Response of imidazolinone-resistant and -susceptible weedy rice populations to imazethapyr and increased atmospheric CO2

IF 0.8 Q3 Agricultural and Biological Sciences Planta Daninha Pub Date : 2020-01-01 DOI:10.1590/s0100-83582020380100078
Leonard B. Piveta, N. Roma‐Burgos, J. A. Noldin, João P. Refatti, Claudia Oliveira, L. A. Avila
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引用次数: 1

Abstract

Background: Weedy rice (Oryza sativa L.) is the main weed of rice crop. The high genetic variability of weedy rice contributes to the high phenotypic diversity between biotypes and different responses to environmental stress. Objective: The present study aimed to evaluate the response of imidazolinone-susceptible and -resistant weedy rice populations to increased atmospheric [CO2]. Methods: The experiment was arranged in a complete randomized design with six replications. The treatments included two [CO2] concentration (700 and 400 μmol mol-1) and three treatments: resistant genotype (IMI-resistant) treated with imazethapyr; resistant genotype without imazethapyr, and a susceptible genotype without imazethapyr. Results: The IMI-resistant and –susceptible weedy rice responded similarly to [CO2] enrichment. Enhanced [CO2] increased competitive ability of the weedy rice populations tested, by means of increased plant height. Weedy rice seed production also increased with enhanced [CO2] by means of increased photosynthesis rate and reduced transpiration (increased water use efficiency). Increased seed production also means increased weed persistence as it increases the soil seedbank size. The application of imazethapyr on IMI-resistant weedy rice did not alter its response to [CO2]; conversely, increased [CO2] did not change the resistance level of weedy rice to imazethapyr. High [CO2] increased spikelet sterility, but this beneficial effect was negated by the overall increase in production of filled grains. Conclusions: Enhanced [CO2] concentrations increases weedy rice growth, photosynthesis rates, seed production and spikelet sterility; the imidazolinone application does not affect the response of weedy rice to enhanced [CO2] affects weedy rice response to imidazolinone herbicide.
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咪唑啉酮抗性和敏感性杂草水稻群体对吡唑吡韦和大气CO2增加的响应
背景:杂草稻(Oryza sativa L.)是水稻作物的主要杂草。杂草稻的高遗传变异性决定了其生物型之间的表型多样性和对环境胁迫的不同反应。目的:本研究旨在评价咪唑啉酮敏感和抗性杂草水稻种群对大气[CO2]增加的响应。方法:采用完全随机设计,6个重复。2种CO2浓度处理(700和400 μmol mol-1), 3种处理:耐药基因型(IMI-resistant)用imazethapyr处理;耐药基因型不含马西哌,易感基因型不含马西哌结果:抗imi和敏感的杂草稻对CO2富集的反应相似。通过增加植株高度,CO2的增加增加了杂草稻群体的竞争能力。杂草水稻的种子产量也随着[CO2]的增加而增加,这是通过增加光合速率和降低蒸腾作用(提高水分利用效率)来实现的。种子产量的增加也意味着杂草的持久性增加,因为它增加了土壤种子库的大小。在抗imi杂草稻上施用imazethapyr未改变其对CO2的响应;相反,CO2的增加并没有改变杂草稻对吡嗪的抗性水平。高[CO2]增加了小穗的不育性,但这种有益的影响被灌浆籽粒产量的总体增加所抵消。结论:CO2浓度的升高提高了杂草稻的生长、光合速率、种子产量和小穗不育性;施用咪唑啉酮不影响杂草水稻对CO2浓度升高的响应,但影响杂草水稻对咪唑啉酮除草剂的响应。
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来源期刊
Planta Daninha
Planta Daninha Agricultural and Biological Sciences-Plant Science
自引率
0.00%
发文量
0
审稿时长
16 weeks
期刊介绍: Planta Daninha is a scientific journal published by the Brazilian Society of Weed Science (SBCPD - Sociedade Brasileira da Ciência das Plantas Daninhas). Papers submitted for publication must be sent through an electronic system, on http://www.scielo.br/pd. Works may be written in Portuguese, English, or Spanish, and will be accepted after being reviewed and approved by the Editorial Board. Only papers that have not been published or submitted for publication in other media will be accepted. Articles in Portuguese will be translated to English after being properly corrected and authorized by the authors. Planta Daninha has with goal to publish genuine technical-scientific papers and literature reviews from a critical perspective on Biology, weed management, and related topics.
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