4种稗属杂草对二氯喹啉酸等常用除稗剂的抗药性

稗属(Echinochloa spp.)杂草严重影响我国水稻安全生产。二氯喹啉酸作为主要的除稗剂,连续施用多年,抗性问题突出。为进一步探明稗草对二氯喹啉酸等除稗剂的抗性现状,以便有针对性地进行抗性治理,对采集于江苏省稻区的稗草种群进行抗性分析。结果表明,采自常州市金坛区金城镇、南京市六合区和镇江市句容市的稗草种群对二氯喹啉酸抗性频率分别为25. 93%、30. 53%和22. 6%,采集于其他几个地区的稗草种群抗性频率在4. 69%～9. 71%之间。对分离筛选到4种抗性稗草进行抗性水平测定,整株生物测定结果表明,普通稗EB-S和EB-R的GR50(生长抑制中量)值分别为194. 85和4 483. 33 g a. i./hm2,普通稗抗性材料(EB-R)的抗性指数达到了23,EB-R对二氯喹啉酸产生了较高水平的抗药性。孔雀稗(ES-R)、西来稗(EZ-R)和无芒稗(EM-R)对二氯喹啉酸的抗性指数分别为8. 87、9. 32、7. 41,处于中等水平抗药性。另外,普通稗(EB-R)和西来稗(EZ-R)对双草醚和氰氟草酯产生了一定的抗(耐)药性,无芒稗(EM-R)对唑酰草胺产生了一定的抗(耐)药性。本研究结果可为通过轮换用药治理抗性杂草提供理论依据。     

我国长江中下游稻区稗草对二氯喹啉酸的抗药性研究

用琼脂法测定了长江中下游稻区43个稗草(Echinochloa crusgalli)对二氯喹啉酸的抗药性水平。2003年采自浙江绍兴的稗草对二氯喹啉酸最为敏感,其EC50为0.326 8 mg/L,以其为敏感稗草。2003年采自浙江陶堰和浙江塘下的稗草对二氯喹啉酸的抗药性处于极高抗水平,抗性比分别达到718.48和695.84。采自湖南安乡(2004年)和浙江杭州(2003年)的稗草也产生了高水平抗药性,抗性倍数分别为62.21倍和41.22倍。采自浙江皋埠(2003年)的稗草对二氯喹啉酸的抗药性还处于低水平抗性阶段,其抗性比为6.41。而其余37个稗草对二氯喹啉酸的EC50为0.495 3~1.315 mg/L,抗性比为1.52~4.02,表明这些地方稗草尚处于对二氯喹啉酸敏感或敏感性正在下降阶段。     

湖南稻区稗草对二氯喹啉酸的抗药性研究

对湖南部分稻区稗草生物型对二氯喹啉酸的抗性水平进行监测。琼脂法测定结果表明,湖南安乡稗草生物型已对二氯喹啉酸产生了明显的抗性,2001年安乡稗草生物型IC₅₀结果显示,其最高相对抗性倍数高达63.80;常德市郊、汉寿县、长沙县高桥镇和春华镇的稗草生物型对二氯喹啉酸的抗药性正在形成,IC₅₀相对抗性倍数比值为2.15-2.78;而其他地区稗草生物型尚未对二氯喹啉酸产生抗性。茎叶喷雾法测定表明,在室内即便是使用高浓度400 mg／L二氯喹啉酸也不能很好地控制安乡稗草生物型;田间使用浓度为6倍于田间推荐用量(1 350 g／hm²)的二氯喹啉酸不能有效防治安乡稗草生物型,而用田间推荐量(225 g／hm²)的二氯喹啉酸可有效的防治敏感性稗草生物型。以上结果表明湖南安乡稗草生物型已对二氯喹啉酸产生极明显的抗药性。     

稻田稗草对二氯喹啉酸的抗药性研究进展

稗草是农业生产中的重要杂草之一,对世界粮食生产特别是水稻生产危害较大。二氯喹啉酸作为一种优良的除稗剂,在世界各地水稻田中已广泛应用20多年。但随着使用年限的增加,部分地区稗草因选择压力和遗传因素对二氯喹啉酸产生了抗药性,且情况日益严重。文章综述了稻田稗草对二氯喹啉酸产生抗药性的现状,讨论了二氯喹啉酸的作用机制和选择机制,对其抗性机理作了一定的分析,并对如何减少和延缓抗性产生提出了一些对策和建议。     

我国南方稻区稗草对二氯喹啉酸的抗药性测定

用琼脂法对2000年和2001年采收的29个稗草生态型对二氯喹啉酸的抗性水平进行了测定。结果表明:广东花都稗草对二氯喹啉酸最为敏感,其抑制中浓度IC50是0.148 0 mg/L;湖南安乡稗草对二氯喹啉酸的抗性极为明显,2000年和2001年样本IC50值分别是7.458和13.80 mg/L,其相对抗性比分别为50.4和93.2;2000年采收的湖南常德稗草也对二氯喹啉酸表现出高抗,其相对抗性比值是4.47,黄梅、汉寿、常德(b)、高桥4地稗草也表现出抗性,其相对抗性比值分别为2.37、3.12、2.44和2.20;其他22个稗草生态型对二氯喹啉酸仍未表现出抗性。     

东北地区稻稗对3种除草剂的多抗性

为明确东北地区不同稻田区稻稗对五氟磺草胺、二氯喹啉酸和■唑酰草胺的抗性情况,采用整株生物测定法研究东北地区32个稻稗种群对3种除草剂的多抗性情况及抗性水平。结果表明:在32个稻稗种群中,3个种群(HLJ4、LN1、LN24)对3种除草剂产生了多抗性,其中HLJ4种群对二氯喹啉酸产生了高水平的抗药性,LN1和LN24种群对二氯喹啉酸产生了极高水平的抗药性,抗性指数分别为65.85、145.21和269.60;HLJ4和LN1种群对■唑酰草胺产生了高水平的抗药性,抗性指数分别为10.64和23.59,LN24对■唑酰草胺产生了中等水平的抗药性,抗性指数为9.86。HLJ4、LN24、LN1分别对五氟磺草胺产生了低、中、高水平的抗药性,抗性指数分别为4.80、8.66、25.67。     

利用贴牌水培法快速鉴定稗草对二氯喹啉酸的抗药性水平

本文通过室内贴牌水培法及整株法,快速鉴定并验证了2013年采自湖南省不同地区稻田的50个稗草生物型对二氯喹啉酸的抗药性,试验结果表明:贴牌水培法所用的二氯喹啉酸甄别剂量为80mg/L;稗草死亡率越低,其抗性倍数(resistance factor,RF)越高,其中死亡率为0时,整株法测定的RF值高达896.07~1 209.38;贴牌水培法测定的稗草样本对二氯喹啉酸的ED50远低于整株法,但两种方法得到的不同稗草生物型对二氯喹啉酸的抗性水平趋势高度吻合。笔者认为以贴牌水培法测定的死亡率小于40%的稗草样本对二氯喹啉酸的抗性风险较高,值得深入研究。     

宁夏稻田稗草对氰氟草酯抗药性及多抗性与交互抗性研究

为明确宁夏地区稻田稗草对乙酰辅酶A羧化酶抑制剂类除草剂氰氟草酯的抗药性水平以及对其他除草剂可能存在的交互抗性与多抗性情况，采用整株生物测定法研究了采自宁夏稻田的36个稗草种群对氰氟草酯的抗药性, 并使用单剂量法测定了各种群对五氟磺草胺、嘧啶肟草醚、噁唑酰草胺、二氯喹啉酸和敌稗的交互抗性及多抗性。结果表明, 以氰氟草酯GR50数值最小的生物型为敏感生物型计算抗性指数(RI), 仅有1个稗草种群在推荐剂量下被完全杀死, RI≤ 3.0; 11个稗草种群的RI范围为3.3～9.4, 表现出低水平抗性, 发生频率为30.56%; 19个种群的RI范围为10.3~58.3, 表现出中等水平抗性; 发生频率为52.78%; 5个稗草种群的RI＞100, 表现出高水平抗性, 占比13.89%, 其中采自银川市贺兰县立岗镇通义村的稗草种群抗性水平最高。交互抗性和多抗性研究结果表明, 在田间最高推荐剂量下氰氟草酯对稗草鲜重抑制率低于90%的种群中, 58%的稗草种群对噁唑酰草胺产生了交互抗性, 对五氟磺草胺、嘧啶肟草醚、二氯喹啉酸和敌稗产生多抗性的种群所占百分率分别为94%、100%、100%和18%。研究发现宁夏地区水稻田多数稗草种群对氰氟草酯产生了不同程度的抗药性, 并对其他常用稻田除草剂产生了交互抗性与多抗性, 其中银北地区稗草种群抗药性水平最高, 部分地区稗草抗性已达到高抗水平, 宁夏水稻田亟须抗性稗草综合治理技术的研究。     

湖南稻区稗草对二氯喹啉酸的抗性研究

利用整株测定法,测定湖南省主要稻区29个稗草生物型对二氯喹啉酸的抗性。结果表明,湖南省隆回县的生物型稗草对二氯喹啉酸最敏感,其EC50为76.388 3 g a.i./hm2,为敏感生物型。湖南省益阳芷湖口镇和湖南省长沙望城县(直播田)的生物型稗草对二氯喹啉酸的EC50分别为1 567.164 g a.i./hm2和2 477.542 g a.i./hm2,抗药性指数分别达20.52和32.43,表明这两种生物型稗草的抗药性处于高水平抗性。其中10个生物型稗草的EC50为155.931 8～375.114 g a.i./hm2,抗药性指数为2.02～4.91,表明这些生物型稗草已产生抗性。而其余16个生物型稗草的EC50为84.020 3～151.596 g a.i./hm2,抗药性指数为1.10～1.98,表明这些地方稗草的敏感性正在下降。     

三种稗草对二氯喹啉酸的敏感性研究

辽宁省沈阳、东港两市稻田的长芒野稗、水田稗、无芒野稗对二氯喹啉酸都产生了一定程度的抗性。产生抗性后,很难用二氯喹啉酸进行有效地防除。     

Quinclorac does not inhibit cellulose (cell wall) biosynthesis in sensitive barnyard grass and maize roots

The effect of the auxin herbicide quinclorac on cellulose, callose, and (1→3),(1→4)β-glucan deposition in newly produced cell walls of meristematic root tip cells was examined in maize and barnyard grass. Particularly, the developing cell plate of dividing cells was investigated as a site of de novo cellulose biosynthesis. A cellulose-binding domain of a bacterial cellulase and monoclonal antibodies against the hemicellulose constituents were used for specific labelling in fluorescence microscopic examination. Root-treatment of plants with 100 μM quinclorac in maize and 10 μM quinclorac in barnyard grass decreased cell division activity in root tips and root elongation. Quinclorac did not induce the swelling of root tips into a club shape and a glassy appearance of tissue, which are typical symptoms for the action of cellulose biosynthesis inhibitors such as dichlobenil. During 24 h of treatment, no effects of quinclorac on cellulose deposition at the cell plates and parental walls of meristematic root cells were found. In contrast, 10 μM dichlobenil inhibited cellulose deposition in cell plate formation within 4 h of treatment. Concerning the hemicellulose constituents, increased staining for callose in areas of cell plates and parental cell walls was observed 24 h after treatment with 10 μM quinclorac. Concomitantly, (1→3),(1→4)β-glucan deposition in cell walls decreased. The latter may be an indirect effect of quinclorac through a stimulated production of cyanide from ethylene biosynthesis. In contrast with previous reports, no evidence that quinclorac, directly or indirectly inhibits cellulose biosynthesis in roots of susceptible grasses was found.     

二氯喹啉酸的残留现状及治理对策研究进展

二氯喹啉酸是水稻田防除稗草常用的除草剂之一,由于存在代谢周期长、易对后茬敏感作物产生药害的问题,有必要开展二氯喹啉酸残留现状及治理对策研究。本文梳理了二氯喹啉酸在土壤、作物及水域中的残留现状,分析了微生物降解技术、解毒剂补救法、吸附法以及高级氧化技术处理二氯喹啉酸残留的机制与途径,并对其去除技术的未来发展情况进行了展望,以期为降低二氯喹啉酸在环境中的残留、减轻环境污染提供参考依据。     

Mechanism of resistance to quinclorac in smooth crabgrass (Digitaria ischaemum)

The mechanism of resistance to quinclorac was investigated in a smooth crabgrass biotype [Digitaria ischaemum (Schreb. ex Schweig) Schreb. ex Muhl] from Tulare County, California. Quinclorac (8.96 kg a.i. ha⁻¹) had no effect (P = 0.18) on the resistant (R) biotype, but reduced fresh weight of a susceptible (S) biotype by 93%. After treatment with 4.48 kg a.i. quinclorac ha⁻¹, the S biotype produced about three times more ethylene than the R biotype and accumulated cyanide in tissues. Similar amounts of endogenous cyanide resulting from treatment with KCN reproduced quinclorac phytotoxicity. Pre-treatment with the ACC synthase inhibitor AVG reduced quinclorac phytotoxicity by 37% and ethylene production by 89%. These data suggest a target site-based mechanism of resistance involving stimulation of ACC synthesis and accumulation of cyanide. Also, the R biotype had four times more β-cyanoalanine synthase activity than the S biotype, suggesting a higher ability to detoxify cyanide.     

广东省水稻田稗对五氟磺草胺的抗性分析

为明确广东省水稻田杂草稗Echinochloa crus-galli对五氟磺草胺的抗性现状及其可能的抗性机理，采用整株剂量反应法测定不同地区稗种群对五氟磺草胺的抗性水平，对不同稗种群的乙酰乳酸合成酶（acetolactate synthase，ALS）基因片段进行扩增测序，分析细胞色素P450酶（cytochrome P450 monooxygenase，P450）和谷胱甘肽-S-转移酶（glutathione-S-transferase，GST）抑制剂胡椒基丁醚（piperonylbutoxide，PBO）和4-氯-7-硝基-2，1，3-苯并氧杂噁二唑（4-chloro-7-nitro-1，2，3-benzoxadiazole，NBD-Cl）对不同稗种群抗性水平的影响，并对替代药剂进行筛选。结果显示，广东省水稻田多数稗种群对五氟磺草胺仍表现敏感，但采自湛江市的1个种群BC-7对五氟磺草胺产生了抗性，抗性倍数达6.5倍。与敏感种群BC-2相比，BC-7种群并未发生已报道的ALS靶标抗性相关突变。PBO和NBD-Cl均可显著提高BC-7种群对五氟磺草胺的敏感性，其干重抑制中量GR₅₀由31.1 g/hm²分别降为11.0 g/hm²和24.7 g/hm²。BC-7种群对氰氟草酯和噁唑酰草胺仍较敏感，但对二氯喹啉酸和双草醚产生了抗性。表明P450和GST介导的代谢抗性是稗BC-7种群产生抗性的重要原因，氰氟草酯和噁唑酰草胺适用于治理该抗性种群。     

Quinclorac resistance: a concerted hormonal and enzymatic effort in Echinochloa phyllopogon

BACKGROUND: Quinclorac (3,7-dichloro-quinoline-carboxylic acid) is a selective herbicide widely used to control annual grasses and certain broadleaf weeds. Echinochloa phyllopogon (Stapf) Koss. is the most noxious grass weed in California rice fields and has evolved resistance to multiple herbicides with different modes of action. A quinclorac-resistant (R) E. phyllopogon biotype found in a Sacramento Valley rice field where quinclorac has never been applied was investigated. RESULTS: Resistant to susceptible (S) GR₅₀ (herbicide rate for 50% growth reduction) ratios ranged from 6 to 17. The cytochrome P450 inhibitor malathion (200 mg L⁻¹) caused R plants to become as quinclorac susceptible as S plants. Quinclorac rapidly (6 HAT) stimulated ethylene formation in S plants, but only marginally in R plants. Malathion pretreatment did not reduce ethylene formation by quinclorac-treated S and R plants. Activity of β-cyanoalanine synthase (β-CAS) in tissue extracts was 2-3-fold greater in R than in S plants, and incubation of shoot extracts with 1 mM malathion reduced β-CAS activity by 40% in both biotypes. CONCLUSION: Resistance to quinclorac in R E. phyllopogon involved at least two mechanisms: (a) insensitivity along the response pathway whereby quinclorac induces ethylene production; (b) enhanced β-CAS activity, which should enable greater HCN detoxification following quinclorac stimulation of ethylene biosynthesis. This unveils new resistance mechanisms for this multiple-resistant biotype widely spread throughout California rice fields. Copyright © 2011 Society of Chemical Industry     

稻田稗属杂草致病菌的分离与鉴定

稗草Echinochloa crus-galli作为稻田难以防除的恶性杂草,严重影响水稻产量。为发掘具有防治稻田稗草潜力的生防菌,本研究从江苏、广西、贵州三省采集感病稗草,采用组织分离法获得10株对稗草致病性较强的优势菌株。通过观察优势病原菌的形态特征,结合rDNA-ITS、GAPDH、EF-1α基因片段序列分析确定10株菌分别为新月弯孢Culvularia lunata、尖角突脐蠕孢Exserohilum monoceras、禾长蠕孢菌Setosphaeria rostrata、稻平脐蠕孢Bipolaris oryzae、梭形突脐蠕孢Exserohilum fusiforme、澳大利亚弯孢Curvularia australiensis、双色平脐蠕孢Bipolaris bicolor、高粱附球菌Epicoccum sorghinum、亚隔孢壳属Didymella americana和亚隔孢壳属Didymella pinodella。该研究丰富了稗草病原菌生物资源,为进一步开发稻田生物除草剂提供了新材料。     

Resistance of barnyardgrass (Echinochloa crus-galli) to atrazine and quinclorac

Two populations of Echinochloa crus-galli (R and I) exhibited resistance to quinclorac. Another population (X) exhibited resistance to quinclorac and atrazine. The R and I populations were collected from monocultures of rice in southern Spain. The X population was collected from maize fields subjected to the application of atrazine over several years. The susceptible (S) population of the same genus was collected from locations which had never been treated with herbicides. The quinclorac ED₅₀ value (dose causing 50% reduction in shoot fresh weight) for the R and I biotypes were 26- and 6-fold greater than for the S biotype. The X biotype was 10 times more tolerant to quinclorac than the S biotype and also showed cross-resistance to atrazine, being 82-fold more resistant to atrazine than the R, I and S biotypes. Chlorophyll fluorescence and Hill reaction analysis supported the view that the mechanism of resistance to atrazine in the X biotype was modification of the target site, the DI protein. Quinclorac at 20 mg litre^-1 did not inhibit photosynthetic electron transport in any of the test biotypes. The quinclorac I₅₀ values (herbicide dose needed for 50% Hill reaction reduction) of the S population was over 50000-fold higher than the atrazine I₅₀ value for the same S population, indicating that quinclorac is not a PS II inhibiting herbicide. Propanil at doses greater than 0·5 kg ha^-1 controlled all the biotypes. © 1997 SCI