Take-all of wheat

Take-all, caused by the soilborne fungus Gaeumannomyces graminis var. tritici, is arguably the most-studied root disease of any crop, yet remains the most important root disease of wheat worldwide. S. D. Garrett launched the study of root diseases and soilborne pathogens as an independent field of science starting in the middle of the 20th century, inspired by and based in large part on his research on take-all during the first half of the 20th century. Because there has been neither a source of host plant resistance nor an effective and economical fungicide for use against this disease, the focus for nearly a century has been on cultural and biological controls. In spite of the intensive and extensive works towards these controls, with mostly site-or soil-specific success, the only broadly and consistently effective controls require either crop rotation (break crops), or the converse, wheat monoculture to induce take-all decline. Take-all decline has become the model system for research on biological control of plant pathogens in the rhizosphere and provided the first proof to the scientific world after decades of debate that antibiotics are both produced in soils and play a role in the ecology of soil microorganisms. On the other hand, even the best yields following take-all decline are rarely equal to those achieved with crop rotation. Because of this, the continuing trends globally to shorten rather than lengthen the rotations in wheat-based cropping systems, and the growing use of direct-seed (no-till) trashy systems to reduce costs and protect soil and water resources, new methods to control take-all are needed more than ever. With high resolution maps of the genomes of cereals and other grasses now available, including a complete sequence of the rice genome, and the interesting differences as well as striking similarities among the genomes of cereals and related grasses, gene transfer to wheat from oats, rice, maize and other grass species resistant to G. graminis var. tritici should be pursued. (C) 2003 Elsevier Science Ltd. All rights reserved.