Oviposition preference and larval performance of sugarcane borer in eight sugarcane genotypes

Pimentel, Guilherme Vieira; Tomaz, Adriano Cirino; Brasileiro, Bruno Portela; Peternelli, Luiz Alexandre; Barbosa, Márcio Henrique Pereira

doi:10.1590/1413-70542017414004317

Cited by 8 publications

(4 citation statements)

References 27 publications

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“…Sugarcane resistance to borer is the sum of several genes that confers the trait of some resistance. Several resistance traits in Brazilian sugarcane genotypes, such as antibiosis and antixenosis, have been reported (Dinardo-Miranda et al 2012, Pimentel et al 2017. Our results also show the high genetic variability for borer resistance in Brazilian sugarcane populations.…”

Section: Selection Of Sugarcane For Resistance To Borer At the First supporting

confidence: 69%

“…Previous studies have demonstrated that some sugarcane genotypes in Brazil have genes that confer some degree of resistance to D. saccharalis. This resistance is due to the presence of some leaf component that causes higher mortality of early-stage larvae, some barrier on the stalk surface that hinders or delays larvae penetration within the stalks, or some trait within the stalks that reduces larval feeding and/or affects larval performance (Dinardo-Miranda et al 2012, Pimentel et al 2017. Resistance genes are likely to provide more durable protection than that conferred by Bt genes.…”

Section: Introductionmentioning

confidence: 99%

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Genetic parameters and selection of sugarcane in early selection stages for resistance to sugarcane borer Diatraea saccharalis

Tomaz

Wartha

Resende

et al. 2019

Crop Breed. Appl. Biotechnol.

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A T1 (sugarcane population originating from true seeds) and T2 (first sugarcane clonal stage) population were used to estimate genetic parameters and compare selection strategies for Diatraea saccharalis (Lepidoptera: Crambidae) resistance in sugarcane. In the T1 stage, heritability at the family mean level (h²=0.77) was higher than individual genotype heritability (h²=0.16), and the additive genetic effect was more important for sugarcane borer resistance than non-additive effects. In addition, there was high genotypic variance among and within full-sib families. In the T2 population, genotypic variance was high, and heritability at the clone mean level was moderate (h²=0.61). We can conclude that family experiments enable selection of more promising families and parents for borer resistance. However, due to high genotypic variance within families, family selection at the T1 stage must be followed by clone selection at the T2 stage.

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Section: Selection Of Sugarcane For Resistance To Borer At the First supporting

confidence: 69%

Section: Introductionmentioning

confidence: 99%

Genetic parameters and selection of sugarcane in early selection stages for resistance to sugarcane borer Diatraea saccharalis

Tomaz

Wartha

Resende

et al. 2019

Crop Breed. Appl. Biotechnol.

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“…These conditions present challenges that may affect trial observations (Smith 2005) including controlling pest density, environmental conditions, and natural enemies. Therefore, several authors have used plant or stalk infestations under confined conditions (Dinardo-Miranda et al 2012, Vieira et al 2017, Rea et al 2018) or in bioassays where sugarcane tissue is provided in meridic diets to establish the precise impact of a specific sugarcane genotype on pest development (Taneja and Nwanze 1990, Meagher et al 1996, White et al 2011).…”

Section: Introductionmentioning

confidence: 99%

Resistance to Diatraea (Lepidoptera: Crambidae) stem borers in sugarcane is independent of species

Echeverri-Rubiano

Chica-Ramírez

García-Dávila

et al. 2023

Journal of Economic Entomology

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Evaluation of host-plant resistance on sugarcane to the sugarcane stem borers of Diatraea spp. is normally conducted in Colombia under field conditions, where environmental variations make the study of the insect–plant relationships difficult. Additionally, several species (i.e., D. saccharalis, D. indigenella, D. tabernella, and D. busckella), which are predominant in Colombia, can overlap in their distribution, raising the question of whether different varieties have the same responses to different pest species. The present study conducted evaluations of host-plant resistance under screen house conditions using two contrasting varieties (CC 93-3895, resistant, and CC 93-3826, susceptible) that were infested with the above-mentioned borer species. Observations of pest injury were conducted on internodes, leaves, and spindles. Survival and size (body mass) of the individuals recovered were analyzed and a Damage Survival Ratio (DSR) was proposed. The resistant CC 93-3895 exhibited less stalk injury, less emergence holes on internodes, and lower DSR; additionally, recovery of pest individuals was lower in comparison with CC 93-3826, independent of the borer species. Insect–plant interactions are discussed, as no previous information was available for three of the species tested (i.e., D. tabernella, D. indigenella, and D. busckella). This screen house protocol is proposed to characterize host-plant resistance among several cultivars from the Colombian sugarcane germplasm bank, using CC 93-3826 and CC 93-3895 as contrasting controls and D. saccharalis as the species model.

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“…Several resistance mechanisms against the sugarcane borer have been reported in sugarcane genotypes, including a low preference for oviposition, high mortality of early-instar larvae, the difficulty of larvae entering the stalks, and lower larvae development within the stalks (Pimentel et al 2017). In addition, differences among genotypes are often reported in field trials for several resistance traits, such as the percentage of bored internodes or internodes with exit holes, percentage of bored stalks, pupation success, estimates of adults produced per area/year/ variety, and the damage rating (Bessin et al 1990, White 1993, White et al 2011, Milligan et al 2003, Nibouche and Tibere 2008, Nikpay 2016.…”

Section: Introductionmentioning

confidence: 99%

Genetic parameters and selection of sugarcane for borer resistance in the advanced selection stage

Tomaz

Gonçalves

Resende

et al. 2020

Crop Breed. Appl. Biotechnol.

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This study aimed to investigate genetic parameters and selection strategies for sugarcane resistance to borer and determine the effects of selection for borer resistance on yield traits. The infestation index by borer (IIB) and yield traits were assessed over 3 years in 35 sugarcane clones planted in four locations in southeastern Brazil. There was no genotype × environment (year or location) interaction for borer resistance. Consequently, selection may be performed at only one location and year or by the mean of clones in several locations and/or years. The borer population affected the genotypic variance for borer resistance but when genotypic variance was significant, heritability was elevated and suitable genetic gain was achieved. Selection for borer resistance reduced the genetic gains for tons of cane per hectare, theoretical recoverable sugar, and tons of sugar per hectare; however, satisfactory selection gains for both borer resistance and yield were achieved using selection index.

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Oviposition preference and larval performance of sugarcane borer in eight sugarcane genotypes

Cited by 8 publications

References 27 publications

Genetic parameters and selection of sugarcane in early selection stages for resistance to sugarcane borer Diatraea saccharalis

Genetic parameters and selection of sugarcane in early selection stages for resistance to sugarcane borer Diatraea saccharalis

Resistance to Diatraea (Lepidoptera: Crambidae) stem borers in sugarcane is independent of species

Genetic parameters and selection of sugarcane for borer resistance in the advanced selection stage

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