Coleoptile length of winter wheat varieties 2024

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An updated publication is now available in the Wheat Rx series that examines the coleoptile lengths of many Kansas wheat varieties. Wheat varieties with long coleoptiles are more likely to emerge when planted deep enough to reach soil moisture from past rainfall. This article summarizes information from the publication. The full publication, MF3612 Coleoptile Length of Winter Wheat Varieties 2024, is available online at: https://bookstore.ksre.ksu.edu/pubs/MF3612.pdf.

Wheat Rx is a partnership between Kansas Wheat and K-State Research and Extension that disseminates the latest research recommendations for high-yielding, high-quality wheat to Kansas wheat farmers.

 Coleoptile Length

Once a wheat seed starts to absorb water, the seminal roots are the first developmental structure to emerge. After the seminal roots, the coleoptile develops. The coleoptile is a rigid protective structure that covers the emerging shoot to aid it in reaching the soil surface (Figure 1). The coleoptile usually continues to elongate until it breaks the soil surface and reaches sunlight. At this point, it stops growing and the first true leaf emerges through it.

If the seed is sown deeper than the coleoptile’s length, the coleoptile is not able to emerge through the soil surface, and consequently, the first true leaf emerges below ground. This causes the first true leaf to take on an accordion-like appearance and the wheat plant typically becomes yellow and dies (Figure 1). To avoid this situa­tion, wheat should never be sown deeper than the coleop­tile length of the chosen variety.


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Figure 1. Deep-sown wheat demonstrating the potential for coleop­tile elongation (yellow arrows point to the end of the coleoptile). On the left, the coleoptile was able to reach the soil surface and the first true leaf emerged above ground, therefore showing normal early development. On the right, the coleoptile’s maximum length was shorter than the sowing depth, resulting in the emergence of the first true leaf below the ground level. As the first true leaf does not have the strength to continue pushing upwards when it emerges below ground, it takes on an accordion-like shape and becomes yellow, leading to plant death.


In dryland environments typical of western Kansas and eastern Colorado, wheat is often sown on soil moisture accumulated in the last summer rainfall events, which requires growers to sow deep in order to reach moisture. This is less of a concern in central Kansas during most years, where growers can achieve good stands by relying on fall precipitation for good topsoil moisture at sowing time.

To achieve good crop establishment on deep-placed seed, long coleoptile varieties are essential. An additional concern in these regions is that many growers sow their wheat early for grazing, which places sowing time during warmer soil temperatures – which further reduces the coleoptile length.

Depending on the variety, this reduction in coleoptile length due to high temperatures may be as much as 60%. For example, a variety that has a 27/8-inch (75 mm) coleoptile at 60°F could have a 15/8-inch (40 mm) coleoptile at 80°F soil temperature. While different varieties have different sensitivities to warm soil conditions, selecting varieties with longer-than-average coleoptiles could help prevent emergence issues under these conditions.

This publication provides growers with an estimate of the average coleoptile length of different winter wheat varieties common to Kansas and the Great Plains to help guide variety selection for deep sowing.

Description of Procedures

This study was performed under controlled conditions, which differ from field conditions but provide a fair comparison among the different wheat varieties’ potential coleoptile lengths.

Seeds were tested from all varieties entered in the 2024 Kansas State University winter wheat variety performance tests, as well as from other seed sources used for agronomic studies during the same crop year. Sixty seeds of each variety were tested. Variety randomization ensured that the experiment was conducted in a randomized complete block design and each variety occurred one time and that the coleoptile length was measured in 40 plants per variety.

Coleoptile Length of Winter Wheat Varieties

Results from this controlled-environment experiment are shown on Table 1. The longest coleoptile varieties ranged from 2¾ to 3 inches (69 to 75 mm) and included KS Providence and Doublestop CL Plus. A number of variety options were also included in the second and third longest coleoptile groups and could potentially be good options for deep sowing in western environments, as their coleoptile length ranged from 21/4 to 2¾ inches (57 to 69 mm). Alternatively, many varieties had relatively short coleoptiles, falling in the three lowest groups of less than 2 inches (51 mm). These varieties included: Breakthrough, WB4523, WB4699, Paradox, LCS Radar, Paradise, P25R76, EXP 2405, KS Bill Snyder, P25R74, WB4347, KS Big Bow, KS Mako, AR Iron Eagle 22AX, WB4792, LSC Runner, WB4422, and P25R65. Caution should be exerted when sowing these varieties in deeper-than-average conditions.

Table 1. Wheat variety grouping based on coleoptile length measured in a controlled environment experiment during the 2023-2024 winter wheat season in Kansas. A total of 40 coleoptiles were measured per variety. Within groups, varieties are ordered from shortest to longest coleoptile.

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Romulo Lollato, Extension Wheat and Forage Specialist
lollato@ksu.edu

Luiz Otavio Pradella, Master Student

Jorge Andres Cuellar Montano, Visiting Scientist

Mariana de Oliveira Mota, Masters Student

Benhur Sari Severo, Visiting Scientist

Maximo Nores Allende, Visiting Scientist

Jane Lingenfelser, Assistant Agronomist

Erick DeWolf, Wheat Pathologist


Tags:  wheat publication coleoptile 

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