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NADER SOLTANI JOSHUA D. VYN CLARENCE J. SWANTON SUSAN WEAVER PETER H. SIKKEMA 《Weed Biology and Management》2008,8(2):73-77
Two greenhouse trials were conducted over a 2 year period (2004 and 2005) to compare the relative growth potential and fitness of triazine-susceptible (TS) and triazine-resistant (TR) waterhemp biotypes. Waterhemp plants from each biotype were grown in 6 L pots in the greenhouse in a completely randomized design. There was no difference in leaf number, plant height, plant biomass, time to bud or time to flower between the two biotypes. The TR female waterhemp plants produced 30% less reproductive biomass and 39% less seed than the TS biotype. The fitness penalty associated with triazine resistance was related to reproductive capability, not to vegetative growth. 相似文献
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Waterhemp (Amaranthus tuberculatus) control under drought stress with 2,4‐dichlorophenoxyacetic acid and glyphosate 
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下载免费PDF全文 Waterhemp (Amaranthus tuberculatus) is a common and troublesome weed in cropping systems throughout the United States. With the potential for future periods of low rainfall or drought, the need for improved weed control under drought stress is necessary. Drought stress typically reduces herbicide efficacy by reducing the foliar uptake of herbicides and their translocation. The objectives of this research were to determine the efficacy of 2,4‐dichlorophenoxyacetic acid (2,4‐D) and glyphosate, applied alone or when tank‐mixed, on waterhemp under varying levels of drought stress, the effect of the timing of drought stress in relation to herbicide application and the absorption and translocation of each herbicide in drought‐stressed waterhemp. At reduced herbicide rates, 2,4‐D had a greater level of control of waterhemp under drought stress, compared to glyphosate. The level of herbicide efficacy was lower when the amount of water that was applied to the plants was reduced. The level of waterhemp control was greatest when drought stress occurred before the herbicide application and when the plants were watered to saturation after the application, compared to when drought stress occurred after the herbicide application or restricted watering levels occurred throughout the entire study. Glyphosate absorption and translocation were reduced in the drought‐stressed plants, but 2,4‐D absorption and translocation were not altered. The absence of a reduction in 2,4‐D translocation in the drought‐stressed weeds has not been previously reported. Applying herbicides prior to a rainfall event could increase the weed control level, even if the weed is stressed. Determining how and why 2,4‐D absorption and translocation levels, compared to those of glyphosate, are unaffected by drought stress in waterhemp can aid in improving the control of drought‐stressed weeds with other postemergence herbicides. 相似文献
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While surveying Illinois Amaranthus tuberculatus (Moq) Sauer (tall waterhemp) half-sib populations for herbicide response variability, several were observed to segregate for resistance to atrazine. Studies were conducted on greenhouse-grown A tuberculatus plants to compare atrazine responses among populations that were segregating for resistance (SegR), uniformly sensitive (UniS) or uniformly resistant (UniR). In chlorophyll fluorescence assays, leaves of plants from the SegR and UniS populations displayed changes in fluorescence after treatment with atrazine, indicating that atrazine was inhibiting electron transport of photosystem II in chloroplasts. Sequencing of a fragment of psbA, which encodes the D1 protein, revealed that the SegR population did not contain the amino acid substitution that is typically found in triazine-resistant plants. Whole-plant herbicide dose-response experiments revealed that, relative to the UniS population, atrazine resistances in the UniR and SegR populations were > 770-fold and 16-fold, respectively. The SegR population was also resistant to cyanazine (59-fold), but not to metribuzin, linuron or pyridate. Triazine resistance in the SegR population was shown to be a nuclear inherited trait, unlike maternal inheritance of site-of-action mediated triazine resistance found in the UniR population. Taken collectively, these findings confirm the existence of two distinct triazine resistance mechanisms in A tuberculatus. 相似文献
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Plant defence traits, such as herbicide resistance mutations, may incur a fitness cost to plants that become evident when the trait is not needed. However, individuals with multiple herbicide resistance traits may decrease fitness beyond that of plants with a single herbicide resistance mutation. Multiple herbicide‐resistant (MHR) Amaranthus tuberculatus populations are becoming more prevalent in Midwest United States agroecosystems. The objective was to determine whether selected MHR A. tuberculatus populations express differential development when grown in a herbicide‐free environment. The hypothesis was that MHR A. tuberculatus populations become increasingly less fit when additional herbicide resistances evolve. Multiple herbicide‐resistant and herbicide‐susceptible A. tuberculatus populations were grown in a herbicide‐free field for 20 weeks for two seasons. Differences (P < 0.001) in apical growth were detected 5 and 7 weeks after transplanting for all populations in 2016 and 2017 respectively. Gender and population influenced (P < 0.001) flowering date, with males flowering up to 1.5 weeks earlier than females, but did not cause pollination asynchrony. Shoot biomass was not different (P = 0.84) across A. tuberculatus populations, but there were differences (P < 0.001) for gender and year. Seed production was different amongst A. tuberculatus populations (P = 0.001), but was not influenced by the number of MHR traits. Conversely, a negative quadratic relationship between seed mass and the number of MHR traits was observed (r2 = 0.32; P < 0.001). The experiment results demonstrate that MHR in A. tuberculatus populations is not incurring a fitness penalty that will remove the populations in the immediate future. 相似文献
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Hausman NE Singh S Tranel PJ Riechers DE Kaundun SS Polge ND Thomas DA Hager AG 《Pest management science》2011,67(3):258-261
BACKGROUND: A population of waterhemp in a seed maize production field in central Illinois, United States, was not adequately controlled after post‐emergence applications of herbicides that inhibit 4‐hydroxyphenylpyruvate dioxygenase (HPPD). RESULTS: Progeny from the field population survived following treatment with mesotrione, tembotrione or topramezone applied to the foliage either alone or in combination with atrazine in greenhouse experiments. Dose–response experiments indicated that the level of resistance to the HPPD inhibitor mesotrione is at least tenfold relative to sensitive biotypes. CONCLUSION: These studies confirm that waterhemp has evolved resistance to HPPD‐inhibiting herbicides. Copyright © 2011 Society of Chemical Industry 相似文献