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GERMPLASMS

Registration of Seven Improved Chickpea Breeding Lines Resistant to Leaf Miner

International Center for Agricultural Research in the Dry Areas (ICARDA), P.O. Box 5466, Aleppo, Syria

^* Corresponding author (R.Malhotra{at}cgiar.org).

Seven chickpea (Cicer arietinum L.) breeding lines, FLIP 2005-1C (Reg. No. GP-264, PI 645455), FLIP 2005-2C (Reg. No. GP-265, PI 645456), FLIP 2005-3C (Reg. No. GP-266, PI 645457), FLIP 2005-4C (Reg. No. GP-267, PI 645458), FLIP 2005-5C (Reg. No. GP-268, PI 645459), FLIP 2005-6C (Reg. No. GP-269, PI 645460), and FLIP 2005-7C (Reg. No. GP-270, PI 645461) resistant to chickpea leaf miner were developed and released by the International Center for Agricultural Research in the Dry Areas (ICARDA), Syria, in August 2006 for distribution to chickpea researchers for use in breeding programs.

Chickpea leaf miner (Liriomyza cicerina Rondani) is an important pest and is widely distributed in west Asia and north Africa, which often causes economic damage to chickpea (Weigand and Tahhan, 1990; Khoja, 2006). Although effective insecticides for the control of leaf miner are available, they are uneconomical and unfriendly, thus rarely used. The use of host plant resistance is the best control option for leaf miner. Evaluation of a large number of chickpea germplasm accessions at ICARDA resulted in the identification of few chickpea cultivars resistant to this pest (Singh and Weigand, 1996). These cultivars were either small seeded or have poor agronomic performance. Because of the high fluctuation of the leaf miner populations from year to year, it was difficult to establish a breeding program for leaf miner resistance. However, by delaying planting for 3 to 4 wk in the spring, we observed that the leaf miner infestation was high enough to discriminate regularly between susceptible and resistant plants. Thus, we initiated a breeding program for leaf miner resistance using the modified screening methodology that included sowing the crop in the late spring (second half of March), irrigating as necessary for proper germination, sowing the material in 2- or 4-m-long rows spaced at 0.45 m between rows, sowing the susceptible spreader-cum-indicator row at an interval of two test entries, scoring the test entries for leaf miner infestation on 1 to 9 scale, where the susceptible check is taking the rating 9 and growing the selected lines with rating 5 for reconfirmation of their resistance reaction for one more season.

This technique has resulted in the identification of a number of genetically enhanced leaf miner resistant lines. Seven of these lines with good agronomic background, seed size, and plant type were selected for distribution to and use by chickpea researchers. These lines were developed from five crosses, ILC 3805/ILC 3379, ILC 3805/ILC 5309, ILC 5901/ILC 3397, ILC 5901/ILC 5309, and ILC 3397/ILC 5309. The crosses were made at Tel Hadya (the main research station of ICARDA, in Aleppo, Syria (36.01° N 36.56° E, 284 m above sea level) in 1999, and the crossed seeds were grown at Terbol in the Bequa'a Valley in Lebanon (33.49° N 35.59° E, 890 m above sea level) in the off-season in 1999 for generation advancement. The F₂ seeds obtained from Terbol were planted in the spring season in 2000 at Tel Hadya. From the F₂ to F₅ generations, all evaluation was done for leaf miner resistance at Tel Hadya following pedigree method of selection.

In F_5, 303 leaf miner resistant progenies from these crosses appeared to be agronomically uniform and their seeds were bulked. These lines were then planted in F₆ at Tel Hadya in 2004, and 141 lines with good agronomic traits, including pod number, plant height, plant type, and biomass, were selected. These selected lines were grown in preliminary yield trial (PYT) with two replications in 2005 at Tel Hadya. They were evaluated for seed yield and other agronomic traits in late spring under leaf miner stress conditions. From the PYT we selected seven of the best lines (line numbers 75, 109, 136, 137, 142, 181, and 199) that possessed good agronomic background and seed quality and that were also relatively high yielders (Table 1 ). These lines were assigned Food Legume Improvement Program (FLIP) numbers.

Footnotes

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Received for publication September 12, 2006.

References

• Khoja, S. 2006. Mechanisms of resistance to chickpea leaf miner (Liriomyza cicerina Rond.) and study of its diapause. Master's thesis. Univ. of Aleppo, Syria.
• Singh, K.B., and S. Weigand. 1996. Registration of three leaf miner-resistant chickpea germplasm lines: ILC 3800, ILC 5901, and ILC 7738. Crop Sci. 36:472.[Free Full Text]
• Weigand, S., and O. Tahhan. 1990. Chickpea insect pests in the Mediterranean zones and new approaches to their management. p. 169–175. In H.A. van Rheenen and M.C. Saxena (ed.) Chickpea in the nineties. ICRISAT, Patancheru, A.P. 502 324, India.

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