Pyramiding of multiple genes generates rapeseed introgression lines with clubroot and herbicide resistance, high oleic acid content, and early maturity

Clubroot and herbicide resistance,high oleic acid(OA)content,and early maturity are targets of rapeseed(Brassica napus L.)breeding.The objective of this study was to develop new male-fertility restorer lines by pyramiding favorable genes to improve these traits simultaneously.Seven elite alleles for the four traits were introduced into the restorer line 621R by speed breeding with marker-assisted and phenotypic selection.Six introgression lines(ILs)were developed with four-to seven-gene combinations and crossed with two elite parents to develop hybrids.All ILs and their corresponding hybrids displayed high resistance to both clubroot pathotype 4 and sulfonylurea herbicides.Three ILs and their hybrids showed large increases in OA contents and four showed earlier maturity.These new ILs may be useful in rapeseed hybrid breeding for the target traits.

Effects of a glyphosate-based herbicide on the oestrous cycle of rats

Objective:To determine the effects of a glyphosate-based herbicide on the oestrous cycle of rats.Methods:Fifteen adult Wistar rats were randomly divided into three groups.Group A served as the control group,while groups B and C received 250 and 500 mg/kg of glyphosate-based herbicide orally for five oestrous cycles,respectively.Stages of oestrous cycle,oestrous cycle index,length of cycle,oestrous cycle ratio,serum estradiol and progesterone levels were determined.Results:The proestrus and oestrus stages of the glyphosate-based herbicide groups increased significantly(P<0.05),although proestrus in group C was not significantly different from the control group.There was a significant decrease in the metestrus and diestrus of the glyphosate-based herbicide groups(P<0.05).The oestrous cycle index of the glyphosate-based herbicide treated groups was altered;this was characterized by an increase in the oestrous index and a decrease in the metestrus and diestrus indexes.The proestrus index of group B increased,while that of group C decreased.The length of the cycle of the glyphosate-based herbicide groups significantly decreased from the 1st and 3rd week till the end of the study in groups B and C,respectively(P<0.05).There was a significant increase in the oestrous cycle ratio of the glyphosate-based herbicide groups compared to the control group(P<0.05).Though the estradiol and progesterone levels of the glyphosate-based herbicide groups increased and decreased,respectively,they were not significantly different from the control group.Conclusions:Glyphosate-based herbicide at the doses of 250 and 500 mg/kg can alter the pattern of the oestrous cycle in rats.

Evaluation of Pre-Emergence and Post-Emergence Herbicides for Weed Management in Miscanthus sacchariflorus and Miscanthus sinensis

Miscanthus,is a promising bioenergy crop,considered superior to other bioenergy crops because of its higher water and nutrient use efficiency,cold tolerance,and higher production of biomass.Broadleaf weeds and grass weeds,cause major problems in the Miscanthus field.A field experiment was conducted in 2018 and 2019,to assess the effects of pre-emergence(alachlor and napropamide)and post-emergence herbicides(nicosulfuron,dicamba,bentazon,and glufosinate ammonium)on broadleaf and grass weeds in M.sinensis and M.sacchariflorus fields.The weed control efficiency and phytotoxicity of pre-and post-emergence herbicides were evaluated at 30 days after treatment(DAT)and compared to those of the control plots.The results showed wide variations in the susceptibility of the weed species to the treated herbicides.Treatment with nicosulfuron 40 g.a.i.ha^(-1) provided the most effective overall weed control(with 10%visual injury),without affecting the height and biomass of neither Miscanthus species in the field.Post-emergence herbicides such as glufosinate ammonium 400 g.a.i.ha^(-1) and dicamba 482 g.a.i.ha^(-1) were effective and inhibited the growth and density of the majority of weeds to a 100%;however,they showed significant phytotoxicity(toxicity scale of 1-10)to both species of Miscanthus.The application of glufosinate ammonium caused severe injuries to the foliar region(90%visual injury)of both Miscanthus sps.Comparatively,M.sinensis showed a slightly higher tolerance to the herbicides nicosulfuron,bentazon and napropamide with 10%visual injury at the recommended dose than M.sacchariflorus.The present study clearly showed that infestation of broadleaf and grass weeds in Miscanthus fields can cause significant damage to the growth and biomass of Miscanthus and applying pre-emergence and post-emergence herbicides effectively controls the high infestation of these weeds.

A nonsynonymous mutation in an acetolactate synthase gene (Gh_D10G1253) is required for tolerance to imidazolinone herbicides in cotton

Background Herbicide tolerance in crops enables them to survive when lethal doses of herbicides are applied to surrounding weeds.Herbicide-tolerant crops can be developed through transgenic approaches or traditional mutagenesis approaches.At present,no transgenic herbicide tolerant cotton have been commercialized in China due to the genetically-modified organism(GMO)regulation law.We aim to develop a non-transgenic herbicide-tolerant cotton through ethyl methanesulfonate(EMS)mutagenesis,offering an alternative choice for weed management.Results Seeds of an elite cotton cultivar Lumianyan 37(Lu37)were treated with EMS,and a mutant Lu37-1 showed strong tolerance to imidazolinone(IMI)herbicides was identified.A novel nonsynonymous substitution mutation Ser642Asn at acetolactate synthase(ALS)(Gh_D10G1253)in Lu37-1 mutant line was found to be the potential cause to the IMI herbicides tolerance in cotton.The Ser642Asn mutation in ALS did not present among the genomes of natural Gossypium species.Cleaved amplified polymorphic sequence(CAPS)markers were developed to identify the ALS mutant allele.The Arabidopsis overexpressing the mutanted ALS also showed high tolerance to IMI herbicides.Conclusion The nonsynonymous substitution mutation Ser642Asn of the ALS gene Gh_D10G1253 is a novel identi-fied mutation in cotton.This substitution mutation has also been identified in the orthologous ALS genes in other crops.This mutant ALS allele can be used to develop IMI herbicide-tolerant crops via a non-transgenic or transgenic approach.

Effects of Different Herbicides on Weed Control in Alfalfa Field

[Objectives]The paper was to systematically study the technology of weed control in alfalfa field.[Methods]Reviving alfalfa field and newly sown alfalfa field after emergence were selected,and the effects of different herbicides on weed control and alfalfa yield were discussed.[Results]The optimal herbicides after alfalfa reviving were 5%imazethapyr and 10%imazethapyr,and the optimal dosages were 1.5 and 1.05 L/hm 2,respectively.The optimal herbicides after emergence of newly born alfalfa were 5%imazethapyr and 10%imazethapyr,and the optimal dosages were 1.5 and 0.75 L/hm 2,respectively.[Conclusions]This study will provide a technical support for high quality production of alfalfa.

Limiting Factors and Countermeasures for the Development of Biological Herbicides

This paper mainly analyzes the main limiting factors in the development of biological herbicides,such as narrow herbicidal spectrum,vulnerable to environmental impacts,difficulties in preparing dosage forms,difficult separation and low yield of active substances,biological safety,etc.Moreover,countermeasures and suggestions are put forward,including strengthening the study of biological screening of herbicidal activity,microbial metabolites and their use as lead compounds,dosage forms,fungi complex formulation,fungi and herbicide complex formulation,and fermentation technology.

Review and Analysis: Did the United States Transport, Off-Load and Use Commercial 2,4,5-T Herbicides with Unknown Amounts of Dioxin TCDD on Military Base Grounds in Panama Canal Zone between 1948 and 1999?

The 84 km Panama Canal connecting the Atlantic and Pacific oceans has historically been a strategic waterway for shipping and the location of United States (US) military bases. Since the construction of Lake Gatun reservoir, canal locks and navigation channel through the Isthmus of Panama tropical forests in the 1910s, chemicals, pesticides, and herbicides have been essential for controlling upland and wetland vegetation as well as managing mosquito-borne diseases. Chemicals and pesticides flowed into Lake Gatun via land surface runoff and subsurface drainage either attached to the sediment or in solution during the rainy season. Lake Gatun and the Panama Canal was the drinking water source for most of the civilian and military population living in the Panama Canal Zone. Between 1948 and 1999, US military base commanders had the ability to order, from the Federal Supply Catalog, commercially available herbicide 2,4,5-T with unknown amounts of dioxin TCDD for use on the military base grounds in the Panama Canal Zone. The herbicide 2,4,5-T was transported to Panama Canal Zone ports, including the ports Cristobal on the Caribbean and Balboa on the Pacific, and distributed to the US military bases in Panama by rail or truck. The US National Toxicology Program and the International Agency for the Research on Cancer listed dioxin and TCDD as known human carcinogens. Dioxins are endocrine disrupters and can cause certain chloracne, cancers, developmental and reproductive effects. In 1985, the United States government banned the manufacture of the herbicide 2,4,5-T, with unknown amounts of dioxin TCDD, after it was shown to cause cancer in animals. The objectives of this study are to determine: 1) the fate of dioxin TCDD, a contaminant in the herbicide 2,4,5-T, sprayed on the US military base vegetation in the Panama Canal Zone from 1948 to 1999, 2) the transport of dioxin TCDD rich sediment via soil erosion and overland flow into Lake Gatun and Panama Canal waterways and 3) the human health impacts of dioxin TCDD, a known carcinogen, on US military and Panamanian civilians exposed to dioxin TCDD in the Panama Canal Zone.

碳量子点修饰g-C_(3)N_(4)缓解二苯醚类除草剂污染

为加速二苯醚类除草剂在可见光环境的降解,以玉米芯制碳量子点修饰石墨相氮化碳,合成一种非金属型光催化剂.考察在该催化剂作用下,氟磺胺草醚、三氟羧草醚和乙氧氟草醚等的光解行为及光解前后毒性.结果表明,氟磺胺草醚在可见光照射下的光解速率最大、其次为乙氧氟草醚,光照3 h的降解率即达99%和91%,而三氟羧草醚的光解速率最低、须光照至8 h才能达到90%的降解率.由高斯软件计算NPA(Natural Population Analysis)电荷分布得福井函数和双描述符,预测反应位点并结合液质联用分析降解产物,推测除草剂的降解过程应包括裂解、水解、脱卤、还原和羟基化等,证明了空穴和羟基自由基在其中的作用.观察玉米种子的生长实验,发现氟磺胺草醚的毒性略高于乙氧氟草醚,但二者经光照处理后毒性均显著下降,三氟羧草醚及其光解产物显示为低毒性.

桃苗圃适用除草剂的筛选、混配与安全性评价

【目的】杂草防治是果树生产中的重要环节,论文旨在评价不同除草剂对桃的安全性并筛选适于桃苗圃和生产园利用的除草剂,为桃产业中化学除草的应用提供理论依据。【方法】采用盆栽试验方法,选用毛桃苗以及黑麦草、狗牙根、空心莲子草、白三叶草和黄花苜蓿5种草为试材,对13种除草剂的安全性进行初步筛选。根据各除草剂药害等级结果,选择10%精喹禾灵和60%二氯喹啉酸进行混配。按照精喹禾灵有效剂量25、50、75 mL·hm^(-2)3个水平,二氯喹啉酸有效剂量150、300、450 g·hm^(-2)3个水平,共设置形成9个除草剂混配制剂。茎叶喷施处理后7、14、21 d,调查计算杂草抑制率,处理30 d后测定桃苗株高、茎粗、地上和地下部生物量、叶片和根尖细胞电解质渗透率、根系总根长、总根表面积、根体积和根尖数的变化,并基于主成分分析对不同处理的安全性和杂草抑制率进行综合评价。【结果】茎叶喷施处理后,有11种除草剂对桃苗产生药害,桃苗出现不同程度的失绿、萎蔫、枯死等症状,精喹禾灵和二氯喹啉酸对桃苗生长无显著影响。利用精喹禾灵单剂喷施杂草后,处理21 d对禾本科杂草的抑制率为100%,但对阔叶杂草无抑制作用。相反,喷施二氯喹啉酸对禾本科杂草的抑制率为0,对黄花苜蓿、白三叶草、空心莲子草的抑制率范围为80%—100%。精喹禾灵与二氯喹啉酸混配后,9个混配制剂在处理21 d后的杂草总抑制率可达90%以上,同时各制剂对桃苗株高、地上和地下部生物量、叶片和根尖细胞电解质渗透率无显著性影响。综合分析显示,精喹禾灵有效剂量对混配制剂的综合评价D值有较大影响,当精喹禾灵有效剂量提升至75 mL·hm^(-2)时,混配制剂的综合评价D值超过0.563,但D值未出现随二氯喹啉酸有效剂量提升而增大的趋势。【结论】桃苗对多数除草剂敏感,混配是提高精喹禾灵和二氯喹啉酸杂草综合抑制率的有效措施。有效剂量75 mL·hm^(-2)精喹禾灵与300g·hm^(-2)二氯喹啉酸混配后,制剂的综合评价D值最高,可在保证桃苗安全的基础上达到最佳除草效果。

杂草对9类常用不同作用机制除草剂的非靶标抗性机制研究进展

除草剂的应用为农业生产带来便利,但长期、单一使用某一种或相同机制的除草剂也引发了杂草对除草剂的抗性问题。抗性杂草种类逐渐增加,抗性形成机制复杂,导致农田杂草的治理难度增加。杂草对除草剂的抗性机制主要分为两种,一种是除草剂靶标位点基因的突变或过量表达导致的靶标抗性,另一种是杂草对除草剂吸收、转运、固存和代谢等一个或多个生理过程发生变化导致的非靶标抗性。本文综述了杂草对9类不同作用方式除草剂的非靶标抗性机制的生理、生化和分子基础的研究进展,以期为抗性杂草综合治理提供参考。

苗前与苗后除草剂配施对白菜型冬油菜田间杂草防效及产量的影响

针对强抗寒冬油菜生育周期长,人工除草成本高,田间杂草高效防控技术较为欠缺等问题,选用当地主栽强抗寒白菜型冬油菜(天油4号)为试验材料,选用常见苗前除草剂与苗后除草剂,分别设置3个不同处理梯度,以清水为对照,共16个不同配施处理组合,于2017—2018年开展了大田试验,以探究苗前与苗后除草剂对白菜型冬油菜田间杂草防效及产量的影响。结果表明,苗前除草剂单施平均总株防效40.63%,总鲜重防效51.64%,苗后除草剂单施总株防效60.94%,总鲜重防效50.75%,共施的总株防效62.33%,总鲜重防效57.23%,与苗前除草剂单施相比,共施的总株防效与鲜重防效平均提升了21.70和5.59百分点,与苗后除草剂单施相比,共施的总株防效与鲜重防效平均提升了1.39和6.48百分点。产量方面,苗前除草剂单施平均增产642.32 kg/hm^(2),平均增幅61.91%,苗后除草剂单施平均增产616.42 kg/hm^(2),增产幅度59.41%,共施处理平均增产368.52 kg/hm^(2),增产幅度35.52%,产量极显著增高的单施和共施处理为R_(3)O_(0)和R_(3)O_(2),分别增产1122.78和896.78 kg/hm^(2),增幅分别为108.22%及86.43%。因此,可根据冬油菜田间杂草密度选择苗前除草剂R_(3)单施或R_(3)与苗后除草剂O_(2)共施,从而达到最高效的杂草防控效果和最显著的油菜增产目标。

氯酯磺草胺与甲咪唑烟酸复配防除香附子效果及对紫花苜蓿安全性

为明确氯酯磺草胺与甲咪唑烟酸应用于紫花苜蓿(Medicago sativa)田的可行性,在温室和田间测定了氯酯磺草胺和甲咪唑烟酸复配对香附子(Cyperus rotundus)的防效和紫花苜蓿的安全性。温室试验表明,氯酯磺草胺和甲咪唑烟酸复配对香附子具有很好的防除效果,两者按有效成分用量比1:2~1:4配比对香附子株高和鲜重的共毒系数分别介于131.54~150.46和152.84~180.25,呈明显增效作用,其中1:3的比例配伍的增效最为明显,对紫花苜蓿和香附子之间的株高和鲜重选择性指数分别为1.86和1.56。两地田间试验表明,氯酯磺草胺和甲咪唑烟酸(17.50+52.50)~(25.00+75.00) g·hm^(-2)复配处理对郑州和兰考两地的香附子株防效分别为78.5%~88.5%和82.1%~90.8%、鲜重防效分别为83.4%~92.7%和84.7%~93.6%,增产率分别为28.8%~35.1%和30.5%~38.3%,显著高于氯酯磺草胺和甲咪唑烟酸单用,且避免了单用氯酯磺草胺和甲咪唑烟酸的药害问题,提高了对紫花苜蓿的安全性,表明甲咪唑烟酸和氯酯磺草胺复配可有效防控香附子,对紫花苜蓿的安全性较好,具有良好推广应用前景。

液相色谱-串联质谱法测定土壤、沉积物和水中3种新型除草剂残留

除草剂在杂草和有害植物防控上发挥着重要的作用,但其有效利用率低,大量除草剂进入环境中,对生态环境和人类健康构成了潜在威胁,因此建立环境样品中除草剂的残留分析方法尤为重要。该文采用电喷雾正离子源模式,建立了液相色谱-串联质谱法(LC-MS/MS)测定土壤、沉积物和水中异噁唑草酮、吡唑草胺和苯嘧磺草胺残留量的方法。土壤和沉积物样品经乙腈振荡提取、盐析后经C18固相萃取小柱净化,水样过滤后经C_(18)固相萃取小柱净化;再用LC-MS/MS测定样品中异噁唑草酮、吡唑草胺和苯嘧磺草胺的残留量。实验优化了仪器检测和前处理条件,考察了方法的线性关系、基质效应、检出限和定量限,并选取4种土壤、2种沉积物和水样进行了方法验证。在0.0005~0.02 mg/L范围内,异噁唑草酮、吡唑草胺、苯嘧磺草胺的线性关系均良好,r≥0.9961。3种除草剂在土壤、沉积物和水中的基质效应为-10.1%~16.5%。异噁唑草酮、吡唑草胺和苯嘧磺草胺的检出限分别为0.05、0.02、0.01μg/kg,定量限分别为0.2、0.05、0.05μg/kg。异噁唑草酮、吡唑草胺和苯嘧磺草胺在土壤、沉积物和水样中3个水平(0.005、0.1、2.0 mg/kg)下的加标回收率分别为77.2%~101.9%、77.9%~105.1%、80.8%~107.1%;相对标准偏差(RSD)分别为1.4%~12.8%、1.2%~7.7%、1.5%~11.5%。结果表明:本方法操作简单,方法稳定,定量准确,实用性强,可用于土壤、沉积物和水中异噁唑草酮、吡唑草胺和苯嘧磺草胺残留量的检测。

不同除草剂用量的田间防效及对玉米安全性影响

为筛选玉米田高效安全的除草剂使用剂量及助剂增效效应,提高玉米生产效率。在黑龙江省佳木斯市选取乙草胺(81.5%乳油)、莠去津(38%悬浮剂)及2种除草剂助剂,每种除草剂组合设低、高2个浓度,每种助剂设低、中、高3种浓度,开展了田间土壤喷施对玉米田间杂草的防效及对玉米安全性和产量的影响试验。结果表明,苗前除草对所有田间杂草均具有防除效果,降低除草剂用量田间杂草防除率也降低,通过添加助剂能够提高杂草防除率。总的来看,有效成分1 472 g·hm^(-2)乙草胺+11 482 g·hm^(-2)莠去津+225 mL·hm^(-2)助剂2号的防除效果最优。

优质抗除草剂谷子公谷89的选育与应用

公谷89是吉林省农业科学院作物资源研究所选育的优质谷子新品种,于2021年10月正式通过国家非主要农作物品种登记,编号为GDP谷子(2021)220041。该品种株高89.9 cm,穗长23.7 cm,单穗质量17.47 g,单穗粒质量14.2 g,千粒质量2.8 g,穗呈圆筒形,刚毛长度短,出谷率80.25%,生育期125 d,抗除草剂(烯禾啶),抗病性强,适宜机械化收获,米质优良,被评为“一级优质米”,适宜在东北春谷区生产种植,有广阔的应用前景和推广价值。

附球属真菌DT-014对杂草的致病性及生物学特性研究

以青海省西宁市大通县鹞子沟自然发病的大刺儿菜叶片中分离出的附球属真菌DT-014为研究对象,通过发酵喷雾法接种测定其对4种盆栽杂草猪秧秧(Galium spurium L.)、藜(Chenopodium album L.)、冬葵(Malva verticillate L. var.crispa)、密花香薷(Elsholtzia densa Benth.)的致病性和5种作物蚕豆(Vicia faba L.)、豌豆(Pisum sativum L.)、青稞(Hordeum vulgare L.)、小麦(Triticum aestivum L.)、油菜(Brassica napus L.)的安全性,并通过单因素试验,以菌落直径和其孢子悬浮液OD600值为测量标准,探究菌株DT-014的最适生长培养基、碳源、氮源、固态发酵基质。结果表明,DT-014对藜(C.album)和猪秧秧(G.spurium)致病力较强,其次为密花香薷(E.densa),对冬葵(M.crispa)致病力最低。DT-014对于小麦(T.aestivum)、蚕豆(P.sativum)、青稞(H.vulgare)、豌豆(P.sativum)相对安全,对油菜(B.napus)有轻微影响。DT-014的最适培养基为蛋白胨培养基,最适碳源为葡萄糖,最适氮源为酵母膏,最适固态发酵基质为大豆粉。

饲用高粱、青贮玉米带状间作苗后除草剂筛选及安全性评价

对饲用高粱、青贮玉米带状间作地用40%甲磺草胺悬乳剂、48%麦草畏水剂及25%二氯喹啉酸悬乳剂3种除草剂单剂和复配使用的杂草防除效果和安全性进行评价。结果表明,40%甲磺草胺悬乳剂、48%麦草畏水剂和25%二氯喹啉酸悬乳剂均对间作饲用高粱和青贮玉米具有良好的安全性,且以40%甲磺草胺悬乳剂540 g·hm^(-2)+48%麦草畏水剂450 m L·hm^(-2)+25%二氯喹啉酸悬乳剂630 g·hm^(-2)复配制剂除草效果表现最优,在饲用高粱3~4叶期喷施,15 d对田间总草(田间全部杂草)防除效果可达93.64%,30 d防除效果为92.80%。

纳米技术在除草剂制备上的应用研究进展

目前纳米技术已经应用到农业的各个领域,其在农药领域的除草剂制备上也取得了一系列进展,纳米技术和纳米材料的应用能够改善除草剂药剂性能,进而实现节能减排和降污环保。本文简要介绍了纳米技术的定义、纳米农药的分类、使用安全性和纳米技术在农药中的应用,进一步阐明纳米技术在除草剂制备中的应用优势,并分别从纳米除草剂的作用机制、剂型种类、制备方法和应用现状等方面综述其研究情况,最后,对纳米技术在除草剂制备中应用的广阔前景、存在问题及发展方向进行展望。

植保无人机喷施封闭除草剂对稻田杂草的防效研究

为探究植保无人机喷施除草剂对直播稻田杂草防效,采用50%丁草胺乳油、26%噁草酮悬浮剂、350 g/L异噁草松微囊悬浮剂、300 g/L丙草胺乳油4种封闭除草剂,在飞行高度2 m和3 m,用水量22.5、45.0 L/hm^(2)条件下设置不同处理,考察播前施药结合水层管理及播后干封对水稻安全性及对直播稻田不同种类杂草的防除效果。结果表明,26%噁草酮悬浮剂2个用水量处理的成苗率和苗高显著低于其余处理,播后30 d各处理水稻分蘖数均显著高于空白对照,各处理5株苗茎基宽与空白对照无差异。药后15 d,3种除草剂供试浓度下高用水量处理对稗草、千金子、多花水苋、异型莎草等杂草的防效均优于低用水量;播前水封与播后干封效果整体上差异不大。药后40 d,整体上各处理防效均降低,26%噁草酮悬浮剂、350 g/L异噁草松微囊悬浮剂在高用水量时对稗草的株数防效显著优于低用水量,3种药剂在高用水量时对千金子的株数防效均显著高于低用水量,鲜重防效与株数防效趋势基本一致。3种药剂不同飞防参数下对异型莎草和多花水苋的防效有差异,且效果较差。同一药剂在用水量45 L/hm^(2)和飞行高度3 m时对不同杂草的防效优于用水量22.5 L/hm^(2)和飞行高度2 m处理。不同除草剂对不同种类杂草的防效存在差异,高用水量播前施药结合水层管理对不同杂草的防效均优于播后干封处理。后期应适时进行茎叶处理,以提升施药对田间杂草的治理效果。

生物炭改性及其对除草剂污染水体和土壤修复的研究进展

除草剂已被大量使用于现代农业生产,而长期使用除草剂可能造成其在土壤中大量残留,或通过降水、淋溶和径流污染水体,因此引发环境污染问题和食品安全问题。生物炭作为一种绿色、高效的吸附剂已被广泛用于修复有机物污染水体和土壤。本文介绍了酸碱、有机物和金属盐浸渍改性,纳米零价铁和微生物负载改性等生物炭改性方法;综述了改性生物炭在除草剂污染修复中的应用情况,对比分析了生物炭改性前后的修复效果;探讨了改性生物炭自身特性、环境条件对改性生物炭修复除草剂污染的影响及机制。未来仍需对改性生物炭在除草剂污染修复过程中的稳定性、长效性和安全性等方面开展研究。