Grass Weed Ecology And Control Of Atrazine Resistant Palmer Amaranth Amaranthus Palmeri In Grain Sorghum Sorghum Bicolor

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Grass Weed Ecology and Control of Atrazine-resistant Palmer Amaranth (Amaranthus Palmeri) in Grain Sorghum (Sorghum Bicolor)

Author : Jeffrey J. Albers
Publisher :
ISBN 13 :
Total Pages : pages
Book Rating : 4.:/5 (15 download)

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Book Synopsis Grass Weed Ecology and Control of Atrazine-resistant Palmer Amaranth (Amaranthus Palmeri) in Grain Sorghum (Sorghum Bicolor) by : Jeffrey J. Albers

Download or read book Grass Weed Ecology and Control of Atrazine-resistant Palmer Amaranth (Amaranthus Palmeri) in Grain Sorghum (Sorghum Bicolor) written by Jeffrey J. Albers and published by . This book was released on 2018 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: An opportunity for postemergence (POST) grass weed control has recently been approved with ALS-resistant grain sorghum, however, grass weed emergence timing and crop tolerance to grass competition are not well understood. To address the importance of POST application timing, a critical period of weed control (CPWC) for grass competition in grain sorghum was developed. Field experiments were established near Manhattan and Hays, KS in 2016 and 2017, and near Hutchinson, KS in 2017 to determine the CPWC. Each site provided a different grass species community. A total of ten treatments were included, with four treatments maintained weed-free until 2, 3, 5, or 7 weeks after crop emergence, four treatments receiving no weed control until 2, 3, 5, or 7 weeks after crop emergence, and two treatments were maintained weed-free or weedy all season. Treatments did not influence grain yield at Hutchinson because of a lack of season-long weed emergence. At Hays the CPWC began at crop emergence and ended 28 days later. At Manhattan the CPWC began 27 days after emergence and continued through grain harvest. The CPWC in grain sorghum depends on rainfall and competitive ability of the weed species. The start of the CPWC began when weeds emerged, thus a POST application should be targeted 14 to 21 days after emergence of grain sorghum. Emergence and development of large crabgrass, barnyardgrass, shattercane, and giant, green, and yellow foxtails were studied near Manhattan, KS after seeding on April 11, 2017. Barnyardgrass had the longest duration of emergence, beginning at 180 GDD after seeding and continuing through July. Large crabgrass had the shortest duration of emergence from 325 to 630 GDD after seeding. In general, all grasses began to emerge in late April and most species completed 90% emergence by early June. Grain sorghum is typically planted at this time, so grass weed control prior to planting is critical. Palmer amaranth is a troublesome weed in double-crop grain sorghum production fields in Kansas. The presence of herbicide-resistant populations limits options for weed management. Field experiments were conducted to evaluate 14 different herbicide programs for the management of atrazine-resistant Palmer amaranth in double-crop grain sorghum at Manhattan and Hutchinson, KS in 2016 and 2017. Programs included eight PRE only and six PRE followed by POST treatments. Programs that had very long chain fatty acid-inhibiting herbicides provided greater control of atrazine-resistant Palmer amaranth by three weeks after planting sorghum. Programs of PRE followed by POST provided greater control of both atrazine-resistant and -susceptible Palmer amaranth by eight WAP compared to PRE alone. These results illustrate the value of residual herbicides, as well as an effective postemergence application, in double-crop grain sorghum. Early season grass and Palmer amaranth control with the use of residual herbicides such as very long chain fatty acid-inhibitors provide a competitive advantage to grain sorghum. Utilizing weed emergence patterns to time effective POST applications, in unison with residual herbicides, will provide season-long weed control in Kansas grain sorghum fields.

Evaluation of Crop Tolerance and Weed Control in Corn and Grain Sorghum with Atrazine Replacements

Author : Jacob Thomas Richburg
Publisher :
ISBN 13 :
Total Pages : 220 pages
Book Rating : 4.:/5 (113 download)

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Book Synopsis Evaluation of Crop Tolerance and Weed Control in Corn and Grain Sorghum with Atrazine Replacements by : Jacob Thomas Richburg

Download or read book Evaluation of Crop Tolerance and Weed Control in Corn and Grain Sorghum with Atrazine Replacements written by Jacob Thomas Richburg and published by . This book was released on 2019 with total page 220 pages. Available in PDF, EPUB and Kindle. Book excerpt: Atrazine is a foundational herbicide for weed control in both corn (Zea mays L.) and grain sorghum [Sorghum bicolor (L.) Moench] production. However, studies have shown that while atrazine may be an effective herbicide for preemergence and postemergence control of weeds, it also has risks. The low Koc of atrazine as well as its extensive use over the past 50 years have led it to become the most common groundwater contaminant near agricultural soils. Given these findings, atrazine has faced severe scrutiny while under consideration for reregistration. In the event that atrazine is not reregistered, corn and grain sorghum producers will be forced to seek alternative herbicides for weed control. Therefore, research was conducted in 2017 and 2018 to test the tolerance of corn and grain sorghum to other photosystem II-inhibiting herbicides in combination with other herbicides and also to test weed control with and without atrazine in corn production systems. When applied preemergence in grain sorghum, all PSII herbicides tested reduced grain sorghum yield compared to atrazine treatments. However, when applied postemergence, diuron, fluometuron, linuron, metribuzin, prometryn, propazine, and simazine did not cause grain sorghum to suffer yield loss when compared to atrazine-containing treatments. When applied preemergence in corn, diuron, linuron, metribuzin, and simazine did not cause yield loss to corn when compared to atrazine. However, when applied postemergence in corn, only corn treated with metribuzin and simazine yielded comparable to corn treated with atrazine. Weed control studies displayed that Palmer amaranth (Amaranthus palmeri S. Wats), pitted morningglory (Ipomoea lacunosa L.), and broadleaf signalgrass [Echinochloa crus-galli (L.) P. Beauv.] can all be controlled without atrazine; however, weed density was low in these studies. This research demonstrates some potential PSII-inhibiting herbicides should be further evaluated to assist corn and grain sorghum producers in controlling weeds if atrazine is not reregistered or its use is severely limited.

Biology and Management of Multiple- (glyphosate, Als, and Atrazine) Resistant Palmer Amaranth in Michigan

Author : Jonathon Kohrt
Publisher :
ISBN 13 : 9781369446623
Total Pages : 166 pages
Book Rating : 4.4/5 (466 download)

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Book Synopsis Biology and Management of Multiple- (glyphosate, Als, and Atrazine) Resistant Palmer Amaranth in Michigan by : Jonathon Kohrt

Download or read book Biology and Management of Multiple- (glyphosate, Als, and Atrazine) Resistant Palmer Amaranth in Michigan written by Jonathon Kohrt and published by . This book was released on 2017 with total page 166 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Physiological, Biochemical and Molecular Characterization of Multiple Herbicide Resistance in Palmer Amaranth (Amaranthus Palmeri)

Download Physiological, Biochemical and Molecular Characterization of Multiple Herbicide Resistance in Palmer Amaranth (Amaranthus Palmeri) PDF Online Free

Author : Sridevi Nakka
Publisher :
ISBN 13 :
Total Pages : pages
Book Rating : 4.:/5 (964 download)

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Book Synopsis Physiological, Biochemical and Molecular Characterization of Multiple Herbicide Resistance in Palmer Amaranth (Amaranthus Palmeri) by : Sridevi Nakka

Download or read book Physiological, Biochemical and Molecular Characterization of Multiple Herbicide Resistance in Palmer Amaranth (Amaranthus Palmeri) written by Sridevi Nakka and published by . This book was released on 2016 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Palmer amaranth (Amaranthus palmeri) is one of the most aggressive, troublesome and damaging broadleaf weeds in many cropping systems including corn, soybean, cotton, and grain sorghum causing huge yield losses across the USA. As a result of extensive and intensive selection of pre- and -post emergence herbicides, Palmer amaranth has evolved resistance to multiple herbicide modes of action, microtubule-, 5-enolpyruvylshikimate-3-phosphate synthase (EPSPS)-, acetolactate synthase (ALS)-, photosystem II (PS II)-, hydroxyphenylpyruvate dioxygenase (HPPD)- and more recently to protoporphyrinogen oxidase (PPO)-inhibitors. A Palmer amaranth population from Kansas was found resistant to HPPD-, PS II-, and ALS-inhibitors. The overall objective of this research was to investigate the target-site and/or non-target-site resistance mechanisms in Palmer amaranth from KS (KSR) to mesotrione (HPPD-inhibitor), atrazine (PS II-inhibitor), and chlorsulfuron (ALS-inhibitor) relative to known susceptible Palmer amaranth from Mississippi (MSS) and KS (KSS). Whole plant dose-response assays showed high level of resistance in KSR to mesotrione, atrazine and chlorsulfuron. KSR was 10-18, 178-237 and>275 fold more resistant to mesotrione, atrazine, and chlorsulfuron, respectively, compared to MSS and KSS. Metabolism studies using [14C] labeled mesotrione and atrazine demonstrated non-target-site resistance to both herbicides, particularly, enhanced metabolism of [14C] mesotrione likely mediated by cytochrome P450 monooxygenases and rapid degradation of [14C] atrazine by glutathione S-transferases (GSTs). In addition, molecular and biochemical basis of mesotrione resistance was characterized by quantitative PCR (qPCR) and immunoblotting. These results showed 4-12 fold increased levels of the HPPD transcript and positively correlated with the increased HPPD protein. Sequencing of atrazine and chlorsulfuron target genes, psbA and ALS, respectively, showed interesting results. The most common mutation (serine264glycine) associated with atrazine resistance in weeds was not found in KSR. On the other hand, a well-known mutation (proline197serine) associated with chlorsulfuron resistance was found in 30% of KSR, suggesting ~70% of plants might have a non-target-site, possibly P450 mediated metabolism based resistance. Over all, KSR evolved both non-target-site and target-site based mechanisms to mesotrione and chlorsulfuron with only non-target-site based mechanism of resistance to atrazine leaving fewer options for weed control, especially in no-till crop production systems. Such multiple herbicide resistant Palmer amaranth populations are a serious threat to sustainable weed management because metabolism-based resistance may confer resistance to other herbicides and even those that are yet to be discovered. The findings of this research are novel and valuable to recommend appropriate weed management strategies in the region and should include diversified tactics to prevent evolution and spread of multiple herbicide resistance in Palmer amaranth.

Basis of Atrazine and Mesotrione Synergirm, Biology, and Management of Palmer Amaranth (Amaranthus Palmeri S Wats.) in Nebraska Field Corn

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Author : Parminder Chahal
Publisher :
ISBN 13 : 9780355851892
Total Pages : 0 pages
Book Rating : 4.8/5 (518 download)

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Book Synopsis Basis of Atrazine and Mesotrione Synergirm, Biology, and Management of Palmer Amaranth (Amaranthus Palmeri S Wats.) in Nebraska Field Corn by : Parminder Chahal

Download or read book Basis of Atrazine and Mesotrione Synergirm, Biology, and Management of Palmer Amaranth (Amaranthus Palmeri S Wats.) in Nebraska Field Corn written by Parminder Chahal and published by . This book was released on 2018 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: Palmer amaranth, a dioecious summer annual weed species, is the most troublesome weed in agronomic crop production systems in the United States. The confirmation of Palmer amaranth resistant to Photosystem (PS) II- and 4-hydroxyphenylpyruvate dioxygenase (HPPD)-inhibitor in south central Nebraska justify the need to study the biology and management of Palmer amaranth, and to determine the mechanism of atrazine resistance and basis of atrazine and mesotrione synergism in resistant Palmer amaranth biotype from Nebraska. The objectives of this research were to: (1) determine the mechanism of atrazine resistance and basis of atrazine and mesotrione synergism applied in tank-mixture for control of PS II- and HPPD-inhibitor-resistant Palmer amaranth biotype from Nebraska, (2) determine the effect of degree of water stress on growth, fecundity and seed germination of Palmer amaranth biotypes, (3) develop herbicide programs for management of PS II- and HPPD-inhibitor-resistant Palmer amaranth in conventional corn, and (4) develop herbicide programs for management of PS II- and HPPD-inhibitor-resistant Palmer amaranth in glufosinate-, and glyphosate-resistant corn. Increased absorption of mesotrione applied in a tank-mixture with atrazine could be the basis of atrazine and mesotrione synergism for control of susceptible as well as PS II- and HPPD-inhibitor-resistant Palmer amaranth. Atrazine resistance was conferred by enhanced atrazine metabolism, a non-target site resistance mechanism, via glutathione S-transferase (GST) conjugation. The study conducted to evaluate the effect of degree of water stress on Palmer amaranth growth and fecundity suggested that Palmer amaranth has ability to survive water stress conditions and can produce significant amount of seeds with minimum effect on germination. Palmer amaranth at 100, 75, and 50% field capacity (FC) produced similar number of leaves (588 to 670 plant--1 ), growth index (1.1 to 1.4 x 105 cm3 plant--1) and total leaf area (571 to 693 cm 2 plant--1); however, plants at 100% FC achieved maximum height of 178 cm compared to 124 and 88 cm at 75% and 50% FC, respectively. The field experiments conducted for management of Palmer amaranth in conventional, glyphosate, and glufosinate-resistant field corn demonstrated that most PRE followed by POST herbicide programs provided highest Palmer amaranth control, corn yield and net return.

Herbicide-Resistant Palmer Amaranth (Amaranthus Palmeri S. Wats.) in the United States - Mechanisms of Resistance, Impact, and Management

Author : Parminder S. Chahal
Publisher :
ISBN 13 :
Total Pages : pages
Book Rating : 4.:/5 (115 download)

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Book Synopsis Herbicide-Resistant Palmer Amaranth (Amaranthus Palmeri S. Wats.) in the United States - Mechanisms of Resistance, Impact, and Management by : Parminder S. Chahal

Download or read book Herbicide-Resistant Palmer Amaranth (Amaranthus Palmeri S. Wats.) in the United States - Mechanisms of Resistance, Impact, and Management written by Parminder S. Chahal and published by . This book was released on 2015 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Palmer amaranth, a dioecious summer annual species, is one of the most troublesome weeds in the agronomic crop production systems in the United States. In the last two decades, continuous reliance on herbicide(s) with the same mode of action as the sole weed management strategy has resulted in the evolution of herbicide-resistant (HR) weeds, including Palmer amaranth. By 2015, Palmer amaranth biotypes had been confirmed resistant to acetolactate synthase (ALS)-inhibitors, dinitroanilines, glyphosate, hydroxyphenylpyruvate dioxygenase (HPPD)-inhibitors, and triazine herbicides in some parts of the United States along with multiple HR biotypes. Mechanisms of herbicide-resistance in Palmer amaranth are discussed in this chapter. Preplant herbicide options including glufosinate, 2,4-D, and dicamba provide excellent Palmer amaranth control; however, their application is limited before planting crops, which is often not possible due to unfavorable weather conditions. Agricultural biotechnology companies are developing new multiple HR crops that will allow the post-emergence application of respective herbicides for management of HR weeds, including Palmer amaranth. For the effective in-crop management of Palmer amaranth, and to reduce the potential for the evolution of other HR weeds, growers should apply herbicides with different modes of action in tank-mixture and should also incorporate cultural practices including inversion tillage and cover crops along with herbicide programs.

Palmer Amaranth (Amaranthus Palmeri) Control in Double-crop Dicamba/glyphosate Resistant Soybean (Glycine Max) and Dicamba and 2,4-D Efficacy on Palmer Amaranth and Common Waterhemp (Amaranthus Rudis)

Download Palmer Amaranth (Amaranthus Palmeri) Control in Double-crop Dicamba/glyphosate Resistant Soybean (Glycine Max) and Dicamba and 2,4-D Efficacy on Palmer Amaranth and Common Waterhemp (Amaranthus Rudis) PDF Online Free

Author : Nathaniel Russell Thompson
Publisher :
ISBN 13 :
Total Pages : pages
Book Rating : 4.:/5 (17 download)

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Book Synopsis Palmer Amaranth (Amaranthus Palmeri) Control in Double-crop Dicamba/glyphosate Resistant Soybean (Glycine Max) and Dicamba and 2,4-D Efficacy on Palmer Amaranth and Common Waterhemp (Amaranthus Rudis) by : Nathaniel Russell Thompson

Download or read book Palmer Amaranth (Amaranthus Palmeri) Control in Double-crop Dicamba/glyphosate Resistant Soybean (Glycine Max) and Dicamba and 2,4-D Efficacy on Palmer Amaranth and Common Waterhemp (Amaranthus Rudis) written by Nathaniel Russell Thompson and published by . This book was released on 2018 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Auxin herbicides have been widely used for broadleaf weed control since the mid-1940's. With new auxinic herbicide-resistant traits in corn, soybean, and cotton, use of these herbicides is likely to increase. Glyphosate-resistant Palmer amaranth (Amaranthus palmeri) and common waterhemp (Amaranthus rudis) are two primary problematic weed species that will be targeted with dicamba and 2,4-D in the new systems. No-till double-crop soybean after winter wheat harvest is a popular cropping system in central and eastern Kansas, however, management of glyphosate resistant Palmer amaranth has become a serious issue. Field experiments were established near Manhattan and Hutchinson, KS, in 2016 and 2017, to compare seventeen herbicide treatments for control of Palmer amaranth and large crabgrass (Digitaria sanguinalis) in dicamba/glyphosate resistant no-till double-crop soybean after winter wheat. Herbicide programs that included a residual preemergence (PRE) treatment followed by a postemergence (POST) treatment offered greater Palmer amaranth control 8 weeks after planting when compared to PRE-only, POST-only and burndown-only treatments. All treatments that contained glyphosate POST provided complete control of large crabgrass compared to less than 43% control with PRE-only treatments. Soybean grain yield was greater in programs that included PRE followed by POST treatments, compared to PRE-only and burndown-only treatments. A second set of field experiments were established in 2017 near Manhattan and Ottawa, KS to evaluate dicamba and 2,4-D POST efficacy on Palmer amaranth and common waterhemp. Five rates of dicamba (140, 280, 560, 1121, and 2242 g ae ha−1) and 2,4-D (140, 280, 560, 1121, and 2242 g ae ha−1) were used to evaluate control of the Amaranthus spp. Each experiment was conducted twice at each location. Dicamba provided better Palmer amaranth and common waterhemp control than 2,4-D across the rates evaluated. Control of Palmer amaranth was 94% and 99% with dicamba rates of 1121 and 2242 g ae ha−1, respectively, but 2,4-D never provided more than 80% control at any rate. The highest rates of both dicamba and 2,4-D provided greater than 91% common waterhemp control, but control was less than 78% with all other rates of both herbicides. Palmer amaranth and common waterhemp control did not exceed 73% with the highest labelled POST rates of either dicamba or 2,4-D. Auxinic herbicide-resistant traits in corn, soybean, and cotton offer new options for controlling glyphosate-resistant Palmer amaranth and common waterhemp, however proper stewardship is vital to maintain their effectiveness.

Physiological Basis of Herbicide Interaction and Integrated Management of Palmer Amaranth (Amaranthus Palmeri)

Author : Ivan Bernardo Cuvaca
Publisher :
ISBN 13 :
Total Pages : pages
Book Rating : 4.:/5 (111 download)

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Book Synopsis Physiological Basis of Herbicide Interaction and Integrated Management of Palmer Amaranth (Amaranthus Palmeri) by : Ivan Bernardo Cuvaca

Download or read book Physiological Basis of Herbicide Interaction and Integrated Management of Palmer Amaranth (Amaranthus Palmeri) written by Ivan Bernardo Cuvaca and published by . This book was released on 2019 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Palmer amaranth is a major threat to many cropping systems in the USA. As a result of selection, Palmer amaranth has evolved resistance to at least six herbicide modes of action including microtubule-, 5-enolpyruvylshikimate-3-phosphate synthase-, acetolactate synthase-, photosystem II-, hydroxyphenylpyruvate dioxygenase-, and protoporphyrinogen oxidase- inhibitors. Dicamba is effective for Palmer amaranth control; however, extensive use of this herbicide increases the likelihood of evolution of resistance to dicamba. The overall objective of this dissertation was to investigate the physiological basis of interaction of herbicides with different modes of action in Palmer amaranth control and evaluate use of integrated approaches to manage Palmer amaranth in field conditions. The specific objectives were to: 1) evaluate the effect of plant height on dicamba efficacy to control Palmer amaranth; 2) investigate the mechanism of resistance to glyphosate in a Palmer amaranth accession from Kansas, and evaluate efficacy of glyphosate and dicamba tank-mix to control this accession; 3) investigate the physiological basis of glyphosate and dicamba interaction in tank-mix to control Palmer amaranth; 4) determine the efficacy of reduced dicamba use on Palmer amaranth control in irrigated corn production; and 5) investigate grain sorghum and Palmer amaranth growth and reproductive attributes in response to sorghum density and nitrogen rate under irrigated conditions. All experiments were repeated and appropriate statistical tests were used for data analyses. The results indicate: a) increased absorption and translocation of dicamba contribute to increased efficacy to control Palmer amaranth at early growth stage; b) tank mixing glyphosate and dicamba had a synergistic effect on Palmer amaranth control; c) rapid absorption of dicamba and increased translocation of glyphosate resulted in increased Palmer amaranth control when applied in combination; d) there is an opportunity to maintain grain yield while effectively controlling Palmer amaranth in irrigated corn with the integration of increased corn plant population density and reduced dicamba application and e) integrating sorghum plant population and nitrogen did not suppress Palmer amaranth in irrigated sorghum, although sorghum grain yield was maintained. The outcome of this dissertation provides several strategies to improve control of Palmer amaranth.

Decision Support Software for Palmer Amaranth Weed Control

Author : Karen R. Lindsay
Publisher :
ISBN 13 :
Total Pages : 114 pages
Book Rating : 4.:/5 (15 download)

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Book Synopsis Decision Support Software for Palmer Amaranth Weed Control by : Karen R. Lindsay

Download or read book Decision Support Software for Palmer Amaranth Weed Control written by Karen R. Lindsay and published by . This book was released on 2017 with total page 114 pages. Available in PDF, EPUB and Kindle. Book excerpt: Herbicide-resistant Palmer amaranth [Amaranthus palmeri (S.) Wats.] has been identified as one of the most troublesome weeds, specifically for corn (Zea mays L.), cotton (Gossypium hirsutum L.), and soybean [Glycine max (L.) Merr.] producers in the southern United States. The use of herbicide technology remains the most widely used method of weed control, despite the evolution of herbicide-resistant Palmer amaranth. Therefore, a need currently exists for research and extension education to encourage the adoption of Integrated Pest Management (IPM) to address the problem of herbicide-resistant Palmer amaranth in the southern United States. By equipping crop producers, educators, and weed management consultants with tools to evaluate the long-run biological and economic implications of different Palmer amaranth weed control practices, producers are expected to realize the benefits of adopting IPM strategies. As such, the Palmer Amaranth Management (PAM) software was developed to help producers, educators and researchers, and weed management consultants analyze long-run implications of chemical and non-chemical weed control options in crop production in the mid-southern United States. In addition to promoting the regional adoption of IPM techniques, PAM is expected to improve coordination among researchers, educators, and extension agents, and help producers to realize the economic and environmental benefits of IPM adoption, such as improved crop yields and increased profitability, preservation of the long-term efficacy of available herbicides, and minimized environmental risks. Therefore, the research objective of this project was to develop a decision support software program to highlight the long-term effects of management practices on soil seedbank and economics to encourage the adoption of IPM methods for Palmer amaranth.

Integration of Herbicide Programs with Cultural and Mechanical Practices for Managing Glyphosate-resistant Palmer Amaranth (amaranthus Palmeri) in Soybean (glycine Max)

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Author : Holden Douglas Bell
Publisher :
ISBN 13 : 9781321385618
Total Pages : 266 pages
Book Rating : 4.3/5 (856 download)

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Book Synopsis Integration of Herbicide Programs with Cultural and Mechanical Practices for Managing Glyphosate-resistant Palmer Amaranth (amaranthus Palmeri) in Soybean (glycine Max) by : Holden Douglas Bell

Download or read book Integration of Herbicide Programs with Cultural and Mechanical Practices for Managing Glyphosate-resistant Palmer Amaranth (amaranthus Palmeri) in Soybean (glycine Max) written by Holden Douglas Bell and published by . This book was released on 2014 with total page 266 pages. Available in PDF, EPUB and Kindle. Book excerpt: Herbicide-resistant Palmer amaranth is the most troublesome weed in Arkansas row crops, causing producers to rely heavily on multiple mechanisms of action to reduce selection pressure for further evolution of herbicide resistance and to successfully produce a profitable crop. It is critical for the sustainability of weed management not only to adequately control this weed but also to reduce the soil seedbank using both non-chemical and chemical practices. Studies were conducted to determine the effect of soybean row spacing, seeding rate, and herbicide program on Palmer amaranth emergence, survival, and seed production in soybean, the effect of drill-seeded soybean population on Palmer amaranth emergence with and without a residual preemergence (PRE)-applied herbicide, and the impact of integrating cover crops and deep tillage with herbicide programs for glyphosate-resistant Palmer amaranth control in glyphosate- and glufosinate-resistant soybean. Herbicide application timing and choice of herbicide had more of an impact on Palmer amaranth control than either row spacing or seeding rate and greater control was observed in PRE plus postemergence (POST)-applied residual programs compared to POST-only residual programs, regardless of seeding rate and row spacing. Narrow-row soybean reached 95% canopy formation quicker than plants in wide rows, in turn resulting in greater suppression of Palmer amaranth emergence. In drill-seeded soybean, a PRE-applied residual herbicide was more beneficial in reducing Palmer amaranth emergence than increasing soybean density. Using a combination of cover crop and deep tillage along with the addition of a PRE followed by POST-applied residual herbicide program, Palmer amaranth was effectively controlled throughout the season with limited weed seed return to the soil seedbank in both glufosinate- and glyphosate-resistant soybean. Overall, herbicide programs were the strongest factor influencing Palmer amaranth control; however, the addition of a cover crop, deep tillage, and narrow row spacing play a vital role in reducing selection pressure on herbicides, thus reducing risks for new cases of herbicide resistance.

Alternative Herbicide Control Options for Glyphosate-resistant Palmer Amaranth (amaranthus Palmeri)

Author : George Macmillan Botha
Publisher :
ISBN 13 : 9781267771346
Total Pages : 236 pages
Book Rating : 4.7/5 (713 download)

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Book Synopsis Alternative Herbicide Control Options for Glyphosate-resistant Palmer Amaranth (amaranthus Palmeri) by : George Macmillan Botha

Download or read book Alternative Herbicide Control Options for Glyphosate-resistant Palmer Amaranth (amaranthus Palmeri) written by George Macmillan Botha and published by . This book was released on 2012 with total page 236 pages. Available in PDF, EPUB and Kindle. Book excerpt: The occurrence of glyphosate-resistant (GR) Palmer amaranth has prompted a shift in weed management strategies worldwide. Studies were conducted with the aim to (1) establish and compare the degree of tolerance of GR Palmer amaranth populations; (2) assess the efficacy of glufosinate, tembotrione, 2,4-D or dicamba, applied alone or tank-mixed, on Palmer amaranth with higher tolerance to glufosinate in the greenhouse and corn field, and (3) establish the mechanism involved in the tolerance of Palmer amaranth to glufosinate. Tembotrione, 2,4-D, dicamba, and glufosinate applied at 1x controlled 80 to 100%, 98 to 100%, 84 to 100%, and 94 to 100% Palmer amaranth, respectively. Differential response of Palmer amaranth populations to the test herbicides existed. The potential of selecting for resistance was highest in tembotrione, followed by dicamba. In the tank mixture test, all herbicides applied individually at 1x rate controlled Pra-C population 99 to 100% in the greenhouse and 91 to 100% in the field study. In corn, the control in Pra-C, Mis-C, and STF-C populations was 33 to 54% for tembotrione, 68 to 89% for 2,4-D, and 96 to 100% for glufosinate applied at their commercial rates. The study showed that half rates of 2,4-D and glufosinate can be applied, only in combination, without significantly compromising Palmer amaranth control. The majority of glufosinate + tembotrione and some glufosinate + dicamba mixtures were not compatible; glufosinate + 2,4-D mixtures were generally additive and in few cases, synergistic. The reduced efficacy from antagonism was overcome by mixing 1x rates of the herbicides. Pra-C (tolerant) had 2-folds higher tolerance than Lee-A (susceptible), with LD50 values of 344 and 141 g ha-1, respectively. The basal activity of the tolerant population was 20% higher than that of the susceptible. Tolerance to glufosinate is certainly due to higher baseline activity of GS in the tolerant plants, which would require more herbicide molecule to cause substantial inhibition.

Influence of Palmer Amaranth (Amaranthus Palmeri) on Grain Sorghum (Sorghum Bicolor)

Author : Jerry Wayne Moore
Publisher :
ISBN 13 :
Total Pages : 118 pages
Book Rating : 4.:/5 (469 download)

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Book Synopsis Influence of Palmer Amaranth (Amaranthus Palmeri) on Grain Sorghum (Sorghum Bicolor) by : Jerry Wayne Moore

Download or read book Influence of Palmer Amaranth (Amaranthus Palmeri) on Grain Sorghum (Sorghum Bicolor) written by Jerry Wayne Moore and published by . This book was released on 2000 with total page 118 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Physiological, and Genetic Characterization of 2,4-D-resistant Palmer Amaranth (Amaranthus Palmeri S. Watson) and Its Management

Author : Chandrima Shyam
Publisher :
ISBN 13 :
Total Pages : pages
Book Rating : 4.:/5 (133 download)

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Book Synopsis Physiological, and Genetic Characterization of 2,4-D-resistant Palmer Amaranth (Amaranthus Palmeri S. Watson) and Its Management by : Chandrima Shyam

Download or read book Physiological, and Genetic Characterization of 2,4-D-resistant Palmer Amaranth (Amaranthus Palmeri S. Watson) and Its Management written by Chandrima Shyam and published by . This book was released on 2021 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Palmer amaranth (Amaranthus palmeri S. Watson) is one of the topmost troublesome, C4 dioecious weeds in the US. Biological traits such as aggressive growth habits, prolific seed production, and the ability to withstand environmental stresses hinder control of this weed. Additionally, numerous Palmer amaranth populations across the US have been found to have evolved resistance to multiple herbicides. In 2018, a population of Palmer amaranth from a conservation tillage study from Riley County, Kansas was suspected to have evolved resistance to multiple herbicides including 2,4-dichlorophenoxyacetic acid (2,4-D) and was designated as Kansas Conservation Tillage Resistant (KCTR). 2,4-D, a synthetic auxin herbicide, is widely used for controlling broadleaf weeds in cereal crops. However, over-reliance on 2,4-D to control other herbicide-resistant weeds, along with the commercialization of 2,4-D-tolerant crop technology, has resulted in increased usage of this herbicide. The objectives of this dissertation were to 1) characterize the evolution of multiple herbicide resistance including 2,4-D in KCTR Palmer amaranth; 2) investigate the physiological mechanism of 2,4-D resistance in KCTR compared to two known susceptible Palmer amaranth populations i.e., Kansas Susceptible (KSS) and Mississippi Susceptible (MSS); 3) assess the genetic basis of 2,4-D resistance in KCTR; and 4) evaluate herbicide programs that can manage glyphosate-resistant Palmer amaranth in 2,4-D tolerant soybean. Experiments were conducted under either greenhouse or controlled growth chamber conditions. Standard herbicide dose-response, physiological, biochemical (using radiolabeled herbicides), breeding, and field experiments were designed and conducted. The results of these experiments found that KCTR Palmer amaranth had evolved resistance to six herbicide modes of action, including acetolactate synthase (ALS)-, photosystem II (PS II)-, 5-enolpyruvylshikimate-3-phosphate synthase (EPSPS)-, 4-hydroxyphenylpyruvate dioxygenase (HPPD)-, protoporphyrinogen oxidase (PPO)- inhibitors, and synthetic auxins (2,4-D). Sequencing and analyses of genes coding for the herbicide targets indicated absence of all known mutations that confer resistance, except for EPSPS-inhibitor, with a massive amplification of EPSPS gene (up to 88 copies). Investigation of non-target site resistance mechanism(s) in KCTR confirmed the predominance of metabolic resistance to multiple herbicides mediated by either cytochrome P450 (P450) or glutathione S-transferase enzyme activity. Whole-plant dose-response analyses confirmed a 6- to 11- fold resistance to 2,4-D in KCTR compared to two susceptible populations (KSS or MSS). [14C] 2,4-D uptake and translocation studies indicated a 10% less and 3 times slower translocation of [14C] 2,4-D in KCTR compared to susceptible populations, while there was no difference in the amount of [14C] 2,4-D absorbed. However, KCTR plants metabolized [14C] 2,4-D much faster than the susceptible KSS and MSS, suggesting that enhanced metabolism bestows resistance to this herbicide in KCTR. Further, use of P450-inhibitor (e.g., malathion) indicated that the metabolism of 2,4-D in KCTR is mediated by P450 activity. Genetic analyses of F1 and F2 progenies, derived from crossing between KCTR and KSS, revealed that 2,4-D resistance in KCTR Palmer amaranth is an incompletely dominant, nuclear trait. Segregation of F2 progenies did not follow the Mendelian single gene inheritance model (3:1), suggesting the involvement of multiple genes in mediating 2,4-D resistance in KCTR. Evaluation of herbicide programs for Palmer amaranth management in the field suggested that pre-emergence herbicides with residual activity followed by post-emergence application of either 2,4-D or glufosinate or 2,4-D and glufosinate can control glyphosate-resistant Palmer amaranth in 2,4-D-tolerant soybean. Overall, the outcome of this dissertation documents the first case of a six-way resistance in a single Palmer amaranth population and also for the first time characterizes the physiological and genetic basis of 2,4-D resistance in this weed. These findings will help in predicting and minimizing further evolution and spread of 2,4-D resistance in Palmer amaranth.

Management of Herbicide Resistant Palmer Amaranth (Amaranthus Palmeri) in Peanut

Author : Michael Hugh Dobrow
Publisher :
ISBN 13 :
Total Pages : pages
Book Rating : 4.:/5 (7 download)

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Book Synopsis Management of Herbicide Resistant Palmer Amaranth (Amaranthus Palmeri) in Peanut by : Michael Hugh Dobrow

Download or read book Management of Herbicide Resistant Palmer Amaranth (Amaranthus Palmeri) in Peanut written by Michael Hugh Dobrow and published by . This book was released on 2010 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Peanut injury was observed for most treatments but was transient and peanuts fully recovered within 28 days after application. Peanut yield was not reduced significantly for any fomesafen treatment in either year. Control of PA was \U+2265\ 78% when fomesafen alone was applied AC at \U+2265\ 0.42 kg/ha. Combined applications of paraquat + bentazon + 2, 4- DB with fomesafen controlled PA\U+2265\ 85% for all rates used. Project III evaluated the effect of lactofen applied with two spray nozzle types, carrier volumes, and PA height ranges of 5 to 10 cm and 15 to 20 cm. Control of PA, at the shorter heights was not affected by spray nozzle type or carrier volume. However, lactofen applied to taller PA was less effective when applied at 94 L/ha, compared to carrier volumes of 187 and 281 L/ha. In conclusion, PA control could be achieved with the use of flumioxazin applied PRE and metolachlor applied AC. Cover crop had very little affect on control of PA. The use of fomesafen at \U+2265\ 0.42 kg/ha is needed to control PA effectively when applied alone AC. But, when combined with paraquat + bentazon + 2, 4-DB a higher fomesafen rate is not needed. A carrier volume o\U+2265\f 187 L/ha is needed to control PA at \U+2265\ 15 cm when lactofen is applied. Peanut producers need an application of flumioxazin or fomesafen PRE combined with a POST application of a contact herbicide + metolachlor to control ALS-resistant PA.

The Influence of Rate, Time of Application and Oil on the Effectiveness of Herbicides in Controlling Weeds in Grain Sorghum

Author : Tsegazeab Woldetatios
Publisher :
ISBN 13 :
Total Pages : 202 pages
Book Rating : 4.:/5 (89 download)

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Book Synopsis The Influence of Rate, Time of Application and Oil on the Effectiveness of Herbicides in Controlling Weeds in Grain Sorghum by : Tsegazeab Woldetatios

Download or read book The Influence of Rate, Time of Application and Oil on the Effectiveness of Herbicides in Controlling Weeds in Grain Sorghum written by Tsegazeab Woldetatios and published by . This book was released on 1971 with total page 202 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Assessment of Control of PPO-resistant Palmer Amaranth and Salvage Options in Herbicide-resistant Cotton

Author : Wyatt D. Coffman
Publisher :
ISBN 13 :
Total Pages : 192 pages
Book Rating : 4.:/5 (114 download)

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Book Synopsis Assessment of Control of PPO-resistant Palmer Amaranth and Salvage Options in Herbicide-resistant Cotton by : Wyatt D. Coffman

Download or read book Assessment of Control of PPO-resistant Palmer Amaranth and Salvage Options in Herbicide-resistant Cotton written by Wyatt D. Coffman and published by . This book was released on 2019 with total page 192 pages. Available in PDF, EPUB and Kindle. Book excerpt: Palmer amaranth has been the most limiting weed in cotton production in the state of Arkansas for many years. Recently, resistance of Palmer amaranth to the protoporphyrinogen oxidase (PPO)-inhibiting site of action has been discovered at various locations across the cotton-producing region of the state. Cotton varieties have been developed with resistance to synthetic auxin (WSSA Group 4) herbicides. However, research to date has shown PPO-resistant Palmer amaranth to be more difficult to control with herbicides that target alternative sites of action. Herbicide efficacy is also known to vary with weed size, varying spray parameters, and environmental conditions. Preliminary research on control of PPO-resistant Palmer amaranth with preemergence cotton herbicides suggests that herbicide mixtures containing fluometuron are the most consistent option for longevity of control. Preliminary results of postemergence (POST) experiments assessing control of PPO-resistant Palmer amaranth in herbicide-resistant cotton were inconclusive. Limited rainfall impacted both POST and residual weed control. When attempting to salvage a cotton crop, weed size plays an extremely important factor in whether the weeds will be controlled. Two-pass salvage treatments were effective in dicamba-resistant cotton containing mixtures of glufosinate or glyphosate and dicamba and showed little variation in control of large (taller than 15 cm) Palmer amaranth. Interval between applications in a two-pass salvage treatment is influential on control of large weeds, although it does not ultimately affect seedcotton yield. Increasing carrier volume from 70 L ha-1 to 140 L ha-1 was a more important factor in maximizing efficacy of a dicamba application than switching from TTI to AirMix nozzles or increasing the dicamba rate from 560 to 1,120 g ae ha-1. Differences in control between PPO-susceptible and PPO-resistant populations were also observed, as densities of surviving PPO-resistant Palmer amaranth were much higher than PPO-susceptible Palmer amaranth following dicamba application. Nomenclature: Palmer amaranth, Amaranthus palmeri S. Wats.; cotton, Gossypium hirsutum L.; synthetic auxin; dicamba; fluometuron; 2,4-D; glufosinate.

Glyphosate Resistant Palmer Amaranth (amaranthus Palmeri) Management Late-season and Post-harvest in Corn Production Systems

Author : Whitney Desiree Crow
Publisher :
ISBN 13 :
Total Pages : 0 pages
Book Rating : 4.:/5 (133 download)

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Book Synopsis Glyphosate Resistant Palmer Amaranth (amaranthus Palmeri) Management Late-season and Post-harvest in Corn Production Systems by : Whitney Desiree Crow

Download or read book Glyphosate Resistant Palmer Amaranth (amaranthus Palmeri) Management Late-season and Post-harvest in Corn Production Systems written by Whitney Desiree Crow and published by . This book was released on 2014 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: The objectives of this research were to evaluate control options for glyphosate resistant (GR) Palmer amaranth (Amaranthus palmeri) latelate-season in corn systems and POST-harvest for the prevention of seed production. Our results determined that the best late-season control methods were treatments tank-mixed with dicamba plus diflufenzopyr. These tank-mixtures improved control from 10 to 46% [percent] over treatments without the dicamba premix. Tankmixtures with dicamba plus diflufenzopyr that provided weed control > [greater than] 96% 28 DAA included s-metolachlor plus glyphosate plus mesotrione and tembotrione plus thiencarbazone. For the prevention of POST-harvest GR palmer amaranth seed production, our results determined that paraquat provides excellent initial control of existing vegetation but regrowth can occur from larger plants. The addition of a residual herbicide may aid in controlling regrowth as well as preventing plant germination. All treatments provided enough control for the prevention of seed production. Through implementation of POST-harvest management practices, 1200 seed per m2 [meter squared] was prevented from replenishing the soil seed bank. There were no adverse affects on wheat yield. From these results, we can conclude that when practicing POST only weed management strategies, application timing is vital for the prevention of corn loss and that implementation of late-season weed management programs can effectively reduce weed seed rain, therefore reducing weed seed bank densities.