Kjirsten Alexander landscape / urban design

KJIRSTEN ALEXANDER landscape architecture / urban design

climate adaptation

reclamation

community / park design

urban forestry

open lawn

existing andromeda native perennial planting bed

random rectangular bluestone retaining wall seating

compost

HAND DRAWING / ARTWORK

Chasmanthium

Whitcomb Residence

P l a n t i n g a n d Pat i o P l a n

planting / residential design

April 2013

design - build

digital / physical modeling

artwork / hand drawing

KJIRSTEN ALEXANDER landscape architecture / urban design

COASTAL CLIMATE ADAPTATION

JAMAICA BAY brooklyn / queens ny Kjirsten Alexander with CCNY Jamaica Bay Team

coastal climate adaptation

adaptation strategy and design integrate science and design into the climate adaptation process ArcGIS • AutoCAD • Illustrator • Photoshop • InDesign • Modeling

project type: purpose: tools:

Structures of Coastal Resilience is a fouruniversity research effort examining four vulnerable sites along the North Atlantic coast that were affected by Hurricane Sandy. Funded by the Rockefeller Foundation and led by Guy Nordenson, it has operated in parallel to the US Army Corps of Engineers’ North Atlantic Coast Comprehensive Study with the aim of informing and advancing their traditional design and engineering approach. The City College of New York Jamaica Bay team is Catherine Seavitt, Kjirsten Alexander, Danae Alessi, and Eli Sands.

The Jamaica Bay Resiliency Strategies merge novel techniques of ecosystem restoration with layered nature-based protective features. The Resiliency Master Plan is a three-pronged design approach: improvement of water quality and circulation throughout the bay, enhancement and elevation of coastal verges at back-bay communities, and the development of atoll terraces through bay nourishment and sediment capture at the salt marsh islands.

RESILIENCY DESIGN PLAN

park design

urban forestry

reclamation planting design

urban design

climate adaptation

mapping analysis

modeling

drawings

INFRASTRUCTURAL VULNERABILITY MARSH LOSS

design build

DENSITY - ETHNICITY

DENSITY - SOCIAL RISK FACTORS

SPECIES - HABITAT

JAMAICA BAY brooklyn / queens ny Kjirsten Alexander with CCNY Jamaica Bay Team

FLOW STRATEGY

case study: Fort Tilden Overwash Plain

Increased hydrologic flow is essential to the bay’s long-term ecological sustainability. Improving flushing through the introduction of tidal inlets, overwash plains, and sunken tunnels will reduce residence time, particularly important in the deep borrow pits in the easternmost reaches of the bay. Increased exchange with the ocean will flush excess nitrogen and other pollutants, raise dissolved oxygen levels and introduce sediment to support the nourishment and accretion of the marsh islands. It may also reduce impacts from surge by providing additional outlets for the retreat of floodwaters.

park design

urban forestry design build

reclamation planting design

urban design

climate adaptation

mapping analysis

modeling

drawings

JAMAICA BAY brooklyn / queens ny Kjirsten Alexander with CCNY Jamaica Bay Team

VERGE ENHANCEMENT STRATEGY neighborhood case study: Howard Beach

“Verge enhancements� improve security for vulnerable backbay communities through a layered system of marsh terraces, earthen berms, and attenuation forests. The proposal takes advantage of existing high ground and the linear infrastructure of the Belt Parkway, tying in elevated berms to create a continuous elevated buffer from Plumb Beach, Mill Creek, and Canarsie to Howard Beach. These enhanced verges are foregrounded by low marsh, high marsh, and upland planting zones, providing additional mitigation of wave energy as well as public space. Densely planted sunken maritime forests are established behind the berm.

park design

urban forestry design build

reclamation planting design

urban design

climate adaptation

mapping analysis

modeling

drawings

JAMAICA BAY brooklyn / queens ny Kjirsten Alexander with CCNY Jamaica Bay Team

ATOLL TERRACE / ISLAND MOTOR STRATEGY case study: Little Egg Marsh

The Island Motor strategy proposes efficient and strategic placement of locally dredged sediment resources to restore salt marsh islands and enhance their capacity to accrete and keep up with sea level rise. The atoll terrace is a perimeter ridge designed to reduce wind fetch and wave energy in low-grade, high frequency storms. The slopes intercept suspended sediment and allow for upward migration of marsh grass.

park design

urban forestry design build

reclamation planting design

urban design

climate adaptation

mapping analysis

modeling

drawings

YANGTZE RIVER DELTA PROJECT shanghai china Kjirsten Alexander Project with Guy Nordenson, Catherine Seavitt and Princeton University

adaptation strategy and design Princeton-Fung global forum GIS • Illustrator • Photoshop • InDesign • AutoCAD

project type: purpose: tools:

CONTEXT

This exhibition was produced for the Princeton-Fung Global Forum on the future of the city, held in Shanghai in January of 2013. Princeton Professors Guy Nordenson and Howard Stone and City College Professor Catherine Seavitt led the team in developing a strategy for coastal climate adaptation in Shanghai. The project showcases a methodology for designing adaptation solutions appropriate to the local context of different coastal cities. Three collaborative projects on New York, New Orleans, and Shanghai demonstrate this methodology. EDGE ATLAS

High resolution aerials are overlaid with 250-, 500- and 1000-year surge events, seawall height, and the coded edge condition.

Merging topographic and bathymetric datasets into a single system depicts a seamless landform with a flexible interface between land and water.

Aerial View

Topographic Digital Elevation Model

Bathymetric Digital Elevation Model

Merged Topobathy Digital Elevation Model

park design urban forestry design build planting design urban design

A decentralized, locally managed system embedded in the agricultural landscape of the Pudong Peninsula is the foundation for decreasing the vulnerability of Shanghai. Building on the idea of the Dutch polder system, low-tech earthen berm enclosures can capture, contain and slowly release water in the event of surge.

reclamation

PROPOSAL

climate adaptation mapping analysis modeling drawings

Major highways (yellow) bordering the peninsula are elevated to become buffers and evacuation routes. Offshore reef barriers help slow the surge and dampen its impact when it reaches the shore. Layered chenier strand plain berms buffer the flow inland, while two bands of polders capture and retain storm water.

URBAN DESIGN / URBAN FORESTRY

Metastasizing

CONSOLIDATING THE WEST henderson nv Kjirsten Alexander

urban systems design

water management analysis - proposal S.L.U.M. Lab publication • fall 2011 Adobe Illustrator • Photoshop • InDesign

project type: purpose: tools:

This is a strategy to shrink Henderson to reflect its resources. Decisions are based on spatial analysis of the water pumping and distribution network, the densest foreclosure areas and, conversely, the most viable neighborhoods based on occupancy and home quality, size and value.

subdivisions, climate change-induced drought and wasteful

agricultural pracƟces threaten

water supplies

What will become of Henderson during and aŌer this transiƟon? Will places like Henderson become the

next American ‘slums’?

How can contracƟon be managed

to avoid dangerous, unpleasant and wasteful situaƟons?

Henderson NV

D to Las Vegas

CASE 1 now places like Henderson, NV are experiencing

development whiplash

CASE 2

CASE 3

10,000’

CASE 1

This home in the Case 2 area saw its value dropped precipitously, leading to foreclosure. Its position far from central water infrastructure, in a cluster of low-density, oversized and undervalued homes makes it a potential case to be dismantled along with surrounding homes.

Henderso

These diagram Henderson NV

Henderson NV

examples are

ic and e

to Las Vegas

to Las Vegas

safely a

CASE 1

CASEand 1

where to

reclamation

building footprint street

planting design

lot line

urban design climate adaptation

Lot Analysis building footprint street lot line Henderson NV Henderson NV

STRATEGY WHEEL to Las Vegas

Building - Lot Detail Building - Lotfootprint Detail building street building footprint

to Las Vegas

lot line street

Diagram Keys:

lot line

Building - Lot Detail

ms analyze different typologies of se�lements within Henderson. Three building footprint

to Las Vegas

Diagram Keys:

lot line

Lot Analysis

Lot Analysis building footprint

building footprint Building - Lot Detail

street building footprint

street

building footprint

CASE 1

lot line street

street

path / driveway lot line

and efficiently consolidate the residents of Henderson 10,000’

CASE 1 CASE 2

tree//driveway planting path

Lot Analysis

tree / planting

building footprint

10,000’

These diagrams analyze street different typologies of se�lements within Henderson. Three

evaluated hydrologic, phsyiographrezoneCASE for1abandonmentic. and economic evaluatedvariables hydrologic, phsyiographwhere to Lot Analysis

CASE 3 building footprint street

lot line These diagrams typologies based on of se�lements within Henderson. Three examples are analyze different

examples are

path / driveway tree / planting

based on . This can help determine

drawings

CASE 2 2 CASE 3 lotCASE line CASE 3

lot line

modeling

street

CASE 1 CASE 1 Building - Lot Detail

Diagram Keys:based on hydrologic, phsyiographevaluated economic variables. This can help determine where to

o

mapping analysis

path / drivewayDiagram Keys: Diagram Keys: tree / planting

CRITERIA DIAGRAM

on NV

e

design build

Building - Lot Detail

The strategy wheel weighs various criteria including the water supply network, drainage infrastructure, and the spatial and economic patterns of settlement and foreclosure to determine where to safely and efficiently consolidate the residents of Henderson and which areas to zone for abandonment.

urban forestry

Diagram Keys:

park design

Three neighborhood examples are evaluated based on water supply constraints as well as physiographic and economic variables. Diagrams for each neighborhood reveal different typologies of settlements within the city of Henderson. These spatial differences play an important role in determining the viability of neighborhoods.

FLINT REFORESTED flint mi Kjirsten Alexander

urban forest design

city master plan and landscape design third year studio • fall 2011 Adobe Illustrator • Photoshop • InDesign • drawing

project type: purpose: tools:

Forestry in Flint is a long-term investment in Flint’s vacant land and a way for Flint to thrive as a 21st century post-industrial green city. This proposal is based on the studio proposition for rezoning Flint to consolidate residents into viable neighborhoods with varied lifestyle options and to repurpose the spaces in between. Broad swaths of land freed by neighborhood consolidation accommodate large-scale timber production. This creates a long-term profitable landscape and forges a link to Genesee County as plantations expand beyond the city to occupy vacant land in the surrounding region.

forest type 3: christmas tree farm

Christmas tree farms are a productive land use option for large-lot owners at the periphery of dense residential zones. High turnover, small scale plantings make good neighbors.

PHASE TWO

PHASE THREE

PHASE FOUR

PHASE FIVE

PHASE SIX

phased plan

PHASE ONE

.5 mile

0-5 years

30 years

10 years

g

HARVEST high-turnover species (balsam fir) around hotspots p to allow for future expansion p

first stage

50 years

HARVEST second staage g

replant or expand residential

replant or expand residential

h d staage HARVEST third replant or expand residential

80 years

HARVEST

100 years

fourth stage

replant or expand residential

park design

urban forestry design build

reclamation planting design

urban design

climate adaptation

mapping analysis

modeling

renderings

conceptual plan

FLINT REFORESTED

forest type 5: row plantations

Kjirsten Alexander

PHASE ONE

PHASE TWO

PHASE THREE

30 years

10 years

PHASE FOUR

PHASE FIVE

PHASE SIX

80 years

50 years

100 years

GOALS and BENEFITS: • efficient growth and harvest • larger scale productivity • connection to county OWNERSHIP / MANAGEMENT: • extension program • priority given to minimal management soil tolerance, pest free native species • high-yield species including red pine, white pine and poplar

all avvvailable ailable lots in Flint planted p d

vacant lots in zones with less than 30% occupancy

SET UP NURSERY prepare vacant brownfields break concrete, treat soil

EXPAND NURSERY

PLANT

strips in vacant brownfields

rows in county p prioritize vacant agricultural g land

laantations HARVEST stage one of softwood row pplantations HARVEST

expand plantations in county as seedlings g become available

PHASE 3 EXPANSION

INCREMENTAL INFILL

ROW PLANTATIONS

PHASE 2 INFILL

High visibility plantations at gateway to Flint demonstrate the city’s new, productive landscape identity

PHASE I INFILL

EXISTING CONDITION

SITING CRITERIA: • large contiguous open spaces (to maximize growth potential and harvest efficiency) • not appropriate for areas directly adjacent to riparian corridor or residential neighborhood

HARVEST

stage one of hardwood row plantations

HARVEST

stage three of softwood row plantations

stage two of row plantations (hardwoods)

park design

ROW PLANTATIONS SPECIES SELECTION MATRIX

50-80’ 25-35’

well drained acidic moist fertile

moist well drained rich acidic

light sandy moist, well drained ok

medium 60-75’ 25-35’

lumber

medium

lumber firewood pulpwood

H

nce

na nte

Mai

al tion

i Add

s

efit

ben

5.9

236000

3.8

290000

4.8

365000

2.5

160000

3.3

250000

2

80000

2.5

160000

6.1

390000

4

608000

4

768000

2

192000

x

700000

4

608000

lumber lumber

intensive weed control corrective pruning to produce quality trees

lumber

intensive weed control corrective pruning to produce quality trees

acidic alkaline wet

lumber firewood pulpwood

intensive weed control corrective pruning to produce quality trees

pollution and compacted ok acidic, drought tolerant loamy, moist, sandy, well drained, clay soils

lumber

intensive weed control corrective pruning to produce quality trees

very tolerant fixes nitrogen

lumber pulpwood mixed plant

15-30’

intensive weed control corrective pruning to produce quality trees

intensive weed control corrective pruning to produce quality trees

intensive weed control corrective pruning to produce quality trees

intensive weed control corrective pruning to produce quality trees

wildlife food

slow 60-80’

moist soil

wildlife food

EASTERN RED CEDAR Juniperus virginiana

50-80’ 25-35’

well-drained, moist, acidic, dry, wet soils

medium 60-115’

25-35’

well drained soil

slow 30-70’

ok on droughty infertile sandy rocky soils

15-25’

well-drained, fine textured soils / moist, cool, acidic soil, tolerates some salt

tolerant of most soils acidic, alkaline, drought tolerant, loamy, moist, rich, sandy, silty loam, well drained, wide range, clay

slow 40-75’ 15-25’

medium 40-50’ 15-25’

lumber

fast

pulpwood

25-35’

lumber

50-75’

decking utility poles

wide range acidic, alkaline, loamy, moist, rich, sandy, well drained, wet, clay soils

medium

pulpwood

very tolerant fixes nitrogen

lumber Christmas

50-75’ 25-35’

lumber

BALSAM FIR Abies balsamea

fast

<20’

20-30’

300-500

JACK PINE Pinus banksiana

fast

300-500

RED PINE / NORWAY PINE Pinus resinosa

25-35’

600-1000

BLACK WALNUT Juglans nigra

60-75’

600-1000

BLACK LOCUST Robinia pseudoacacia

fast

600-1000

AUTUMN OLIVE Elaeagnus umbellata

40-50’ 35’

pulpwood

very fast

well-drained moderately moist fertile no confined areas no salt

1200

RED OAK Quercus rubra

300-500

35’

Populus deltoides x Populus nigra

WHITE PINE Pinus strobus

NATIVE SOFTWOODS

60-75’

600-1000

NATIVE HARDWOODS

HYBRID POPLAR

slow-medium

pulpwood

15’

MAPLE Acer saccharum

rapid growth

wildlife food stimulates self pruning

stimulates self pruning

wildlife food

white pine blister rust white pine weevil

self pruning

susceptible to insect and disease - Scleroderris canker white pine weevil, jack pine sawfly, jack pine budworm

high survival rate self pruning pest free

nesting for end endangered K Kirtland's Warbler

susceptible to frost - plant in protected upland areas spruce budworm (fraser fir less susceptible)

wildlife food

modeling

375000

mapping analysis

4.9

climate adaptation

intensive weed control corrective pruning to produce quality trees

urban design

200000

planting design

3.2

medium

15-25’

1

lue n va ars) atio ant (60 ye l p acre

[ ALL HARDWOODS: ] intensive weed control corrective pruning to produce quality trees

lumber firewood mixed plant

60 YEARS

ses

ial u

ent Pot

lumber

50 YEARS

s ent s e ent irem re) had equ per ac un - s irem r g S equ # in r ( c l i a So Sp

300-500

40 YEARS

ears ght 20 y ull hei F

reclamation

HICKORY Carya laciniosa

30 YEARS

t at eigh

300-500

CHERRY Prunus serotina

20 YEARS

rate

design build

YELLOW BIRCH Betula alleghaniensis

wth Gro

300-500

10 YEARS

ASH Fraxinus americana

tern

pat

300-500

wth Gro

300-500

e

nam

300-500

cies

Spe

300-500

r

e ract

cha

urban forestry

od Wo

drawings

COMMUNITY / PARK DESIGN

SOUNDVIEW PARK bronx ny Kjirsten Alexander

joint project with partner Jing Fan

community and park design

park design and community plan second year studio • spring 2011 Illustrator • Photoshop • InDesign • drawing

project type: purpose: tools:

A multifunctional ring connector and complete street system unite Soundview Houses with the community and Soundview Park. The ring has a distinct street design and paving pattern, and organizes programming along its route.

Within the Soundview Houses site additional building density and pedestrian friendly through streets activate underutilized space and minimize isolation from the rest of the neighborhood. Across from the houses where the eastern park border meets Soundview Parkway, a ribbon of community gardens activates the park edge, enhances residents’ sense of ownership, and increases eyes on the street.

park design

urban forestry design build

reclamation planting design

urban design

climate adaptation

mapping analysis

modeling

drawings

SOUNDVIEW PARK Kjirsten Alexander

FIGURE-GROUND

CIRCULATION

PROGRAMS

VEGETATION

TOPOGRAPHY

bronx ny

joint project with partner Jing Fan

park design

urban forestry design build

reclamation planting design

urban design

climate adaptation

mapping analysis

modeling

drawings

open lawn

existing andromeda native perennial planting bed

random rectangular bluestone retaining wall seating

compost

PLANTING / RESIDENTIAL DESIGN P l a n t i n g a n d Pat i o P l a n

PRATT INSTITUTE brooklyn ny

Kjirsten Alexander joint project with Shannon Hayes and Keith Lindberg

engineering quad redesign

campus planting design consultation June-October 2012 Realtime Landscaping Pro • Photoshop • drawing

project type: purpose: tools:

THE GROVE On the south quad the old sycamores give way to a rare sunny area where we sited an intimate grove at the crossroads of two new pathways. Small scale birch trees with their narrow spread and dappled shade punctuate this nexus. Finely textured plantings such as tall grasses and juniper shrubs combine with bright perennial flowers to contrast with the black and white birch bark of Betula pendula. Seating opportunities on large rough hewn stones or simple wooden benches are situated among the plantings.

park design

urban forestry design build

reclamation

planting design urban design

climate adaptation

mapping analysis

modeling

drawings

HOME LANDSCAPE

8

S2

Cornus sericea

Red Twig Dogwood

6’ - 9‘ tall and 8’ - 12’ wide

Moderate

3

S3

Juniperus horizontalis 'calgary carpet'

Creeping Juniper

9” tall and 10’ wide

Moderate

port washington ny

Kjirsten Alexander with Danae Alessi SEASONAL CHART

residential planting design

Winter

Summer

Spring

Fall

Ajuga reptans(Catlin’s Giant)

planting plan and path layout purpose: private client tools: Illustrator • Photoshop • hand drawing • Rhino project type:

Ceratostigma plumbaginoides(Leadwort) Epimedium x perralchicum(Barrenwort) Astilbe (Red) Astilbe (White) Calamagrostis x acutiflora (Karl Foerster) Chasmanthium latifolium (N. Sea Oats) Dryopteris erythrosora(Autumn Fern) Heuchera(Coral Bells) Hosta (Big Daddy) Hosta (Bright Lights) Polygonatum biflorum(Solomon’s Seal) Sisyrinchium angustifolium(Blue-Eyed Grass) Aronia melanocarpa(Black Chokeberry) Cornus sericea(Red Twig Dogwood) Juniperus horizontalis (Juniper)

seasonal interest chart PROPOSED PLAN PLANT LIST QTY.

BOTANICAL NAME

SYM.

COMMON NAME

AVERAGE LANDSCAPE SIZE

GROWTH RATE

Groundcover: 400 sq. ft.

G1

Ajuga reptans 'chocolate chip' or 'caitlins giant'

Bugleweed

3” - 6” tall, 1’ - 2’ wide; flowers 8-10”

Moderate

375 sq. ft.

G2

Ceratostigma plumbaginoides

Leadwort

12” - 18” tall and wide

Fast

375 sq. ft.

G3

Epimedium x perralchicum

Barrenwort ‘Frohnleiten’

4” - 19” tall, to 3’ wide

Moderate

19

P1

Astilbe - white, deep red

1’ tall, 3’ wide; flowers to 2’ tall

Moderate

9

P2

Calamagrostis acutiflora

Karl Foerster Feather Reed Grass

1 1/2 - 2’ tall and wide; flowers to 6’

Fast

21

P3

Chasmanthium latifolium

Sea Oats

2’ - 3’ tall and 2’ wide

Fast

Plant

Zweig / Rosendahl Residence

Sun Requirements

BLACK CHOKEBERRY (S1)

P6 S1

AUTUMN FERN (P4) RED TWIG DOGWOOD (S2) SOLOMON’S SEAL (P8) BUGLEWEED (G1)

S2

BARRENWORT (G3)

PACHYSANDRA (EXISTING) STEPPING STONE PATHWAY FEATHER REED GRASS (P2) BUGLEWEED (G1) SEA OATS (P3) ASTILBE (P1) PLANTING BED

S1

P9

P7

P9 P9

P4 P9 P4 P9 P9 P4 P4 P9

P4 P6 P8 P9P4P9P4 P4 P6 P8 P4 P7

S2

P8 S2

G1

S2

P6 S2

P8

G2

P8

P6

P9

G3 P9

P1

P9

P7 P3

P7

Dryopteris erythrosora Heuchera 'frosted violet'

P6

Hosta 'Big Daddy'

P7

Hosta 'Bright Lights'

P1 P1

P6

P8

11

P9

S2 3

S2 S1

8

S2 S3

Autumn Fern

Polygonatum biflorum

P3

P3 P3 P3 P3

P3 P3

P3 P3

1’ - 3’ tall and 1’ - 1 1/2’ wide

Moderate

12” - 18” tall and wide

Fast

3’ - 6‘ tall and wide 6’ - 9‘ tall and 8’ - 12’ wide

Slow Moderate

9” tall and 10’ wide

Moderate

Red Twig Dogwood

ASTILBE (P1)

Ceratostigma plumbaginoides (Leadwort)

-Fall Color

Late summer

Epimedium x perralchicum (Barrenwort)

LEADWORT (G2)

G2

PURPLE LEAF REDBUD (OPTIONAL)

P2 P2 P2 P2 P2 P3 P3 P2 P2 P2 P1 P1P1 P1 P1P1 P1 P1 P1 P3 P1

BUGLEWEED (G1) Winter Spring PACHYSANDRA (EXISTING)

G2

Summer

Fall

LEADWORT (G2)

Ceratostigma plumbaginoides(Leadwort)

Evergreen

- Attracts Butterflies - Showy Flowers

Summer

Calamagrostis x acutiflora (Karl Foerster)

-Year-round interest -Flowers for Cutting

Spring

Summer / evergreen

Chasmanthium latifolium (N. Sea Oats)

-Flowers for Cutting

Dryopteris erythrosora (Autumn Fern)

-Year-round interest

Heuchera (Coral Bells)

-Flowers for Cutting

Late spring to late summer

Hosta (Big Daddy)

-Foliage color

Summer

Hosta (Bright Lights)

-Foliage color

Summer

Polygonatum biflorum (Solomon’s Seal)

-Showy Flowers

Summer

Sisyrinchium angustifolium (Blue-Eyed Grass)

-Showy Flowers

Late spring to early summer

Aronia melanocarpa (Black Chokeberry)

-Attracts Wildlife

Spring

Cornus sericea (Red Twig Dogwood)

-Year-round interest

Spring

Juniperus horizontalis (Juniper)

-Year-round interest

Evergreen

Epimedium x perralchicum(Barrenwort)

PLANTING BED (BULBS)

Astilbe (Red)

P1

Astilbe (White)

G3 S3

planting layout plan

-Flowers for Cutting

Astilbe (White + Red)

Ajuga reptans(Catlin’s Giant)

P2

P3

Solomon's Seal

Bloom Season Spring to early summer

P7

P3 P3 P3

Moderate

SEAL Juniper (P8) Juniperus horizontalis 'calgary carpet'SOLOMON’S Creeping

SEASONAL CHART G1

P3 P3

Fast Moderate

15” tall and 48” wide

RED TWIG DOGWOOD (S2) Black Chokeberry

Aronia melanocarpa Cornus sericea

Slow

12” tall, 18” wide; flowers to 30” 3’ tall and 2’ wide

Hosta

HOSTA (P6 /Blue-eyed P7) Grass

P6 Sisyrinchium angustifolium Shrubs: P6

1 1/2’ - 2’ tall and 18” wide

Coral Bells Hosta

YEW (EXISTING)

P3

P3

G1

P4 P5

P8 P7 P8 P83 P8

P1 P1 P1 P1 P1

P7

S2

9 5 10 10 10

P9

P9 P9

P4 P8

P7

LEADWORT (G2)

BLUE-EYED GRASS (P9) HOSTA (P6 / P7)

S1

P7

Flower/Foliage Color

- Attracts Butterflies - Showy Flowers

Perennials: Astilbe

Key Features

Ajuga reptans (Catlin’s Giant)

Calamagrostis x acutiflora (Karl Foerster)

BARRENWORT (G3)

Chasmanthium latifolium (N. Sea Oats)

S3

Dryopteris erythrosora(Autumn Fern)

S3

CREEPING JUNIPER (S3) HOSTA (P7)

P7 P7 P7 P5 P5

Heuchera(Coral Bells)

CORAL BELLS (P5)

Hosta (Big Daddy)

P5 P5 P5

Hosta (Bright Lights) Polygonatum biflorum(Solomon’s Seal)

G1

BUGLEWEED (G1)

Sisyrinchium angustifolium(Blue-Eyed Grass) Aronia melanocarpa(Black Chokeberry) Cornus sericea(Red Twig Dogwood)

Juniperus horizontalis (Juniper)

ndahl Residence

sun - shade study

plant attributes and growth requirements

Zweig / Rosendahl Residence

Proposed Planting Plan

Plant List

park design

rendered plant texture plan

urban forestry

installation

design build

BARRENWORT (G3)

reclamation planting design urban design climate adaptation

plant palette NORTH FRONT

Astilbe

Boulder with grasses planting

PROPOSED PLAN

QTY.

BOTANICAL NAME

SYM.

COMMON NAME

AVERAGE LANDSCAPE SIZE

GROWTH RATE

Groundcover: 400 sq. ft.

G1

Ajuga reptans 'chocolate chip' or 'caitlins giant'

Bugleweed

3” - 6” tall, 1’ - 2’ wide; flowers 8-10”

Moderate

375 sq. ft.

G2

Ceratostigma plumbaginoides

Leadwort

12” - 18” tall and wide

Fast

375 sq. ft.

G3

Epimedium x perralchicum

Barrenwort ‘Frohnleiten’

4” - 19” tall, to 3’ wide

Moderate

Pachysandra terminalis (existing)

Plant

Sun Requirements

Astilbe

Astilbe - white, deep red

1’ tall, 3’ wide; flowers to 2’ tall

Moderate

P2

Calamagrostis acutiflora

Karl Foerster Feather Reed Grass

1 1/2 - 2’ tall and wide; flowers to 6’

Fast

21

P3

Chasmanthium latifolium

Sea Oats

2’ - 3’ tall and 2’ wide

Fast

P4

Dryopteris erythrosora

Autumn Fern

1 1/2’ - 2’ tall and 18” wide

Slow

P5

Heuchera 'frosted violet'

Coral Bells

12” tall, 18” wide; flowers to 30”

Fast

10

P6

Hosta 'Big Daddy'

Hosta

3’ tall and 2’ wide

Moderate

10

P7

Hosta 'Bright Lights'

Hosta

15” tall and 48” wide

Moderate

10

P8

Polygonatum biflorum

Solomon's Seal

1’ - 3’ tall and 1’ - 1 1/2’ wide

Moderate

11

P9

Sisyrinchium angustifolium

Blue-eyed Grass

12” - 18” tall and wide

Fast

3 8

S1 S2

Aronia melanocarpa Cornus sericea

Black Chokeberry Red Twig Dogwood

3’ - 6‘ tall and wide 6’ - 9‘ tall and 8’ - 12’ wide

Slow Moderate

3

S3

Juniperus horizontalis 'calgary carpet'

Creeping Juniper

9” tall and 10’ wide

Moderate

Shrubs:

-Fall Color

Late summer Cedrus atlantica glouca (existing)

Evergreen

-Flowers for Cutting

Epimedium x perralchicum (Barrenwort)

- Attracts Butterflies - Showy Flowers

Astilbe (White + Red) Ceratostigma plumbaginoides Leadwort

Calamagrostis x acutiflora (Karl Foerster)

-Year-round interest -Flowers for Cutting

Summer Feather Reed Grass Karl Foerster Chasmanthium latifolium Sea Oats

Spring

Epimedium x perralchicum Barrenwort

Chasmanthium latifolium (N. Sea Oats)

-Flowers for Cutting

Summer / evergreen

drawings

9 5

Ajuga reptans Bugleweed

Pennisetum setaceum Purple Fountain Grass

Ceratostigma plumbaginoides (Leadwort)

Bloom Season Spring to early summer

modeling

P1

9

Flower/Foliage Color

- Attracts Butterflies - Showy Flowers

Ajuga reptans (Catlin’s Giant)

Perennials: 19

Key Features

mapping analysis

plant schedule PLANT LIST

HOME LANDSCAPE

oldwick nj

Kjirsten Alexander for Back to Nature Home and Gardens

residential planting design

hardscape and planting plan private client AutoCAD • Photoshop • hand drawing

project type: purpose: tools:

ANEMONE SYLVESTRIS

ALLIUM

BLUEBERRY

SALVIA

RASPBERRY

front planting bed photoshop rendering

ERYNGIUM

VINCA - BLACKBERRY

SMOKEBUSH

backyard beds plant palette

I n s p i r at i on a l I m a g e s Ba c k Ya r d G a r de n

SCILLIA

LIATRIS

Meighan Residence June 2013

birch (existing) espalier pear

clematis, vinca fig liatris, allium, buddleja, anemone, eryngium 18” x 30” bluestone slab path

fig raspberry low bush blueberry

cut flowers: poppy, lily, tulip, iris, foxglove evergreen border: sarcacocca

planting bed and bluestone walkway layout plan

chester nj

park design

WOODLAND

Kjirsten Alexander with Mike Scholtz for Back to Nature Home and Gardens

woodland trails and playscape

circulation, play nodes, and planting plan private client Photoshop • hand drawing

urban forestry

project type: purpose: tools:

design build reclamation planting design urban design climate adaptation mapping analysis modeling

schematic design of ecologically restored woodland playscape with trail system, treehouse fort, fire pit, benches, picnic area and informal stream crossings

drawings

HOME LANDSCAPE

bernards township nj

Kjirsten Alexander for Back to Nature Home and Garden

residential landscape design

grading plan, driveway, parking court, stone wall design and planting plan private client AutoCAD • Photoshop • hand drawing

project type: purpose: tools:

95

94.5

94

98.5 98.5 98 97.5 97 96.5

94.5

96

94

97

94

95 98

94 94

93 98

96

97

92 94 94.5

rendered planting and layout plan

94

91

95

90

94

89 94

93

94.5

94

93 94

88

93

92

93

14'

93

92

87

91 94.5

92

86

91

90

A'

92.5

92

94

91 87 91

90.5

91.5

92

92

88

92 91.5 91

92

91

92.5

93

94 94

92.5

18"

93

89

94

94.5

94.5

92.5

92.5

94

94

REVISIONS:

90.5

A 10'

87 PLAN

Date:

90.5 90 89.5

88

89

89

86

89.5

89

Description:

90

driveway, walkway and stone wall grading plan LANDSCAPE PLAN - overlay

proposed stone wall section elevation SECTION A-A'

ELEVATION

grade at foot of wall sidewalk

87

87.5

88

86

86

94

93

92

91

86

94

93

92

wall top

89

88

90

92

92

94

94

90

90.5

92 89

88

wall top level at 94'

90

89

89.5

90

sidewalk slopes 86' to 90' over distance of 230'

88 86

CLAYTON RESIDENCE

A'

91 90

94' 4"

rising grade around curve to end pillar 92

A

Lot 12, Block 1803 Street: 191 S. Finley Ave Municipality: Bernards Township, County of Somerset, State of New Jersey

87

87

Scale:

I HEREBY CERTIFY THAT I HAVE PREPARED THIS PLAN AND THAT ALL DIMENSIONS AND INFORMATION ARE ACCURATE.

CAD BACKGROUND INFORMATION IS BASED ON A SURVEY PROVIDED BY YANNACCONE, VILLA AND ALDRICH, LLC CIVIL ENGINEERS, LAND SURVEYORS AND PROFESSIONAL PLANNERS ENTITLED "LOT DEVELOPMENT PLAN", DATED 2.22.2013 AND SIGNED 3.21.2013. YANNACONE LAND SURVEYING - LAND PLANNING 450 MAIN STREET, PO BOX 459, CHESTER NEW JERSEY 07930 PHONE: (908) 879-6646 FAX (908) 879-8591

CLA1-C-101 AS

Checked By: Sheet:

0

Scale: 3/32

30

60

90

May 28, 2013

ANTHONY SBLENDORIO CERTIFIED LANDSCAPE ARCHITECT NJ LIC. NO. 21AS00086500

DATE

3/32

Project Number: Drawn By:

LA-1.1

BIERGARTEN

park design

sparta nj

Kjirsten Alexander with Mike Scholtz and Seth Pearsoll for Back to Nature Home and Gardens

outdoor restaurant design

LA PROPOSED PERGO

48'

EXISTING FENCE h fence new gate throug

PLANTER SET v

custom circulation, seating, lighting and planting plan private client AutoCAD • Illustrator • Sketchup

purpose: tools:

urban forestry

project type:

ON SAND 3/8 PEA GRAVEL

ST. MORITZ BAR & GRILL OUTDOOR DINING ADDITION SEATING FOR 70 PEOPLE

little leaf linden

design build

proposed seating, circulation, planting and lighting plan

59'

TOTAL NEW IMPERVIOUS COVERAGE DOES NOT EXCEED 3,000 SQ FT. PEOPLE SEATING FOR 70

well lighting

Revisions: Date:

reclamation

TREE PIT

Description:

PLANTER SET III

PLANTER SET i

log bench

planting design

fire pit

PLANTER SET iI BOOTH SEATING new doorway PLANTER SET iv

0

4'

2'

existing conditions

3 8"pea

8'

16'

Scale: 1/4"=1'-0"

well lighting

GRAVEL AREA

ter station HOST DESK / compu

urban design

4' 5' 6"

zelkova 13' oc

PLANTER PLANTER MODULE MODULE I (16 total) I (16 total)

planter MODULE planter MODULE ii ii (2 total) (2 total)

22.5"

4' 4'

ST. MORITZ BAR & GRILL 9 WHITE DEER PLAZA SPARTA, NJ

host desk host desk PLAN VIEW PLAN VIEW

PLANTINGS PLANTINGS PERENNIAL PERENNIAL 1-2' HEIGHT 1-2' HEIGHT

22.5"

4'

4' 3' 8"

2' 9"

2' 9"

2' 9"

8'

END

2' 9"

2' 6"

END

19.5" 19.5"

19.5" 2' 6"

23"

19.5"

PLAN VIEW PLAN VIEW

INSIDE SECTION' INSIDE SECTION'

12"

8'

2' 6"

3/8

3/8

16"

16" 4"

16"16"

16" 16"

16" 16"

16"

16"

16"

16" 2' 6"

2' 6"

16" 16"

16" 16"

16" 16"

16"

4"

32'

7' 1"

2' 6"

PLANTER set PLANTER set II II 3 modules3(I) modules (I)

4"

2' 6"

24'

2' 6"

2' 6"

2' 6"

2' 6"

PLANTER MODULE I (16 total) ST. MORITZ ST. MORITZ BAR & GRILL BAR & GRILL OUTDOOR OUTDOOR DININGDINING ADDITION ADDITION

7' 1"

40'

planter MODULE ii (2 total)

40'

PLANTER set PLANTER set III III 5 modules5(I) modules (I)

support beam support 2" cross 2" x 2" cross 2" xbeam

host desk PLAN VIEW

PERENNIAL PLANTINGS 1-2' HEIGHT

DETAIL DETAIL DRAWINGS DRAWINGS

22.5"

4' 4' 3' 8"

x 6" clear cedar 2" x 6" clear 2" cedar

2' 6"

2' 6"

2" x 2" support 2" x 2" support 8'

4" x 4" post 4" x 4" post

4'

2' 6"

PLANTER set PLANTER set V V 3 modules3(I) modules (I) 2 modules2(II) modules (II)

2' 6"

19.5"

OUTSIDE 4'

19'

2' 9"

Revisions: Revisions: 2' 6"

2' 6"

2' 6"

Date:

8'

2' 6"

3/8

3/8

Description: Date: Description:

top of soil

4"

INSIDE SECTION'

geotextile fabric lava rocks geotextile fabric steel mesh base SITS 20" from planter top 4" x 4" post 2" x 2" support

12" 4"

4"

16"

16"

16"

16"

16"

booth seating booth seating PLAN VIEW PLAN VIEW

planter SETS 32'

PLANTER set I 4 modules (I)

modeling

8.5"

fire pit - fire - log bench log pit bench

2'

5' 8"

1/4

1/4

24'

VARIES

2'

23"

PLAN VIEW

2' 6"

24'

PLAN VIEW PLAN VIEW

19.5"

log end veneer to match log benches

2' 6" 2' 6"

2' 6"

END

2' 9"

4'

19'

cutom bench - planter details

3/8

3/8

4'

8'

PLANTER set PLANTER set IV IV 1 module 1(I)module (I)

custom log bench detail VARIES

PL-1.0

32'

PLANTER set PLANTER set I I 4 modules4 modules (I) (I)

basemesh base steel meshsteel

Sketchup rendering

Sheet:

mapping analysis

4"

8'

AS

Checked By:

5'

planter SETS planter SETS

16"

4" 8'

MS - ka ms

Drawn By:

- prune existing honey locust

24'

PLAN VIEW PLAN VIEW

3/8

existing light pole ) (replace fixture

fabric fabric geotextilegeotextile lava rockslava rocks fabric fabric geotextilegeotextile basemesh base steel meshsteel top planter top 20" from SITS 20" from SITSplanter 4" x 4" post 4" x 4" post 2" x 2" support 2" x 2" support

4" 8.5" 4"

JUNE 2013 varies

Scale:

Project Number: SMR1-D-101

2' 6"

top of soiltop of soil

12"

4"

Date: 5' 8"

to veneer to log end veneer log end benches log benches match logmatch

4"

8.5"

21' 6"

5' 8"

3/8

4"

3' 8"

23"

fire exit

climate adaptation

OUTSIDE OUTSIDE

2' 6"

24'

PROFILE VIEW PROFILE VIEW

4'

4'

NTS

PLAN VIEW

16"

2' 6"

16"

16"

16"

16"

PLANTER set II 3 modules (I)

NTS 4"

2' 6"

7' 6"

2' 6"

7' 6"

8'

5.5" 2.5"

5.5" 2.5"

2'

2'

VARIES

2' 4' 6"

2' 3' 6"

4' 6" 1' 6"

7.5"

7.5"

22.5" 17"

3' 6"

17"

20"

20"

24" 19'

2' 9"

2' 6"24"

Scale: 2'

PLANTER set III 5 modules (I)

2" x 2" cross beam support Date:

2'

Date: JUNE 2013 varies Scale:

DETAIL DRAWINGS 2' 6"

2" x 6" clear cedar

JUNE 2013 varies

2' 6"

2" x 2" support

Project Number:Project Number: SMR1-D-101 SMR1-D-101

4'

8'

13' 6"

CUSTOMCUSTOM LOG BENCH LOGWITH BENCH CEDAR WITH CEDAR PLANK SEATING PLANK SEATING SURFACESURFACE

NTS

NTS

13' 6"

3/8

3/8

3/8

Drawn By:

MS - KA Drawn By:

MS - KA

Checked By:

ES Checked By:

ES

Sheet:

Sheet:

ST. MORITZ BAR & G OUTDOOR DINING ADD 40'

2' 9"

2' 6"

19'

2' 6"

steel mesh base

4" x 4" post

PLANTER set IV 1 module (I)

PL-1.0 PL-1.0

3/8

3/8

VARIES

fire pit - log bench

2' 6"

PLANTER set V 3 modules (I) 2 modules (II)

4'

19'

Revisions: 2' 6" 2' 6" 2' 6"

24'

Date: 1/4

drawings

1' 6"

22.5"

7' 1"

4"

ST. MORITZ ST.BAR MORITZ & GRILL BAR & GRILL 9 WHITE DEER 9 WHITE PLAZA DEER PLAZA SPARTA, NJ SPARTA, NJ

VARIES

Description:

DESIGN / BUILD

OUTDOOR LOUNGE CHAIR Kjirsten Alexander

design - build

design - modeling - construction design-build elective class • spring 2011 AutoCAD • hand drawing • japanese pull saw

project type: purpose: tools:

VERSION II (constructed):

The Puzzle Chair evokes the Adirondack chair with modified angles, minimal hardware and greater simplicity. One goal was for the chair to be easily assembled and dismantled. The pieces slide into place and lock together cleanly, joined with little or no hardware, using intersecting triangles that reinforce one another and distribute stress. The joinery relies on precise angled slots cut with simple hand tools.

park design

The Cocoon Chair was originally conceived of as a ground chair. That design element remained constant throughout the sketching and modeling process.

urban forestry design-build reclamation planting design urban design climate adaptation mapping analysis renderings

The chair’s oversized scale, low platform, high solid back and asymmetrical side provides shelter from wind, creates a semiprivate space that envelopes the sitter, and allows for various free-form sitting positions.

modeling

VERSION I

RECLAMATION

COALSCAPE

reclaming the new appalachian plateaus Kjirsten Alexander

reclamation research, analysis and design thesis project spring 2012 - advisor C. Seavitt Adobe Illustrator • Photoshop • InDesign ArcGIS • hand sketch

project type: purpose: tools:

Coalscape is a research investigation and design proposal to improve outcomes for mountaintop coal mine reclamation in Appalachia. Coal will produce energy for the foreseeable future, but we must manage the consequences of extraction with much greater care. A more holistic understanding of the context, the mining process and its impacts will lead us to sensitive, integrated solutions.

climate adaptation

MAT PATCHES

urban design

mapping analysis

modeling

drawings

SPONGE PATCHES

planting design

OASIS PATCHES

reclamation

FLYWAY PATCHES

PREVAILING WINDS

SLOPE

TRIANGULATION

design build

ASPECT

urban forestry

TOXIC POOLS

park design

PATCH INTERVENTION SITING

COALSCAPE Kjirsten Alexander

0-5 years: patch establishment

5-10 years: patch development

Mining itself is a sequential process, and what follows in its footsteps must be a serial solution, designed to undergo succession.

10-20 years: merging patches

20-50 years: emerging ecologies

50+ years: evolving ecologies

park design urban forestry design build reclamation planting design urban design climate adaptation

5-10 years: patch development

10-20 years: merging patches

20-50 years: emerging ecologies

50+ years: evolving ecologies

mapping analysis

0-5 years: patch establishment

modeling drawings

HYDROLOGIC ANALYSIS

COALSCAPE

COALSCAPE: reclaiming the new Appalachian plateaus

VIEW

channel-pool chain (existing post-reclamation conditions)

COALSCAPE: reclaiming the new Appalachian plateaus

Kjirsten Alexander

MINED MINED

TERRACE - POOL

form and phytoremediation

COALSCAPE: reclaiming the new Appalachian plateaus post mining conditions

UNMINED

GOALS:

series of sedimentation - phytoremediation cleansing pools flood control

0-5 years: patch establishment

5-10 years: patch development

exploration of surface flow logic reveals fractured runoff patterns in mined compared to unmined areas

10-20 years: merging patches

10-20 years: merging patches

Hydrology links ecological, social and health impacts. Ecologically important headwater streams start at the mountaintops; reclamation must manage erosion and flooding from the top down. At each level of the new valley fill different plant communities create habitat, stabilize soil and treat runoff in stages.

STABILIZED TERRACE STABILIZED TERRACE

SERIAL POOL SERIAL POOL Pteris vitata Brake Fern phytoextraction: As

Pteris vitata Brake Fern phytoextraction: As

Schoenoplectus robustus sturdy bulrush volatilization: Se high salinity

Eichhornia crassipes Water Hyacinth phytoextraction: Hg

sedimentation phytoremediation flood control

Jute mat stabilization

Ajuga reptans Bugelweed stabilization

erosion control

Liriope spicata Li stabilization

SERIAL POOLS:

VALLEY FILL

PHYTOREMEDIATION

section/plan - vegetation texture and pattern

EROSION CONTROL

PHYTOREMEDIATION FLOOD CONTROL HABITAT HOPE

FLOOD CONTROL HABITAT

POST-VALLEY FILL SECTION

design build

PRE-MINE VALLEY SECTION

urban forestry

FINISHING POOLS:

park design

OASIS - CATCHMENT: STABILIZED TERRACE:

reclamation planting design urban design climate adaptation mapping analysis

ilyturf

modeling drawings

The textural plan evokes merging patches and successional pools on a valley fill. The pattern reveals itself in glimpses from the ground, while from above the reclaimed mine appears as a distinctive human mark: a geoglyph of the fossil fuel era.

PHYSICAL / DIGITAL MODELING

MODELING

PHYSICAL MODELING

Kjirsten Alexander

Hobet 21 Mine scale and perspective study

Hobet 21 Mine terrain and hydrologic analysis

urban forestry

CONTOURS

park design

DIGITAL MODELING

design build planting design

FLOW ACCUMULATION

reclamation

FLOW DIRECTION

urban design mapping analysis

SHADED RELIEF

climate adaptation

DIGITAL ELEVATION MODEL

modeling drawings

ASPECT

MODELING

PHYSICAL MODELING

Kjirsten Alexander

erosion - deposition study

8”

10”

10”

8”

Multi Scale Hydro-Morphology

park design

mining choreography exploration

urban forestry design build

reclamation planting design

urban design

climate adaptation

mapping analysis

modeling

drawings

MODELING

PHYSICAL MODELING

Kjirsten Alexander

Jamaica Bay water tank study models JAMAICA BAY TOPOBATHY MODEL dimensions: scale: material: technique:

36” x 36” 1:24,000 (1” = 2,000’) horizontal / 1:600 (1” = 50’) vertical medium density fiberboard (3 ply, 1” thick) computer numerical control (CNC) machine milled

This continuous-surface full bay topobathy model was used to study the entire system of hydrologic flow and water movement in Jamaica Bay. Tidal cycles and surges are simulated to examine flow in and out of the Rockaway Inlet as well as overtopping of the Rockaway Peninsula. Injected dye studies are used to examine residence time, particularly near the deep borrow pits at Grassy Bay, Norton Basin, and Little Bay.

park design

urban forestry design build

reclamation planting design

urban design

climate adaptation

mapping analysis

modeling

Jamaica Bay topobathy model, detail of Breezy Point and Rockaway Inlet, looking north-east

drawings

MODELING

PHYSICAL MODELING

Kjirsten Alexander with CCNY Jamaica Bay Team

Jamaica Bay water tank study models

EDGEMERE FLUSHING TUNNEL STUDY dimensions: scale: material: technique:

24” x 24” 1:12,000 (1” = 1,000’) horizontal / 1:1,200 (1” = 100’) 1/8” medium density fiberboard glycerin soap cast from laser-cut topographic contour model

The eastern end of the Rockaway Peninsula, including the communities of Edgemere and Far Rockaway, and the eastern reaches of Jamaica Bay, including Grassy Bay and Head of Bay, face many challenges. This study examines the possibility of transforming hydrology and improving water exchange from the bay to the ocean through the use of below-grade mechanized flushing tunnels.

Extracting soap cast from mold quadrants

Edgemere Flushing Tunnel water tank study, video stills

Jacob Riis Overwash water tank study, video stills

park design

JACOB RIIS OVERWASH STUDY dimensions:

material: technique:

24” x 24” 1:12,000 (1” = 1,000’) horizontal / 1:1,200 (1” = 100’) 1/8” medium density fiberboard glycerin soap cast from laser-cut topographic model

urban forestry

scale:

design build

Jacob Riis Park, developed by NYC Parks Commissioner Robert Moses in 1932, includes a public beach, bathhouse, and enormous parking lot now managed by the National Park Service. This study examines the possibility of a designed overwash plain delimited by low earthen berms, allowing for the exchange of water between the ocean and the bay during extreme high tides and storm events. This exchange would add to the delivery of sediment to Jamaica Bay, nourishing the salt marsh islands.

reclamation

Jacob Riis Overwash water tank study, detail

planting design urban design climate adaptation mapping analysis modeling drawings

park design

urban forestry design build

reclamation planting design

urban design

climate adaptation

mapping analysis

modeling

drawings

Merged topobathy Digital Elevation Model (DEM)

MODELING

DIGITAL MODELING

Kjirsten Alexander

SLOSH inundation modeling: Jamaica Bay WITHOUT INTERVENTIONS TIME PERIOD

2055

100 YEAR BASE FLOOD

HOWARD BEACH

1990 2025 2055 2090

17 IN

01 100 2500 500

Interpolated water surface overlaid with digital elevation model

10 YR 50 YR

10%

AVERAGE RETURN PERIOD

SLOSH data elevation points

PROBABILITY OF EXCEEDANCE

ESTIMATED LOCAL SEA LEVEL RISE (50% PROBABILITY OF EXCEEDANCE)

40%

TIME PERIOD

PROBABILITY OF EXCEEDANCE

HOWARD BEACH 1990

2025

2055

2090

10 YR 50 YR

park design

SURGE INUNDATION MATRIX

1 YEAR

10%

100%

design build

100 YEAR BASE FLOOD

urban forestry

90%

reclamation

40%

500 YEAR

modeling

02%

mapping analysis

0.4%

climate adaptation

10%

2500 YEAR

urban design

AVERAGE RETURN PERIOD

planting design

02%

17 IN

7.5 IN ESTIMATED LOCAL SEA LEVEL RISE (50% PROBABILITY OF EXCEEDANCE)

33 IN

drawings

—

HAND DRAWING / ARTWORK

HAND DRAWING Kjirsten Alexander

Study of geologic formations at multiple scales (2009)

park design

urban forestry design build

reclamation planting design

urban design

climate adaptation

mapping analysis

modeling

drawings

Central Park Ramble sketch (2012) Medium: graphite on paper Actual size: 9� x 12�