GENE MANIPULATION IN PLANT IMPROVEMENT II STADLER GENETICS SYMPOSIA SERIES CHROMOSOME STRUCTURE AND FUNCTION Impact of New Concepts Edited by J. Perry Gustafson and R. Appels GENE MANIPULATION IN PLANT IMPROVEMENT Edited by J. Perry Gustafson GENE MANIPULATION IN PLANT IMPROVEMENT II Edited by J. Perry Gustafson GENETICS, DEVELOPMENT, AND EVOLUTION Edited by J. Perry Gustafson, G. Ledyard Stebbins, and Francisco J. Ayala GENE MANIPULATION IN PLANT IMPROVEMENT II 19th Stadler Genetics Symposium Edited by J. Perry Gustafson USDA-ARS University of Missouri Columbia, Missouri PLENUM PRESS • NEW YORK AND LONDON The editor would like to dedicate his effort in this publication to Ed, Kathleen, Anna, Doug, Hajrial, Hassan, Mohammed, and Zong-Min. They kept the lab running. In addition, he would like to express a special appreciation to Chris, Katy, and Nick, who kept him running. Library of Congress Cataloging-in-Publication Data Stadler GenetIcs Symposium (19th 1990 UniversIty of Missourl- -Columbia) Gene manipulation in plant improvement II 19th Stadler Genetics Symposium / edIted by J. Perry Gustafson. p. cm. -- (Stadler genetics symposia serIes) "Proceedings of the 19th Stadler Genetics Symposium ... held March 13-15. 1989. at the University of Missouri. Columbia. Missouri" -Verso t.p. Includes bibliographical references and i:ldex. ISBN-13: 978-1-4684-7049-9 e-1SBN-13: 978-1-4684-7047-5 DO£: 10.1007/97R-I-46R4-7047-5 1. Plant genetIc engineering--Congresses. 2. Plant breedlng- -Congresses. I. Gustafson. J. P. II. Title. III. Series. S8123.57.S73 1990 631.5'23--dc20 90-36593 eIP Proceedmgs of the 19th Stadler GenetJcs Symposium, Gene Manipulation in Plant Improvement II, held March 13-15, 1989, at the UniverSity of Missouri, Columbia, Missoun 1990 Plenum Press, New York Softcovcr reprint of the hardcover I st edition 1990 A Division of Plenum Publishmg Corporation 233 Spring Street, New York, NY 10013 All nghts reserved No part of this book may be reproduced, stored m a retneval system, or transmitted in any form or by any means, electronic, mechanical, photocopying, microfilming, recording, or otherwise, without wntten permiSSIOn from the Publlsher ACKNOWLEDGEMENT The editor gratefully acknowledges the generous support of the following contributors: College of Agriculture, Department of Agronomy, Division of Biological Sciences, Graduate School and School of Medicine, University of Missouri-Columbia; United States Department of Agriculture-Agricultural Research Service; CIBA-GEIGY Corporation; DeKalb Pfizer Genetics; Del Monte Foods, USA; Garst Seed Company; Illinois Foundation Seeds, Inc.; Monsanto Company; Northrup King Company; and Pioneer Hi-Bred International, Inc. who made the 19th Stadler Genetics Symposium a success. The speakers, who spent a tremendous amount of time preparing their manuscripts and lectures are gratefully acknowledged. with out their expertise and dedication the Symposium could not have taken place. I wish to thank the local chairpersons for their efforts to see that everyone in the respective sessions were well taken care of during the Symposium. The behind-the-scene and on-site preparation was excellently handled by Joy Williams from Conferences and Specialized Courses, University of Missouri, who tirelessly handled all of my peculiar requirements and made sure everything was extremely well organized. Many thanks are due to Joyce Reinbott, University of Missouri, for her excellent secretarial help in handling all the correspon dence and typing. A special thanks goes to Kathleen Ross and Ed Butler for keeping the lab running. J. P. Gustafson February 6, 1990 Columbia, Missouri v CONTENTS Plant Breeding and the Value Contributed to Cereal Grain and Oilseed Production in Western Canada 1 D. F. Kraft Self-pollinated Crop Breeding: Concepts and Success . 21 R.H. Busch and D.D. Stuthman The Romance of Plant Breeding and Other Myths . 39 D.N. Duvick Targeting Genes for Genetic Manipulation in Crop Species . 55 J.W. Snape, C.N. Law, A.J. Worland, and B.B. Parker Incompatibility Barriers Operating in Crosses of Oryza sativa With Related Species and Genera . 77 L.A. Sitch Wheat x Maize and Other Wide Sexual Hybrids: Their Potential For Genetic Manipulation and Crop Improvement . 95 D.A. Laurie, L.S. O'Donoughue, and M.D. Bennett Induced Mutations - An Integrating Tool in Genetics and Plant Breeding . 127 M. Maluszynski In Vitro Culture of Rice: Transformation and Regeneration of Protoplasts 163 T.K. Hodges, J. Peng, L. Lee, and D.S. Koetje vii viii CONTENTS In Vitro Manipulation of Barley and Other Cereals . 185 H. Lorz, R. Brettschneider, S. Hartke, R. Gill, E. Kranz, P. Langridge, A. Stolarz, and P. Lazzeri Transformation and Regeneration of Non- Solanaceous Crop Plants . 203 M.A.W. Hinchee, C.A. Newell, D.V. Connor-Ward, T.A. Armstrong, W.R. Deaton, S.S. Sato, and R.J. Rozman Haploids in Cereal Improvement: Anther and Microspore Culture . 213 K.J. Kasha, A. Ziauddin, and U.-H. Cho Transgenic Plants 237 R. Dekeyser, D. Inze, and M. Van Montagu Transformation and Regeneration of Important Crop Plants: Rice as the Model System For Monocots . 251 R. Wu, E. Kemmerer, and D. McElroy Genetic Transformation of Maize Cells by Particle Bombardment and the Influence of Methylation on Foreign-Gene Expression 265 T.M. Klein, L. Kornstein, and M.E. Fromm Non-conventional Resistance to Viruses in Plants - Concepts and Risks . 289 R. Hull Plant Transformation to Confer Resistance Against Virus Infection . 305 R.N. Beachy Using Plant Virus and Related RNA Sequences to Control Gene Expression 313 M. Young and W. Gerlach Mapping in Maize Using RFLPs 331 D.A. Hoisington and E.H. Coe, Jr. RFLP Mapping in Wheat - Progress and Problems . 353 M.D. Gale, S. Chao, and P.J. Sharp CONTENTS ix New Approaches for Agricultural Molecular Biology: From Single Cells to Field Analysis ............. . 365 R.A. Jefferson Regulation of Plant Gene Expression by Auxins. 401 T.J. Guilfoyle, B.A. MCClure, G. Hagen, C. Brown, M. Gee, and A. Franco The Molecular Basis of variation Affecting Gene Expression: Evidence From Studies on the Ribosomal RNA Gene Loci of Wheat . . . . . 419 R.B. Flavell, R. Sardana, S. Jackson, and M. O'Dell Index ... 431 PLANT BREEDING AND THE VALUE CONTRIBUTED TO CEREAL GRAIN AND OILSEED PRODUCTION IN WESTERN CANADA Daryl F. Kraft Professor, Agricultural Economics and Farm Management University of Manitoba, Winnipeg, Manitoba R3T 2N2, CANADA INTRODUCTION Cereal grains and oilseeds account for two thirds of the value of agricultural production in the Prairie Provinces of Manitoba, Saskatchewan, and Alberta. Between 1978 and 1988 the value of these crops ranged from $4 billion to $8 billion. The extreme variation in the annual crop value is primarily related to; droughts in 1980, 1984 and 1988; record production levels in 1981, 1982 and 1986; record high prices in 1980 and 1981 and twenty year low prices in 1986 and 1987. Underlying the economic and weather shocks has been a steady upward trend in crop yields. Nevertheless bio-technology has had a significant influence upon the financial affairs of 100,000 farmers in western Canada. The issue addressed in this paper is to account for the income attributed to one technology namely plant breeding. Over the past 25 years total cereal grain and oilseed production has increased at an annual average of 2 percent (Kraft, 1980). After removing the year to year influence of weather the level of cereal grain and oilseed production predicted in 1990 was 46 million tonnes. The average for the 1980's was forecast to 42.5 million tonnes. So far the average between 1980 and 1988 has been 42 million tonnes. The factors underpinning the long term growth in production do not appear to have changed substantially in the past decade relative to the 1960's and 1970's. Land Related Increases in Production In the span of 25 years (1961-1986) the area under production increased from 15 million hectares to 23.6 million hectares. Gen~ .'.funipliialion in Planl Improvemcnl II Edited by J. P. Gustafson ] Plenum Press, r-;"w York, 1990 2 D.K.KRAFT About half of the increase in seeded area took place in the last ten years. While the area in crop increased 1.3 percent annually the yearly contribution of land to total production was about 0.4 percent. Nearly all the additional area occurred because less land was summerfallowed. Stubble yields are lower than fallow yields and without additional expenditures on fertilizers and pesticides the total increase in output only ranged between 0.3 percent to 0.4 percent for a 1.3 percent increase in seeded area. Therefore land by itself contributed about 4 to 5 million tonnes of the 17 million tonnes of additional grain produced in the last 25 years. Fertility Related Increases in Production Fertilizer registered a six fold increase in use between 1968 and 1986. An additional 10 million tonnes of nitrogen, phosphorous and potassium were applied by Prairie farmers. The contribution of fertilizer to total cereal grain and oilseed production has been difficult to isolate. Flaten and Hedlin (1988) reviewed a number of studies on soil fertility and crop yields. However, they were unable to reach a conclusion on the combined effects of increased nutrients, pesticides and varietal improvements when all inputs were changing together. Traditional agronomic research normally does not design experiments to analyze the interactive relationships when a number of inputs are combined in different proportions. Arthur and Kraft (1988), Arthur, Fields and Kraft (1986) and Kraft (1982) estimated the influence of varieties and fertilizer from farm level data collected between 1968 and 1980. The genetic yield potential of the crops depended upon the varieties seeded and the yield characteristics of the variety. An estimate of these yield attributes were taken from Cooperative Tests of Varieties sponsored by Agriculture Canada. Annual surveys undertaken by the Pool Elevator Companies identified the varieties seeded by farmers. Fertilizer applied and crop yields were obtained from surveys of farmers conducted by the provincial crop insurance corporations. Throughout the period fertilizer use was correlated with increased application of herbicides. Therefore, the relationships estimated between fertility and crop yields probably jointly reflect the use of pesticides. The elasticities estimated for wheat (Triticum ssp.), barley (Hordeum vulgare), oats (Avena sativa) and flax (Linum usitassimum) with respect to fertilizer ranged between 0.1 and 0.15. In other words a 10 percent increase in fertilizer would increase crop yields between 1 percent and 1.5 percent. Since fertilizer use increased 600 percent over the period 1960 to 1985 the crop production increase attributed to fertilizer would vary from 7.7 million tonnes to 11.5 million tonnes. Crop production was estimated to increase from 24 million tonnes in 1961 to 41 million in 1986. The 17 million