Johanna Hoffman // Selected Work by Johanna Hoffman

JOHANNA E. HOFFMAN

JEH

SELECTED WORKS

CONTENTS THE DILATING LINE

TOWARDS A LIVING GROUND

CATCHING FOG

WALKING THE RISE

SOAKLAND

FROM A DITCH TO A DELTA

MOVING PARTS

RECALLING OAKLAND

SITE DESIGN URBAN DESIGN ENVIRONMENTAL PLANNING LANDSCAPE ARCHITECTURE FURNITURE

THE DILATING LINE UC Berkeley Design Studio Manhattan, NYC 2013 SHORELINE CHANGE: Regional

1650 2013

STORMSURGE INUNDATION ZONES

LINK:

Mahattan shoreline walkways

INCREASE:

absorptive capactiy and flexible defense of developed shore CONSTRAINTS: Currents Bathymetry Strong currents and deep bathymetry make wetland construction in the riverbed ineffective

OPPORTUNITIES: Green Space Current open space can be retrofitted to provide increased capacity for stormwater detention

ABSORPTION COMPONENTS

HURRICANE SANDY INUNDATION

DEFLECTION

SWALES

STORMWATER PARKS

WETLAND ACCRETION

STORMSURGE BARRIER

BLUE STREETS

STORMWATER PARKS

INLAND WETLAND ACCRETION

STORMSURGE WALKWAYS

WATER BAFFLES

DISTRIBUTION

ABSORPTION

FLEXIBLE DEFENSE

REDIRECTING RIVER FLOWS

BAFFLE

CUT

INLAND CUTS

UNITS

1782 1865 1898 1956 2013

current terminus points of shoreline walkways

DETENTION

REDIRECTING STORM SURGE

AGGREGATE

SHORELINE CHANGE: Site Specific

Current vulnerability to inundation from storm surge and sea level rise relates to areas of shoreline fill. Drawing attention to shifting shorelines is another way to address shoreline vulnerability

This project takes its cue from the process of dilation, the act of spreading wide. In the context of the Midtown, East River waterfront site, spreading wide becomes a questioning of ways to invite more dyna足足mism into the landscape of the NYC shore. Using a design language of layered lines, THE DILATING LINE is a conversation about the continually shifting nature of our shores.

2014 ASLA - NCC MERIT AWARD

BLUE STREETS

STORMWATER PARKS

INLAND CUTS

WETLAND ACCRETION

WALKWAYS

THE DILATING LINE

VIEWING PLATFORM // CHECK DAM FILL

SCHIST

SWALE CATCHMENT

ENHANCED CAISSON FOR TIDAL ENGAGEMENT WATER BAFFLES SEATING

STORMWATER DETENTION BASIN

INFLATABLE STORM SURGE BARRIER

GNEISS MARBLE COMPRESSED AIR TUBE

PHASE 1

PHASE 2

PHASE 3

CURRENT SHORELINES

FUTURE SHORELINES CONDITION

PAST SHORELINES

WALKWAY MOVEMENT

DEFLECTION

MATERI-

ABSORPTION

TOWARDS A LIVING GROUND UC Berkeley Thesis Oakland, CA 2014 A B C D E F G H I J K L

LEVEE TERRACING DREDGE TREATMENT DREDGE SHIP DOCK RESEARCH CENTER EB MUD WASTEWATER CONNECTION WASTEWATER TREATMENT POOLS WETLAND CORRIDOR RAISEABLE STREETS WATER DETENTION POOLS TIDAL TIERS COMMUNITY CENTER RAINWATER CATCHMENT RAISED BUILDING PADS

BAY BRIDGE

EB MUD I-80 FREEWAY A B

C A I A

I K I

l G

A H

L PORT OF OAKLAND

I-880 and Railroad Corridor

WEST GRAND AVENUE

MANDELA PARKWAY

KEY INFRASTRUCTURAL MOVES

RAISED CIRCULATION

ESTUARINE CONNECTION

HORIZONTAL LEVEE

FLOATABLE WALKWAYS

RAISABLE STREETS

ELEVATED BUILDING PADS

TIDAL CONTACT

ZONE 1

A 400 acre span of coastal land slated for re-development is re-envisioned as a catalyst for transitioning development from the hard-edge between land and water to a dynamic, living ground. By exploring alternative edge conditions, TOWARDS A LIVING GROUND presents an alternative urbanism, one that organizes civic life around the dynamism of water.

inundate

PHASE 3: 2050 2010 1.4 5â&#x20AC;&#x2122; sea level rise build // retrofit

PHASE 2: 2025 2050 Current sea levels raise infrastructure

cut // fill

PHASE 1: 2014 2025 Current sea levels

ZONE 2

ZONE 3

ZONE 4

TOWARDS A LIVING GROUND ZONE 4 URBAN ESTUARY

ZONE 1

ZONE 2

ZONE 3

TIDAL TIERS

RAISABLE STREETS

WASTEWATER TREATMENT

CATCHING FOG

UC Berkeley Design Studio

WIND

HUMAN TRAFFIC

FOG

FLOWS

DRAINAGE

PAVING PATTERN GENERATION

WIND CURRENTS

SITE CONDITIONS

Pier 27//29, Embarcadero, SF 2013 FOG CATCHERS

HUMAN TRAFFIC

WATER COLLECTION // TREATMENT BENCHES

LICHEN BENCHES // FOG DISPLAY

LICHEN LINES

WARPING

WIND and FOG

CATCHING FOG is landscape strategy that connects Pier 27 users with one of the Bay Area’s most unique traits – the daily influx and outflow of fog. The site is designed to embrace both tourists and locals into the foggy dynamics of the SF shoreline. Patterns generated from the convergence of three flows – human, wind and fog – form the armature of the design. Three primary zones emerge from the patterns, each cultivating different levels of fog engagement.

WATER // FOG COLLECTION

FOG EMISSION

FOG CATCHERS

LICHEN BENCHES // FOG DISPLAY

WATER COLLECTION // TREATMENT BENCHES

LICHEN LINES

WALKING THE RISE UC Berkeley Design Studio Berkeley, CA 2013 Lines

Erosive forces eat away at the wall over time

Topography changes of the wall allow for framed views

wall

Mudflat

Low Marsh

High Marsh

Wall

Lines

Coastal

WALKING THE RISE employs two simple methods to mark the dramatic effects of tidal flux. First, a walkable wall juts out into the bay. Second, swaths of oyster and mussel shells harvested from bay waters cross the site in parallel lines of alternating black and white color. As years pass, erosion from rainfall, inundation and human use will eat away at both, evincing the passage of time and its impact on the Bay.

2100

150 cm Sea Level Rise Mean High Water

150 cm Sea Level Rise Mean Sea Level

2050

50 cm Sea Level Rise Mean High Water

50 cm Sea Level Rise Mean Sea Level

PRESENT

0cm Sea Level Rise Mean High Water

0cm Sea Level Rise Mean Sea Level

Prairie Meadow

Upland Grassland

SOAKLAND

One Prize Design Exploration

OPPORTUNITIES

Golden Gate Bridge

pervious streetscapes

Oakland, CA 2013 Bay Bridge

pervious streetscapes

SOAKland

raised streets // green connectors

pervious streetscapes

raised streets // green connectors

n Francisco land, the e where the ynamics have to the Oakland War II, the ts bordering rmation into blematic of allocate urban ate cities from round.

stormwater treatment wetlands

stormwater treatment

sOAKALND provides open space, air and water filtration, biofuel production, protection from rising tides,and flexible commercial space.

stormwater runoff treatment

OPPORTUNITIES pervious streetscapes stormwater runoff treatment

green connectors // dynamic user access productive landscapes inundatable open sapce

green connectors // dynamic user access

diversifying the edge: productive landscapes

economic // culturalinundatable // environmental

open sapce

diversifying the edge: EXISTING CONDITIONS

biofuel production fields

economic // cultural // environmental

biofuel production fields

sea level rise

EXISTING CONDITIONS

algae production ponds

toxins

algae production ponds

gies for such an high liquidation ea level rise -- is estion of how environments. ween land and t embraces crucial step in tic instability g in status evelopment, highlight its o cultivate paces.

toxins

sea level rise

The project site is characterized by severe risk of sea leve rise and high toxicity

toxins // sea level rise

industrial land urban barriers

industrial land

tidal flats and wetlands

The industsrial landscape surorunding the site is largely inaccessible to the public, creating a disconnect between urban Oakland and the bay.

tidal flats and wetlands dynamic walkways

SED

dynamic walkways

ng a landscape

afted to both rfront and ulnerability ea. Wetlands ions to onomically oduction walkways e provide ated to f wetland cturally support space for raised streets grid, allowing o the site tem function. ND creates a nge together, t in the Bay gotiation.

In a big earthquake, the ground of the site – built on squashy mudflats – will liquefy, comprising all developments in the area and endangering the people who live and work in them. The sOAKLAND plan averts this risk by removing permanent settlement from the site.

flexible development // flexible // walkway supportdevelopment structures

walkway support structures

energy air quality improvement

harvest

reduces PM

highway hedgerows

biomass field

recreational open space

habitat

existing industrial land // urban barriers

high medium high

low

p p

medium low

liquifaction risk liquifaction risk

sOAKland SOAKland adaptable development

urban barriers

water filtration

biofuels

algae ponds aeration from tides

algae production

Original bay shorelines of Oakland ended far east of present day coast, creating diverse littoral zone and productive bay edge. sOAKLANd reintroduces that bayside diversity to Oakland and strenthens surfaces connections between stormwater and bay.

shoreline shoreline watershed boundaries

watershed boundaries

historical shoreline // historical shoreline watersheds // watersheds

SOAKland is landscape strategy that re-envisions the former Oakland Army Base as an estuarine connection between West Oakland and the San Francisco Bay. Enhancing user access to the area through a combination of topographic moves and dynamic walkway systems, SOAKland seeks to maximize the productivity of Oakland’s bay edge.

LAND TYPES

DYNAMIC WALKWAYS

PLATFORMS

TERRACED WALKWAYS

PROMONTORIES

LOOKOUT POINTS

POOLS

POOLING PARKS

SUSPENDED

RAISABLE

BUILDABLE

pedestrian // bicycle highway extensions

algae production ponds dynamic walkaways

walkway support // adaptable development

biofuel fields

predicted 2100 mean high tide present mean high tide

oyster beds over sand aggregate

reeds wetland burms

grasslands

highway hedgerow plantings

UCBerkeley BerkeleyEnvironmental EnvironmentalDesign DesignStudio Studio UC FROM A DITCH TO ADelta DELTA From a Ditch to a Walnut Creek, CA 2011 Walnut Creek, CA 2011 UC Berkeley Environmental Design Studio UC Berkeley Environmental Design Studio Walnut Creek, CA 2011

Walnut Creek, CA 2011

Mt Diablo

Mt Diablo Walnut Creek MtDiablo Diablo Mt

Mt Diablo

Vallejo Vallejo

Walnut Creek

Richmond Richmond

ort of Avon

Vallejo Benecia Benecia

Richmond

Oakland Oakland

Concord Oakland

PortofofAvon Avon Port

Benecia

Martinez Port of Avon Martinez

Concord Concord

Martinez

Concord

Suisun Bay Suisun Bay

SuisunBay Bay Suisun Suisun Bay

ll forRising moreseas resilient landscapes more resilient landscapes Rising call for for more resilient landscapes Rising seas call formore more resilient landscapes seas call resilient landscapes Bird Sanctuary

Sailng

Bird Sanctuary Sailng Kayaking Houseboat Stays

Carbon Community Community Event Sports Field Kayaking Carbon Bike Paths Houseboat Stays Bird Watching Running Rowing Picnic Areas Walking PathsEventFishing Docks Community Community Capture Farms Gardens Carbon EducationBike Center Community Sports Field Bike Paths Community Bird Watching Running Carbon Carbon Community Rowing Amphitheatre Community Event Community Picnic Areas Community Walking Paths Kayaking Paths EventAreas Bird Sanctuary Sailng Houseboat Stays Fishing Docks Sports Field Kayaking Gardens Bike Paths Education Event Rowing Sailng Houseboat Stays Bird Watching Running Kayaking Bike Paths Rowing Picnic Walking PathsFishing Bird Sanctuary Sailng Capture Farms Stays PicnicHouseboat Areas Walking Paths Fishing Docks Rowing Center Fishing Docks Picnic Areas Walking Paths Capture Farms Gardens Capture Farms Docks Amphitheatre Gardens Education Center Education Center

Bird Sanctuary

Capture Farms

Sea Level Predictions: Sea Level Rise Predictions: SeaRise Level RisePredictions: Predictions: Sea Level Rise Sea Level Rise Predictions:

ft rise by 2050 1.64 ft rise1.64 by 2050 4.92050 ft rise by 2050 4.9 ft rise by

Gardens

S Amphitheatre Amphitheatre

Amphitheatre Education Center

Kayaking

Kayaking K Canoeing Can Canoeing Vistas Houseboat Vistas Houseboat Stays Houseboat S

Kayaking Houseboat Stays

1.64 ft rise by 2050 1.64ftftrise riseby by2050 2050 1.64 4.9 ft rise by 2050

Houseboat Stays Sailing FishingBoating

Biodiversity Preserves

Sai Sailing Pre Kite Flying Biodiversity Biodiversity serves Sailin Fishing

FishSailing ing

4.9ftftrise riseby by2050 2050 4.9

Vistas

Meditation Space

Community Gardens Fish Fish ing Meditation Spa Kiteing Flying Meditation Space Kite Flying Meditation Space Water Filtration

Comm Boating ing Shifting the port from industrial zone to functioning floodplain creates a dynamic, Commu Boat Gardens Boating Outdoor GarCommunity densEduca Boating Community tion Biking Sports Fields Biking resilientShifting buffer zone between Contra Costa County and the impacts of sea level rise Sports Fields Water Filtration Wate Shiftingthe theport portfrom fromindustrial industrialzone zonetotofunctioning functioningfloodplain floodplaincreates createsaadynamic, dynamic, Carbon Cap ture Biking Sports Fields Meditation Space Biking Sports Fields

Biking Sports Fields Walking Trails thetoport from industrial zone to functioning theindustrial port fromzone industrial zone functioning floodplain creates a dynamic, Shifting theShifting port from toShifting functioning floodplain creates a dynamic, O Ou resilient buffer zone between Contra Costa County and the impacts of sea level rise resilient buffer zone between Contra Costa County and the impacts of sea level rise Sea Level Rise Buf fer Outdoor Educa Outdoor Educa tion CarbonCap Cap ture Carbon ture floodplain creates a resilient zone between resilient zone between Contra Costa andbuffer the impacts of seaContra level rise resilient buffer zonebuffer between Contra Costa County andCounty the impacts of sea level rise ture Carbon CapFesti turevals Carbon Cap PicnicTrails Areas Walk ing Walking Walking Costa County and the impacts of sea level rise SeaLevel Level R Ri BirdSea Watching Fish Nursuries

Sea Level Sea RiseLevel BufferRise Buf Festi vals fer Festi vals Event Space Wildlife Sanctuaries

Festivals

Existing Conditions

Fish Nursuries

Objectives

5% Recreation

ExistingConditions Conditions Objectives Objectives Existing 15% Agriculture

ectives s Objectives

Recreation 5%5% Recreation

ase User AccessUser Access 10% Open Land Increase

10% Open Land 60% Industry 60% Industry

Wildl BirdWildlife Watc

Event Space

IncreaseUser UserAccess Access Increase

Diversify Land Use Diversify Land Use

In Even

Rehabilitate Delta Floodplain Increased Flood Increased A Capacity Flood Ca Arti

Diversify Land Use

Artist Residencies

10% Open Land

15% Agriculture 15% Agriculture

Bird Watching Artist Residen cies Fish Nursu ries

Wildlife Sanctuaries Wildlife Sanctuaries

Increase User Access

60% Industry

Festi valsIncreased Areas A Walk ing Picnic Walk ing Flood Capacity FishPicnic Nursu rie Fish Nursu ries

DiversifyLand LandUse Use Diversify

Artist Residencies

RehabilitateDelta DeltaFloodplain Floodplain Rehabilitate

Rehabilitate Delta Floodplain Rehabilitate Delta Floodplain

From a Ditch to a Delta is a plan to return Suisun Bay’s Port of Avon to a functioning delta floodplain. Diked and leveed land currently monopolized by industry is rehabilitated to create a vibrant tidal wetland. The expansion of wetland ecosystems in the region accomplishes four goals: providing a protective buffer against sea level rise, increasing user access to the bay, diversifying land use, and re-habiliting the Walnut Creek floodplain.

Johanna Hoffman LA 205 Fall 2010 UC Berkeley, LAEP

FromaaDitch Ditchto toaaDelta Deltaisisaaplan planto toreturn returnSuisun SuisunBay’s Bay’sPort Portof ofAvon Avonto toaafunctioning functioningdelta deltafloodplain. floodplain.Diked Dikedand andleveed leveedland landcurrently currentlymm From byindustry industryisisrehabilitated rehabilitatedto tocreate createaavibrant vibranttidal tidalwetland. wetland.The Theexpansion expansionof ofwetland wetlandecosystems ecosystemsininthe theregion regionaccomplishes accomplishesfour fourgoal goa by FROM A DITCH TO A DELTA is a plan to return Suisun Bay’s Port of Avon to a functioning delta floodplain. Diked and leveed land currently monopolized by industry, is rehabilitated to create a vibrant tidal wetland. The an is to Port Avon toincreasing aAvon functioning delta floodplain. Diked and Diked leveed land currently monopolized protective bufferBay’s against seaof level rise, increasing user access tothe the bay, diversifying landuse, use, and re-habiliting theWalnut Walnut Creekflood floo protective buffer against sea level rise, user access to bay, diversifying land and re-habiliting the Creek ta areturn plan toSuisun return Port a functioning delta floodplain. and landthe currently monopolized expansion of wetland ecosystemsSuisun in the area Bay’s accopmplishes four of goals: providingto a buffer to rising seas, increasing user access to the bay, diversifying land useleveed and rehabilitating Walnut Creek floodplain.

create a vibrant tidal wetland. The expansion of wetland ecosystems in the region accomplishes four goals: providing a

Grading // Remediation

Phase 1 Phase 1

Wetland Expansion

Present -- 2030

Grading // Remediation

User Access // Delta Complexity

Wetland Expansion

Present -- 2030

Program for Evolving Ecosystems

Phase Program for 3 Evolving Ecosystems Phase 3

Phase User Access 2 Delta Complexity Phase 2 2030 -- 2050

10% Recreation

60% Preserve

2030 -- 2050

30% Recreation Industry 10%

60% Preserve

2050 -- 2100

20% Recreation 10% Agriculture

70% Preserve

33.3% Recreation

2050 -- 2100

20% Recreation 10% Agriculture

33.3% Preserve 33.3% Recreation

33.3% Agriculture

70% Preserve

30% Industry

33.3% Preserve

1 mi

800 ft

Preliminary Access Paths

800 ft

33.3% Agriculture

1000 ft

800 ft

1000 ft

Primary Access Paths

Open Paths Wetlands Preliminary Access

Primary Access Paths

Industry

Agriculture Nature Preserve

Nature Preserve

Open Wetlands Industry

Recreation

Water Related Recreation

Open Wetlands Agriculture

Nature Related Recreation

Nature Preserve

Agrictulture Nature Preserve

Recreation

Recreation Water Related Recreation

Open Wetlands

Open Wetlands Nature Related Recreation

Unconfined Channels

Agrictulture

Earth Constructed Channels

Recreation Open Wetlands

Unconfined Channels

Open Levees Creekbed Re-orientation Natural Land Accretion Wetland Accretion Island Building User Access Expansion

Cordgrass

Salt Marsh

Saltgrass

Upland // Seasonal Wetland

Tidal Panne

Mean Sea Level

Mean High Water

Mean Higher High Water

Pickelweed

Pickelweed Cordgrass

Salt Marsh

Mudflat Subtidal Mean Sea Level

Open Levees Creekbed Re-orientation Acquire Land NaturalExisting Land Accretion Protect Industry Wetland Accretion Raise Roads Island Building Remediation User Access Expansion Grading

Saltgrass

Tidal Panne

Mean High Water

Upland // Seasonal Wetland

Acquire Land Protect Existing Industry Raise Roads Remediation Wetland Zones Grading

Mean Higher High Water

Extreme High Spring Tide

Wetland Zones

Extreme High Spring Tide

Earth Constructed Channels

Mudflat Subtidal

MOVING PARTS

Dynamic Bench Prototype Berkeley, CA 2014

MOVING PARTS is an experiment in curved, modular seating. The dynamic nature of the piece turns the mundane act of seating into a sculptural art piece experience. Very much the modern love seat, it gives users the change to play with the boundaries of personal space -- exploring the range between intimacy and separation.

DIMENSIONING

REFINING

BRAINSTORMING

1" 1'-32

1'-6"

1 1" 1'-3 1'-3 1" 2" 22

1'-6" 1'-6"

1 1 2" 2"

1'-6" 3" 1'-6" 1'-6"

1" 2'-52

3" 2" 1" 1"

1" 12'-5 2'-52 " 2

1" 1'-32

1'-6"

1 2" 1" 2" 2"

1" 2"

1 1 2" 2"

1" 1"1" 4" 1" 4" 4" 1"

1" 1" 2" 2"

foot risers

3" 1 12 "

4" 11" 1" 1" 2 1" 12

L-shaped seat pieces

1 2"

1" 4"

1" 12

1" 2"

1" 4"

1" 1'-32

1'-6"

3" 3"

1 2"

1 2" 1" 1'-72 1" 12

1'-6"

1" 2"

2" 1"

1 2"

1" 4"

1 2"

1" 2" 1" 1'-72

1" 4"

2'-1"

1 2"

1" 1'-72 11"

2'-1"

1" 4"

1 2"

standing supports

1" 1'-72 1" 1'-72 2"2'-1" 2'-1"

12 2"

1" 1'-72 2'-1"

1'-6"

1 2"

1'-6"

1" 2'-52

1" 1'-32

'-6"

1" 1" 4" 4"

1 2"

2'-1"

RECALLING OAKLANDS

Prescott Elementary School Site Design Oakland, CA 2013

20’ pedestrian entrance

outdoor education

main entrance

18’

16’

outdoor education // play space 14’

athletic field

20’

pedestrian entrance

VIEW NORTH FROM 8TH ST

18’

OAKLAND GEOMETRY PLANTINGS

outdoor education // event space

16’

main entrance

pedestrian entrance

parking lot

1” = 60’

GROUNDCOVER

outdoor education // gathering space

purple needle grass prairie junegrass California poppy blue wildrye

TREES

coast live oak

california bay

GROUND

TEXTURED CONCRETE

CONCRETE

ASPHALT

This site design re-introduces an oak woodland ecology to the Prescott Elementary School. Topographical change becomes increasingly varied from the east side of the site to the west, recalling the rolling forest landscape that historically dominated this part of Oakland. Plantings create opportunities for outdoor education, play and event space, while re-establishing Prescott Elementary -- one of Oakland’s first schools -- as a connector between the city’s past and future.

RESUME

EMAIL: johannaeve.hoffman@gmail.com

EMLPOYMENT

Design Intern, Populous Design, SF, CA

Assist with design, research and project coordination on domestic and international design projects

Graduate Student Instructor, UC Berkeley, CA Assist teaching undergraduate courses on Environmental Design Researcher/Design Intern, Hood Design, Oakland, CA Conducted research and crafted design proposals

Spring 2014 2014 Summer 2013

Co-Editorial Director, Ground Up Journal, UC Berkeley, CA Cultivate topics for new issues, edit submissions, manage

2012 -- 2013

Graduate Student Researcher/Designer, UC Berkeley, CA

2011 -- 2014

team dynamics

Conducted and coordinated research on infrastructural responses to sea level rise in the SF Bay Area Organized exhibitions and publications on landscape history

Graduate Student Instructor, UC Berkeley, CA Assist teaching undergraduate courses on Urban Sustainability Freelance Journalist Research Specialist, Hyphae Design Lab, Oakland, CA

Managed and coordinaed communications for research projects

EDUCATION

2012 2009 -- 2012 2011

2011 -- 2014

Oberlin College, Oberlin, OH BA in Environmental Studies + Creative Writing

2005 -- 2009

MLA in Landscape Architecture +Environmental Planning

ASLA NCC Merit Award, Northern California Chapter

Excellence in design for The Dilating Line

Farrand Award, UC Berkeley Supporting year of thesis research and design ASLA Communications Award, Ground UP Issue 2 Banser Fellow Supporting year of graduate study and research Portugese Studies Prize, UC Berkeley

Supporting research and study of water issues in Portugal

Continuing Grant, UC Berkeley Recognizing excellence in academic pursuits Design for a Better World Finalist University Grant, UC Berkeley Supporting year of academic study and research

“All Hands on Tech.” Next American City, 2011, 30. “Better Dead than Red?” Earth Island Journal, 2011, 26, 2. “Boutique Hotel Ruffles Feathers in the Himalayas.” The Architectural Review, May 2011. “Grow Wetlands, Fight Global Warming?” Terrain Magazine, 2010, 42, 1: 8-11. “Eco-Plaza Needs a Green Light.” East Bay Express, March 3, 2010: 18-19. “Sound Hive.” Interactive sound sculpture. The Secret Garden. Cambridgeshire, UK. July 2226, 2010.

SKILLS

Computer graphics programs: AutoCAD, ArcGIS, SketchUp, Rhino Other IT: Word, Excel, PowerPoint, FileMaker Pro, Adobe Creative Suite, Final Cut Pro Writing: nonfiction, creative, journalism, grants Time efficient, systematic working methodology Adaptability to new locations, groups, and cultures Basic construction Languages: English, fluent Spanish, and elementary Portuguese and French

Alma DuSolier: Principal of Populous Design, San Francisco, CA alma.dusolier@populous.com Kristina Hill: Associate Professor of Landscape Architecture, UC Berkeley kzhill@berkeley.edu Walter Hood: Professor of Lansdcape Architecture, UC Berkeley wjean@berkeley.edu, walter@wjhooddesign.com Karl Kullmann: Assistant Professor of Landscape Architecture, UC Berkeley karl.kullmann@berkeley.edu

2014 2014 2013 2012 --2014 2013 2011 -- 2013 2011 2011

TEL: 510 847 6763

SELECTED PUBLICATIONS // INSTALLATIONS

REFERENCES

UC Berkeley, Berkeley, CA

AWARDS/ HONORS

MORE http://issuu.com/johannahoffman http://cargocollective.com/johannahoffmanselectedworks

JOHANNA E. HOFFMAN

JEH

SELECTED WORKS