Melatonin delays leaf senescence in pak choi(Brassica rapa subsp.chinensis)by regulating biosynthesis of the second messenger cGMP

Melatonin(MT)is a low molecular weight compound with multiple biological functions in plants.It is known to delay leaf senescence in various species.However,no data are available on the MT signaling pathway in postharvest vegetables.This study demonstrates that MT increases cGMP concentration and the expression of the cGMP synthesis gene BcGC1 in pak choi.The c GMP inhibitor LY83583 destroys effect of MT delaying the leaf senescence.LY83583 also prevents MT treatment from reducing the expression of chlorophyll metabolism-related genes(BcNYC1,BcNOL,BcPPH1/2,BcSGR1/2,and BcPAO)and senescence genes(BcSAG12 and BcSAG21).It also inhibits MT from reducing the activity of the key chlorophyll catabolism enzymes Mg-dechelatase,pheophytinase,and pheide a oxygenase.Thus,the ability of MT to maintain high levels of chlorophyll metabolites is also destroyed.The Arabidopsis c GMP synthetic gene mutant atgc1 was used to confirm that delayed leaf senescence caused by MT is mediated,at least in part,by the second messenger c GMP.

Supplemental blue light increases growth and quality of greenhouse pak choi depending on cultivar and supplemental light intensity

To evaluate the supplementary blue light intensity on growth and health-promoting compounds in pak choi（Brassica campestris ssp.chinensis var.communis）,four blue light intensity treatments（T0,T50,T100 and T150 indicate 0,50,100,and 150μmol m^（-2） s^（-1）,respectively）were applied 10 days before harvest under greenhouse conditions.Both of cultivars（greenand red-leaf pak choi）under T50 had the highest yield,content of chlorophyll and sugars.With light intensity increasing,antioxidant compounds（vitamin C and carotenoids）significantly increased,while nitrate content showed an opposite trend.The health-promoting compounds（phenolics,flavonoids,anthocyanins,and glucosinolates）were significantly higher under supplementary light treatment than T0,so as the antioxidant capacity（2,2-diphenyl-1-picrylhydrazyl and ferric-reducing antioxidant power）.The species-specific differences in photosynthetic pigment and health-promoting compounds was found in green-and red-leaf pak choi.T50 treatment could be used for yield improvement,whereas T100 treatment could be applied for quality improvement.Results showed that blue light intensity can regulate the accumulation of biomass,morphology and health-promoting compounds in pak choi under greenhouse conditions.

Expression Analysis of Genes Related to Auxin Metabolism at Different Growth Stages of Pak Choi

Pak choi is a low-temperature vernalized plant that readily undergoes premature bolting during spring, but little is known about the governing molecular regulation of vernalization. In order to enhance our understanding of mechanism about premature bolting, we discussed the relationship between auxin(indole-3-acetic acid, IAA) and flowering of pak choi. During vernalization, hormone metabolism is an important regulatory pathway, and IAA plays a specific role. IAA metabolism has been studied in Arabidopsis thaliana and other plants, but not in pak choi. In this paper, the IAA content in pak choi shoot apices during vernalization and different growth stages was compared. The IAA content decreased significantly after low-temperature treatment(4 °C) and then increased rapidly during vegetative growth. During floral bud initiation,the IAA content decreased rapidly and was the lowest. Expressions of genes encoding key IAA metabolic enzymes were analyzed, and a major synthetase-encoding gene was downregulated, while a key degrading enzyme-encoding gene was upregulated during each comparison period,resulting in decreased IAA content. Expressions of four genes(Bra034975, Bra030246, Bra012239 and Bra040296) were consistent with changes in the IAA content. The functions of differentially expressed genes(DEGs) were analyzed, and 15 DEGs were found to be related to IAA metabolism.The findings illuminated the molecular mechanism regulating IAA content during vernalization in pak choi.

Effects of a Composite Soil Amendment on the Quality of Pak Choi(Brassica rapa L. Chinensis Group) Growing in Pb-contaminated Soils

In the present study, a pot experiment was carded out to investigate the effects of a composite soil amendment at different levels （0, 600, 900 and 1 200 mg/kg） on the soil organic matter content, pH, Pb uptake and nutritional quality of pak choi （Brassica rapa L. Chinensis Group） grown in the soils contaminated by four levels （800, 1 200, 1 600 and 2 000 mg/kg） of Pb. The results showed that 900 mg/kg soil amendment increased the soil organic matter content by 24.19%- 60.00%, but had no significant influence on soil pH. Comparing with control （without amendment application）, the security and nutritional quality of pak choi were obviously improved by applying the soil amendment. In detail, 900 mg/kg soil amendment improved the content of Vc of pak choi growing in 800, 1 200, 1 600 and 2 000 mg/kg Pb-contaminated soils by 13.27%-69.30%, the content of soluble sugar by 54.17%- 87.50%, the dry matter weight by 28.36%-33.39%, and decreased the content of Pb by 19.11%-35.72% and the content of crude fiber by 20.83%-31.03%, respectively. These data indicated that the composite amendment can be used for the in situ repair of Pb-contaminated soils, and the recommended dosage is 900 mg/kg.

不结球白菜GST基因家族的全基因组鉴定及花青素相关基因Bc GSTF6的功能分析

【背景】花青素是紫色不结球白菜中重要的营养成分之一,谷胱甘肽转移酶(glutathione S-transferase,GST)在花青素转运中发挥着重要功能。【目的】鉴定不结球白菜中编码GST的基因,并通过转录组和分子生物学手段揭示BcGSTF6在不结球白菜花青素转运中的作用,解析不结球白菜花青素积累的分子机制。【方法】通过生物信息学方法,鉴定GST基因家族成员并分析其在染色体上的位置和基序;在紫色和绿色的不结球白菜中进行转录组分析,筛选不结球白菜中参与花青素转运的基因,并通过表达模式分析、亚细胞定位、拟南芥突变体tt19的异源回补试验进一步验证BcGSTF6和BcTT19的功能;通过将BcGSTF6和BcTT19与其他物种中参与花青素转运基因的氨基酸序列进行比较,分析BcGSTF6存在的差异;并通过BcGSTF6蛋白与矢车菊素(Cya)的体外结合和基因沉默试验验证BcGSTF6是否为参与不结球白菜花青素转运和积累的重要基因。【结果】从不结球白菜中鉴定得到83个GST基因家族成员,分为8个亚家族,分布在10条染色体上。转录组分析结果表明BcGSTF6和BcTT19可能是参与不结球白菜花青素转运的基因,进一步利用qRT-PCR发现BcGSTF6与BcTT19都在不结球白菜花青素积累阶段高度表达;亚细胞定位结果表明BcGSTF6和BcTT19都定位于内质网和液泡膜中。氨基酸序列多重比较发现BcTT19与其他物种中参与花青素转运的蛋白存在高度同源性,而BcGSTF6则在保守结构域中存在较大差异。在拟南芥突变体tt19中对BcGSTF6和BcTT19进行过表达均可恢复拟南芥幼苗tt19积累花青素的表型,但不能恢复其种皮棕色的表型,表明BcGSTF6和BcTT19都参与了花青素的转运但不能转运原花青素(PAs)。体外结合试验发现BcGSTF6蛋白在室温下可增加Cya的可溶性;对BcGSTF6在不结球白菜中进行基因沉默发现叶片中花青素含量显著下降,同时也导致参与花青素合成与调控相关基因表达量降低。证明BcGSTF6参与了花青素的转运和积累,在不结球白菜叶片着色过程中发挥重要功能。【结论】本研究鉴定了不结球白菜GST基因家族,并进一步解析了BcTT19和BcGSTF6在不结球白菜花青素转运和积累中的功能,阐明了BcGSTs在不结球白菜中花青素转运调控的部分机制。

低富集全氟辛酸及替代物的青菜品种筛选与机制研究

该研究对比了16种常见青菜品种对全氟辛酸(PFOA)和其替代物六氟环氧丙烷二聚酸(HFPO-DA)的耐受性和富集差异。从16种目前农业上种植较多的青菜品种中筛选出高富集(HACV)和低富集(LACV)的青菜品种,其中高富集品种早生一品的PFOA和HFPO-DA的富集因子(94.7、51.6)分别为低富集品种华青二号(72.9、30.2)的1.3和1.7倍。机理研究表明,较低的蒸腾作用和较高的脂质含量导致了华青二号对PFOA和HFPO-DA的低富集。在亚细胞水平上,细胞壁、细胞核和叶绿体中PFOA和HFPO-DA含量占比越高,其转运到地上部的趋势则更易被限制。该研究筛选出高富集和低富集典型全氟化合物的青菜品种,并从植物生理生化的角度解释了潜在机制,可为农业种植提供指导意见,从而降低农产品中持久性有机污染物的暴露风险。

基于YOLOv5s改进模型的小白菜虫害识别方法

小白菜是中国种植面积较广、深受大众喜爱的蔬菜,真实菜地环境中虫害往往出现在叶片的特定区域,且受环境因素如光照和背景干扰较大,影响对其的智能检测。为提高小白菜虫害的检测效率和准确率,该研究提出一种基于YOLOv5s网络框架改进的YOLOPC(YOLO for Pak Choi)小白菜虫害识别模型。首先,引入CBAM(convolutional block attention module)注意力机制,将其放在CBS(卷积层Convolution+归一化层Batch normalization+激活函数层SILU)的输入端构成CBAM-CBS的结构,动态调整特征图中各个通道和空间位置的权重;使用上采样和1×1卷积操作来调整特征图的尺寸和通道数,实现不同层次特征的融合,增强模型的特征表示能力。同时,改进损失函数,使其更适合边界框回归的准确性需求;利用空洞卷积的优势提高网络的感受野范围,使模型能够更好地理解图像的上下文信息。试验结果表明,与改进前的YOLOv5s模型相比,YOLOPC模型对小白菜小菜蛾和潜叶蝇虫害检测的平均精度均值(mean average precision, mAP)达到91.4%,提高了12.9%;每秒传输帧数(Frame Per Second, FPS)为58.82帧/s,增加了11.2帧/s,增加幅度达23.53%;参数量仅为14.4 M,降低了25.78%。与经典的目标检测算法SSD、Faster R-CNN、YOLOv3、YOLOv7和YOLOv8相比,YOLOPC模型的平均精度均值分别高出20.1%、24.6%、14%、13.4%和13.3%,此外,其准确率、召回率、帧速率和参数量均展现出显著优势。该模型可为复杂背景下小白菜虫害的快速准确检测提供技术支持。

不同质地土壤施用控释氮肥对小白菜生长发育的影响

为了探究控释氮肥在不同质地土壤中的安全施用量,以“上海青”小白菜为供试作物,研究在砂土、壤土、粘壤土3种质地土壤上施用不同量控释氮肥对小白菜生长性状、产量的影响。试验设置氮肥空白CK(不施氮肥);普通氮肥处理F1(普通氮肥0.1 g/kg土)、F2(普通氮肥0.2 g/kg土)、F3(普通氮肥0.4 g/kg土)、F4(普通氮肥0.8 g/kg土);控释氮肥CF1(控释氮肥0.4 g/kg土)、CF2(控释氮肥0.8/kg土)、CF3(控释氮肥1.6 g/kg土)等8个施肥处理。结果表明,与同等施氮量的常规氮肥相比,控释氮肥处理的小白菜发芽成活率大幅度提高。控释氮肥处理下小白菜鲜、干重显著提高,粘壤土下0.8 g/kg的控释氮肥更有利于小白菜生物量的提高和干物质的积累。壤土和砂土下0.4g/kg的控释氮肥更有利于小白菜生物量的提高和干物质的积累。SPAD值、硝态氮含量、植株全氮含量均表现出控释氮肥优于普通氮肥的规律,且在粘壤土和砂土中表现更为明显。总之,较高施肥量下控释氮肥相对不易烧苗,相同适量的施氮量下,控释氮肥更有利于小白菜的生长发育和生物量的积累,具有更高的安全性、经济性和生态性。

Impact of Heat-Shock Treatment on Yellowing of Pak Choy Leaves

The physiological mechanism of maintaining the green colour of pak choy leaves (Brassicarapa var chinensis) with heat-shock treatment was studied. Chlorophyll in the outerleaves of pak choy degraded rapidly during storage at ambient temperature (20±2℃), aslight yellow appeared. Heat-shock treatment (46-50℃) had a mild effect on maintainingthe green colour of outer leaves. Normal chlorophyll degradation was associated with abinding of chlorophyll with chlorophyll-binding-protein preceding chlorophyll breakdown.Heat-shock treatment was found to reduce the binding-capacity between chlorophyll-binding-protein and chlorophyll. In the chlorophyll degradation pathway, pheide dioxygenasewas synthesized during leaf senescence which was considered to be a key enzyme inchlorophyll degradation. Activity of this enzyme was reduced following heat-shocktreatment, which might explain the observed reduction in chlorophyll breakdown. Twogroups of heat-shock proteins were detected in treated leaves, the first group containingproteins from 54KDa to 74Kda, and the second group contained proteins from 15KDa to29KDa. Heat-shock treatment was also found to retard the decline of glucose and fructose(the main energy substrates) of outer leaves.

福建省主产区普通白菜中农药残留水平及膳食暴露风险评估

为评估福建省主产区普通白菜中农药残留水平及对人体的膳食暴露风险,采用现有的标准检测方法,对在福建省主产区采集的88个普通白菜样品中的68种农药残留进行了检测分析,并对检出农药进行了短期和长期膳食暴露风险评估。结果显示:88个普通白菜样品中,共有68个样品检出了农药残留,总检出率为77.27%;共检出27种农药,其中杀虫剂18种,杀菌剂9种;检出2种及2种以上农药残留的样品占检出农药残留样品总量的83.82%,存在农药多残留现象。利用相关农药的毒理学数据——急性参考剂量(ARfD)和每日允许摄入量(ADI)、农药残留数据和普通白菜的膳食消费量数据,评估了所检出农药的短期和长期膳食暴露风险。其中,短期膳食暴露风险值(%ARfD)范围为0~90%,长期膳食暴露风险商贡献率(RQc%)范围为0~46%。研究表明,福建省主产区普通白菜中的农药残留水平较低,通过食用该地区生产的普通白菜对消费者的农药残留膳食暴露风险整体在可接受范围内。

青梗小白菜种子压缩载荷试验研究

为了避免小白菜种子在机械播种过程中受到严重损伤,保证小白菜种子的顺利播种,需要对小白菜种子的压缩特性进行研究,从而为播种机械的相关参数设计提供依据。为此,利用万能试验机,通过单因素分析来获得小白菜种子直径、含水率以及加载速度对种子压缩载荷最大值的影响规律,并通过响应面法的正交试验来获得3个因素之间的交互影响及小白菜种子的最佳参数组合。试验结果表明:当直径为1.90mm、含水率为3.01%、加载速度为2.47mm/min时,小白菜种子压缩载荷最大值达到最优为21.79 N,且预测力值与实际力值之间具有很好的拟合性。

外源核黄素处理对上海青采后品质及抗氧化活性的影响

核黄素(VB2)是一种安全无毒的食品添加剂,在植物生长、发育和抗逆性方面发挥着重要的生理作用。为研究外源核黄素对上海青(Brassica rapa subsp.chinensis)采后品质的影响,采用不同浓度(0、200、400、600μmol/L和800μmol/L)核黄素处理上海青后对其色泽、叶绿素含量、叶绿素代谢相关基因的表达量、抗氧化酶活力及相关基因表达量进行测定。结果表明,400μmol/L核黄素处理可有效维持采后上海青的品质,主要通过:1)降低叶绿素分解代谢相关基因(BrNYC1、BrPPH、BrPAO和BrSGR1/2)的表达量,延缓叶绿素的降解;2)减少上海青叶表面的菌落总数,减轻病原性腐败;3)上调抗氧化谢相关基因(BrPOD、BrSOD和BrCAT)的表达和提升超氧化物歧化酶(superoxide dismutase,SOD)、过氧化物酶(peroxidase,POD)和过氧化氢酶(catalase,CAT)抗氧化酶活性,从而增强抗氧化性。此外,核黄素处理还能够维持较高的抗氧化物质(抗坏血酸和总酚)含量,从而提高1,1-二苯基-2-三硝基苯肼(1,1-diphenyl-2-picrylhydrazyl,DPPH)自由基清除率并降低丙二醛的生成量。本研究结果有助于了解核黄素影响叶类蔬菜采后品质的机理,对于提高叶菜类作物的采后商业价值和品质具有参考意义。

Integrative analysis of transcriptome reveals the possible mechanism of delayed leaf senescence in pak choi(Brassica rapa subsp.chinensis)following melatonin treatment

Melatonin(MT)is a low molecular weight compound with a wide variety of biological functions in plants.It is known to delay senescence in various fruits and vegetables.This study demonstrates that MT(100μmol/L)delayed the senescence of pak choi stored at 20°C.A total of 1121 differentially expressed genes(DEGs)were identified in an MT-treated group in comparison to untreated pak choi.Analysis of DEGs revealed that MT-induced delay in senescence involved reduction in the expression of chlorophyll metabolism genes and regulation of the expression of hormone-related genes and leaf senescence-related transcription factors.MT decreased the activity of chlorophyll metabolism-related enzymes Mg-dechelatase,pheophytinase,and pheide a oxygenase,decreased the concentrations of abscisic acid and jasmonic acid,and increased auxin concentration.MT delayed the impact of senescence-related transcription factors BcNAC41 and BcNAC87 on tobacco leaf senescence.This study provides an insight into the molecular mechanisms of MT-induced delay of postharvest senescence in pak choi and confirms its potential as a preservation technique.

外源5-氨基乙酰丙酸处理对小白菜叶片的光合作用效应

以 0 0 5、 0 5、 5和 5 0mg·L-15 氨基乙酰丙酸 (ALA)处理小白菜 ,可以提高叶片净光合速率 ,增加表观量子效率(AQY)和羧化效率 (CE) ,同时降低光补偿点 (LCP)和CO2 补偿点 (CCP) ,但是与AQY和CE增加量相比 ,LCP和CCP下降幅度不大。ALA处理提高叶片暗呼吸速率 ,并显著促进根系的生长 ,但没有增加小白菜植株地上部干物质积累。ALA处理显著提高根系可溶性糖和纤维素含量。推测ALA处理不仅能促进叶片的光合作用 ,还具有促进碳水化合物向地下部运转的作用。

利用cDNA-AFLP技术分析白菜核雄性不育两用系的表达差异

利用cDNA AFLP技术 ,对白菜核雄性不育两用系可育株群和不育株群分析显示 :花蕾之间基因表达存在差异 ;莲座期叶片之间、开花期叶片之间和花茎之间基因表达无差异 ;叶片、花茎和花蕾之间基因表达存在差异。对开花期的小蕾、中蕾和大蕾分析显示 :10对引物中 ,1对在可育株中蕾和大蕾中扩增出 1条特异带 ,另 1对扩增出 1条在可育株中蕾中表达丰度高于不育株中蕾的条带 ,其余 8对未发现差异条带。对上述表达丰度有差异的基因进行Northern验证 ,结果与之一致 ,表明cDNA AFLP技术可以用于植物雄性不育基因表达差异的研究。

不结球白菜抽薹开花性状的主基因+多基因遗传分析

为了研究不结球白菜抽薹开花性状的遗传规律,并对其耐抽薹品种进行鉴定筛选,以不结球白菜易抽薹纯系M10-1和耐抽薹纯系M10-2杂交获得的6世代(P1、P2、F1、B1、B2和F2)群体为材料,利用植物数量性状主基因+多基因多世代联合分析的方法对不结球白菜抽薹性状(现蕾期)和开花性状(开花期)进行遗传分析。结果表明,控制抽薹性状的为2对加性-显性-上位性主基因+加性-显性多基因,并存在明显的加性、显性和上位性效应。其中,2对主基因的加性效应值均为正,显性效应值hb大于ha,且以第2对主基因的正向显性效应为主;抽薹性状存在较大的主基因加性×加性和显性×显性互作效应,以呈负向的多基因的加性效应为主。B1、B2和F2的主基因遗传率分别为83.83%、87.82%和88.31%,多基因遗传率均为0,主基因+多基因遗传率平均为86.65%,环境变异占表型变异平均为13.35%,说明抽薹性状主要受主基因控制,在育种上可以应用抽薹性状(现蕾期)作为不结球白菜耐抽薹性的鉴定标准,并可在早期世代对其耐抽薹性进行选择,且要注意一定的环境因素。开花性状与抽薹性状遗传相似,均受到2对主基因控制,但主基因+多基因遗传率平均为9.57%,而环境变异平均为90.43%,对开花的影响显著,说明开花性状与环境的互作效应非常明显,不适宜作为耐抽薹性的鉴定指标。利用本研究获得的抽薹性状作为不结球白菜耐抽薹性的鉴定指标,并应用于育种实践,对选育不结球白菜耐抽薹新品种,提高产量具有重要意义。

根肿病对不结球白菜的生长及生理生化物质和活性氧代谢的影响

以不结球白菜主栽品种‘新夏青2号’和‘新矮青’为试验材料,采用人工气候箱内接种鉴定的方法,研究了感染根肿病对不结球白菜植株幼苗生长、生理生化物质及活性氧代谢的影响。结果显示:(1)与未感病植株(0级)相比,感染根肿病(3级)植株株高、柄长、叶面积及地上部鲜重和叶片中的叶绿素含量均显著降低,根冠比随着感病等级的增大而提高,使幼苗植株生长受到显著抑制,且‘新夏青2号’比‘新矮青’所受抑制程度更强。(2)感病后植株叶片的可溶性蛋白、可溶性糖、游离氨基酸以及叶片、根系中的脯氨酸等渗调物质的含量均比未感病植株显著降低,而叶片和根系中丙二醛(MDA)的含量显著升高,且除游离氨基酸以外‘新夏青2号’感病植株其他渗调物质的升降幅度均大于‘新矮青’。(3)感病植株叶片中硝酸根离子(NO3-)含量、硝酸还原酶(NR)活性和谷氨酰胺合成酶(GS)活性均比未感病(0级)植株降低,直接影响植株的氮素吸收利用能力。(4)植株感病后,叶片和根系中4种抗氧化酶(SOD、POD、CAT和APX)的活性均不同程度降低,且SOD、POD和CAT活性在根系中的降幅大于叶片,而‘新矮青’的感病3级植株根系和叶片中各酶活性的降幅均低于‘新夏青2号’(除叶片中CAT酶活性外)。研究表明,不结球白菜受到根肿病侵染后,各类生理生化物质含量和活性氧代谢均受到影响,膜脂过氧化程度加大,使不结球白菜的光合利用能力、吸收能力、渗透调节能力及抗氧化能力均受到抑制,最终影响植株的整个生长过程;品种‘新矮青’对根肿病的抗性高于‘新夏青2号’;可溶性蛋白、抗氧化酶活性和MDA可以作为不结球白菜早期筛选抗根肿病的生理指标。

优化白菜类蔬菜遗传转化体系的研究

采用农杆菌介导法将双元载体质粒pBI35S-AMF分别导入上海青"白菜和油青"菜心,对影响转化频率的抑菌剂和感染菌株等主要因素进行比较,优化了白菜类蔬菜的遗传转化体系.结果表明,在白菜类蔬菜的遗传转化体系中,选择氨苄青霉素作为转化农杆菌的抑菌剂为好,其抑菌浓度以300 mg/L为宜;预培养时间和共培养时间分别以3 d和2 d为适;LBA4404/pBI35S-AMF菌株的感染效率远高于EHA105/pBI35S-AMF.对KanR转化植株做进一步的分子检测结果显示,Southern印迹杂交阳性率为82.2%,转化频率达2.8%,且外源片段为多拷贝插入.多批次的转化结果证实,该体系的转化频率稳定.

遮荫处理及恢复光照对白菜生长及活性氧代谢的影响

以白菜耐弱光品种‘矮王’和不耐弱光品种‘绿优’为材料,研究遮荫处理及恢复光照过程中植株生长、活性氧代谢和抗氧化酶活性的变化。结果表明,遮荫处理后‘矮王’品种生长减缓,‘绿优’品种生长停滞;两品种的MDA含量、O2.-产生速率和H2O2含量呈现先下降后上升的趋势,POD活性呈上升趋势,而SOD、CAT、APX等酶活呈先下降后上升的趋势;恢复生长光照后,两品种的MDA含量、O.2-产生速率和H2O2含量均迅速上升,几种酶活也呈加速上升趋势。遮荫处理后期与恢复光照后‘绿优’的膜脂过氧化现象较‘矮王’严重,‘矮王’通过增加抗氧化酶活性,有效地减轻了膜脂过氧化程度。

根肿病胁迫下外源SA对不结球白菜抗性诱导和生理生化的影响

以不结球白菜‘新矮青’为试验材料,采用菌土接种法接种根肿病菌,研究不同浓度(0.2~0.8mmol·L^(-1))的外源水杨酸(SA)对根肿病胁迫下不结球白菜植株抗性诱导和感病植株生长的影响,以及植株叶片和根系中防御酶系统的变化规律,探讨外源SA对防治不结球白菜根肿病的可行性。结果显示:(1)根肿病显著影响不结球白菜的生长,加剧植物的膜脂过氧化程度;适宜浓度的外源SA能不同程度地缓解不结球白菜所受根肿病的侵害,并以0.6mmol·L^(-1) SA处理效果最好。(2)外源SA显著降低了根肿病的发病率和病情指数,提高了抗根肿病的诱抗效果,并缓解感病对不结球白菜的生长抑制,显著促进感病植株的生长。(3)外源SA提高了不结球白菜叶片和根系中的超氧化物歧化酶(SOD)、过氧化物酶(POD)和抗坏血酸-过氧化物酶(APX)的抗氧化酶活性,以及多酚氧化酶(PPO)、苯丙氨酸解氨酶(PAL)、谷胱甘肽还原酶(GR)的防御酶活性;显著降低了植株叶片和根系中的MDA、H2O2含量及O-·2产生速率。研究表明,外源SA诱导不结球白菜对根肿病的抗性,缓解根肿病的伤害,且具有剂量效应,以根部灌施0.6mmol·L^(-1)SA的效果最好;在根肿病的胁迫下,SA可提高不结球白菜植株抗氧化酶和防御酶的活性,增强渗透调节能力和细胞活性氧清除能力,降低根肿病对植株的伤害,从而促进生长。