Landscape Architecture Portfolio by Gabbi Salvemini

google SketchUp Planning Guidelines Pompeii & Paestum research assistant camp counselor Illustrator InDesign Photoshop Planting design Walt walters Courtyard Backpacking Zanzibar, Tanzania Cliff Jumping State College Lemont, PA Philadelphia Site Analysis Data Interpretation Waterfall Climbing Fallingwater StormKing Longwood Gardens Mt. Cuba Center Washington D.C. New York City Pittsburgh Baltimore Stormwater Design Spring Creek Canyon Suitability Analysis

camp counselor

Udzungwa Mountains Illustrator Landscape architecture Rome, Italy InDesign Sustainable Design Landscape architecture Photoshop Florence, Italy Design SunburySustainable Vacancy PlantingIreland design Sunbury Vacancy Dublin, Dreamfield Walt walters Courtyard Dreamfield Italy Geography Siena, Backpacking Geography CEC Design Urban Design Zanzibar, Tanzania Mapping CEC Design Cliff Jumping Excellence GIS Departmental Mapping Tundu State College Regional Planning Dredging Lemont, PA GIS Cross Country autoCAD Philadelphia Environmental inquiry Tundu Information SystemsSite Analysis LASS St. Peter’s Basilica Dredging Interpretation Cinque Terre, Italy Data Soccer Cross Country Paris, France Waterfall Climbing SketchUp Mangu’la google Tanzania Fallingwater Environmental inquiry Kisawasawa Planning Guidelines StormKing Italy InformationVenice, Systems Galway, Ireland Longwood PompeiiGardens & Paestum St. Peter’s Basilica London, England Mt. Cuba Center research Community Planningassistant Cinque Terre, ItalyWashington D.C. Revelatory Design camp counselor Stonehenge New York City Paris, France Barcelona, SpainIllustrator Pittsburgh MikumiTanzania National Park Mangu’la Baltimore Ridge and Valley System InDesign Kisawasawa Udzungwa Mountains Stormwater Design Photoshop Rome, Italy Venice, ItalySpring Creek Canyon Florence, Italy Planting design Dublin, Ireland Galway, IrelandSuitability Analysis Siena, Italy Walt walters Courtyard London, England Urban Design Departmental ExcellenceBackpacking Community Regional PlanningPlanning Tanzania autoCADZanzibar, Revelatory Design LASS Cliff Jumping Soccer Stonehenge google SketchUp State College Barcelona, Spain Planning Guidelines Lemont, PA Pompeii & Paestum Mikumiresearch National Park assistant Philadelphia camp counselorSystem Ridge and Valley Illustrator Site Analysis Udzungwa Mountains InDesign Data Interpretation Photoshop Rome,Planting Italydesign Waterfall Climbing walters Courtyard Florence,Walt Italy BackpackingFallingwater Tanzania Dublin,Zanzibar, Ireland Cliff Jumping StormKing Siena, Italy State College Lemont, PALongwood Gardens Urban Design Philadelphia Mt. Cuba Center Site Analysis Excellence Departmental Data Interpretation Washington D.C. Regional Planning Waterfall Climbing New York City Fallingwater autoCAD StormKing Pittsburgh Longwood Gardens LASS Mt. Cuba Center Baltimore Washington D.C. Soccer New York CityStormwater Design google SketchUp Pittsburgh Spring Creek Canyon Baltimore Planning Guidelines Stormwater Design Suitability Analysis Spring & Creek Canyon Pompeii Paestum Suitability Analysis research assistant camp counselor Illustrator InDesign Photoshop Planting design Walt walters Courtyard Backpacking Zanzibar, Tanzania Cliff Jumping State College Lemont, PA Philadelphia Site Analysis Data Interpretation Waterfall Climbing Fallingwater StormKing Longwood Gardens Mt. Cuba Center Washington D.C. New York City Pittsburgh Baltimore Stormwater Design Spring Creek Canyon Suitability Analysis

2008-2013

Landscape architecture Sustainable Design Sunbury Vacancy Dreamfield Geography CEC Design Mapping GIS Tundu Dredging Cross Country Environmental inquiry Information Systems St. Peter’s Basilica Cinque Terre, Italy Paris, France Mangu’la Tanzania Kisawasawa Venice, Italy Galway, Ireland London, England Community Planning Revelatory Design Stonehenge Barcelona, Spain Mikumi National Park Ridge and Valley System Udzungwa Mountains Rome, Italy Florence, Italy Dublin, Ireland Siena, Italy Urban Design Departmental Excellence Regional Planning autoCAD LASS Soccer google SketchUp Planning Guidelines Pompeii & Paestum research assistant camp counselor Illustrator InDesign Photoshop Planting design Walt walters Courtyard Backpacking Zanzibar, Tanzania Cliff Jumping State College Lemont, PA Philadelphia Site Analysis Data Interpretation Waterfall Climbing Fallingwater StormKing Longwood Gardens Mt. Cuba Center Washington D.C. New York City Pittsburgh Baltimore Stormwater Design Spring Creek Canyon Suitability Analysis

undergraduate portfolio

Pr oj ect locat i o n s + p laces t rav e l e d dredgescape social change community analysis implementation concept and presentation urban design shifting landscape

1 11 17 21 25 27 31

toledo, oh baltimore, md tundu, tanzania rome, italy philadelphia, pa

Gabriella Salvemini e: gabbi.salvemini@gmail.com p: (610) 657 6464

dredgescape toledo, oh fall 2012 professor sean burkholder

0 -25

u Kc 50

.yd -95

ontario

erie michigan/huron

superior

u Kc

.yd

0 <5

d u.y

st. lawrence

chicago

duluth

The most visible product of dredging is the CDF, or confined disposal facility. Negatively perceived as a dumping ground for contaminated river sludge, these facilities often offer waterfront acreage that becomes home to wildlife communities. In order to change how people view dredge containment and reduce pressure on existing CDFs, the mainland and lake are explored as potential containment sites and designed to encourage use by the public. Visual connections are made to both the river and lake, while specific planting schemes link to what was and is the condition of the boundary between water and land.

d u.y

Annual dredge volumes for major ports in the Great Lakes. Toledo dredges the largest volume out of all Great Lakes ports due to its location in the Western Basin of Lake Erie.

detroit toledo cleveland buffalo

Dredging is a necessary part of Great Lakes ports, but is often viewed negatively in the landscape. These designs aim to connect people to the physical manifestations of dredge, so they can understand why this process performs a positive function.

toledo

international park

toledo harbor light

v e fl o nati

y gob se no

y lampre ia n watermilfo il euras

rou n d

s ea

z e br

p hragmites

purple loosestri fe

ure

2013

1800

ree d canary g rass

a ggressive mon ocult

s se l

fl o r

Focusing on freighters as a direct result of dredging and invasive species as the indirect result of these activities, purposeful design moves help people recognize hidden connections and become further informed on how dredging fits into their contemporary landscape.

toledo harbor light

invasive species of the great lakes

escape routes surrounding elevation sun exposure open area to bed

Primary Reproduction Method e

rhiz

d see

frag

ers

g veli

Habitat tic

a aqu

tla we

Nutrient Absorbtion

ats

ic m

at aqu

ded

ra deg

niz

colo

Growth Pattern th

row

id g

rap

ity

ens

hig

ility

iab

see

site masterplan

hunter and research access

research access

public access

site elements + environmental conditions

island 1

island 2

island 3

Each of the three islands are unique in purpose and user group; the latter two focusing on research possibilities. These islands utilize lake and bay currents to move necessary water through the created system.

lake cu

rrent

prevailing winds bay cur

rents

wetland

bay

stream

topography

landscape

deer

small animal

wildlife

birds

native

invasive

vegetation

dock

stone dike

observation tower

structure

view towards Toledo Harbor Light

microhabitats

filtration

monitoring

deer habitat

invasive control methods

view of access ramp

international park Dredge containment as a primary goal helps reduce the pressures on CDFs and prevent open lake dumping. The design offers a topographic experience within the city of Toledo.

Site features Recreation path

Accessibility: full Purpose: walking/running Materials: gravel base

Public mound(s)

Accessibility: partial Purpose: recreation, views to skyline Materials: gabion retaining walls, dredge 3 Amount of dredge contained: 158,336.5 y

2 4

Elevated walkway

Accessibility: full Purpose: recreation, views to skyline Materials: concrete, steel I-beam support

Aesthetic mound

Accessibility: none Purpose: visual interest, dredge retainment Materials: sheet pile retaining walls, dredge 3 Amount of dredge contained: 156,832.3 y 3

Functional mound

Accessibility: none Purpose: dredge containment Materials: sheet pile retaining walls, dredge 3 Amount of dredge contained: 381,724.3 y

Total Contained Dredge Material: 696,893.1 y3 Dewatered Dredge volume/year: 360,000 y3

Focusing on containment of dredge, this project utilizes an existing park that faces change due to implementation of a CSO system. Pulling inspiration from the adjacent Maumee River and subtle topography of the area, the design seeks to create an abstracted canyon that houses native meadow and forest species and incorporates interaction and play for the residents of Toledo. A viewing platform sits high above existing grade, offering panoramic views of the Toledo skyline, while sloping hills create space for all season play. Utilizing materials reminiscent of the waterfront, the canyon offers a space for people to interact with topography in a way not found in the region. 0

62.5 125

N Scale

250â&#x20AC;&#x2122;

view of canyon

7’ 6’ s egmented wall 2’ gabion

10’ wide pathway

1’

5’ 4’ s egmented wall 2’ gabion

120

layer 3

layer 2

dredge layer 1

3’ gravel s etting bed

1’

steel sheet piling to retain dredge gabion walls filled with reclaimed material 1. 5’

2.5’

e ha s

7’ 6’ 5’ 5’ 5’ 4’

8’ F

696,893 cu. yd.

La s

368,000 cu. yd.

Construction process

tp ha se

Volume contained

irs

Annual dredge

NTS

7 layers maximum

Overall dimensions

Height of mounds 40’ public

social change baltimore, md

St. Aiken

St.

Focus is placed on pollinator habitat through use of key native plant species that fit the environmental context. Local residents help to grow these plants utilizing a backyard system; the plants are then transferred to the vacant lot, tying local efforts to local improvements. Implementing a system that is adaptable to different vacant lot contexts, this design can help create habitat that helps improve the lives of people and the health of the city.

Hope

Vacancy is often seen as a blight on a neighborhood, but it offers opportunities to improve both social and biological systems within a local population. This project joins these two features by connecting residents to the improvement of their vacant land and using biologically appropriate species in the design.

E. North Ave.

Aisquith St.

spring 2011 professors larry gorenflo and barry kew

E. Lafayette Ave.

vacant lot locations

preparation for design : city • clean lot • deep rip 18” of soil • incorporate organic matter into tilled soil

• outline planting bed in brick

• plant city and resident grown plants

• use reclaimed wood for benches

wer

d Wee

yearly maintenance community garden in lot

beginning of growing season : residents • till under cover crop in raised planters • plant resident grown annuals

community management

end of growing season : residents • deadhead perennials • remove annuals • plant cover crop in raised planters

a d•

rig

• weed

begin year 4

Coneflo

r fly

phase 4: connect

Beebalm

e Butt

begin year 2

Chi ves Personal garden planters are provided to local residents who have two cells to Cgrow their ommo n Aand lumroo own produce and one to grow annuals t perennials for placement in the vacant lot.

Purple

phase 3: expand

resident-grown plant use

design in public sphere

site specific plant selection

compost program

design implementation

begin month 6

maintenance

phase 2: implement

implementation of design : city + residents

home gardening program

remove invasives

clean lot

phase 1: establish

social systems

biodiversity

public perception

• remove annuals

Greenmount Cemetery

Clifton Park

Suburbs

Frank C. Bocek Park

• deadhead perennials

Patterson Park

enia

Berg

Federal Hill Park

community management

end of growing season : residents

Vacant Land

• weed

City Springs Park

• plant resident grown annuals

ual

ann

Druid Hill Park

Sage

Su n

pin gp

dro ps

hlo x

Leakin Park

•a

Cr ee

ste r

Ne w

old

rig

• till under cover crop in raised planters

conne ctio n

full sun part sun part shade shade

Common Yarrow

u al

En gla

an n

nd A

ar •

begin year 4

• plant cover crop in raised planters

Periwinkle mar. may july sept.

pollinator

bloom time

common name

shade reqirement

full sun part sun part shade shade

zone 1

gravel rip soil existing soil

zone 1

zone 4

views views

Suburbs

Greenmount Cemetery

Clifton Park

Druid Hill Park

planting mix

zone 4

zone 2

zone 1

residential yard\access

planting bed

site plan

bench circulation

A Frank C. Bocek Park

circulation zone 1

zone 4

zone 3

Patterson Park

compost bins

fence post

zone 4

zone 3

zone 2raised planters

Vacant Land

zone 2

City Springs Park

zone 3

Inner Harbor

raised planters

fence post

zone 3

Federal Hill Park

Common Yarrow

shadows shadows

most constraining

Sage

dro ps Sun

gathering area

planting bed

circulation

bench planting bed

A A

division division of space of space 8’

8’ 30’

30’

10’ 40’

40’

10’

zone 3

full sun

zone 2

circulation circulation

zone 1

shade

zone 4

10’

least constraining

10’ 40’

streetscape

40’

streetscape

30’

public gathering

8’ 30’

public gathering

streetscape

semi-private

streetscape

semi-private

8’

least constraining

high vegetation: 2-3’

shade

full sun

medium vegetation: 1-2’

bench circulation

gathering area

planting bed

high vegetation: 2-3’

shade

full sun

medium vegetation: 1-2’

circulation

bench planting bed

zone 4

planting bed

zone 3

residential yard\access

zone 2

low vegetation: 0-1’

zone 1

Cr ee

hlo

•a

Leakin Park

old

g ari

s•

leu

phase 4: connect

d Wee

er fly

community garden in lot

mb’s E

me hy

ent vem mo

eflower

Butt

habitat

shade reqirement

beginning of growing season : residents

hea lth

ta os

Con Purple

Alyssum • annual

Geranium

an Sus

gT pin

nde Lave

yed

attraction

begin year 2

common name

Inner Harbor

blic sphere

wn plant use

plant selection

ogram

ementation

yearly maintenance phase 3: expand

tion llina po

bloom time

d Wee

erfly

E ck Bla

oil

mar. may july sept.

pollinator

wer

Butt

The plant list is specifically catered to pollinator Co m species, aiming to mon Sp ee create a patchwork dwell Chiv habitat across the es mon A lumroot neighborhoodComscale and ultimately theBeebalm city scale.

Periwinkle

Beebalm

neflo rple Co

mix

• use reclaimed wood for benches

ocial ystems

ter As nd gla En

rad

Periwinkle

Beebalm mar. may july sept.

sept. nov.

month

name

plant time bloom time harvest sowing

Purple

pollinator

wer

Coneflo

Butt

bloom time

common name

shade reqirement

full sun part sun part shade shade

eed fly W

• weed

clove

al x

Sage

s rop Sun d

ri Ma

ph lo

Vegetables: cultivated by residents in own backyard and community garden

n •a

Common Yarrow

r ye

• plant resident grown annuals

ter win

Berg

mroot

vegetables type

nn •a

enia

on Alu

broccoli

leu

pin g

• till under cover crop in raised planters

Comm

ual

Cr ee

r ti

ish es

carr ots

turnips

potatoes

ion rop cover c

an mp co lds

stu

b’s

ell

beginning of growing season : residents

Lam ual

ann

maintenance

Ear •

ers

sta

ves

mar. may july

bell pepp

• annual

eggplant

der

• use reclaimed wood for benches

n Lave

oes

Chi

onion

• plant city and resident grown plants

usa

resident-grown plant use

tomat

pea

ttuc

rig

implementation of design : city + residents le

ts ee

rs mbe uyearly cuc

Eye

gre

uts

• outline planting bed in brick

o el spr

rd lla

okr

• incorporate organic matter into tilled soil

Geranium

• deep rip 18” of soil

Bla

br uss

• clean lot

Alyssum

home gardening program

preparation for design : city

Herbaceous annuals and perennials: cultivated by residents and planted in vacant lot

The planting plan is responsive to environmental needs of the site, while inexpensive materials like gravel and reclaimed wood boards complete the design. Recycled bricks outline planting beds for visual distinction in the winter and ease of planting in the spring.

community analysis tundu, tanzania summer 2011 professors larry gorenflo and brian orland Completed as a group effort in rural Tanzania, this project analyzed the planning guidelines and development strategies in the small village of Tundu. The village is currently locked between environmental issues born from close proximity to a national park and population pressures due to adjacent sugar cane fields. In order to develop possible solutions, I investigated residential development, while my group member analyzed public infrastructure; this culminated in an informed overall development plan for the village. Analysis of current residential development patterns and guidelines led to a series of self-developed guidelines that intend to reduce the anthropogenic pressure on the landscape and allow for rising population to be accommodated in the village. reduced development residential development public infrastructure development Development plan for the village created utilizing combined analysis of transportation and development infrastructure.

site analysis locations

hillside

Structures House Kitchen Latrine Animal Pen Office School Market/Shop Eating Establishement Workshop Kiosk Bus Stop Cell Tower Recreation Foundation Graveyard Religious Building Church Nursery School Storage Unknown

Roadways

stream adjacency

high density residential

Local Road Main Path Main Tarmac Road Old Railroad Path

valley

PLOT COVERAGE 45

% 25

sq m 2500

2000

1500

1000

500

0 MEDIUM DENSITY

HIGH DENSITY

VALLEY

STREAM ADJACENCY

HILLSIDE

HIGH DENSITY RESIDENTIAL

3000

0 MEDIUM DENSITY

HIGH DENSITY

VALLEY

STREAM ADJACENCY

SET BACKS 12

LOW DENSITY

HILLSIDE

3500 LOW DENSITY

4000

HIGH DENSITY RESIDENTIAL

PLOT SIZE

HIGH DENSITY

LOW DENSITY

MEDIUM DENSITY

STREAM ADJACENCY

HILLSIDE

VALLEY

0 HIGH DENSITY RESIDENTIAL

40 4500

Existing conditions are compared to the stipulations in Tanzania’s planning guidelines, highlighting the discrepancies between reality and the desired.

30% reduction in land

plan nin g

6|3|1

Residential Lots 15 | 11 | 5

g in

Valley

ex ist

95% land available for agriculture

guid posed 2 |e2lin| e0s pro es lin Residential Lots 8 | 6 | 2 de i u

g in

tions ndi co

plan nin g

10m. stream buffer

propose dg u ide lin

guideline posed s pro s e lin de ui

tions ndi co

High Density Residential Stream Adjacency

Residential gLots g 15 | 11 | 5 es lin de ui

existing con dit ion g

plan nin

propose dg u ide lin

6|3|1 s

g es lin de ui

existing con dit ion

plan nin g

2|2|0 Residential Lots 8 | 6 | 2

Proposed planning guidelines are compared to existing and stipulated conditions, keeping in mind environmental needs and the efficient use of space.

Hillside

reduction in leased land inclusion of forest

ex ist

implementation grading, materials, planting design 2010-2012 Being aware of the construction of design is as important as design itself. Education in planting design, grading, and materials have helped to create more well informed and feasible designs throughout studio classes. Application of grading techniques help to inform realistic design moves in academic projects, while awareness of materials construction and formation of ecosystems through planting design guide specific details of each project.

concept and presentation hand graphics 2010-2013 My graphic type and style is often dependent on the stage of a project and the style of a design. Conceptual and preliminary design work is completed by hand to quickly explore a variety of ideas and communicate them to others. Limited use of color often accompanies this form of representation. On a limited number of projects, hand graphics are used in the final stages of representation; shown here is a portion of a final site plan completed in 2010. While hand graphics are not the primary means of visual communication in my current work, they still have the potential to be utilized.

urban design Church

rome, italy

The design began with a detailed analysis of site context and looked at the potential needs of people who currently use the space. The local community utilizing the basilica, college building, and restaurants are the primary subjects in the design, motivating the creation of a shaded seating network. Vehicular access is a secondary consideration within the space, no longer dominating all available pavement. The design seeks to bring back pre-vehicular uses of piazze, responding to historic context and contemporary needs of the city.

Restaurants

Basilica

Librar y

When designing in a historic landscape, careful attention must be paid to site context. Located along via dei Coronari in Rome, Italy, this design project focuses on three piazze.

University Building

fall 2011 professor luca peralta

Analysis and concept diagram

site masterplan

2 1

1 2 3

piazza di santâ&#x20AC;&#x2122; apollinare piazza di santâ&#x20AC;&#x2122; agostino piazza della cinque lune

Materials function as a datum within the physically separated spaces: travertine, wood, and sampetrini combine to form seating nodes and a unified walking surface across each site. Planting beds and a canopy of honey locusts shelter visitors and guide movement within the spaces to accommodate the multiple user groups of the site. Unlike the current situation, the design of the piazze emphasizes the predominance of the pedestrian.

The wood bench and gravel surface of piazza di santâ&#x20AC;&#x2122; agostino is inverted in piazza di santâ&#x20AC;&#x2122; apollinare to change the character of each space

shifting landscapes philadelphia, pa spring 2013 professor karen lutsky As part of a combined graduate and undergraduate studio, this project focuses on a 40 ac. vacant lot in North Philadelphia. This historic site of the Wingohocking Creek is now plagued by the many issues brought on by the use of coal ash as fill. The design is responsive to the shifting nature of the coal ash and potential reservations and needs of adjacent community members. Focusing on a series of fixed points to orchestrate site transformation, unique areas develop into focal points that guide experience of the site. Special attention is paid to movement: how people enter, where the main path is sited, and how possible routes are created towards the interior. Perception of residents is targeted through phasing, site organization, and safety measures creating a space that can accommodate historic issues and contemporary uses.

concept development

1: entrance uses old road entrance to expand into a community area for the adjacent neighborhood

diverge

op en

er wand ble ria a v

2: low point capitalizes on low point of the site to shift soil into a series of stormwater retention areas

filter

plays with sun and shade to motivate people to leave the main path and enter the interior

rie

ex pe

3: grove

er wand s ed sh iv ew

4: theater

viewshed onto the main path and interior of the site to watch activity within the space

6: community

transforms into a basketball court and helps to organize the northern community area

barrier noise

activate

m om

play ity un

rac

5: vista

int e

adjacent to neighborhoods and existing church for community performance

tion n ree

media

3: grove

year

1: entrance

2: low point

The site transforms over the course of 30 years, focusing energy on the progression of the fixed points into specific areas of interest. Trees, stormwater retention, and landform manipulation are developed with regard to growth, soil conditions, and site experience.

pUhctekS elgoog senilediuG gninnalP mutseaP & iiepmoP tnatsissa hcraeser rolesnuoc pmac rotartsullI ngiseDnI pohsotohP ngised gnitnalP d r a y t r u o C s r e t l a w t l aW gnikcapkcaB ainaznaT ,rabiznaZ gnipmuJ ffilC egelloC etatS AP ,tnomeL aihpledalihP sisylanA etiS noitaterpretnI ataD gnibmilC llaf retaW r e t a w g n i l l aF gniKm rotS s n e d r a G d o o w g n oL retneC abuC .tM .C.D notgnihsaW ytiC kroY weN hgrubsttiP eromitlaB ngiseD retawm rotS noynaC keerC gnirpS sisylanA ytilibatiuS

e r u t c e t i h c r a e p a c s d n aL ngiseD elbaniatsuS e r u t c e t i h c r a e p a c s d n aL ngisyec Dn ela bac nia atV suSy r u b n u S ycnacaV y rubnuS dlefid mlae erfi D maerD yhpargoeG y h p a rgoeG ngiseD CEC gnippn aM giseD CEC SIG gTnippaM udnu gnigderD y rtnuoC ssoS rCI G y riuqni latnemnorivnE udnuT smetsyS noitam rofnI acilisaB s’ retePg.n tS i g d e r D ylatI ,erreT euqniC ecnay rFr,stin raPu o C s s o r C ugnaM y riuqnaiinlaaazwntaanTsaaewl’m norivnE asiK smyleattI s,eyciSneVnoitam rofnI dnalerI ,yawlaG acdnialligsnEa,Bnodsno’LreteP .tS gninnalP ytinummoC ngiseD y y rloa tatlIev,ee R r r eT e u q n i C enceigannpeaSh,reaFnnootl,eSscirraBaP akrianP laanzonitaaNTimaulk’iuMgnaM metsyS yellaV dna egdiR sniatnuoM a aww gnaus zdaUw a s i K ylatyIyllaa,tteII ,,ececminnoeRreoVlF bulDa G dnaldenraIler,Iy,nailw ylatI ,aneiS dnalnggniseED n,naborUdnoL t rapeD gninnecanlePllgencyixnEtnilaanltPnuelamm noim geRo C ngiseD y roDAtSCaSolAteLuaveR recn coeSh e n o t S eg pUhctekS elgoog seniledin uGi a gnp inS na,lPa n o l e c r a B kmrautPsetnalaPats&nisiisoeapihmtcaoraPN imukiM eser metsySroyleesnluloacVpmdacna egdiR rotartsullI sniatnuoM aw ngg isen Du nI z d U pohsotohP aittnIal,PemoR ngisedygln drayt ruoC sretly aw latltaIW,ecnerolF gnikcapkcaB ainazd nan Ta ,ralbe izrnIaZ, n i l b u D gnipmuJ ffilC egelloy C lea tattSI , a n e i S AP ,tnomeL n g i s eD nabrU aihpledalihP tiS t r a p e D ecnellecxE slisayltannAeem noitaterpretnI ataD ggnnibimniln a n o i g eR C la lalf rP etalW r e t a w g n i l l aF gniKD m rA otSC o t u a snedraG doowgnSoLS A L retneC abuC .tM . C . D n o tr gneihcsacWo S ytiC kroY weN pUhghrucbtstetiPkS elgoog omitlaB sennigleisedDirueetrG gninnalP awm rotS rC gin munotysneaCakPee& ieirppS moP sisylanA ytilibatiuS tnatsissa hcraeser rolesnuoc pmac rotartsullI ngiseDnI pohsotohP ngised gnitnalP d r a y t r u o C s r e t l a w t l aW gnikcapkcaB ainaznaT ,rabiznaZ gnipmuJ ffilC egelloC etatS AP ,tnomeL aihpledalihP sisylanA etiS noitaterpretnI ataD gnibmilC llaf retaW r e t a w g n i l l aF gniKm rotS s n e d r a G d o o w g n oL retneC abuC .tM .C.D notgnihsaW ytiC kroY weN hgrubsttiP eromitlaB ngiseD retawm rotS noynaC keerC gnirpS sisylanA ytilibatiuS e r u t c e t i h c r a e p a c s d n aL ngiseD elbaniatsuS ycnacaV y rubnuS dlefimaerD yhpargoeG ngiseD CEC gnippaM SIG udnuT gnigderD y rtnuoC ssorC y riuqni latnemnorivnE smetsyS noitam rofnI a c i l i s a B s ’ r e t eP . t S ylatI ,erreT euqniC ecnarF ,siraP ainaznaT al’ugnaM awasawasiK ylatI ,ecineV dnalerI ,yawlaG d n a l g n E , n o d n oL gninnalP ytinummoC n g i s e D y r o t a l e v eR egnehenotS niapS ,anolecraB kraP lanoitaN imukiM metsyS yellaV dna egdiR sniatnuoM awgnuzdU y l a t I , e m oR ylatI ,ecnerolF dnalerI ,nilbuD ylatI ,aneiS ngiseD nabrU ecnellecxE latnemt rapeD g n i n n a l P l a n o i g eR DACotua SSAL reccoS pUhctekS elgoog senilediuG gninnalP mutseaP & iiepmoP tnatsissa hcraeser rolesnuoc pmac rotartsullI ngiseDnI pohsotohP ngised gnitnalP d r a y t r u o C s r e t l a w t l aW gnikcapkcaB ainaznaT ,rabiznaZ gnipmuJ ffilC egelloC etatS AP ,tnomeL aihpledalihP sisylanA etiS noitaterpretnI ataD gnibmilC llaf retaW r e t a w g n i l l aF gniKm rotS s n e d r a G d o o w g n oL retneC abuC .tM .C.D notgnihsaW ytiC kroY weN hgrubsttiP eromitlaB ngiseD retawm rotS noynaC keerC gnirpS sisylanA ytilibatiuS

landscape architecture student work the pennsylvania state university 2008-2013