共查询到4条相似文献,搜索用时 15 毫秒
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Sandra R. Ethridge Saket Chandra Anna M. Locke Wesley J. Everman David L. Jordan Micheal D.K. Owen Ramon G. Leon 《Pest management science》2023,79(10):4048-4056
BACKGROUND
The potential of weed species to respond to selection forces affecting the evolution of weedy traits such as competitive ability is poorly understood. This research characterized evolutionary growth changes in a single Abutilon theophrasti Medik. population comparing multiple generations collected from 1988 to 2016. A competition study was performed to understand changes in competitive ability, and a herbicide dose–response study was carried out to assess changes in sensitivity to acetolactate synthase-inhibiting herbicides and glyphosate over time.RESULTS
When grown in monoculture, A. theophrasti biomass production per plant increased steadily across year-lines while leaf number decreased. In replacement experiments, A. theophrasti plants from newer year-lines were more competitive and produced more biomass and leaf area than the oldest year-line. No clear differences in sensitivity to imazamox were observed among year-lines. However, starting in 1995, this A. theophrasti population exhibited a progressive increase in growth in response to a sublethal dose of glyphosate (52 g a.e. ha−1), with the 2009 and 2016 year-lines having more than 50% higher biomass than the nontreated control.CONCLUSION
This study demonstrates that weeds can rapidly evolve increased competitive ability. Furthermore, the results indicate the possibility of changes in glyphosate hormesis over time. These results highlight the importance of the role that rapid (i.e., subdecadal) evolution of growth traits might have on the sustainability of weed management strategies. © 2023 The Authors. Pest Management Science published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry. 相似文献2.
3.
As highly adaptable plants, weeds have evolved numerous mechanisms to evade control in agroecosystems. For example, reliance on herbicides has resulted in widespread evolution of resistance in many species. Minimising weed adaptation is a major driver for integrated weed management strategies. Crop mimicry is a notable example of weed adaptation, where weed species evolve to avoid control by mimicking aspects of the crop phenotype. Visual selection by hand weeding has been documented to select for crop mimics that are difficult to distinguish from the crop at the vegetative stage. With recent advancements in weed recognition technologies, image-based weed recognition for in-crop, site-specific weed control is on the cusp of becoming widely adopted. Whilst the control methods used in site-specific weed control will be varied (e.g., spot spraying or lasers), they will share weed recognition technology. Visual selection via image-based deep learning represents a selection pressure for weeds that can evade detection by mimicking crops. This mimicry may reduce weed recognition accuracy and thus weed control efficacy over time and result in difficult to manage mimetic weed phenotypes. Therefore, it is timely to explore the potential for selection of crop mimics by image-based weed recognition algorithms. 相似文献
4.
B. K. Varma 《国际虫害防治杂志》2013,59(3):216-219
Abstract The inevitable large‐scale plant germplasm exchanges between countries for crop improvement have led to strict plant quarantine inspections, safeguards, and sometimes restrictions. The paper describes the procedures and techniques adopted for the safe exchange by the International Crops Research Institute for the Semi‐Arid Tropics (ICRISAT) plant germplasm in India. Safeguards for the imported germplasm include intermediate quarantine for groundnut (Arachis sp.) cuttings, fumigation, dry seed inspection, and microscopic examination followed by seed treatment and growing of healthy crops in a quarantine isolation area before releasing seeds of disease free progeny to the scientists. Similarly, inspection of crops before collection of seeds followed by fumigation, microscopic examination, enzyme‐linked immunosorbent assay (ELISA) test for groundnut viruses, seed treatment, and finally good packing have been found effective for export of healthy seeds. 相似文献