Simulation of control strategies for decision-making regarding Digitaria sanguinalis in glyphosate-resistant soybeans

Oreja, Fernando H.; Bastida, Fernando; González‐Andújar, José Luis

doi:10.4067/s0718-16202012000200006

Cited by 4 publications

(5 citation statements)

References 38 publications

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“…Considering that glyphosate is the main agronomic tool used to control D. sanguinalis under no‐tillage systems in glyphosate‐tolerant soybean and corn crops, 8 glyphosate resistance evolution in D. sanguinalis emerges as a challenge for farmers in the Rolling Pampas agricultural region. Nevertheless, other herbicides have been shown to be effective in controlling Dgs R plants in different crops, as no evidence of multiple herbicide resistance was found (data not shown).…”

Section: Discussionmentioning

confidence: 99%

“…In extensive cropping areas from Argentina, D. sanguinalis is one of the most common weeds of soybean, sunflower, maize and sorghum crops and is likewise well adapted to both cultivated and no‐tillage systems 2,6,7 . This species shows an extended period of seedling emergence with several overlapping cohorts during spring and summer, and a high vegetative growth rate and fecundity 8,9 …”

Section: Introductionmentioning

confidence: 99%

“…2,6,7 This species shows an extended period of seedling emergence with several overlapping cohorts during spring and summer, and a high vegetative growth rate and fecundity. 8,9 Chemical control of D. sanguinalis with glyphosate, Acetyl-CoA carboxylase (ACCase), acetolactate synthase (ALS) or very-longchain fatty acid (VLCFA) herbicides has been challenged as a result of the long emergence period, which enables seedling cohorts to escape from herbicide action. 9 Based on poor control at recommended glyphosate doses, a D. sanguinalis population was identified as a putative glyphosate-resistant biotype.…”

Section: Introductionmentioning

confidence: 99%

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A novel EPSPS Pro‐106‐His mutation confers the first case of glyphosate resistance in Digitaria sanguinalis

Yanniccari

Vázquez-García

Gigón³

et al. 2022

Pest Management Science

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BACKGROUND: Digitaria sanguinalis has been identified as a species at high risk of evolving herbicide resistance, but thus far, there are no records of resistance to glyphosate. This weed is one of the most common weeds of summer crops in extensive cropping areas in Argentina. It shows an extended period of seedling emergence with several overlapping cohorts during spring and summer, and is commonly controlled with glyphosate. However, a D. sanguinalis population was implicated as a putative glyphosate-resistant biotype based on poor control at recommended glyphosate doses. RESULTS:The field-collected D. sanguinalis population (Dgs R) from the Rolling Pampas has evolved glyphosate resistance. Differences in plant survival and shikimate levels after field-recommended and higher glyphosate doses were evident between Dgs R and the known susceptible (Dgs S) population; the resistance index was 5.1. No evidence of differential glyphosate absorption, translocation, metabolism or basal EPSPS activity was found between Dgs S and Dgs R populations; however, a novel EPSPS Pro-106-His point substitution is probably the primary glyphosate resistance-endowing mechanism. EPSPS in vitro enzymatic activity demonstrated that an 80-fold higher concentration of glyphosate is required in Dgs R to achieve similar EPSPS activity inhibition to that in the Dgs S population.CONCLUSION: This study reports the first global case of glyphosate resistance in D. sanguinalis. This unlikely yet novel transversion at the second position of the EPSPS 106 codon demonstrates the intensity of glyphosate pressure in selecting unexpected glyphosate resistance alleles if they retain EPSPS functionality.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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A novel EPSPS Pro‐106‐His mutation confers the first case of glyphosate resistance in Digitaria sanguinalis

Yanniccari

Vázquez-García

Gigón³

et al. 2022

Pest Management Science

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“…Several studies have reported different survival rates between cohorts. For instance, C. bonariensis, survival rate ranges from 0.44 to 0.13; Salsoa australis from 0.75 to 0 and Digitaria sanguinalis from 0.2 to 0.003 (Borger, et al, 2009;Oreja et al, 2012;Zambrano-Navea et al, 2018). The difference in survival can be explained by the different establishment times.…”

Section: Seedling Emergence Patternmentioning

confidence: 99%

Demographics of glyphosate-resistant and susceptible Italian ryegrass populations from Paraná

Pagnoncelli¹,

Trezzi²,

Salomão³

et al. 2021

Advances in Weed Science

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“…(large crabgrass) is a troublesome annual weed present in most summer crops around the world (Mohler & Callaway, 1995;Monks & Schulteis, 1998;Sarker et al, 2002;Aguyoh & Masiunas, 2003;Bhowmik, 2003;Fu & Ashley, 2006). In Argentinean soyabean fields, high densities of this weed can cause high yield losses (above 90%; Oreja et al, 2012). Despite the good chemical control that can be obtained with glyphosate (around 98%;Culpepper et al, 2001;Van Gessel et al, 2001;Norsworthy, 2004), over the last 20 years, this species has shown very high constancy values in the Argentinean Pampas (Puricelli & Tuesca, 2005;de la Fuente et al, 2006;Scursoni & Satorre, 2010).…”

Section: Introductionmentioning

confidence: 99%

Digitaria sanguinalis seed dormancy release and seedling emergence are affected by crop canopy and stubble

2019

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Summary Digitaria sanguinalis is a troublesome annual weed that causes important yield losses in different crops. Despite this, there is scarce information about different aspects of its biology under field conditions. New knowledge about the establishment process of this species will be of paramount importance in order to maximise the effectiveness of weed management. The aims of this paper were to evaluate the effect of stubble found on the surface on seed dormancy levels through the season, the effects of stubble and soyabean crop canopy on seedling emergence and to determine the field emergence pattern as a consequence of seed dormancy level at dispersal time. Seeds on the soil surface, which showed a high dormancy level at the beginning of autumn, were released from dormancy by low winter temperatures and germinated during spring as temperatures rose, showing a transient surface seedbank. Seeds covered by stubbles had delayed the emergence in the field due to lower alternating temperatures perceived by the surface seedbank. On the other hand, the presence of a soyabean crop and stubble together reduced the number of seedlings. Seeds with a high dormancy level at dispersal time showed a delayed emergence in the next season when compared with seeds with a lower dormancy level. However, the final number of seedlings was similar. Both stubble on surface and crop canopy are useful factors to lessen and delay the seedling emergence allowing the design of weed management strategies in order to diminish the population levels of this species.

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Simulation of control strategies for decision-making regarding Digitaria sanguinalis in glyphosate-resistant soybeans

Cited by 4 publications

References 38 publications

A novel EPSPS Pro‐106‐His mutation confers the first case of glyphosate resistance in Digitaria sanguinalis

A novel EPSPS Pro‐106‐His mutation confers the first case of glyphosate resistance in Digitaria sanguinalis

Demographics of glyphosate-resistant and susceptible Italian ryegrass populations from Paraná

Digitaria sanguinalis seed dormancy release and seedling emergence are affected by crop canopy and stubble

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