Categorizing the Resistance of Soybean Genotypes to the Soybean Aphid (Hemiptera: Aphididae)

ABSTRACT We evaluated selected soybean, Glycine max (L.) Merr., genotypes during their reproductive stages for resistance to the soybean aphid, Aphis glycines Matsumura (Hemiptera: Aphididae), under greenhouse conditions and documented the categories of aphid-resistant soybean. Two screening studies were performed to assess the level of resistance to the soybean aphid on six soybean genotypes during the reproductive stages of development. Significant differences in aphid damage ratings were detected among the soybean evaluated in the screening studies. Three genotypes (KS4202, K-1639-2, and K1621) were considered moderately resistant based on the assessed damage ratings. Two of these genotypes (K-1639-2 and KS4202), along with a commercial variety (‘Asgrow 2703’) were used in a follow-up greenhouse study to test for antibiosis and tolerance. For the antibiosis evaluation, KS4202 had significantly more nymphs than Asgrow 2703 and K-1639-2. In fact, KS4202 had a threefold difference in the number of nymphs compared with Asgrow 2703 (81.8 ± 14.7 and 26.2 ± 13.9 nymphs, respectively) and a fivefold difference compared with K-1639-2 (15.6 ± 13.9). Although not significant, Asgrow 2703 had more nymphs than K-1639-2. The lower aphid numbers on infested K-1639-2 plants compared with aphid numbers on Asgrow 2703 and KS4202 plants indicates antibiosis for this genotype. No significant differences in average seed weight, number of seeds per pod, or plant damage were observed between infested and control KS4202 plants; however, significant differences in biomass, total seed weight, number of pods per plant, and number of seeds per plant were detected.

[1]  Sungtaeg Kang,et al.  Soybean Aphid Resistance in PI 243540 Is Controlled by a Single Dominant Gene , 2008 .

[2]  D. Landis,et al.  Potential for biotic interference of a classical biological control agent of the soybean aphid , 2008 .

[3]  G. Hartman,et al.  Discovery of Soybean Aphid Biotypes , 2008 .

[4]  R. Hammond,et al.  New Plant Introductions with Resistance to the Soybean Aphid , 2008 .

[5]  Walter E. Riedell,et al.  Soybean Aphid Feeding Injury and Soybean Yield, Yield Components, and Seed Composition , 2008 .

[6]  K. Hopper,et al.  Parasitism of the soybean aphid, Aphis glycines by Binodoxys communis: the role of aphid defensive behaviour and parasitoid reproductive performance , 2008, Bulletin of Entomological Research.

[7]  D. Ragsdale,et al.  Soybean aphid,Aphis glycines Matsumura, a new vector ofPotato virus Y in potato , 2005, American Journal of Potato Research.

[8]  W. Schapaugh,et al.  Chlorophyll Loss Caused by Soybean Aphid (Hemiptera: Aphididae) Feeding on Soybean , 2007, Journal of economic entomology.

[9]  Leon G. Higley,et al.  Population Dynamics of Soybean Aphid and Biotic Mortality at the Edge of Its Range , 2007, Journal of economic entomology.

[10]  W. Schapaugh,et al.  Feeding Behavior by the Soybean Aphid (Hemiptera: Aphididae) on Resistant and Susceptible Soybean Genotypes , 2007, Journal of economic entomology.

[11]  M. E. Kaiser,et al.  Hymenopteran Parasitoids and Dipteran Predators Found Using Soybean Aphid After Its Midwestern United States Invasion , 2007 .

[12]  W. Schapaugh,et al.  Characterization of Antibiosis and Antixenosis to the Soybean Aphid (Hemiptera: Aphididae) in Several Soybean Genotypes , 2006, Journal of economic entomology.

[13]  N. Desneux,et al.  Suppression of Population Growth of the Soybean Aphid, Aphis glycines Matsumura, by Predators: The Identification of a Key Predator and the Effects of Prey Dispersion, Predator Abundance, and Temperature , 2006 .

[14]  G. Hartman,et al.  Soybean Aphid Resistance in Soybean Jackson Is Controlled by a Single Dominant Gene , 2006 .

[15]  G. Hartman,et al.  A Single Dominant Gene for Resistance to the Soybean Aphid in the Soybean Cultivar Dowling , 2006 .

[16]  R. O’neil,et al.  Orius insidiosus (Say) as a predator of the soybean aphid, Aphis glycines Matsumura , 2005 .

[17]  C. Smith,et al.  Plant Resistance to Arthropods , 2005 .

[18]  R. Nelson,et al.  Resistance to Soybean Aphid in Early Maturing Soybean Germplasm , 2005 .

[19]  D. Landis,et al.  Impact of predation on establishment of the soybean aphid, Aphis glycines in soybean, Glycine max , 2005, BioControl.

[20]  D. Landis,et al.  Predators Suppress Aphis glycines Matsumura Population Growth in Soybean , 2004 .

[21]  D. Landis,et al.  Soybean Aphid Predators and Their Use in Integrated Pest Management , 2004 .

[22]  R. Venette,et al.  Assessing the Invasion by Soybean Aphid (Homoptera: Aphididae): Where Will It End? , 2004 .

[23]  David W. Ragsdale,et al.  The Soybean Aphid in China: A Historical Review , 2004 .

[24]  K. Hopper,et al.  Prospects for Importation Biological Control of the Soybean Aphid: Anticipating Potential Costs and Benefits , 2004 .

[25]  G. Hartman,et al.  Resistance to the Soybean Aphid in Soybean Germplasm , 2004 .

[26]  G. Hartman,et al.  Variability and transmission by Aphis glycines of North American and Asian Soybean mosaic virus isolates , 2003, Archives of Virology.

[27]  A. Clark,et al.  Transmissibility of Field Isolates of Soybean Viruses by Aphis glycines. , 2002, Plant disease.

[28]  T. Heng-moss,et al.  Evaluation of Buffalograss Germplasm for Resistance to Blissus occiduus (Hemiptera: Lygaeidae) , 2002, Journal of economic entomology.

[29]  D. Onstad,et al.  Occurrence and Distribution of Aphis glycines on Soybeans in Illinois in 2000 and Its Potential Control , 2001 .

[30]  Yuzheng Wang,et al.  Study on the Optimum Control of Soybean Aphid , 1998 .