Landscape Architecture Portfolio 2021 by Alyssa Humarang

Landscape Architecture Portfolio 2021

Alyssa Humarang

ALYSSA HUMARANG

akh5629@psu.edu 814 - 232 - 6124 linkedin.com/in/alyssa-humarang-0751b4197

PROFICIENCIES Adobe

Photoshop, Illustrator, InDesign, & Premiere Pro

CAD

AutoCAD & Sketchup

Microsoft Office

Powerpoint, Word & Exel

Fabrication

Laser cutting & physical model

WORKING KNOWLEDGE ON:

ArcMap, Lumion,Rhino, After Effects, & TwinMotion

AWARD The Brian Orland Award of Excellence in Geospatial Analysis and Design 2019-2020

INVOLVEMENT

RESUME

Speaker Introduction for Laurie Olin

Did the speaker introduction for Laurie Olin for the Bracken Lecture at The Pennsylvania State University

Musser Gap to Valleylands Project Volunteer

Owned by Penn State, a community outreach where data is gathered and talked with Centre County residents

Robert Reed Drawing Workshop

Worked as a team to create an abstract charcoal mural

Centre Furnace Mansion Volunteer

Helped clean up & restore the Centre Furnace Mansion, a historic site, in State College through United Way of Caring

EDUCATION Penn State University, State College, PA Major: Landscape Architecture Anticipated graduation Fall 2022

Mifflin County High School, Lewistown, PA

LEADERSHIP Arts Ambassadors

2018 - Current

Class of 2022 Class Representative

2019 - Current

Secretary in Students for Environmentally Enlightened Design

2020 - Current

Landscape Architecture Leaders

2018 - Current

Communication Director Landscape Architecture Student Society

2019 - Current

Give Club Volunteer

2018 - 2019

Key Club International Volunteer

2015-2018

Mentor; member of the Constitutional Convention for the A&A Student Council

Represented my studio at the monthly meeting with the Department Head and provide issues or ideas to improve student life

To plan seminars and reach out to firms for guest speakers

Lead tours to welcome accepting & potential students in the Stuckeman school

In charge of PSULARCH Instagram to post events & projects of students. Created posters for club events such as Fall fest, Parking Day, etc.

Restored the Furnace Mansion, helped the Historical Society on their fundraiser event, & learned ways to incorporate sustainability in everyday life

Helped with Senior Olympics & educate kids about the environment during the Reeds Gap Fall Festival

FLORA GARDEN 04 ARNITY PARK 08 THE CRANWAY 18 SPRING CREEK WATERSHED 24 BEATIFIC GARDEN 27 DESIGN IMPLEMENTATION 29 ART 32

CONTENTS

CEHER PLAZA 15

FALL 2020

Flora Garden

Programs Used: AutoCad, Photoshop, & Excel Location: West Campus Commons, State College, Pennsylvania

There is a disconnection between West Campus Commons to the main part of campus due to the distance of classes and how hidden West Commons is. The West Commons provides a feeling of formailty in the area due to the building forms and geometric planting. The people who occupy the site are students, professors, and, researchers.

The goal is to create a special space for its user to enjoy during lunch breaks, in between classes, or to unwind. Specific native perennials with colors of yellow, orange, and purple are used to attract pollinators to create a more enchanting feeling to a hidden part of campus.

Process Work:

HERBACEOUS PERENNIALS

SHRUBS GRASSES TREE

Key

Scientific Name

Common Name

AT AS E EP PD PA RH S SE TC

Quantity 225 116 124 24 277 157 88 297 34 39

Asclepias tuberosa Aurinia saxatilis Echinacea ' Sombrero lemon yellow' Eutrochium purpureum Penstemon digitalis Perovskia atriplicifolia Rudbekia hirta 'Cherokee sunset' Sedum 'Lemonjade' Symphyotrichum ericoides 'Snow flurry' Tiarella cordifolia

Butterfly-weed Basket-of-gold Sombrero lemon yellow coneflower Joe pye weed Beard-tongue Russian sage Cherokee sunset black-eyed Susan Lemonjade autumn Joy stonecrop sedum Snow flurry heath aster Foam flower

FM SJ

13 39

Fothergilla major Spiraea japonica 'Firelight'

Mountain witch Alder Firelight Japanese spirea

MS SH

39 120

Miscanthus sinensis Sporobolus heterolepis

Japanese silver grass Prairie dropseed

Crataegus viridis ' Winter king'

Winter king green hawthorn

Size

3' hgt. 2' hgt.

1 1/2" cal.

AT AS E EP PD PA RH S SE TC

Conditions Remarks

Key SHRUBS HERBACEOUS PERENNIALS FM

Flat #1 #SP4 Flat #SP4 #1 #3 #SP4 #3 #3

#50, 1.5' O.C. 1.5' O.C. 1.5' O.C #32, 2.5' O.C. 1' O.C. 2' O.C. 1.5' O.C. 20" O.C. 2' O.C. 2' O.C.

#5 #3

5' O.C. 3' O.C.

SHRUBS

#2 #3

3' O.C. 1.5' O.C.

GRASSES

B&B

Key

GRASSES TREE

TREE

Quantity 225 116 124 24 277 157 88 297 34 39 Quantity

Scientific Name

Common Name

Size

Conditions Remarks Flat #1 #SP4 Flat #SP4 #1 #3 #SP4 #3 #3

#50, 1.5' O.C. 1.5' O.C. 1.5' O.C #32, 2.5' O.C. 1' O.C. 2' O.C. 1.5' O.C. 20" O.C. 2' O.C. 2' O.C.

Scientific Name

Common Name

Size

Conditions Remarks

Fothergilla major Spiraea japonica 'Firelight' Asclepias tuberosa Aurinia saxatilis Echinacea ' sinensis Sombrero lemon yellow' Miscanthus Eutrochiumheterolepis purpureum Sporobolus Penstemon digitalis Perovskia atriplicifolia Crataegus viridis ' Winter king' Rudbekia hirta 'Cherokee sunset' Sedum 'Lemonjade' Symphyotrichum ericoides 'Snow flurry' Tiarella cordifolia

Mountain witch Alder Butterfly-weed Firelight Japanese spirea Basket-of-gold Sombrerosilver lemon yellow coneflower Japanese grass Joe pyedropseed weed Prairie Beard-tongue Russianking sagegreen hawthorn Winter Cherokee sunset black-eyed Susan Lemonjade autumn Joy stonecrop sedum Snow flurry heath aster Foam flower

3' hgt. 2' hgt.

#5 Flat #3 #1 #SP4 #2 Flat #3 #SP4 B#1& B #3 #SP4 #3 #3

5' O.C. #50, 3' O.C.1.5' O.C. 1.5' O.C. 1.5' O.C 3' O.C. #32,O.C. 2.5' O.C. 1.5' 1' O.C. 2' O.C. 1.5' O.C. 20" O.C. 2' O.C. 2' O.C.

13 39

Fothergilla major Spiraea japonica 'Firelight'

Mountain witch Alder Firelight Japanese spirea

3' hgt. 2' hgt.

#5 #3

5' O.C. 3' O.C.

MS SH

39 120

Miscanthus sinensis Sporobolus heterolepis

Japanese silver grass Prairie dropseed

#2 #3

3' O.C. 1.5' O.C.

Crataegus viridis ' Winter king'

Winter king green hawthorn

AT SJ AS E MS EP SH PD PA CV RH S SE TC

13 225 39 116 124 39 24 120 277 157 5 88 297 34 39

FM SJ

1 1/2" cal.

B&B

A SUNDAY STROLL WITH YOUR LOVE ONES

TAKING A MOMENT TO ENJOY NATURE BEFORE CLASS

West Campus Commons Landscape Development

Mixed Bed Cost Estimate - Soft Landscape Planting Plant Form / Item Trees Vitex agnus-castus

Size

Cond.

11/16" cal.

B&B

Quant. 5

Unit Price

Unit

$70.95

ea.

Multiplier Installed Unit Price 2.2

$156.09

Subtotal Shrubs Fothergilla major Spiraea japonica 'Firelight'

3' hgt. 2' hgt.

#5 pot #3 pot

13 39

$161.00 $14.00

ea. ea.

2.2 2.2

Total $780.45

$780.45 $354.20 $30.80

Subtotal

$4,604.60 $1,201.20 $5,805.80

Herbaceous Perennials & Groundcovers Asclepias tuberosa Aurinia saxatilis Echinacea ' Sombrero lemon yellow' Eutrochium purpureum

Flat #1 #SP4 Flat

225 116 124 24

$5.99 $12.95 $15.95 $8.00

ea. ea. ea. ea.

2.5 2.5 2.5 2.2

$14.98 $32.38 $39.88 $17.60

$3,369.38 $3,755.50 $4,944.50 $422.40

Penstemon digitalis Perovskia atriplicifolia

#SP4 #1

277 157

$5.99 $10.00

ea. ea.

2.5 2.5

$14.98 $25.00

$4,148.08 $3,925.00

$7.00

ea.

2.5

$17.50

$1,540.00

#SP4

297

$16.00

ea.

2.5

$40.00

$11,880.00

$7.00

ea.

2.5

$17.50

$595.00

$4.00

ea.

Rudbekia hirta 'Cherokee sunset'

ALL ABOUT THE PLANTS

Sedum 'Lemonjade'

Symphyotrichum ericoides 'Snow flurry'

PHENOLOGY

Tiarella cordifolia

JAN

FEB

MAR APR MAY JUNE JULY AUG

SEPT OCT

2.5 INSIDE THE$10.00 SITE Subtotal

$390.00 $34,969.85

Total

$41,556.10

Contingency @ 10%

$4,155.61

Profit & Overhead @ 20%

$9,142.34

Estimated Total Project Cost

$54,854.05

NOV DEC

1. Beard-tongue 2. Butterfly-weed 3. Coneflower 4. Foam flower 5. Golden Alexander 6. Joe Pye weed 7. Rock ‘N Grow ‘Lemonjade’ sedum 8. Black-eyed Susan 9. Russian sage

THIS SIDE OF CAMPUS DOESN’T HAVE A SPECIAL AREA THAT WOULD DRAW PEOPLE TO GO TOO. WITH MY PROPOSE PLAN, I WANT TO CREATE A SPACE THAT IS DESIRABLE FOR STUDENTS, PROFESSORS, AND STATE COLLEGE COMMUNITY MEMBERS CAN GO TO RELAX. WITH ITS PERENNIALS WITH COLORS OF YELLOW, ORANGE AND PURPLE I HOPE TO ATTART POLLINATORS ON THE AREA TO MAKE IT SEEM ENCHANTED.

10. Heath aster 11. Pennsylvania sedge 12. Japanese Silver Grass 13. Mellow Yellow Spiraea 14. Fragrant sumac

A sunday stroll with a love one.

15. Chaste Tree

AXONOMETRIC 7

FALL 2019

PHASE 1

ARNITY PARK

BUILDINGS

CIRCULATION

Program Used: AutoCad, Photoshop, Illustrator Location: Philadelphia, Pennsylvania

TO WANDER WITHIN

A perfect place for the community to gather and enjoy the beautiful view of the Schuylkill river. With multiple amenities, residents can enjoy the boardwalk near the meadow, go to the observation deck, relax in the lawn after classes and visit the The Pop to view the murals of local artist and play games. Philadelphia is filled with fun and colorful murals which can be done on the site. The meadow is filled with native plants to help restore the damaged soils and water from pollution.

GREEN SPACE

SITE

SWING BRIDGE LAWN

MOUND

PIDC BUILDINDS MOUND

WET MEADOW

KEY

A B C D E

PERMEABLE PARKING THE CEHER PLAZA PIDC BUILDING LAWN THE POP

VIEWING DECK

BOAT HOUSE

MOUND HEDGEROW

G H I J K L M

MEADOW THE ROUNDABOUT WET MEADOW STAIRS

B C

L L

E V2

SCHUYKILL RIVER

FALL 2019

PHASE 1

SITE ANALYSIS FOR ARNITY PARK Programs Used: AutoCad, Illustrator, & Photoshop Location: Philadelphia, Pennsylvania

Bartram’s North is located beside Bartram’s Garden and Schuylkill River. Currently an industrial brownfield, Bartram’s North history not only polluted the river but left trash and graffiti everywhere. Which made people feel unsafe walking in area. With the revitalization of the site, it shall be a connector to Grays Ferry Cresent Trail Park and provide a safer and faster travel for residents between neighborhoods. LAND USE

Analysis shows how our site is dominated by infrastructure with the lack of green space.

KEY:

KEY: ABANDONED INDUSTRIAL UNIVERSITY

HYDROLOGY

Where the tides will be by 100 to 500 years.

PUBLIC SCHOOL CHURCHES

COMMERCIAL AREAS HEALTHCARE & REHABITATION

HIGH TIDE LOW TIDE

500 YEAR TIDAL PLAIN 100 YEAR TIDAL PLAIN

t cen res yC

Gra ys Fe rr

COMMERCIAL

Park Trail

Connector Bridge

plain flood

flood 500

COMMERCIAL

100

plain

EDUCATION/SCHOOL

Schuylkill R

iver

CHURCHES

BLOCKED ENTERANCE

Ba rtr am ’s G

ard

UNATTENDED UNDER THE BRIDGE ENTRANCE

ABANDONED BUILDINGS

V2: THE POP

CONCEPT

UNDER THE BRIDGE HANG OUT FOR THE PEOPLE

OBSERVATION DECK

WALKWAY WITHIN THE RIVER

Obsevation deck

Mound

Pathway Meadow

Boardwalk HighTide

Bike Lane Low Tide C’

V1: BOARDWALK

PATHWAY IN MARSH & MEADOW AREA

PLANT LIST:

Perovskia atriplicifolia

Rudbeckia hirta

Asclepias tuberosa

Bouteloua curtipendula

Tradescantia ohiensis

Carex radiata

Juncus effusus

Calamagrostis canadensis

Sporobolus heterolepis

Model Making

PROGRAM USED: AutoCad, Rhino & CNC Machine

Model for the Arnity park to showcase different spatial feeling each location can offer.

FALL 2019

PHASE 2

The Ceher Plaza PROGRAM USED: AutoCad, Photoshop, Illustrator. & Lumion

THE CENTER OF IT ALL

The Ceher (Community & togetherness combined) Plaza is nestled in the center of PIDC campus. It is to provide students an intimate area to hang out before classes and for residents to visit after their walk. The series of pathways from Arnity park provides the user the opportunity to discover this hidden green space to escape the busy city. Where time stood still and allow you to enjoy the moment.

Art Installment

Study Area

Road

Decomposed Granite

FALL 2019

PHASE 2

THE CEHER PLAZA

A mini plaza where students can hangout on while waiting for classes to start.

ENTRANCE

A A

B QUAKING ASPEN

E HONEY LOCUST

KEY

TEMPORARY ART INSTALLMENT PEDESTRIAN BIKE PARK BUS STOP SITTING

A B C D E

ENTRANCE

PROCESS

LOCATED IN ARNITY PARK

A GETAWAY FROM THE BUSY LIFE OF PHILADELPHIA

COBBLESTONE

LIGHTING

SITTING ROAD

A THE CENTRAL PLACE OF ARNITY PARK WHERE PEOPLE CAN BE ONE COBBLESTONE

LIGHTING

DECOMPOSED GRANITE

SITTING ROAD

PLAZA

CONCRETE PAVERS

SITTING

GROUP WORK: FALL 2020

The Cranway Programs Used: AutoCad, Photoshop, Illustrator, & Sketchup Responsibilities: Neighborhood analysis , create the AutoCad & Sketchup base, axons, perspective

Cranberry township has been a car dominated community since 1936. This allowed the township population to grow and opened a lot of job opportunities since it’s only 22 miles away from Pittsburgh.

However, the two major highway located in the site prevents a safer and pedestrian friendly passage for its residents to reach Cranberry’s central core. The core lacks a lot of green spaces and contains big box and chain stores. The goal is to create a place that allows unexpected interactions with the community and to cultivate the creativity and curiosity of adolesence.

GROUP ITERATION:

Pavement

Existing framework

Landuse Retail Mixed Used Office

The re-envisioned Cranberry Mall: A greener downtown that provides a pedestrian bridge to gain a safer passage to the site.

Library

CIVIC SPACE

Playground

Mall

OUTDOOR MALL

Parking Cinema Park LAND USE PARKING RETAIL RETAIL

HOTEL

RETAIL RETAIL

RETAIL PARKING

RETAILS

CINEMA

RETAIL

BRIDGE LIBRARY GREEN SPACE

RETAILS

RESTURANT

& BEER GARDEN

OFFICE

RETAIL

PLAZA

RETAIL RETAIL

CAFE

RESTURANT

ALDI

The pedestrian bridge of Cranway: It allows people to have an easier and safer way to connect the upper town to downtown.

THE CRANWAY

We are building a place that influences these teenagers to flourish and grow. To empower the future leaders that carry the township. These teen would be proud to help the economy as they grow.

8 4

LEGEND

1 Lounge Cafe 2 Plaza 3 Swing 4 Library 5 Karaoke Resturant 6 Treed plaza 7 Food Truck 8 Parking

A PLACE TO ENJOY THE SUN BY THE SWINGS AND DISCOVER NEW ARTIST

SUPPORTING LOCAL BUSINESS AND CREATE AESTHETIC PHOTOS FOR INSTAGRAM

SPRING 2020

Spring Creek Watershed

FREEWAY THAT CREATED THE FOREST GAPS.

Programs Used: ArcMaps, Photoshop, Illustrator, & Sketchup

Location: Bellefonte, Pennsylvania

Due to the sea level rise in New Jersey, 200,000 climate refuge have to migrate to Spring Creek Watershed. New facilities are to be build to help create 100,000 jobs and homes. While protecting 30% of agricultural lands. A number of work opportunities and types of housing that integrate green spaces offer choices that suit various lifestyles and what individuals can afford while also preserving a high quality of life for everyone. These three prototype work to build a strong community, strong economy and strong ecosystem that is supported by preservation techniques that offset some of the adverse effects of development and overall maintain the Spring Creek Watershed as a sustainable region.

IDEAL PLACES TO TO PLACE WIND TURBINES

DIFFERENT TYPES OF CROP LANDS

THE IMPACT OF TOPOGRAPHY AND ELEVATION TO THE WATER RESOURCE

A WAY BACK TO NATURE

AGRITOURISM AND BIO

where the suspension monorail is being the heart of America by creating consisted of different types of apartments, placeD are areas where the highway affordable housing of no more than five single family homes and townhouses to will be unDergrounD. ABOUT THEemission, WATERSHED EMPLOYMENT stories within or inDueareas of lowgaspopulation create affordableThehousing for the to global greenhouse climate one’s life. With different the influx of population, Spring Creek Watershed will have the community, arterial commer Dchange ifferent of rise coloreD ’s hastypes sea-level that willtrolley affect cities additional impervious surface can occur that service sector, retail and energy efficient agritourism, and renewable Biom people toE live that heated although some areasthe economy energy will be provided. Since g density like in Boalsburg, Pine Grove Mills, nearassigneD the coast (one of them being Newfor Jersey) could cost light pollution, and Thermal jobs that not only improve are to Different towns where 200,000 residents will reside to the Spring stormwater runoffG which can impair streams and of the town, but also prevent rural water treatment will be introduc faster travelEach times didsystem not utilize land and beside Bellefonte. prototype Creek Watershed that. consists of valuable prime itsare wildlifetoo population. Growingit network ID dense isolation formore the people. A mixture the watershed an organization w R fresh water, and history that is desirable has caused Ehabitat fragmentation and urban1 office jobs, industrial warehouse, needed to help install and check L 1land,BELLEFONTE that creates urban sprawl. is divided into three concepts, Large for economic gain and opportunities to improve sprawl adverse effects for species habitat. G flex tech, traditional retail to support progress if the filtration for clean Proposed Watershed Plan A PLEASANT GAP

A BEGUILING

2 BOALSBURG where the suspension monorail is 3 placeD are areas where the highway LIFESTYLE FILLED WITH COLLEGE 4will STATE be unDergrounD. PINE MILL GROVE 5

D AL

AGRITOURISM AND BIOMASS ENERGY FACILITY

NATURE

Different types of coloreD trolley’s

are assigneD to Different towns for

ID ER

faster travel times.

1 2 3 4 5

BELLEFONTE PLEASANT GAP

BOALSBURG STATE COLLEGE

L AG

TA NI

ROC LEGEND

LEGEND

HIGHWAY AREA URBAN AREA PROPERTY LINE PROPERTY LINEURBAN (160 ACRES) (160 ACRES) TREE CORRIDOR BIKE LANE BIKE LANE LARGE TOWN STREAM (160 ACRES) LARGE TOWNPRESERVE AREAS STREAM (160 ACRES) GREEN TROLLEY SMALL TOWN SUSPENSION PEDESTRIAN GREEN TROLLEY (160 ACRES) RED TROLLEY MONORAIL STOP SMALL TOWN AGRITOURISM & PEDESTRIAN (160 ACRES) YELLOW TROLLEY LAND BRIDGE BIOMASS ENERGY

SMALL TOWN

RED TROLLEY YELLOW TROLLEY LARGE TOWN

SMALL TOWN SMALL TOWN

AGRITOURISM & URBAN AREA BIOMASS ENERGY

LARGE TOWN LARGE TOWN

State College

An average wind turbine make 2.5 - MW of energy. This watershed needs 2 wind turbine

ORES

TE F H STA

ROT

K REST ROTC E FO

STA ROTH

SUBSURFACE IRRIGATION

SUBSURFACE IRRIGATIO

Biomass of plants materials will be burned to harvest a sustainable energy

Pipe underground providing water to the roots.

I TN

PINE MILL GROVE

N AN

Pipe underground providing water to the ro

To reuse the grey water from, tub, sink and washer for agriculture crops like sweet potato, corn, and more to use for biomass energy fuel. It could also be reuse to water garden or to reuse water to the same appliance.

COARS UNDERGRO

PERSERV

As a whole, it is importan 4.46 PERSERVATION exuberant diversity to the

Drawing inspired by: https://impact-nv.o https://thetinylife.com/greywater-systems/

Megawatts Energy As a whole, it is usage important to produce conserve energy two windm conserve remaining exuberant diversity to the watershed that the topthe of Rock Roth State ff conserve the remaining forested area and using net-zero building whis protect the spring creek protect the spring creek streams. Riparian carbon emission. The proc buffers will be planted be buffers will be planted besides streams to grey water will be incorpora HIGHWAY protect the fresh water an protect the fresh water and trout. Multiple watershed since a lot of peo WINDMILL WINDMILL tree corridors are placed to reconnect forest occupying the space and an tree corridors are placed TREE CORRIDOR SUSPENSION together while encouraging people to walk water will be wasted, so wh SUSPENSION while encourag MONORAIL or ride their bikes with nature beside it. together To PRESERVE AREAS

SUSPENSION MONORAIL STOP LAND BRIDGE

MONORAIL

A suspension monorail/rapid transit will be used to save land use.

URBAN TOWN URBAN AREA

or ride their bikes with na

Riparian Buffer Bus

Bellefonte

garden

e at so

e ole

VALUE

It is imperative to think about the longterm effects of each land use prototype on the existing ecological fabric. Focusing on not creating an isolation for the community and concentrate on

Highways will be placed underground for cars to encourage people to use public tansportation

what people can afford while still maintaining a high quality of life for all. These three-prototype work to build a strong community, strong economy and strong ecosystem that is supported by

Highways will be placed underg

EMPLOYMENT

AGRITOURISM AND BIOMASS ENERGY FACILITY

A BEGUI

The Spring Creek Watershed will have hat service sector, retail and energy efficient eated jobs thatAND notBIOMASS only improve the economy AGRITOURISM ENERGY FACILITY ms and of the town, but also prevent rural system isolation for the people. A mixture ban office jobs, industrial warehouse, flex tech, traditional retail to support

the community, arterial commercial, agritourism, and renewable Biomass energy will be provided. Since grey water treatment will be introduced to the watershed an organization will be needed to help install and check on the progress if the filtration for cleanliness.

Embraci being th affordab stories w density l and besi is divide

SUBSURFACE IRRIGATION

SUBSURFACE IRRIGATION Pipe underground providing water to the roots.

PERSERVATION

As a whole, it is important to produce exuberant diversity to the watershed that conserve the remaining forested area and

COARSE-FILTER UNDERGROUND PIPES

REUSE Drawing inspired by: https://impact-nv.org/resource/sustainable-plumbing-garden https://thetinylife.com/greywater-systems/

conserve energy two windmill will be place at the top of Rock Roth State forest. While also using net-zero building which help reduce

It is impe term effe on the e

SPRING 2019

Beatific Garden

CONCEPT: Balcony & floral stairway

PROGRAM USED: Hand drawing

WE ARE BORN TO WANDER...

Packed with colorful seasonal foliage that makes you feel as though you have entered an enchanted world. The Beatific Garden provides a place of exploration where individuals can relax and become one with nature. Mounds have been used in various fields to provide different experiences while meandering throughtout the site.

STONE SITTING EMBEDDED TO THE GROUND

MOUND

SIDEWALK

STONE WALL WITH VEGETATION

SLOPE SITTING

EXISTING AREA:

UPS

WEEPING WILLOW

SILENE ACGULIS WITH MOSS

RETAINING WALL

REDBUD

D ALLEY

S FRASER ST

DOGWOOD

PURPLE ROBE LOCUST

C KEY

MUSICAL GROTTO MOUND VIEWING AREA FOR FOOTBALL SLOPE SITTING AREA PERSPECTIVE DECK STAIRS

DECOMPOSED GRANITE CHERRY BLOSSOM

PLANT KEY: A B C D E F G

FOOTBALL FIELD

Salix babylonica

Cercis canadensis Cornus florida

Robinia 'Purple Robe'

Silene acaulis with moss

FALL 2020

Design Implementation

LEGEND

Grading

Existing Cont

Proposed Co

Property Line

LEGEND Existing Contour 1 Existing Contour 5 Proposed Contour 1 Proposed Contour 5 66

Property Line 65

Centerline

TC 71.54 BC 71.04

70.83

.83

70.83 71.33

BOT 62.8 TOM F F 3

2.0%

% 13.1

2.0%

63.34

71.78

66 72.28

68 20%

63.50

63.19

63.05

63.34

M TTO BO 8 63.2

63.28

FFE

63.28

FFE

2.1

69.98

63.12

FFE

M FE TTO P F BO TO 5 63.28 FF7E2.9

TTO BO 5 63.9

TC/BC BW

65.05

FFE

65.80

Top of Curb Bottom of Curb

63.28

Drain inlet

#.#% Slope

63.28

63.12

63.28

M TTO BO 5 63.9 63.12

2.0%

% 2.1

63.28

67.15

M TTO BO 5 63.9

FFE

FFE 63.28

63.15

65.05 63

63.15

65.80

63.28

63.12 .5% 17

M TTO BO 8 63.2

63.50

5.0%

2.0%

Top of Ramp Drain inlet DI Bottom of Ramp #.#% Slope Top of Stairs Bottom of Stairs

TS/BS

71.45

TR/BR

Top of Curb Bottom of Cu

FE MF

M TTO BO 5 63.9

FE PF TO 8 72.2

72.95

FE TTO P F BO 8 TO 5 63.2 72.9

71.52

FE PF TO 8 72.2

63.50

FE PF TO 5 72.9

72.28

70.95

72.95

71.78

63.34

69.41

72.28

FE P F 63 TO 8 72.2

69 63.34

72.04

63.15

63.34

72.18

BOT 63.5 TOM F F 0

63.50

2.0%

72.45

71.14

72.28

HP 72.46

71.28

72.12

72.00

66.05

TOP 72.5 FFE 0

7 RISERS @ .5' 6 THREADS @ 1'

71.45

63.50

72.00

72.39

FE PF TO 5 72.9

71.78

72.18

72.28 % 4.1

FE PF TO 8.91 72 TS 72.2 70.95

72.00

BOT 63.5 TOM F F 0

5.0

2.0%

63.19

.50

4.1

63.50

71.81

63.50

63.34

EL 72

68.97 TR 72.28 69.18 .18 .78 6971

63.34

72.40 72.40 .50 TW 63.05

TOP 72.5 FFE 0

67.05

13.1

63.34

EL 72

68.92

69.98

72.95

72.45

71.52

68.74 TC C 68.24 DI/B 68.74 72.18 68.84

72.04

71.08 71

20%

71.50

.95 5 70.95 DI 66.9 EL 72

63.50

72.00 72.00

71.13 TC 70.63 BC

BOT 63.5 TOM F F 0

71.35

2.0 72.12 68.97

HP 72.46

Top of Stairs Bottom of St

.5% 17

TOP 71.8 FFE 3

68.92

71.64

71.83

8.8%

72.00

TOP 72.5 FFE 0

70.69

BOT 62.8 TOM F F 3

70.86 TC 70.36 BC

72.39

BW 71.6066.05

72.91

11.3%

TOP 71.8 FFE 3

70.86 TC 70.36 BC

72.00 72.00

BOT 63.5 TOM F F 0

71.54

EL 71

70.95 71.45

69.41

2.0

71.83

EL 72 .90 .5070 .40 TC 70 BC

71.14

72.40

TOP 72.5 FFE 0

TS/BS

Existing Elevation

67.05

72.40 EL 72HP 72.10 .50

TC 71.31 BC 70.81

Top of Ramp Bottom of Ra

Top of Wall TC/BC Bottom of Wall

7 RISERS @ .5' 6 THREADS @ 1'

2.2%

TC 71.27 BC 70.77

2.0%

.83

3.1%

71.33

EL 71

2.2%

3 Risers @ .5' 2 Thread @ 1'

.27 70.77

TR/BR

Tree Elevation

TW/BW

4.1%

69.18

71.45

68.47 TC 67.97 BC

63.28 63.28 2.0%

70.83

2.8

5.0

68.01 TC 67.51 BC

2.0%

70.01

Ramp

68.13 TC 67.63 BC

.08 68.18 TC 71 67.68 BC

71.28

72.00 72.00

BOT 62.8 TOMTC F 3 71 F

69.96

3.9%

2.0%

70.59

68.97

69.18

11.3%

3.8%

BR 2.0

70.59

71.50

68.84

71.81

71.21 TC 70.74 BC 71

71.29 TC 70.82 BC

71.35

69.96

TC 71.31 BC 70.81

71.83

70.01

TC 70.69 71.27 BC 70.77

TOP 71.8 FFE 3

BOT 62.8 TOM F F 3

71.33

8.8%

2.0

71.60

70.83

68.92

4.1

71.13 TC 70.63 BC

71.64

2.0

68.97

TC DI/BC 69.56 69.06

.83

70.21 TC 69.45 BC

EL 71

70.21 TC 69.71 BC 71.24 TC 70.74 71.54 BC

2.1

69.56

TC 71.27 BC 70.77

TOP 71.8 FFE 3

69.70

TC 71.54 BC 71.04

70.83

71.83

3.9%

.83

3.8%

68.92

2.0%

2.2%

EL 71

LP 67.50

71.33

2.0%

68.74 TC C 68.24 DI/B 68.74

70.86 68.86 TC 68.36 TC 70.36 68.52 TC 68.02 BC BC BC 70.90 70.86 68.57 TC 70.40 TC 68.07 TC 70.36 BC BC BC 69

70.89 TC 69.39 BC

3.1%

70.83

TC 69.29 BC 68.79

70.49TC 71 69.99 .31 TC C BC 70.81 DI/B

71.51 TC 71.01 BC

2.2%

2.8 % TC 71.54 BC 71 2.0 .04 %

2.0%

% 2.1

TC 70.36 BC 69.86 70.83

2.1%

R 10

TC 71.27 BC 70.77

70.01

70.59

TC 70 .5' 3 Risers BC @.54 2 Thread70@ .041'

TC 71.27 BC 70.77

69.96

5.0%

2.0%

2.9%

2.0%

TC BC 70.09 69.59

70.16 TC 69.66 HP 72.10 BC

BR 2.0

70.59

#.## (#.##)

69.96

Top of Wall Bottom of W

TR TC 70.01 70 D/B .82 C 70 .32

TC 70.36 BC 69.86

2.0%

TC BC 70.07 69.57

DI 66.9

68.47 TC 67.97 BC

68.32 TC 67.82 BC

TC 69. 94 BC 69.44

TC 69.43 BC 68.93

3.8%

79.13 .63 TC C 68 DI/B

TC 68.56 BC 68.06

71.21 TC 70.74 BC 71

71.29 TC 70.82 BC

2.0 TC % 70 .64 BC 70.14

TC 69.65 BC 69.15

TC 69.45 BC 68.95

68.01 TC 67.51 BC

68 TC 71.31 BC 70.81

69.70

2.3%

68.18 TC 67.68 BC

TC 71.27 BC 70.77

TC DI/BC 69.56 69.06

68.13 TC 67.63 BC

DI 66.9

69.56

TC 68.94 BC 68.44

LP 68.75

Existing Elev

70.21 TC 69.45 BC

71.24 TC 70.74 BC

2.1%

TC 69 DI/BC .92 69.42

TC 71.27 BC 70.77

2.0%

TC 68.21 BC 67.71 TC 67.34 BC 66.84

3.8% 70.21 TC 69.71 BC

TC 69.29 BC 68.79

(#.##)

Building

TC 70.54 BC 70.04

TC 70.36 BC 69.86

2.1%

R 10

68.57 TC 68.07 BC

70.89 TC 69.39 BC

71.51 67 TC 71.01 BC

Tree Elevation

TW/BW

Wall 68

71 TC 71.54 BC 71.04

2.1

TC BC 70.09 69.59

70.49 TC C 69.99 DI/B

LP 67.50

68.52 TC 68.02 BC

2.1

TC 70.36 BC 69.86

68.86 TC 68.36 BC

2.1

2.0%

TC BC 70.07 69.57

68.32 TC 67.82 BC

70.16 TC 69.66 BC

TC 70 D/B .82 C 70 .32

TC 69. 94 BC 69.44

Drain inlet

79.13 .63 TC C 68 DI/B

TC 70.64 BC 70.14

TC 69.65 BC 69.15

TC 69.45 BC 68.95

2.9%

LP 68.75

#.##

2.3%

TC 69.43 BC 68.93

2.1%

TC 69 DI/BC .92 69.42

TC 68.94 BC 68.44

TC 68.56 BC 68.06

Spot Elevation

Wall

Ramp

5 DI 66.9

TC 67.34 BC 66.84

Spot Elevatio Drain inlet

Building

TC 68.21 BC 67.71

Centerline

63.12 64

67.15

63.12

63.15

63 TW

63.15

Planting Methods Meadow design

11 97

Grass

Common name

Schizachyrium scoparium

Little bluestem

Sporobolus heterolepis

Prairie dropseed

15% 20%

Total

35%

Scientific name

Common name

Total Weight

Aletris farinosa

White colicroot

13%

Allium cernuum Roth

Nodding onion

13%

Asclepias tuberosa

Butterfly milkweed

13%

Monarda didyma

Scarlet beebalm

Rudbeckia triloba

Browned-eyed Susan

13% 13%

65%

Total

1184

1193

1198

1185

Forbs

Total Weight

Scientific name

Common name

Total Weight

Andropogon gerardii

Big bluestem

12%

Sorghastrum nutans

Indian grass

Tridens flavus

Purpletop tridens

Scientific name

Common name

Asclepias verticillata

Whorled milkweed

12% 11%

Total

1186

1187

1188

1189

1190

1191

1192

Grass

Forbs

Chamerion angustifolium

35% Total Weight

13%

Fireweed

13%

Eryngium yuccifolium

Rattlesnake master

13%

Eutrochium purpureum

Sweetscented Joe pye weed

13%

Senna hebecarpa

Wild senna

13% 65%

Total

1184

1185

Scientific name Grass

Total Weight

Common name

Agrostis perennans

Upland bentgrass

Koeleria macrantha

Prairie Junegrass

Festuca rubra

Red Fescue

17% 16% 17% 50%

1193

Total

Forbs 1191

Common name

Monarda fistulosa

Wild bergamot

12%

Geranium maculatum

Wild geranium

12%

Tall thimble weed

13%

Indian blanket

13%

Anemone virginiana Gaillardia pulchella

Total 50% All Meadows, Years 1 to 3 Extended Warrant 3. Adaptive Management:

1. Soil Preparation 1.1. All meadows North

3.1.1.

1192

1.2. Site preparation: Below-ground Utilities

Scale: 1" = 20'

1.2.1.

Three days before the excavation, contractor must contact PA One Call (dial 811).

1.2.2.

At least 15 days in advance, contractor is required to contact Penn State OPP for below-ground utility locations.

1.2.3.

The contractor shall ensure that all existing utilities within the project site follows the Pennsylvania Underground Utility Line Protection Act.

Scientific name Grass

Chasmanthium latifolium Elymus hystrix

The contractor needs to obtain soil test before seeding and will send the project landscape architect the lab results with three days of receiving. Forbs

1.4. Site Preparation: Minimizing Impact of heavy equipment 1.4.1.

To minimize soil compaction and pulverization, all wheeled equipment accessing the site must have low tire or tract pressure.

1.4.2.

The contractor is required to maintain an 8-12 lbs./square inch (psi) tire pressure to all on-site vehicles.

1.5.1.

Selected Contractor notes

1.6.1. 1.7.1.

Liatris gracilis

Slender gayfeather

Monarda clinopodia

White bergamot

1.7.2. 1.7.3.

Scientific name

1. Soil Preparation 1.1. All meadows 1.2. Site preparation: Below-ground Utilities 1.2.1.

Three days before the excavation, contractor must contact PA One Call (dial 811).

1.2.2.

At least 15 days in advance, contractor is required to contact Penn State OPP for below-ground utility locations.

1.2.3.

The contractor shall ensure that all existing utilities within the project site follows the Pennsylvania Underground Utility Line Protection Act.

1.3. Site Preparation: Soil Test 1.3.1.

The contractor needs to obtain soil test before seeding and will send the project landscape architect the lab results with three days of receiving.

1.4. Site Preparation: Minimizing Impact of heavy equipment 1.4.1.

To minimize soil compaction and pulverization, all wheeled equipment accessing the site must have low tire or tract pressure.

1.4.2.

The contractor is required to maintain an 8-12 lbs./square inch (psi) tire pressure to all on-site vehicles.

1.5. Site Preparation: Tree Protection 1.5.1.

Tree protection on the Earth and Engineering Sciences Building shall remain in place until the meadow implementation is complete.

1.5.2. No vehicles, materials, fuels, or chemicals will be stored on the Earth and Engineering Sciences Building. Those things shall be stored in specified area away from planting procedure on site. 1.6. Site Preparation: Turf Removal 1.6.1.

Sod Stripper (or approved equal) shall be used for turf removal.

1.7. Soil: Organic Amendment 1.7.1.

The contractor needs to incorporate a leaf litter of 10"-12" of depth to accomplish a healthy soil 'peds'.

1.7.2.

The contractor will not use peat or sphagnum moss.

1.7.3.

Use locally or regionally organic produced, more sustainable for soil amendment.

1.7.4. Go to Organic Materials Processing and Education Center (OMPEC) or State College Borough compositing facility to use preapproved 'brown' compost. 1.7.5.

To discourage weed infestation, compost will need to have low Nitrogen and high Carbon.

1.8. Soils: Tillage and Seeding Operation: 1.8.1.

Remove the existing turf and weeds on the site.

1.8.2. Apply two layers of organics mid-to-late fall. Uniformly apply 2" depth of locally-obtained organic compost in areas needed to be seeded. Then apply 6" depth of freshly fallen leaf litter (settled mixed oak/hardwood leaves) on top of the same area. 1.8.3. To break up hardpans and blocky soil, apply two passes of chisel plow of 18" depth to loosen soil. Ensure that that soils are moderately moist-- not muddy or dry before plowing. This will begin to incorporate the organics added.

1.8.8.

Carex bicknellii BrittonShow

10%

Carex radiata

Eastern star sedge

10%

Deschampsia cespitosa

Tufted hair grass

10%

Juncus effusus

Soft rush

Scientific name

Common name

Scientific name

Common name

Lobelia cardinalis

Cardinal flower

50% Total Weight 13%

Symphyotrichum novae-angliae New England aster

Forbs

Total

Aquilegia canadensis Astragalus canadensis Eupatorium perfoliatum

10%

Both Wild3.2.8. red Columbine

August. Canadian milk-vetch Common bonesetBe 3.2.9.

Bottle gentian

Weight

the 9% contractor and the project landscape architect a If plants began to wilt, the contractor must irrigate. 9%

4% the excess watering during Year 2-3, it can be m wary of

Gentiana clausa Helenium autumnale

3.2.10. Bare Common sneezeweed

Helenium flexuosum

Purplehead sneezeweed 3.2.11. If there

Pycnanthemum virginianum

send a report to the project landscape architect.

3.2. after Irrigation/Watering Immediately seeding, one pass of culti-packer or Roll to allow good seed-soil contact. The contractor must monitor the soil moisture, twice a week, using the soil moisture meter.

2.3. Installing the Seed: Warm and Forbs 3.2.8.Season BothGrasses the contractor and the project landscape architect are monitoring the weather during the second and third year particular during June and If plants began wilt,tothe contractor must irrigate. 2.3.1. Truax grass drill orAugust. approved equal shall betoused distribute WSG seeds. 3.2.9. Be wary of the required excess watering during Yearseeder 2-3, itsince can be more harmfulculti-packer. to the targeted species and benefit weeds. Separate culti-packer or roller is not when using Truax it has a built-in 3.2.10. Bareinpatches that arethen larger than 6 sq. feet must be reseeded. See first specification detail. of the seed mix. Seed half of the seed mix one direction make a second pass perpendicular to the directionfor forfurther the remainder

3.2.11. If there 2.4. Installing the Seed: Cool Season Grassare andsmall Forb patch that is 2'-3' big, the patch shall be reseeded at the original rate. Theequipment contractor(e.g., mustbroadcast hand broadcast and manualequal) tools when 2.4.1. CSG requires 3.2.12. a different spreader oruse approved for itsreseeding larger andspots. heavier seeds. 2.4.3.

3.3. Adaptive Management: Prairie Meadow, Yearseed 1 mix and repeat process perpendicular to the first. In two passes, use a broadcast spreader to seed half of the 3.3.1.to be Useseeded a high separately rotary mower 6" ofdepending height to the thatused. reaches 1 foot and cut weeds that are settling in the seedbed. Forb mix will need withand twocut passes on vegetation the machinery

2.4.4.

The contractor the cutting 2-3 times during growing season to prevent the weeds to emerge and settle seed. CSG will need3.3.2. good contact to mineralshall soilsrepeat that requires incorporation on topthe by 1/8" to 1/4" of seedbed.

2.4.2.

10% runoff and removing the planted seeds, the co 3.2.6. To prevent can absorb. 10%

3.2.7. During year 2-3, Only through severe drought shall the co 50% Total week. Total

50%

3.2.3. During when all of the seeds have sprouted rainfall have not been adequate, plants need to be watered twice weekly. Allow the soils 2.1.1. Prior to shipping, ensure thatYear seed1,supplier break dormancy through seedand pre-treatment. to be dry completely before watering again. 2.1.2. The contractor shall show their supplier seed voucher to the project landscape architect. 3.2.4. The contractor shall have the project landscape architect present during the three watering. 2.2. Installing the Seed: General Site Conditions and Timing 3.2.5. For any required watering during sunny days, the watering should be done between 6 am to 10 am. During overcast, anytime throughout daylight 2.2.1. Do not seed in wet-saturated or dry soils. Only seed on soils that are moderately moist and a well-prepared seedbed. hours is acceptable. 2.2.2. WSGs and Forbs seeds shall be seeded mid-May to early June, when topsoil temperature is above 60°F. 3.2.6. To prevent runoff and removing the planted seeds, the contractor must water seeded areas at a controlled rate that are less than the rate the soil 2.2.3. CSGs and forbs shall beabsorb. seeded mid-March to late April when no frost and snow in ground. Soil temperature need to reach 40-50 F before seeding. can Alternatively seeding can be planted early Sept to early Oct. 3.2.7. During year 2-3, Only through severe drought shall the contractor be required to irrigate. In extreme cases, irrigate to below the root zone once a 2.2.4. Do not seed or plugweek. during draught season or mid-June to late August.

2.3.2.

3.2.5. For Bladder (Star) sedge

10%

3.2.1. During the sprouting stage, irrigate and monitor the soil to keep soil damp moderately to just below the rooting zone. 2. Seed and Plug Arrivals and Installation

2.3.3.

Total The contractor shall have the project landscape architect Weight

10%

One pass of Roto-till depth createthe fine texturedmonthly and leveled seedbed. 3.1.5. after Yeardisc 2-3,harrowing Contractorofis3"-4" required to to inspect meadows during April to Late October. Within 3 days after inspection, you are required to

3.2.2.

3.2.4.

Common name

Canada bluejoint

Remove 3. theAdaptive existing Management: turf and weedsAllonMeadows, the site. Years 1 to 3 Extended Warranty and Management Period

2.1. Seed Preparation

Leathery rush

The contractor will not use peat or sphagnum moss.

Apply Seed

The contractor must monitor the soil moisture, twice a we Total 50%

Fowl bluegrass

1.8.5. Spread fertilizer first before offsetafter discing if soil call for fertilizers Mesic and Rain Meadows only.need Prairie meadows notthat erosion did not 3.1.4. Submitfollowing a report the 24 hours a 1/2" orlabs greater rainfall to thefor landscape architect. Contractor to inspect andshall ensure be fertilized. occur. If erosion occurred, you must create an erosion control feature. 1.8.7.

3.2.2.

Riverbank wild rye

1.8.2. Apply two layers of organics mid-to-late fall.types Uniformly apply 2" depth of locally-obtained compostperiod. in areasSee needed to be seeded. Thendetail. 3.1.1. For all three meadow requires a 3-year Extended Warranty andorganic Management specification for further apply 6" depth of freshly fallen leaf litter (settled mixed oak/hardwood leaves) on top of the same area. 3.1.2. During the full Extended Warranty and Management Period, the contractor must monitor the site for healthy Growth, full diversity of seeds and 1.8.3. To break up hardpans blocky soil, apply two and passes of chisel plowand of 18" to loosen soil. Ensure that that soils are moderately moist-- not plug,and weed infestation, insect rodent damage, soildepth conditions. muddy or dry before plowing. This will begin to incorporate the organics added. 3.1.3. Year 1, the contractor is required to inspect the meadow every 7 calendar days. Then within three working days after the inspection, submit a field 1.8.4. One pass of offsitereport disc ofto8"-10" depth landscape to complete organic mixing on top of soils. the project architect.

1.8.6.

11% During the sprouting stage, irrigate and monitor the soil to

Elymus riparius Wiegand

Total

To discourage weed infestation, compost will need to have low Nitrogen and high Carbon.

3.2.1.

Calamagrostis canadensis

1.8. Soils: Tillage and Seeding Operation: 1.8.1.

Woodland Sunflower

Gramano Carex intumescens id

Lobelia siphilitica Blue cardinal flower 'brown' 13% 1.7.4. Go to Organic Materials Processing and Education Center (OMPEC) or State College Borough compositing facility to use preapproved 14% Rudbeckia laciniata Cutleaf coneflower compost.

1.7.5.

Ohio spiderwort

Helianthus divaricatus

any required watering during sunny days, the waterin 10% hours is acceptable. Bicknell's sedge 10%

Juncus coriaceus

Forbs

11%

3.2.Small's Irrigation/Watering ragwort 10%

Tradescantia ohiensis

10%

palustris The contractor needs to incorporate a leaf litter of 10"-12" of depth to accomplish a healthy soilPoa'peds'.

Use locally or regionally organic produced, more sustainable for soil amendment.

Total

Weight 3.1.5. Year 2-3, Contractor is required to inspect the meadows m 10% send a report to the project landscape architect.

Blunt broom sedge

Gramano Carex scoparia id

Sod Stripper (or approved equal) shall be used for turf removal.

3.1.4. Submit a17% report 24 hours after a 1/2" or greater rainfall to 50% occur.Total If erosion occurred, you must create an erosion contro

Virginia wild rye

3.2.3. During Year 1, when all of the seeds have sprouted and ra to be dry completely before watering again.

1.5.2. No vehicles, materials, fuels, or chemicals will be stored on the Earth and Engineering Sciences Building. Those things shall be stored in specified Total area away from planting procedure on site. Weight Scientific name Common name

1.7. Soil: Organic Amendment

Weight

3.1.3. Year 1, the contractor is required to inspect the meadow 17% Indian woodoats to the16%project landscape architect. Bottle-brushreport grass

Common name

Tree protection on the Earth and Engineering Sciences Building shall remain in place until the meadow implementation is complete.

1.6. Site Preparation: Turf Removal

3.1.2. During the full Extended Warranty and Management Perio plug, weedTotal infestation, insect and rodent damage, and soil co

Common name

Scientific name

Packera anonyma

1.5. Site Preparation: Tree Protection

For all three meadow types requires a 3-year Extended W

Elymus virginicus

1.3. Site Preparation: Soil Test 1.3.1.

Total Weight

Scientific name

Whorled mountainmint

patches that are larger than 6 sq. feet must be resee 7% 5% small patch that is 2'-3' big, the patch shall be are 8%

3.2.12. The contractor must hand broadcast and use manual tool 50% Total

3.3. Adaptive Management: Prairie Meadow, Year 1 3.3.1.

Use a high rotary mower and cut 6" of height to the veget

3.3.2.

The contractor shall repeat the cutting 2-3 times during th

3.4. Prairie Meadow, Year 2 3.4.1.

The contractor must use a high rotary mower mid-June to

3.4.2.

Use a power string trimmer or hand pull the aggressive we

3.4.3.

The contractor shall not allow unwanted weeds to set and

3.5. Prairie Meadow, Year 3 3.5.1.

During Mid-spring, the contractor will scalp mow the eme

3.5.2.

Immediate remove all the trimmings by raking away from

3.6. Prairie Meadow, Year 4 3.6.1.

The contractor is required to reseed bare patches that are

3.6.2. The contractor will only monitor the Prairie Meadow twic possible weed infestation, and extensive herbivory. 3.6.3.

Within three days of inspection, the contractor must send

3.6.4. The fire marshal of the borough of the municipality must meadow. 3.7. Adaptive Management: Mesic Meadow, Year 1 3.7.1. 3.7.2.

Mowing is not required, unless there is a severe weed infe

The contractor shall use a high rotary mower and cut back

3.8. Adaptive Management: Mesic & Rain Meadow, Year 2 & 3 3.8.1.

The contractor shall use a rotary mower to cut 6"-8" of he

3.8.2. Immediately remove all the trimmings by raking away from trimmings to OPP compost facilities.

3.8.3. The contractor shall obtain a soil sample in May both Year added on site to be fertilize. This will help fight off weeds. 3.8.4.

Prairie meadow should not be fertilized

118 6

1187

118

118 4

Planting Methods Tree plaza technical design for stratavault.

1" 628 13"

13"

11" 1916

13"

Mulch 1 2" gap between Galvanize Steele. 1 4" Galvanize Steele, hot dip in hot zinc.

TECHNO-BLOC Blu 60 permeable paver MM, Beige cream.

1" 628

Tree anchoring, rootball fixing system Plati-Mat. Planting soil 1185

Stratavault 45, 400mm/16" nom

1 4"

Galvanize Steele, hot dip in hot zinc. 1 2" gap

5" 2916

1" 628 13"

13"

11" 1916

VIEWNAME

R-8781 Riverwalk Tree Grate. 13"

Scale: ?" = ??'-??"

TECHNO-BLOC Blu 60 permeable paver MM, Beige cream.

Washer

1 2" gap between Galvanize Steele. 1 4" Galvanize Steele, hot dip in hot zinc.

625 8"

Mulch

Nut 2" air gap

Tree anchoring, rootball fixing system Plati-Mat. Planting soil

Tree measurement must meet the ANSI Z60 standard. Only prune to create a 6' clearance and to remove damaged branches. Must follow the horticultural practices for tree care. Trunk flare must be 1" exposed from the mulch. 2" mulch and keep mulch away from trunk flare. Once rootball is placed, unwrap the burlap from the top at least 31 of the rootball.

1" 628 13"

13"

Compact planting soil under the tree rootball as needed to prevent settlement of the rootball.

11" 1916

13"

clearance and to remove damaged branches. Must follow the horticultural practices for tree care.

4 lifts of planting soil and shall be compacted by foot thoroughly. No compaction equipment necessary.

1 2"

gap between Galvanize Steele.

Once rootball is placed, unwrap the burlap from the top at least 31 of the rootball.

Geotextile highly tenacity woven polypropylene

1 4"

R-8781 Riverwalk Tree Grate

Mulch

Galvanize Steele, hot dip in hot zinc. TECHNO-BLOC Blu 60 permeable paver MM, Beige cream.

1" 628

Tree anchoring, rootball fixing system Plati-Mat. 1 4"

1" 552

Planting soil Stratavault 45, 400mm/16" nom

1 4"

1" 2"

1" mulch Stainless steel fastener 1" 552 TECHNO-BLOC Blu 60 permeable paver MM, Beige cream. Compact planting soil under the tree rootball as needed to prevent settlement of the rootball.

15" 1616 68 3 " 16

1 2"

1 4"

1" 84

30"

3 1315 16" 1316"

2 lifts compacted backfilled 95% Subsoil Crashed gravel, ASTM 1241, TYPI, Gradation B Geotextile highly tenacity 1" woven polypropylene 3516 Undisturbed subgrade 1" 3516

3" 3516

2 lifts compacted backfilled 95% Subsoil 13"

ASTM D448, No. 8. Do not drive vehicles or operate equipment over the compacted aggregate. 4 lifts of CU SOIL and shall be compacted by foot thoroughly. No compaction equipment necessary.

11" 1916

Tree anchoring, rootball fixing system Plati-Mat. Must be pounded 18" deep in the subgrade.

5" 2916

TECHNO-BLOC Blu 60 permeable paver MM, Beige cream. 1" 22

ASTM D448, No. 8. Do not drive vehicles or operate equipment over the compacted aggregate.

Geogrid woven polyester Fabric with PVC coating

11" 3416 3" 1316

Stratavault 45, 400mm/16" nom 625 8"

Crashed gravel, ASTM 1241, TYPI, Gradation B Undisturbed subgrade Stainless steel fastener Tree anchoring, rootball fixing system Plati-Mat. Must be pounded 18" deep in the subgrade.

Art

Spray paint, pen, watercolor, & collaging

Paint 32

Watercolor & Pen

Pen & Maker

Colored Pencil

Pencil

Alyssa Humarang 814.232.6124 akh5629@psu.edu