Weed Science

Published by: Weed Science Society of America

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Weed Science 48(5):588-593. 2000
doi: 10.1614/0043-1745(2000)048[0588:SPOTAB]2.0.CO;2

Seed production on Triticum aestivum by Aegilops cylindrica hybrids in the field

Jeremy R. Snydera, Carol A. Mallory-Smithb, Sara Balterc, Jennifer L. Hansenc, and Robert S. Zemetrac

aDepartment of Crop and Soil Science, Oregon State University, Corvallis, OR 97331

bCorresponding author. Department of Crop and Soil Science, Oregon State University, Corvallis, OR 97331;

cDepartment of Plant, Soil, and Entomological Sciences, University of Idaho, Moscow, ID 83843

Abstract

Field experiments were conducted to determine if seeds would be produced on Triticum aestivum by Aegilops cylindrica hybrids in the field and, if it were, to determine the viability of the seeds produced. One, five, or 10 hybrids were planted into varying proportions of A. cylindrica and T. aestivum in a replacement series design. Percent seed set ranged from 0 to 5.5% in 1996 and from 0 to 9.2% in 1997. Seeds were set in all treatments. The average seed set was 2.3% in 1996 and 3.8% in 1997. No differences in seed set were found among treatments. The seeds produced were separated according to seed condition, either full or shriveled, and tested for germination. The germination of the seeds produced on the hybrids was not significantly different between years. The average germination for full seeds was 94% in both years and 79 and 84% for shriveled seeds in 1995 and 1996, respectively. Greenhouse studies were conducted to evaluate the rate of self-fertility of the BC1 generation and to identify morphological characteristics that could be used to identify the probable pollen donor parent and to predict the occurrence of seed set. In 1997 4.1% and in 1998 2.1% of BC1 plants set seeds. The average seed set was 0.3% in 1997 and 0.06% in 1998. It was not possible, using any morphological characteristic measured, to determine the identity of the parent serving as the pollen donor in the previous generation or to predict the occurrence of seed set in the BC1 generation. This is the first reported study to show that hybrids between T. aestivum and A. cylindrica have the ability, although limited, to backcross under field conditions and set seeds. Furthermore, the seeds produced are viable and will germinate and produce plants. With the millions of hectares of T. aestivum infested with A. cylindrica, even the limited ability to backcross is of concern for the movement of a herbicide-resistance gene.

Nomenclature: Aegilops cylindrica Host AEGCY, jointed goatgrass; Triticum aestivum L., wheat.

Received: December 7, 1999; Final version received: May 1, 2000

Keywords: Hybrid, gene movement, backcross, AEGCY



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Figure 1. Representative spike appearance of BC1 plants in greenhouse experiments. Each spike shown was from the BC1 generation, and each spike was taken from a different plant. The BC1 spike on the left closely resembles an Aegilops cylindrica spike, whereas the BC1 spike on the right closely resembles a Triticum aestivum spike

Figure 2. Representative BC1 plant appearance in greenhouse experiments. The three plants shown are from the BC1 generation. The BC1 plant on the left plant closely resembles an Aegilops cylindrica plant, and the BC1 plant on the right closely resembles a Triticum aestivum plant

table

Table 1. Summary of seed set on hybrids in 1996 and 1997 at Hyslop Field Laboratory, Corvallis, OR

table

Table 2. Summary of BC1 plants producing BC1S1 seeds in greenhouse experiments during 1997 and 1998

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