Grafting Techniques for Watermelon 1

Similar documents
Vegetable Grafting: Watermelon

GRAFTING OF VEGETABLES TO IMPROVE GREENHOUSE PRODUCTION

MATERIALS AND METHODS

Vegetable Grafting a Pest Management Perspective

Cucurbit Grafting. Emily Silverman

How to Splice Graft Cucumber Plants. Vegetable Grafting ag.purdue.edu/hla

Grafting of Tomatoes for Soil-based Production in Greenhouse and High Tunnels Judson Reid, Kathryn Klotzbach and Nelson Hoover

Cultivation of Grafted Vegetables II. Development of Grafting Robots in Japan

Grafting Tomatoes to Improve Plant Health

Evaluation of grafting for the mature green tomato production system

Effects of U niconazole and Gibberellic Acid Application on Elongation of Hypocotyl and Internodes in Figleaf Gourd for Rootstock

PO Box 1866, Palm City, Florida, (772) Fax (772)

Top Grafting Tomatoes

Side Grafting Tomatoes

Grafting Technologies and Their Trends

Your Florida Dooryard Citrus Guide - Introduction 1

'UF Multi-flora Peach' and 'UF Multi-flora Pink Frost' Gerberas - University of Florida Cultivars for Landscapes and Large Pots 1

Pruning Blueberry Plants in Florida 1

Archival copy: for current recommendations see or your local extension office.

2/10/2016. Considerations of Vegetable Grafting. Why graft vegetables? In the context of. Scion Rootstock Grafted plants

Alternative Crops. Carol Miles Vegetable Horticulturist

Grafting Tomatoes PRESENTED BY ROB BROWN, GROWER & OWNER, FLATTOP FARM

USE OF GRAFTED CUCURBITS IN THE MEDITERRANEAN REGION AS AN ALTERNATIVE TO METHYL BROMIDE

Rootstocks for Florida Stone Fruit 1

Grafting Watermelons and other Cucurbits. Presented by Rob Brown, Grower & Owner, Flattop farm

INTRODUCTION OF GRAFTING AS A NEW IPM TOOL IN ARIZONA MELON PRODUCTION

Open-Field Soilless Culture of Vegetables 1

GRAFTING INSTRUCTIONS

Evaluation of Grafted and Non-Grafted Hybrid and Heirloom Tomatoes in a High Tunnel

GRAFTING THE MANGO IN HAWAII. William Bembower. Revised by Warren Yee Assistant Specialist in Horticulture

Pruning and Training Deciduous Fruit Trees for the Dooryard 1

Generalized Sequence of Operations for Tomato Culture - Florida Greenhouse Vegetable Production Handbook, Vol 3 1

TigerPrints. Clemson University. Frederic Memmott Clemson University,

Tomato / Pepper / Eggplant

St. Augustinegrass - Made for the Florida Shade? 1

COST ACTION FA nd WORKING GROUPS MEETING AND STEERING MANAGEMENT COMMITTEE

Training and Pruning Florida Peaches, Nectarines, and Plums 1

Unit 7. Grafting and Budding. During this laboratory you will be introduced to various methods used to graft and bud horticultural crops.

Practical & Mega Chip Bud Grafting

Response of Cucurbit Rootstocks for Grafted Melon to Root-knot

Training and Pruning Florida Peaches, Nectarines, and Plums 1

USE OF THE ETIOLATION TECHNIQUE IN ROOTING AVOCADO CUTTINGS

Training and Pruning Florida Peaches, Nectarines, and Plums 1

GRAFTING AND BUDDING TECHNIQUES FOR APPLE. PlSc 300 LAB 8

Training and Pruning Florida Peaches, Nectarines, and Plums1

THE USE OF PLUG TRANSPLANTS IN KOREA

Tomato Bacterial canker- Clavibacter michiganensis pv. michiganensis

Unit E: Plant Propagation. Lesson 5: Propagating Plants by Grafting and Budding

Plant Propagation for Successful Hydroponic Production

Plant Propagation Methodologies

Pistachio rootstocks. Elizabeth J. Fichtner Farm Advisor: nuts, prunes, olives UCCE Tulare and Kings Counties

Sprout length (cm), number of leaves per budded plant and diameter of the bud sprout (mm) sprouting from bud were taken at an interval of 15 days.

Plant Propagation PLS 3223/5222

Grafting and Rootstock Effects on Fruit Yield and Composition in Organic, Field-grown Tomato

'Florida Blizzard' Caladium - A University of Florida Cultivar 1

Rootstock-scion interactions of selected Annona species

Herbaceous grafting is often. Microclimate and Scion Leaf Removal to Improve the Success of Grafted Tomato Seedlings

Practical Grafting. By Tom Wahl, Red Fern Farm

Cleft Grafting Avocados. The Garden Academy Propagation Series Grafting Unit

Microplot Evaluation of Rootstocks for Control of Meloidogyne incognita on Grafted Tomato, Muskmelon, and Watermelon

Emerging Technologies

Growing Fruit: Grafting Fruit Trees in the Home Orchard

GRAFTING GUIDE. A Pictorial Guide to the Cleft and Splice Graft Methods for Tomato and Pepper. 3 rd Edition. Bulletin 950

Grafting and Budding Nursery Crop Plants AG-396. Grafting

Alternatives to Rootstock Propagation by Seed What can we expect?

'Garden White' Caladium - a University of Florida Cultivar for Sunny Landscapes and Large Containers 1

Specialty Melon Yield and Quality Response to Grafting in Trials Conducted in the Southeastern United States

Laboratory No. 12 Grafting and Budding

Vegetable Grafting International Field Trip Report Part I: Taiwan and Japan Xin Zhao 1 and Chieri Kubota 2

Reliable Grafting. Western Washington Fruit Research Foundation. Presented by: Bernie Hilgart

Macadamia nut (Macadamia

Grafting Fruit Trees. Loyd Collett 4/5/2011 1

What is Hydroponics?

Citrus Propagation 1. Ute Albrecht, Mongi Zekri, and Jeffrey Williamson 2

Performance of Conventionally- and Organically-grown Grafted Celebrity Tomato in Ohio in 2008

Budding and Grafting. M. Elena Garcia, PhD Horticulture Dept.

Vegetarian Newsletter

Rootstock: a plant that has good roots and is strong against diseases.

Managing Phosphorus Fertilization of Citrus using Soil Testing 1

Vegetable Transplant Production in Greenhouses

Propagation by Grafting and Budding

BOTANY/HORTICULTURE PLANT SCIENCE AG

Building a Raised Bed Vegetable Garden: The Easy Way For South Florida Gardens & Schools

extension.missouri.edu Archive version -- See MU Guide Grafting What is grafting? Why graft? What are the limitations? What can be grafted?

Introduction. Institute of Food and Agricultural Sciences North Florida Research and Education Center Suwannee Valley

B. C. D. B. C. D. B. C. D. B. C. D.

Your Florida Dooryard Citrus Guide - Young Tree Care 1

Mango grafting manual

DISEASE MANAGEMENT FOR COMMERCIAL VEGETABLES KNOWLEDGE! PRE-PLANT DECISIONS THOMAS ISAKEIT HORTICULTURE 325 ESSENTIAL MANAGEMENT TOOL:

AVOCADO PROPAGATION. California Avocado Society 1956 Yearbook 40: 89-98

Sunflower Sunbright and Sunbright Supreme Culture

Management of Microsprinkler Systems for Florida Citrus 1

Grafting Morphology and Physiology Text Pages:

Rose Mosaic Virus: A Disease Caused by a Virus Complex and Symptoms on Roses and Management Practices 1

The Bunch Grape 1 VARIETIES HS17A. T. E. Crocker and J. A. Mortensen 2

Microirrigation of Young Blueberries in Florida 1

California Cling Peach Board ANNUAL REPORT-2010 IMPROVED ROOTSTOCKS FOR PEACH AND NECTARINE. Ted DeJong, Professor, University of California, Davis.

COST Action FA1204 database: A simple and effective tool for vegetable growers and the scientific community

Effect of Different Scion Varieties of Mango on Growth and Biomass Production per Formance of Stone Grafts (Mangifera indica L.)

May-August th driest on record-indiana

Transcription:

HS1075 Grafting Techniques for Watermelon 1 Kent Cushman 2 Grafting of watermelon scions on squash, pumpkin, or bottle gourd (Lagernaria spp.) rootstocks is practiced in many of the major watermelon production regions of the world (Choi et al. 2002; Lee 1994, 2003). The primary reason for grafting of vine crops is to provide protection against soil-borne diseases (Edelstein et al. 1999; Paplomatas et al. 2002), but some rootstocks have the added advantage of being resistant to nematodes, especially the root-knot nematode Meloidogyne spp. Additional benefits include the potential for increased yield, increased fruit quality especially flesh firmness, more vigorous plant growth and lower plant populations (Core 2005; Yetisir 2003). Disadvantages included increased production cost and the possibility of altered horticultural characteristics of cultivars used as scions. Mechanical grafting aids are widely used in Korea and Japan and have the potential to greatly reduce costs (Lee 1994, 2003). There is interest in Florida in exploring the use of grafted watermelon plants for commercial production. Growers are concerned about replacing proven practices with new and costly technology, but seed companies and transplant production facilities are currently experimenting with grafted plants under Florida conditions. The following is a brief description, with images, of four grafting techniques used for vine crops and a summary of the advantages and disadvantages of each. References Choi DC, SW Kwon, BR Ko, JS Chou. 2002. Using chemical controls to inhibit axillary buds of Lagernaria rootstock for grafted watermelon (Citrullus lanatus). Acta Hort. 588:43-48. Core J. 2005. Grafting watermelon onto squash or gourd rootstock makes firmer, healthier fruit. Agric. Res. July issue. Edelstein M, R Cohen, Y Burger, SR Shriber, Pivonia S, Shtienberg D. 1999. Integrated management of sudden wilt in melons, caused by Monosporascus cannonballus, using grafting and reduced rates of methyl bromide. Plant Disease 83:1142-1145. Lee JM. 1994. Cultivation of grafted vegetables I. Current status, grafting methods, and benefits. HortScience 29:235-239. Lee JM. 2003. Advances in vegetable grafting. Chronica Hort. 43:13-19. Paplomatas EJ, K Elena, A Tsagkarakou, A Perdikaris.. 2002. Control of Verticillium wilt of tomato and cucurbits through grafting of commercial varieties on resistant rootstocks. Acta Hort. 579:445-449. Yetisir H, N 2003. Rootstock resistance to fusarium wilt and effect on watermelon fruit yield and quality. Phytoparasitica 31:1-7. 1. This docu ment is HS1075, one o f a series of the Hor ticultural Sciences Department, Florida Cooperative Extension Service, Institute of Food and Agricultural Scie nces, Univ ersity of Florida, Gainesville, FL 32611. Publica tion: October 3, 2006. Please visit the EDIS Web si te a t http://edis.ifas.ufl.edu. Reviewed December 2009. 2. Kent Cushman, Assistant Professor, Depart ment of Horticultural Science s, Florida C ooperative Extension Service, Institute of Fo od and Agricultural Sciences, University of Florida, Southwest Florida Research and Education Center, Immokalee, 34142. The Institute of Food and Ag ricultural Sci ences is an equ al op portunity/affirmative ac tion emplo yer autho rized t o provide research, educational information and other services only to individuals and institutions that function without regard to race, color, sex, age, handicap or national origin. For info rmation on obtaining ot her e xtension publications, conta ct your cou nty Cooperative Ext ension Servic e office. Florida Co operative Extension Service/Institute of Foo d and A gricultural S ciences/university of Flor ida/millie Ferrer-Chancy, Interim Dean.

Grafting Techniques for Watermelon page 2 Splice Graft Rootstock seedlings should have at least one true leaf, and scion seedlings should have one or two true leaves (Fig. 1a). With a single angled cut, remove one cotyledon with the growing point attached (Fig 1b). It is important to remove the growing point and the cotyledon together so that the rootstock seedling is not able to grow a new shoot of its own after being grafted. This is one of the advantages of using this type of graft. It s also important, when removing the cotyledon and growing point together, not to remove too much tissue because the remaining cotyledon must be well attached to the stem of the seedling. Cut the scion and match the two cut surfaces, rootstock and scion (Fig 1c). Hold in place with a grafting clip (Figs. 1d and 1e). Place the grafted seedling in a chamber with high humidity at about 77 F and discard the unused parts. 1) Simple technique, almost anyone can do this type of graft. 2) The only task after grafting is to remove the clip. There is no trimming of unwanted plant parts after healing of the graft union. 1) Requires careful control of humidity, light, and temperature after grafting. Can experience high losses due to poor environmental control and possible disease under high humidity conditions.

Grafting Techniques for Watermelon page 3 Side Graft Rootstock seedlings should have at least one true leaf, and scion seedlings should have one or two true leaves (Fig. 2a). With a sharp knife or razor blade, cut a slit all the way through the stem of the rootstock (Fig 2b). The cut doesn t need to be too long, just long enough to insert the scion. Cut the scion at an angle and insert into the slit of the rootstock (Fig 2c). Hold in place with a grafting clip (Fig. 2d). Place the grafted seedling in a chamber with high humidity at about 77 F and discard the unused parts. 1) Simple technique. 1) Requires careful control of humidity, light, and temperature after grafting. Can experience high losses due to poor environmental control and possible disease under high humidity conditions. 2) After healing of graft union, requires removal of top portion of rootstock. This requires additional time and labor but allows scion alone to establish plant canopy.

Grafting Techniques for Watermelon page 4 Approach Graft Rootstock and scion seedlings should have one or two true leaves (Fig. 3a). With a sharp knife or razor blade, cut an angled slit halfway through the stem of the rootstock and an oppositely angled slit halfway through the stem of the scion (Fig 3b). Match the slits so that they overlap and then seal with aluminum foil or specialty materials available for this purpose (Figs. 3c and 3d). Place the grafted seedlings in a seedling tray with larger cell size than what they were grown in. Place root balls of both rootstock and scion together in the same cell and add potting media if needed to fill the larger cell. Return to greenhouse or other growing area. High humidity and low light is not necessary to ensure success with this type of graft. 1) Relatively simple technique. 2) High humidity and low light environment not required for successful healing of the graft union. A normal greenhouse environment is sufficient. 1) After healing of graft union, requires removal of top portion of rootstock about nine days after making graft. Also requires severing of scion roots after an additional two or three days. (Can then be planted to field in about three more days.)

Grafting Techniques for Watermelon page 5 Hole Insertion Graft Rootstock seedlings should have one small true leaf and scion seedlings should have one or two true leaves (Fig. 4a). With a pointed probe, remove from the rootstock the true leaf along with the growing point (Fig 4b). It is important to remove all of the growing point to prevent future shoot growth of the rootstock. This is one of the advantages of this type of graft. Use the probe to open a slit along one side on the upper portion of the rootstock s stem, where the stem connects to the cotyledons. Cut the scion and insert into the rootstock (Fig 4c). Hold in place with a grafting clip (Fig. 4d). Place the grafted seedling in a chamber with high humidity at about 77 F and discard the unused parts. 1) The only task after grafting is to remove the clip. There is no trimming of unwanted plant parts after healing of the graft union. 1) Requires slightly more skill than most other grafting techniques. 2) Requires careful control of humidity, light, and temperature after grafting. Can experience high losses due to poor environmental control and possible disease under high humidity conditions.

2024 © homedocbox.com Privacy Policy | Terms of Service | Feedback