DOCSLIB.ORG

Malus Fusca Poster

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Malus Fusca Poster NATIVE APPLE ROOTSTOCKS FOR THE MARITIME NORTHWEST AN ON- FARM TRIAL ERIC LEE- MÄDER, NORTHWEST MEADOWSCAPES LLC, WHIDBEY ISLAND, WA, [email protected] OVERVIEW RESULTS RECOMMENDATIONS AND FUTURE Grafting apple trees onto specific rootstocks has Evaluating over a two- year timeframe: QUESTIONS been practiced for hundreds of years, providing options for managing tree size, precocity, pest and Approximately 1/3 of the rootstocks failed, likely Based upon our initial findings, the use of disease resistance, and more. Yet, the diversity of due to poor root structure and excessive root Pacific crab has the potential to: commercial rootstocks today remains limited. pruning (due to variable bare root quality of nursery stock), and due to a poor tolerance on • Provide a viable apple rootstock for wet and Malling, Geneva, Budagovsky, and other rootstocks the part of the Pacific crab for root disturbance poorly drained locations in the Maritime provide various good options, but all have been and drying. Northwest, including eliminating the need to selected for optimal traits in climates that differ drain wet farm fields for crop production; significant from the Maritime Pacific Northwest. In Overall, Pacific crab produced successful grafts particular, none offer exceptional performance in with 86% of the scion varieties. • Provide a fully fire blight- resistant rootstock poorly drained soils which can be typical in our – Malus fusca has documented polygenic wet climate. Varieties with a greater than 70% grafting resistance to fire blight; success rate included: Bulmer’s Norman, To address this challenge, in 2017 we launched an Domaines, Frequin Rouge, Vilibrie, Dabinette, • Foster a more ‘native’ and ecologically on- farm research project to evaluate the Blanquina, Bedan des Parts, Brown Snout, appropriate crop system, potentially suitability of the native Pacific crabapple (Malus Ashmead’s Kernal, Normannischen Ciderbirne, supporting native soil biodiversity. fusca) as a rootstock for domesticated cider apple Sangre de Toro, Nehou, Brown Thorn, and Amere varieties. While a number of individual orchardists de Berthencourt. Despite these potential benefits, additional have dabbled with the Pacific crab as a rootstock, questions remain for future evaluation, no previous replicated trials have been conducted Varieties with a greater than 50 to 70% including the longevity of grafting to assess how widely compatible this wild native grafting success rate included: De la Riega, compatibility, dwarfing potential, bearing age of tree is with various domesticated apple varieties Butt Pear, Muscat de Bernay, Zabereau Reinette, grafted trees, and consistency of these traits Barland Pear, Reine des Pommes, Thorn Pear, among a wild plant population. METHODS Cimitere, Raxao, Kerry Pippin, Pepa, Rieneta do Six Malus species are native to North America. In Caravia, and Collaos. Based on our findings we make the following the West, the Pacific crab is abundant in maritime initial recommendations on the use of Pacific climates extending from Alaska to Northern Varieties with a less than 50% grafting crab as a rootstock plant: California. Unique among apple species, it exhibits success rate included: Wickson Crab, Repinaldo a wide- range of adaptability, thriving in hydric and do Liebana, Calville Blanc, Te o r i c a , Perico, Court • Due to potential root drying and disturbance wetland soils including saltwater estuaries, as well Pendu Rose, Medaille D’Or, Peil de Sapa, Hendre sensitivity (as a wetland plant), container- as in heavy clay soils, and poorly drained upland Huffcap Pear, Michelin, Coloradano, Manchurian grown nursery stock should be used over sites. It is common in both coastal rainforests, and Crab, Barnet Pear, Vedialona, Yellow Huffcap Pear, bare- root plants where available. in areas of the Olympic rain- shadow where annual Peau de Vache, Blanc Mollet, Muscadet de Dieppe, precipitation averages less than 20- inches. Xuanina, De Bouteville, Mettais, and Jouveaux. • Grafting should be conducted in the orchard (as opposed to bench grafting), after the To evaluate the Pacific crab’s rootstock Varieties with no grafting success rate rootstock plant has been successfully compatibility with various cider apple varieties, we included: Irish Peach, Binet Rouge, Maria Elena, established. performed whip and tongue grafting with 50 apple Solarina, Dolgo Crab, Red Pear, Old Field Pear, varieties (primarily cider varieties), and an and Taynt on Squash Pear. additional 7 pear varieties. With 10 to 12 replicates of most varieties (although limited scion Based upon our observations, Pacific crab is wood availability in some cases resulted in fewer compatible with most apple and pear varieties. replicates). Limited success with some varieties is likely due to low quality rootstock material, rather than actual incompatibility. Support and Acknowledgements This project was made possible through funding from Western SARE, and the generous assistance of technical advisor, Dr. Carol Miles of Washington State University Department of Horticulture. .
Load more

Recommended publications
  • Osher Lifelong Learning Institute
    USDA-ARS National Plant Germplasm System Conservation of Fruit & Nut Genetic Resources Joseph Postman Plant Pathologist & Curator National Clonal Germplasm Repository Corvallis, Oregon May 2010 Mission: Collect – Preserve Evaluate – Enhance - Distribute World Diversity of Plant Genetic Resources for Improving the Quality and Production of Economic Crops Important to U.S. and World Agriculture Apple Accessions at Geneva Malus angustifolia ( 59 Accessions) Malus sikkimensis ( 14 Accessions) Malus baccata ( 67 Accessions) Malus sp. ( 41 Accessions) Malus bhutanica ( 117 Accessions) Malus spectabilis ( 9 Accessions) Malus brevipes ( 2 Accessions) Malus sylvestris ( 70 Accessions) Malus coronaria ( 98 Accessions) Malus toringo ( 122 Accessions) Malus domestica ( 1,389 Accessions) Malus transitoria ( 63 Accessions) Malus doumeri ( 2 Accessions) Malus trilobata ( 2 Accessions) Malus florentina ( 4 Accessions) Malus tschonoskii ( 3 Accessions) Malus floribunda ( 12 Accessions) Malus x adstringens ( 2 Accessions) Malus fusca ( 147 Accessions) Malus x arnoldiana ( 2 Accessions) Malus halliana ( 15 Accessions) Malus x asiatica ( 20 Accessions) Malus honanensis ( 4 Accessions) Malus x astracanica ( 1 Accessions) Malus hupehensis ( 185 Accessions) Malus x atrosanguinea ( 2 Accessions) Malus hybrid ( 337 Accessions) Malus x dawsoniana ( 2 Accessions) Malus ioensis ( 72 Accessions) Malus x hartwigii ( 5 Accessions) Malus kansuensis ( 45 Accessions) Malus x magdeburgensis ( 2 Accessions) Malus komarovii ( 1 Accessions) Malus x micromalus ( 25 Accessions)
    [Show full text]
  • Guide Alaska Trees
    x5 Aá24ftL GUIDE TO ALASKA TREES %r\ UNITED STATES DEPARTMENT OF AGRICULTURE FOREST SERVICE Agriculture Handbook No. 472 GUIDE TO ALASKA TREES by Leslie A. Viereck, Principal Plant Ecologist Institute of Northern Forestry Pacific Northwest Forest and Range Experiment Station ÜSDA Forest Service, Fairbanks, Alaska and Elbert L. Little, Jr., Chief Dendrologist Timber Management Research USD A Forest Service, Washington, D.C. Agriculture Handbook No. 472 Supersedes Agriculture Handbook No. 5 Pocket Guide to Alaska Trees United States Department of Agriculture Forest Service Washington, D.C. December 1974 VIERECK, LESLIE A., and LITTLE, ELBERT L., JR. 1974. Guide to Alaska trees. U.S. Dep. Agrie., Agrie. Handb. 472, 98 p. Alaska's native trees, 32 species, are described in nontechnical terms and illustrated by drawings for identification. Six species of shrubs rarely reaching tree size are mentioned briefly. There are notes on occurrence and uses, also small maps showing distribution within the State. Keys are provided for both summer and winter, and the sum- mary of the vegetation has a map. This new Guide supersedes *Tocket Guide to Alaska Trees'' (1950) and is condensed and slightly revised from ''Alaska Trees and Shrubs" (1972) by the same authors. OXFORD: 174 (798). KEY WORDS: trees (Alaska) ; Alaska (trees). Library of Congress Catalog Card Number î 74—600104 Cover: Sitka Spruce (Picea sitchensis)., the State tree and largest in Alaska, also one of the most valuable. For sale by the Superintendent of Documents, U.S. Government Printing Office Washington, D.C. 20402—Price $1.35 Stock Number 0100-03308 11 CONTENTS Page List of species iii Introduction 1 Studies of Alaska trees 2 Plan 2 Acknowledgments [ 3 Statistical summary .
    [Show full text]
  • Malussylvestris Family: Rosaceae Apple
    Malus sylvestris Family: Rosaceae Apple Apple (Malus spp.) consists of 30+ species that occur on both sides of the Atlantic in northern temperate zones. Its wood can be confused with pear (Pyrus spp.) and other “fruitwoods” in the rose family (Rosaceae). Malus is the classical Latin name for apple. Apple hybridizes with North American crab apples. Malus angustifolia-American crab apple, buncombe crab apple, crab apple, crabtree, narrowleaf crab, narrowleaf crab apple, southern crab, southern crab apple, wild crab, wild crab apple Malus coronaria-Alabama crab, Allegheny crab, American crab, American crab apple, Biltmore crab apple, Buncombe crab, crab, crab apple, Dawson crab, Dunbar crab, fragrant crab, garland tree, lanceleaf crab apple, Missouri crab, sweet crab apple, sweet-scented crab, sweet wild crab, wild crab, wild sweet crab Malus fusca-crab apple, Oregon crab, Oregon crab apple, Pacific crab apple, western crab apple, wild crab apple Malus ioensis-Bechel crab, crab apple, Iowa crab, Iowa crab apple, prairie crab, prairie crab apple, wild crab, wild crab apple Malus sylvestris-apple, common apple, wild apple. Distribution Apple is a cultivated fruit tree, persistent, escaped and naturalized locally across southern Canada, in eastern continental United States, and from Washington south to California. Native to Europe and west Asia. Apple grows wild in the southern part of Great Britain and Scandinavia and is found throughout Europe and southwestern Asia. It is planted in most temperate climates The Tree The tree rarely reaches 30 ft (9 m), with a small crooked bole to 1 ft (0.3 m) in diameter. The Wood General Apple wood has a reddish gray heartwood and light reddish sapwood (12 to 30 rings of sapwood).
    [Show full text]
  • Managing Fire Blight by Choosing Decreased Host Susceptibility Levels and Rootstock Traits , 2020 , January 15 January
    Managing Fire Blight by Choosing Decreased Host Susceptibility Levels and Rootstock Traits , 2020 , January 15 January Awais Khan Plant Pathology and Plant-microbe Biology, SIPS, Cornell University, Geneva, NY F ire blight bacterial infection of apple cells Khan et al. 2013 Host resistance and fire blight management in apple orchards Host resistance is considered most sustainable option for disease management due to Easy to deploy/implement in the orchards Low input and cost-effective Environment friendly No choice to the growers--most of the new and old cultivars are highly susceptible Apple breeding to develop resistant cultivars Domestication history of the cultivated apple 45-50 Malus species-----Malus sieversii—Gene flow Malus baccata Diameter: 1 cm Malus sieversii Malus baccata Diameter: up to 8 cm Malus orientalis Diameter: 2-4 cm Malus sylvestris Diameter: 1-3 cm Duan et al. 2017 Known sources of major/moderate resistance to fire blight to breed resistant cultivars Source Resistance level Malus Robusta 5 80% Malus Fusca 66% Malus Arnoldiana, Evereste, Malus floribunda 821 35-55% Fiesta, Enterprise 34-46% • Fruit quality is the main driver for success of an apple cultivar • Due to long juvenility of apples, it can take 20-25 years to breed resistance from wild crab apples Genetic disease resistance in world’s largest collection of apples Evaluation of fire blight resistance of accessions from US national apple collection o Grafted 5 replications: acquired bud-wood and rootstocks o Inoculated with Ea273 Erwinia amylovora strain
    [Show full text]
  • Starflowerimage Herbarium Flowering Trees
    Starflower Image Herbarium & Landscaping Pages Flowering Trees – pg.1 Starflower Image Herbarium Flowering Trees © Starflower Foundation, 1996-2007 Washington Native Plant Society These species pages has been valuable and loved for over a decade by WNPS members and the PNW plant community. Untouched since 2007, these pages have been archived for your reference. They contain valuable identifiable traits, landscaping information, and ethnobotanical uses. Species names and data will not be updated. To view updated taxonomical information, visit the UW Burke Herbarium Image Collection website at http://biology.burke.washington.edu/herbarium/imagecollection.php. For other useful plant information, visit the Native Plants Directory at www.wnps.org. Compiled September 1, 2018 Starflower Image Herbarium & Landscaping Pages Flowering Trees – pg.2 Contents About Ann Lennartz ................................................................................................................................................................ 2 Acer macrophyllum ................................................................................................................................................................ 4 Big-leaf Maple ..................................................................................................................................................................... 4 Alnus rubra ............................................................................................................................................................................
    [Show full text]
  • The Vulnerability of US Apple (Malus) Genetic Resources
    Genet Resour Crop Evol (2015) 62:765–794 DOI 10.1007/s10722-014-0194-2 RESEARCH ARTICLE The vulnerability of US apple (Malus) genetic resources Gayle M. Volk • C. Thomas Chao • Jay Norelli • Susan K. Brown • Gennaro Fazio • Cameron Peace • Jim McFerson • Gan-Yuan Zhong • Peter Bretting Received: 20 June 2014 / Accepted: 27 October 2014 / Published online: 13 November 2014 Ó Springer Science+Business Media Dordrecht (outside the USA) 2014 Abstract Apple (Malus 9 domestica Borkh.) is one wide range of biotic and abiotic stress resistances as of the top three US fruit crops in production and value. well as desirable productivity and fruit quality attri- Apple production has high costs for land, labor and butes. However, access to wild materials is limited and inputs, and orchards are a long-term commitment. wild Malus throughout the world is at risk of loss due Production is dominated by only a few apple scion and to human encroachment and changing climatic pat- rootstock cultivars, which increases its susceptibility terns. The USDA-ARS National Plant Germplasm to dynamic external threats. Apple crop wild relatives, System (NPGS) Malus collection, maintained by the including progenitor species Malus sieversii (Ledeb.) Plant Genetic Resources Unit in Geneva, NY, US is M. Roem., Malus orientalis Uglitzk., Malus sylvestris among the largest collections of cultivated apple and (L.) Mill., and Malus prunifolia (Willd.) Borkh., as Malus species in the world. The collection currently well as many other readily hybridized species, have a has 5004 unique accessions in the field and 1603 seed accessions representing M. 9 domestica,33Malus species, and 15 hybrid species.
    [Show full text]
  • Dihydrochalcones in Malus Mill. Germplasm and Hybrid
    DIHYDROCHALCONES IN MALUS MILL. GERMPLASM AND HYBRID POPULATIONS A Dissertation Presented to the Faculty of the Graduate School of Cornell University In Partial Fulfillment of the Requirements for the Degree of Doctor of Philosophy by Benjamin Leo Gutierrez December 2017 © 2017 Benjamin Leo Gutierrez DIHYDROCHALCONES IN MALUS MILL. GERMPLASM AND HYBRID POPULATIONS Benjamin Leo Gutierrez, Ph.D. Cornell University 2017 Dihydrochalcones are abundant in Malus Mill. species, including the cultivated apple (M. ×domestica Borkh.). Phloridzin, the primary dihydrochalcone in Malus species, has beneficial nutritional qualities, including antioxidant, anti-cancer, and anti-diabetic properties. As such, phloridzin could be a target for improvement of nutritional quality in new apple cultivars. In addition to phloridzin, a few rare Malus species produce trilobatin or sieboldin in place of phloridzin and hybridization can lead to combinations of phloridzin, trilobatin, or sieboldin in interspecific apple progenies. Trilobatin and sieboldin also have unique chemical properties that make them desirable targets for apple breeding, including high antioxidant activity, anti- inflammatory, anti-diabetic properties, and a high sweetness intensity. We studied the variation of phloridzin, sieboldin, and trilobatin content in leaves of 377 accessions from the USDA National Plant Germplasm System (NPGS) Malus collection in Geneva, NY over three seasons and identified valuable genetic resources for breeding and researching dihydrochalcones. From these resources, five apple hybrid populations were developed to determine the genetic basis of dihydrochalcone variation. Phloridzin, sieboldin, and trilobatin appear to follow segregation patterns for three independent genes and significant trait-marker associations were identified using genetic data from genotyping-by-sequencing. Dihydrochalcones are at much lower quantities in mature apple fruit compared with vegetative tissues.
    [Show full text]
  • Canadian Food Inspection Agency
    Canadian Food Inspection Agency Home > Plants > Plants With Novel Traits > Applicants > Directive 94­08 > Biology Documents > Malus domestica The Biology of Malus domestica Borkh. (Apple) Table of contents 1. General Administrative Information 2. Identity 3. Geographical Distribution 4. Biology 5. Related Species of Malus domestica 6. Potential Interaction of Malus domestica with Other Life Forms 7. References Appendix 1: Species and hybrid species currently recognized in the genus Malus, according to the taxonomy database of the U.S. Department of Agriculture Germplasm Resources Information Network GRIN) (USDA­ARS 2012) Biology Document BIO2014­01: A companion document to Directive 94­08 (Dir94­08), Assessment Criteria for Determining Environmental Safety of Plant with Novel Traits Photo credit: H. Ardiel Plant and Biotechnology Risk Assessment Unit Plant Health Science Division, Canadian Food Inspection Agency Ottawa, Ontario Oct 15, 2013 1. General Administrative Information 1.1 Background 1.2 Scope 1.1 Background The Canadian Food Inspection Agency's Plant and Biotechnology Risk Assessment (PBRA) Unit is responsible for assessing the potential risk to the environment from the release of plants with novel traits (PNTs) into the Canadian environment. The PBRA Unit is also responsible for assessing the pest potential of plant imports and plant species new to Canada. Risk assessments conducted by the PBRA Unit require biological information about the plant species being assessed. Therefore, these assessments can be done in conjunction with species­specific biology documents that provide the necessary biological information. When a PNT is assessed, these biology documents serve as companion documents to Dir94­08: Assessment Criteria for Determining Environmental Safety of Plants with Novel Traits.
    [Show full text]
  • Planning and Building Department P.O
    Planning and Building Department P.O. Box 970 ▪ 414 E First Street ▪ Newberg, Oregon 97132 503-537-1240 ▪ Fax 503-537-1272 ▪ www.newbergoregon.gov Newberg Stream Corridor Plant List Newberg has a Stream Corridor Overlay zone that runs along streams within the city. The plant list in the attached Guide for Using Willamette Valley Native Plants Along Your Stream (Linn Soil and Water Conservation District, June 2005) is designated Newberg’s official Stream Corridor Plant List. The plant list identifies acceptable plants for restoration projects along stream corridors. The Guide also lists noxious plants that should be avoided. The purpose, background, and requirements of the Stream Corridor Overlay zone are described in full in Chapter 15.342 of the Newberg Development Code. "Working Together For A Better Community-Serious About Service" C:\DOCUMENTS AND SETTINGS\OLSONST\DESKTOP\STREAM CORRIDOR PLANT LIST.DOC List of Recommended Plants Trees Douglas Spirea (Hardhack, Steeplebush) (Spirea Big Leaf Maple (Acer macrophyllum) douglasii var. menziesii and var. douglasii) Black Cottonwood (Populus trichocarpa, P. Vine Maple (Acer circinatum) balsamifera ssp.trichocarpa) Oregon Ash (Fraxinus latifolia) Herbaceous Plants and Flowers Oregon Crabapple (Malus fusca, Pyrus fusca) American Speedwell (Veronica americana) Oregon White Oak (Quercus garryana) Common Camas (Camassia quamash) Ponderosa Pine (Pinus ponderosa) Leichtlin’s Camas (C. leichtlinii) Red Alder (Alnus rubra) Cow Parsnip (Heracleum lanatum) Western Red Cedar (Thuja plicata) Hall’s Aster (Aster hallii) White Alder (Alnus rhombifolia) Hedge Nettle (Stachys cooleyae) Willows (Salix) Large-leaf Lupine (Lupinus polyphyllus) Sitka (sitchensis), Pacific (lasiandra), Scouler Northwest Cinquefoil (Potentilla gracilis) (scouleriana), Northwest (sessilifolia), Piper (piperi, hookeriana) Piggy-back Plant (Tolmiea menziesii) Seep-spring Monkey Flower (Mimulus guttatus) Shrubs Stinging Nettle (Urtica dioica) Black Hawthorn (Crataegus douglasii, C.
    [Show full text]
  • Wild Apple Species As a Source of Fire Blight Resistance for Sustainable
    Wild apple species as a source of fire blight resistance for sustainable productivity of apple orchards Awais Khan1and Thomas Chao2 1Plant Pathology and Plant-Microbe Biology Section, Cornell University, New York State Agricultural Experiment Station, Geneva, NY 2USDA-ARS Plant Genetic Resources Unit, New York State Agricultural Experiment Station, Geneva, NY This research was partially supported by the New York Apple Research and Development Program he susceptibility of commercial apple scion varieties disease resistance are needed to meet market demands and for and rootstocks to pathogens and insects greatly reduces optimal performance in the face of not only the challenge of orchard productivity and fruit quality. Since its first existing pathogens, but also for newly emerging diseases, the T report almost changing population of the pathogen strains, as well as abiotic 200 years ago in stresses. Strains of Erwinia amylovora have shown high genetic “There is great potential for tapping into a pear orchard variability and rapid changes in the genome in response to the use natural resistance in wild apple species in the Hudson of antibiotics. Mutated strains of fire blight could escape sprays and incorporating it into susceptible Valley, NY, fire and infect previously resistant apple cultivars (Smits et al. 2014). but commercially important and blight has been However, existing resistance genes in the natural apple (Malus) a major threat germplasm will allow breeding of new cultivars with enhanced consumer favorite cultivars using to ap p l e a n d disease resistance, as long as the genes are clearly identified. conventional or genome-assisted pear production Approximately 28 regions in the apple genome have been breeding or transgenic approaches, i n N e w Yo r k identified as sources of major or minor resistance to fire blight where appropriate and accepted.” State (Norelli (Khan et al.
    [Show full text]
  • Pacific Ranges Ecoregion
    Selecting Plants for Pollinators A Guide for Gardeners, Farmers, and Land Managers In the Pacific Ranges ecoregion British Columbia Coast Mountains from the British Columbia-Washington border north to Burke Channel and Bella Coola including Squamish, Whistler Hope, and Pemberton Table of CONTENTS Why Support Pollinators? 4 Getting Started 5 Pacifi c R anges 6 Meet the Pollinators 8 Plant Traits 10 Developing Plantings 12 Farms 13 Public Lands 14 Home Landscapes 15 Plants That Attract Pollinators 16 Notes 22 Habitat hints 24 Habitat and Nesting requirements 25 S.H.A.R .E. 26 This is one of several guides for different regions of North America. Check list 26 We welcome your feedback to assist us in making the future guides Resources and Feedback 27 useful. Please contact us at [email protected] 2 Selecting Plants for Pollinators Selecting Plants for Pollinators A Guide for Gardeners, Farmers, and Land Managers In the Pacific Ranges Ecoregion British Columbia Coast Mountains from the British Columbia-Washington border north to Burke Channel and Bella Coola including Squamish, Whistler, Hope, and Pemberton A NAPPC and Pollinator Partnership Canada™ Publication Pacifi c R anges 3 Why support pollinators? IN THEIR 1996 BOOK, THE FORGOttEN POLLINATORS, Buchmann and Nabhan estimated that animal pollinators are needed for the reproduction “Flowering plants of 90% of flowering plants and one third of human food crops. Each of us depends on these industrious pollinators in a practical way to provide us with the wide range of foods we eat. In addition, pollinators are part of the across wild, intricate web that supports the biological diversity in natural ecosystems that helps sustain our quality of life.
    [Show full text]
  • The Plant List the a Better Way to Beautiful
    The Plant List The Plant THE a better way to beautiful LIST A Companion to the Choosing the Right Plants Natural Lawn & Garden Guide Waterwise garden by Stacie Crooks Discover a better way to beautiful! his plant list is a companion to Choosing the Right The list on the following pages contains just some of the Plants, one of the Natural Lawn & Garden Guides many plants that can be happy here in the temperate Pacific T (see the back panel to request your free copy). Northwest, organized by several key themes. A number of These guides will help you garden in balance with nature, so these plants are Great Plant Picks ( ) selections, chosen you can enjoy a beautiful yard that’s healthy, easy to maintain because they are vigorous and easy to grow in Northwest and good for the environment. gardens, while offering reasonable resistance to pests and diseases, as well as other attributes. (For details about the When choosing plants, we often think about factors like size, GPP program and to find additional reference materials, shape, foliage and flower color. But the most important con- refer to Resources & Credits on page 12.) sideration should be whether a site provides the conditions a specific plant needs to thrive. Soil type, drainage, sun and Remember, this plant list is just a starting point. The more shade—all affect a plant’s health and, as a result, its appear- information you have about your garden’s conditions and ance and maintenance needs. a particular plant’s needs before you purchase a plant, the better.
    [Show full text]