thunb.) Ching et S. H. Wu
Plantago depressa Willd.
Dalbergia Setaria viridis mimosoides (L.) Beauv
Girardinia Sedum suborbiculata aizoon L. C. J. Chen
Arisaema Dendrobium Amorpho Gentiana Glycyrrhiza scabra Bunge yunnanensis heterophyllum officinale phallus rivieri Durieu Kimura et Blume Migo
POTENTIAL FOOD CHAIN bird species type
FUNCTIONAL ZONE DIVISION Interactive experience area
insects species type
Research area
Breeding area
invertebrate species
High-altitude plank
Microorganisms and Fungi
Half a wild
Wild environment
A A
26
TERMITE LURE DEVICE AND BREEDING ZONE The pangolin is timid. It seldom moves during the day. They usually sleep in the cave in the day and go out for food at night, then return to their caves before dawn.
pangolins active frequency
LUNCH
DINNER
DESIGN SCALE OF PANGOLIN
12:00
SLEEPING
FORAGING
18:00 autumn and winter
00:00
Covering skeleton
BREAKFAST
First classify
Rescue
Release
Second classify SLEEPING
TERMITE ATTRACTION DEVICE MATERIAL
Seized by custom
ACTIVE FREQUENCY DURING ONE DAY human active frequency
SUBDIVISION OF BREEDING
SLEEPING 06:00
12:00
spring and summer
Core lure bucket Nutrition supply
0.67~1.27m
The territorial area of pangolin >200
Pregnant
Injured
Aged
Foreign Underground fixator
LOCATION
Water Cellulose Facultative fungi Naphthalene compound
27
COVERT OBSERVATION INSTALLATION
COVERT SHELTER MATERIAL LIST
To reduce the impact on timed pangolins. The underground observation point is designed so that human beings can close to pangolin as much as possible and research them. Concrete
LOCATION
Weathering steel
Clear concrete
Antiseptic wood
Wavy point steel
2
1
PLACEMENT FACTOR
DESIGN EFFECT To view the timed pangolins, our observation structure uses unidirectional glass so that people can observe and research pangolins closely under low interference.
Underground observation sites are mainly placed near the vicinity of the white nest because termites are the main food sources of pangolin species.
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WINTER BOTANICAL GARDEN Winter could be the unique season for many plants to show their beauty. Not only the bloom but also their ornamental barks or leave. So I want to focus on getting winter color plants together from sunny to shade to create a unique winter park. Moreover, I want to provide a half-open place for visitors to nature in winter. Have a snow fight, built a snowman, or just take a photo among the trees. This is a garden that has green during the year and shows the different winter. The winter can engage people to go outside and explore nature.
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TRANSPORTATION AND PLAN OF WINTER BOTANICAL GARDEN DISTANCE BETWEEN SITE AND LIVING ZONE
Prince Edward Primary School
LIVING ZONE
LIVING ZONE
UK SHEFFIELD
Bus Stop
Bus Stop
4 mins driving
1 min driving
7 mins bus
3 mins bus 5 mins walking
10 mins walking
SITE LOCATION
Bus Stop Bus Stop
The site is located in the middle of two residential areas and is an abandoned fire station. It is close to the elementary school, and there is a lack of green space around it. I plan to transform it into an educational winter botanical garden, and change the building into a casual cafe so that the surrounding residents and students can gather together and appreciate the wonderful natural beauty.
Bus Stop
shop
N
PLAN LEGEND Sunny for perennial shrub with specimen evergreen trees, shiny flower Half-shade area for evergreen grandcover that still show the color in winter Mix seasonal and evergreen high herbaceous plants Mix winter-green area with shrub fragments and dispersive woodland Shady area with higher coppices that have heavy color during the year
trees (half-shade to shady)
evergreen ornamental trees
trees (sunny)
ornamental trees with bark interest in winter
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PLANTING DESIGN AND VISION OF ZONE 1
SECTIONS AND PLANT VISION FOR ZONE 1
section A - A’
section B - B’
SEASONAL INTEREST
spring/summer
VEGETATION CHOOSE FOR PERENNIAL SHRUB
autumn/winter
VEGETATION CHOOSE FOR HERVACEOUS AREA Flower or Fruit colour interest Foliage colour interest Structural interest
A
Zone 1 mainly focuses on the transition of vegetation from full sun to partial shade. I tried to use a hedge to divide space and block. Three layers from low to high. People sitting inside the cafe would not be disturbed by the playing area in zone 2. Some evergreen ornamental grass could also build layers.
A’
B’
B
Most of the plants are evergreen with nice flowers in summer or autumn. Moreover, the color could also be different in winter based on foliage or the structure. I used plants as hedges along the path and split some of them to build the path. Basically, the functions of hedges here are leading and block the view. Try to lead people from the ‘sunny’ area to the ‘half-shade’ area and to divide the space into two zones.
31
PLANTING DESIGN AND VISION OF ZONE 2 SECTION AND PLANT VISION IN WINTER C’ C
D
D’
section C - C’
Zone 2 includes two parts. One part has mixed shrub blocks and a specimen tree, Which means the variety of layers and space for people to hide to play snow fight. section D - D’
PLANT CHOOSE FOR WOODLAND ZONE
Another area is the pure woodland ground with lower shrubs and small trees. Although some of them are not evergreen vegetation. They still have the bark interest or structure interest in winter like Prunus serrula. Some plants would open flower in winter which brings soft line and make a contrast with a hard structure. Visitors can walk through the trees freely and take photos whatever they want.
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DETAIL PLANTING DESIGN PLANT SCHEDULE
Path
Mix A
Mix B
Mix C
7 Miscanthus sinensis ‘Kleine Silberspinne’ 9 Panicum virgatum ‘Rehbraun’ 4 Prunus laurocerasus’Rotundifolia’ 11 Anemanthele lessoniana 5 Viburnum tinus 4 Stipa gigantea
1:50 @ A2
2 Miscanthus sinensis ‘Malepartus’ 2 Cornus alba ‘Elegantissima’
PLANT LOCATION
1 Prunus serrula
1 Hamamelis × intermedia ‘Diane’ 2 Cornus sanguinea ‘Midwinter Fire’ 2 Betula utilis var. jacquemontii
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MODEL MAKING PROJECT
4. Other Work
CIRCULATION AND SECTION
PHOTOS OF MODEL Date: Mar. 2019 Location: Sheffield, UK Area: 0.76 ha Collaborator: Thoms White
section A
B
This is produced from one of the university’s modules, which aims to vibrant the brownfield by creating an entity model. I named this project "Beyond Boundaries". The vision is that this site can become a public space with considerable openness, allowing anyone to circulate in it. It can break the barriers between the different hierarchies of residents and communicate freely with each other. At the same time, The local terrain goes from high to low from north to south, accompanied by waterfront characteristc. The site creates a variety of different experience spaces.
OVERALL SECTION A-B FROM BUILDING TO FOREST
A
B
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PHOTOGRHPHY
Austria - Jan. 2020
the United Kingdom - Mar. 2019
Austria - Jan. 2020
Austria - Jan. 2020
China - Jul. 2018
Iceland - Dec. 2018
Czech - Jan. 2020 China - Aug. 2019
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