施用不同肥料对“黄金2号”文心兰叶片酶活性的影响

以切花文心兰"黄金2号"(Oncidium Golden No.2)幼苗和成熟苗为材料,研究了施用不同肥料对文心兰叶片酶活性的影响。结果表明,高浓度专用肥会显著降低文心兰叶片超氧化物歧化酶(superoxide dismutase,SOD)活性,中浓度专用肥、低浓度专用肥、叶面肥和缓释肥能显著提高幼苗叶片超氧化物歧化酶活性,而对成熟苗叶片酶活性没影响;施肥对文心兰叶片过氧化物酶(peroxidase,POD)活性影响不大;高浓度专用肥同样会显著降低文心兰叶片过氧化氢酶(catalase,CAT)活性,而其它施肥均能显著提高幼苗叶片过氧化氢酶活性。因此,中浓度专用肥、低浓度专用肥、叶面肥和缓释肥均可显著提高文心兰幼苗的SOD和CAT活性,增强植株抵抗逆境的能力。

生育期水分亏缺和施氮对设施番茄叶片酶活性和水氮利用效率的影响

为探究不同生育期水分亏缺和不同施氮水平对番茄叶片生理特征和水氮利用的影响,以提高番茄抗逆性,增加有机物积累并提高水氮利用效率为目标,开展温室小区试验,设置4个灌水水平(W1:全生育期充分灌水;W2:苗期减少50%灌水量;W3:苗期和开花坐果期各减少50%灌水量;W4:苗期、开花坐果期和成熟期各减少50%灌水量)和3个施氮水平(N1:400 kg·hm^(-2);N2:300 kg·hm^(-2);N3:200 kg·hm^(-2)),分析番茄叶片酶活性和SPAD值对不同灌水和施氮水平的响应,并探究水氮供应对番茄生长及水氮利用的影响。结果表明:减少灌水量可提高番茄超氧化物歧化酶(SOD)和过氧化物酶(POD)活性,降低丙二醛(MDA)含量,W2水平的SOD、POD活性最高,MDA含量最低,W2水平下SOD、POD活性随着施氮量的减少呈先增大后减小的趋势,而MDA含量变化趋势则相反,W2N2处理的SOD、POD活性最大,分别较W1N1处理提高25.90%、71.74%,MDA含量最低,较W1N1处理降低8.07%;番茄中位叶SPAD值与不同叶位SPAD值的平均值呈较强的正相关关系,随着施氮量的减小,不同叶位SPAD平均值逐渐减小,随着灌水量减小SPAD值呈先增大后减小的趋势,且中位叶SPAD值较上位叶和下位叶分别高4.72%~14.43%和5.18%~12.82%;随着灌水量和施氮量的减少,番茄生物量及商品产量逐渐减小,W1N1处理的番茄生物量及商品产量最大,分别为9765.12 kg·hm^(-2)和92.61 t·hm^(-2);适当节水减氮有利于番茄对水氮的利用,W2N2处理水分利用率最高,较W1N3处理(最低值)提高22.40%;W1N3处理氮肥偏生产力最高,较最低值(W4N1)高72.00%。W2N2处理的主成分分析综合得分最高,在抗逆性强的同时有助于番茄生长及对水氮的充分利用,是本试验条件下最佳的水氮处理。

不同土壤改良物质对越桔叶片酶活性影响的研究

黑土中加入有机物料和硫磺粉(S),对越桔叶片的过氧化氢酶、过氧化物酶、硝酸还原酶都产生显著影响,不同处理有较大差异,其中,加入苔藓、苔藓和草炭及只加入1.5kgS-2kgS的处理,叶片的过氧化氢酶活性较高,过氧化物酶和硝酸还原酶活性较低,叶片生长发育良好。

中间砧不同埋土深度对苹果幼树叶片保护酶活性和植株生长的影响

以2年生宫藤富士/SH6/平邑甜茶为试材,研究了中间砧不同埋土深度(T1-中间砧全埋;T2-中间砧埋1/2;T3-中间砧全露)对苹果幼树叶片保护酶和植株生长的影响。结果表明,植株生长与中间砧埋土深度关系密切,新梢长度、新梢粗度、株高、总鲜重、细根生物量均以T1处理最高,T3处理最低,且二者差异显著;各处理的叶片超氧化物歧化酶(SOD)、过氧化氢酶(CAT)和过氧化物酶(POD)变化规律一致,不同处理间存在差异,均以T1处理最高,T3处理最低,SOD和CAT随着季节的变化,均呈现先升高后降低的趋势,在7月初达最大值;植株全氮量、15N吸收量和氮肥利用率均以T1处理最大,T3处理最小,表明中间砧全埋处理能增强叶片保护酶活性,提高氮肥利用率,促进植株生长,增强树势。

不同光强对曼地亚红豆杉扦插苗叶片膜脂过氧化和膜保护酶活性的影响

以不同光强下的5年生曼地亚红豆杉为研究对象,以不作遮荫的自然光强作为对照,探讨了光强对其苗木叶片膜脂过氧化和膜保护酶活性的影响。结果表明:与对照相比,一层遮荫(70%的透光率)的T1光强处理提高了其苗叶膜保护酶SOD、POD、CAT、APX的活性和抗氧化物质ASA的含量,降低了其O2.-产生速率、H2O2和MDA含量,从而使其苗木膜脂过氧化维持在一定水平。而二层遮荫光强处理的苗木叶片CAT活性较对照增强,但苗叶的SOD活性随其遮荫时间的延长而降低,其POD、APX活性及ASA含量均较对照低,而使其O2.-产生速率、H2O2和MDA含量先低后高。三层遮荫光强处理的苗木叶片保护酶活性及ASA含量均较对照降低,其O2.-产生速率、H2O2和MDA含量上升。由此表明,一层遮荫的光强处理提高了曼地亚红豆杉扦插苗叶片清除活性氧的能力,是曼地亚红豆杉扦插苗在重庆低海拔地区培育的最适光环境。

接种AM真菌对甘薯光合作用及碳磷代谢酶活性的影响

为探讨丛枝菌根真菌和磷水平对甘薯生长特性的影响,采用盆栽试验方法,设置3个P水平(P_0,P_(50),P_(150)mg/kg),研究了接种AM真菌对甘薯生长、光合特性和叶片酶活性的影响。结果表明:接种AM真菌显著增加了甘薯根系侵染率、丛枝丰度、根内菌丝丰度和泡囊丰度。不同磷水平间甘薯的侵染率、丛枝丰度均差异显著,中磷的总体侵染情况显著高于低磷和高磷水平(P<0.05)。低磷和中磷条件下,接种处理显著提高了甘薯的生物量和氮磷吸收量(P<0.05),其中在磷50mg/kg水平下,接种菌根真菌后甘薯氮磷养分吸收量显著高于未接种处理,地上地下部生物量分别提高了28.6%和73.3%,而高磷条件下接种处理甘薯地上和地下部的生长显著降低。在低磷和中磷水平下,接种AM真菌显著提高了甘薯的净光合速率、气孔导度和蒸腾速率;在中磷水平下接种AM真菌甘薯叶片的蒸腾速率和气孔导度达到最大值,之后随着磷水平的升高而降低;当土壤磷素供应过高时,接种AM真菌属非气孔限制因素导致的光合速率降低(P<0.05)。在低磷和中磷水平下,接种菌根真菌显著提高了甘薯叶片中蔗糖合成酶、6-磷酸葡萄糖酸脱氢酶、蔗糖磷酸合成酶和磷酸酶的活性;在高磷水平下,接种后甘薯叶片代谢酶活性明显降低。不同磷水平下的菌根效应表现为P_(50)>P_0>P_(150),说明接种菌根的效果受土壤磷水平的影响。

铜基叶面肥及控释肥对辣椒生长发育和叶片保护酶等生理特性的影响

【目的】针对辣椒喜肥、耐肥、对水分要求严格的特点,采用铜基叶面肥、控释肥两种新技术,研究了叶面喷施铜基叶面肥和土施控释肥对辣椒产量、矿质养分在植株体内的分布、保护性酶活性以及果实品质的影响,为提高果蔬产量和改善品质提供理论依据。【方法】分别于2011年4~11月和2012年3~9月,在山东农业大学南校区"土肥资源高效利用国家工程实验室新型肥料中试基地",以"赤峰牛角王"为供试辣椒品种设置肥料盆栽试验,试验设8个处理:1)喷清水土壤不施肥对照(CKW-NF);2)喷清水+土施普通肥(CKW+CCF);3)喷清水+土施控释肥(CKW+CRF);4)喷清水+土施控释肥+保水剂(CKW+CRF+W);5)喷铜基叶面肥土壤不施肥(CBFF-NF);6)喷铜基叶面肥+土施普通肥(CBFF+CCF);7)喷铜基叶面肥+土施控释肥(CBFF+CRF);8)喷铜基叶面肥+土施控释肥+保水剂(CBFF+CRF+W)。采用称重法测定辣椒产量,于收获期取果实及叶片鲜样用于果实品质和生理生化指标测定,植株各部位干样用于微量元素测定。【结果】1)两年内喷施铜基叶面肥和土施控释肥均能提高辣椒产量,其中叶面喷施铜基叶面肥+土施控释肥+保水剂(CBFF+CRF+W)组合对辣椒产量的提高幅度最大,与CKW+CRF+W相比2011年增产24.1%,2012年增产29.0%。2)相同的土壤施肥条件下,与喷清水相比,喷施铜基叶面肥能够显著提高辣椒植株体内的铜浓度。其中,土施控释肥加保水剂基础上喷施铜基叶面肥处理的辣椒果实中铜浓度比叶面喷清水显著提高了103.9%;土施控释肥条件下,叶面喷施铜基叶面肥较喷清水处理下的果实铜浓度增加了41.5%。3)喷施铜基叶面肥后,辣椒叶片的超氧化物歧化酶(SOD)和过氧化物酶(POD)活性升高,而过氧化氢酶(CAT)活性下降。CBFF+CRF+W处理下的辣椒叶片SOD活性较CKW+CRF+W处理显著提高了26.6%,CBFF+CRF+W组合的叶片的POD活性和CAT活性与CKW+CRF差异显著。4)与喷清水处理相比,无论在土壤施用控释肥还是土壤施用控释肥+保水剂的条件下,叶面喷施铜基叶面肥均使辣椒果实可溶性蛋白和维生素C的含量显著提高,其增加幅度在12.8%~178.4%。【结论】综合考虑几种肥料组合,叶面喷施铜基叶面肥和土施控释肥可在一定程度上调控植株微量元素的积累,改善辣椒营养品质,提高辣椒产量。

耐低钾玉米自交系延缓叶片衰老的生理特性

以典型的耐低钾玉米自交系90-21-3和低钾敏感玉米自交系D937为试材,采用大田试验,研究了生育后期低钾胁迫对不同自交系叶片持绿性、叶绿素含量、光合特性及叶绿素荧光参数、烯醇式丙酮酸羧化酶(PEPC)和NAD激酶(NADK)活性、保护酶活性的影响,探讨耐低钾玉米延缓叶片衰老的生理特性。结果表明,低钾胁迫持续到生育后期,90-21-3与D937相比,叶片持绿时间长,叶绿素含量下降缓慢,叶片净光合速率(Pn)高;胞间CO2浓度(Ci)和气孔限制值(LS)上升幅度小;FPSII、Fv、Fm高,而Fo明显低;PEPC和NADK活性高;MDA含量上升缓慢且维持较低水平;抗氧化酶SOD、POD和CAT活性相对较高。低钾胁迫下,90-21-3自交系延缓叶片衰老的原因可能为持绿性较好,延长了叶片功能期;光合能力强,受光抑制程度较轻;NADK活性稳定,为光反应提供电子受体NADP,同时PEPC活性较高,暗反应又能固定相对较多的CO2,从而保证了CO2的供应;光反应和暗反应的协同,使90-21-3自交系具有相对较高的光合速率,同时抗氧化酶又具有较高的活性,可有效清除活性氧。

间作对三七生长及根际土壤养分、微生物数量的影响

为探讨三七的生态种植技术,研究三七/芋头间作模式对一年生三七生长的影响。采用田间小区试验,设置三七/芋头间作、三七单作两种种植模式。测定两种种植模式下三七的农艺性状、发病率、存苗率、叶片酶活性、叶片色素含量及土壤养分、微生物数量等指标。结果表明,三七/芋头间作较单作可有效促进三七生长,三七/芋头间作叶面积与壮苗指数分别显著提高19.67%和28.13%,存苗率提高10.33%,三七单作的发病率是三七芋头/间作的3.09倍;8~9月这段时间内,三七间作/芋头叶绿素a和叶绿素b分别是单作1.78倍和1.83倍,但三七单作叶片丙二醛(MDA)含量显著高于间作,叶片受害程度相对较大。间作模式下根际土壤细菌、真菌和放线菌数量相比于单作分别提高105%、176.3%和182.9%。此外,间作模式下土壤速效钾、有效磷和全钾含量均显著高于单作土壤,分别提高了10.8%、15.77%和2.32%,但碱解氮含量显著降低19.82%。总之,三七/芋头间作可以增加土壤微生物数量并改善土壤养分状况,综合三七的生长状况可选择三七生态种植模式构建和应用。

干旱胁迫对屋顶绿化植物小叶黄杨叶片抗氧化特性的影响

以2年生小叶黄杨Buxus microphylla叶片为试材,通过盆栽试验模拟自然干旱条件,设置正常供水(田间持水量的80%~90%)、轻度干旱胁迫(田间持水量的60%~70%)、中度干旱胁迫(田间持水量的50%~60%)和重度干旱胁迫(田间持水量的35%~45%)4个处理,监测小叶黄杨不同生长时期的叶片相关酶活性,以期研究干旱胁迫条件下小叶黄杨叶片抗氧化特性的变化特征。研究发现:随着干旱胁迫程度的增加和时间的延长,叶片超氧化物歧化酶(SOD)、过氧化物酶(POD)活性均呈升高-降低-升高趋势;丙二醛(MDA)含量呈先下降后上升趋势;过氧化氢酶(CAT)活性和可溶性蛋白质含量均呈先上升后下降趋势。可见,轻度干旱胁迫(TB)会使小叶黄杨叶片抗氧化酶活性增强和可溶性蛋白质含量升高,但重度干旱胁迫(TD)会损害其正常生长。结果表明:在轻度和中度干旱胁迫后,通过提高保护酶活性和可溶性蛋白质含量来协调和维持氧化物含量的相对平衡以保证小叶黄杨正常生长发育,而重度胁迫后,小叶黄杨保护酶系统和细胞遭受不可逆的损害,影响其正常生长。

施钾量对玉米产量及叶片部分酶活性的影响

选用天津市主推玉米品种中单509,设置5个施钾水平,测定不同生育期叶片的硝酸还原酶(NRase)、超氧化物歧化酶(SOD)、过氧化物酶(POD)和过氧化氢酶(CAT)活性及玉米产量。结果表明,随着施钾量的增加,玉米产量先升高后下降,呈单峰曲线变化,当施纯钾量在67.50 kg/hm2时,产量达到最大。随着施钾量的增加玉米叶片SOD活性、POD活性、CAT活性都是先升高后下降,呈单峰曲线变化,SOD和POD活性以施纯钾量为67.50 kg/hm2时抽雄期为最高,CAT活性以施纯钾量为90.00 kg/hm2时抽雄期为最高,硝酸还原酶活性以施纯钾量为67.50 kg/hm2时拔节期达最高。不同施钾量处理对玉米叶片的酶活性及产量有显著的影响,施用适量的钾肥有利于玉米叶片的氮代谢和产量的提高。

不同栽培模式下春玉米花后衰老的差异性研究

研究不同栽培模式下春玉米花后衰老的差异性,为解析不同模式的产量差异、评价模式优劣和延衰调控提供理论指导。以‘金山27’为供试品种,设农户(NH)、高产(GC)和再高产(ZGC)3种栽培模式,测定春玉米根冠生理指标的变化规律。不同栽培模式下玉米各层位叶片衰老速率均表现为NH>GC>ZGC,穗位叶衰老速率小于穗上、穗下第3叶。叶片SOD和POD活性均表现为ZGC>GC>NH,酶活性峰值的出现时间ZGC较NH和GC晚10天左右。叶片MDA含量均表现为NH>GC>ZGC,但在不同阶段差异幅度有所变化。根系活力总体上表现为ZGC>GC>NH,且模式间的差异随根层深度的增加而增加;根系活力随生育进程的推移而下降,其降速表现为NH>GC>ZGC。ZGC模式种植密度较高(9万株/hm2),合理的养分调控及深松有效延缓了玉米花后的衰老速度,叶片SOD和POD活性强,MDA含量低。同时深松和氮肥后移提高了花后根系活力,保证了增密后的养分供应,为高产的实现奠定了基础。

Effect of K^+ Nutrition on Growth and Activity of Leaf Tonoplast V-H^+-ATPase and V-H^+-PPase of Suaeda salsa Under NaCl Stress

Suaeda salsa L. seedlings grown in Hoagland nutrient solution were treated with different concentrations of NaCl combined with two levels of K + (12 μmol/L and 6 mmol/L) to study the K + nutrition effect on plant growth and leaf tonoplast V-H +-ATPase and V-H +-PPase activity. Increase of K + supply in the culture solution markedly increased the fresh weight, dry weight and K + content of S. salsa plants. Western blot analysis showed that the leaf V-H +-ATPase of S. salsa was at least composed of A,B,C,D,E and c subunits, and their expression decreased with the increase of NaCl concentration under K + starvation (12 μmol/L K +), but increased under normal K + application (6 mmol/L K +). Leaf V-H +-PPase molecular weight was about 72.6 kD and its expression increased as NaCl concentration increased under both high or low levels of K + concentration in nutrient solution. There was a positive correlation between of V-H +-ATPase or V-H +-PPase activity and the amounts of their expression. Results in this study suggest that K + nutrition plays an important role in the salt tolerance of S. salsa, and K + is involved in the regulation of V-H +-ATPase or V-H +-PPase activity under salt stress.

Nitrate reductase activity and its diurnal variation rhythm for Camptotheca acuminata seedlings

Nitrate reductase activity (NRA) in different plant organs and leaves in different positions of Camptotheca acuminata seedlings was determined by an In vivo assay, the diurnal variation rhythm of NRA in leaves of different positions was observed,and the correlations between leaf NRA, leaf area and lamina mass per unit area (LMA) were also examined. The results showed that NRA in the leaf was significantly highest, compared with that in other organs such as roots, stems and leaves. In this experiment, the 10 leaves were selected from the apex to the base of the seedlings in order. The different NRA occurred obviously in leaves of different positions of C. acuminata seedlings from the apex to the base, and NRA was higher in the 4th-6th leaves.The diurnal change rhythm of leaf NRA showed a one peak curve, and maximum NRA value appeared at about midday (at 12:30 or so). No obvious correlations between NRA and leaf area or lamina mass per unit area were observed. This study offered scientific foundation for the further research on nitrogen metabolism of C. acuminata.

Characterization of Endopeptidases in Wheat Leaves During Dark-induced Senescence

The characterization of senescence-associated endopeptidase (EP) isoenzymes in wheat (Triticum aestivum L. cv. Yangmai 158) leaves during dark-induced senescence was performed. It was found that there was much higher endoproteolytic activity in dark-induced wheat leaves than in control. Six endopeptidase isoenzymes (EP1-EP6) were identified by natural gradient-polyacrylamide gel electrophoresis (PAGE) co-polymerized gelatin in the gel, five of which (EP1, EP2, EP4, EP5 and EP6) were only detected in senescing leaves. Treatment with 6-benzyl aminopurine (6-BA) delayed the expression of these EP isoenzymes and abscisic acid (ABA) accelerated it. The activity of EP3 could be detected at a wider range of pH and temperature levels while EP4, EP5 and EP 6 could be only detected at pH 4-5 and 30 -45 degreesC, EP1 and EP2 at pH 3-5 and 30-45 degreesC. All of the EP isoenzymes showed high thermal stability, especially EP3, EP5 and EP6 which still had activitiy even by incubation at 55 degreesC for 1 h. By using different class-specific inhibitors, EP1 and EP2 were characterized as metal-dependent cysteine-proteases, EP4 as a serine-protease.

Leaf Senescence Characteristics and Responses to Water Shortage of Different Hybrid Rice Cultivars during Grain Filling Stage

[Objective] The pattern of leaves senescence was studied to provide reference for the planting technology and breeding rice cultivars resistant to premature senescence. [Method] Six hybrid rice cultivars were cultivated under limited and conventional irrigation managements; after the heading of rice, the root activities, nitrogen content in leaves, chlorophyll content （SPAD value）, net photosynthetic rate and the activities of superoxide dismutase （SOD）, peroxidase （POD）, catalase （CAT） were determined. [Result] The rhythms in attenuation of xylem sap flow rate, leaf nitrogen content, chlorophyll content （SPAD value） and net photosynthetic rate of different rice cultivars were significantly different in attenuation starting time, attenuation frequency and attenuation range. Physiological indexes of different cultivars responded inconsistently to water shortage. Extremely significantly positive correlations were found between the decline rates of chlorophyll content and leaf nitrogen content and xylem sap flow rate of roots, the photosynthetic rate and chlorophyll content. The changes in activities of SOD, CAT and POD were different, and responded to water shortage differently in different cultivars. The change dynamic of leaf nitrogen content and chlorophyll content was positively related with the activity dynamic of SOD and CAT. The change dynamic of leaf nitrogen content and chlorophyll content was negatively related with the malondialdehyde （MDA） content. The difference in the attenuation rhythm of physiological indexes of leaves and response to water shortage of different hybrid rice cultivars were related to genotype difference. Increasing roots activities and protecting enzyme activities of leaves benefit to defer attenuation of chlorophyll content and nitrogen content of leaves and to keep stronger photosynthetic function. [Conclusion] The senescence resistance of rice is a combined result of genotype differences and physiological response to environment.

Physiological and Biochemical Response of Artificial Wetland Plant under Electric Field

By measuring wetland plants chlorophyll content,malondialdehyde(MDA) content and superoxide dismutase(SOD) enzyme activity,the changes of wetland plant physiological characeristics under different power strength were studied,and the mechanism of electric field on plant physiological characteristics was analyzed to provide a theoretical basis for the pollutant removal ability strengthening of artificial wetland under electricfield.The results showed that compared with the control plants,low-intensity-voltage(1 V and 3 V) had no significant effect on the normal physiological and biochemical indexes of the plants,and the growth trend was better than the control group;with the voltage increasing,plant chlorophyll content,MDA content and SOD activity were greatly affected,indicating that plants were under strong oxidative stress,and the growth was damaged.Therefore,a suitable electric field could enhance the sewage treatment effect of constructed wetland.

日光温室黄瓜叶片功能性状对施氮量的响应

随着现代生态学的内涵延伸,植物个体功能性状在种群、群落和生态系统尺度上,都已成为明确植物个体和生态系统与环境协同变化规律的可靠途径。通过透射电镜法观察了黄瓜叶片的组织形态,并测定了黄瓜叶片化学组成和氮代谢相关酶活性。结果表明:黄瓜叶片的组织形态与化学组成之间具有协变关系。无氮和高氮胁迫条件下,黄瓜叶片中N,P,K含量较低,相对应的是叶绿体中片层结构混乱,脂质小球数量多,并且高氮条件下,叶肉细胞中淀粉粒数量显著增加(P<0.05)。相关性分析结果表明,黄瓜叶片生理性状、养分组成与土壤理化性质之间均存在关联。黄瓜叶片酶活性与土壤碱解氮和pH相关性较强。CAT,NR和GS活性均与土壤碱解氮含量显著正相关,MDA活性与土壤碱解氮含量显著负相关(P<0.05),CAT和GS活性与土壤pH值显著负相关。研究以个体生态学特征为依据,明确了日光温室黄瓜叶片功能性状对不同施肥策略的响应规律,弥补了传统群体生态学应用方面的不足,对于提升日光温室农业生态服务功能具有指导意义。

活体大蒜及离体蒜苗对连作当归胁迫的影响

目的:通过活体大蒜(garlic)及离体蒜苗(garlic sprout)挥发物对当归(Angelica sinensis)的化感效应,探索大蒜挥发性物质对连作当归存在的化感效应,为当归大蒜间作模式缓解连作当归胁迫提供一定的理论依据。方法:试验通过对当归各生长指标及叶片保护酶系统的测定分析,讨论当归在活体大蒜及离体蒜苗挥发物的影响作用下对连作胁迫、无连作胁迫环境的适应性及抗性生长发育机制。结果:整体分析,连作胁迫条件下离体蒜苗对当归幼苗化感效应处理(DC2)下的当归生长指标、叶片保护酶活性较当归单作(CK1)整体提高17. 51%,48. 34%;连作茬口种植活体蒜苗与当归间作处理(LC2)下的当归生长指标、叶片保护酶活性较当归单作(CK2)整体提高16. 63%,36. 65%;即离体蒜苗挥发物较活体大蒜缓解当归连作胁迫作用更显著。结论:无论有无连作障碍胁迫,适当浓度的活体大蒜及离体蒜苗挥发物对当归生长指标及叶片保护酶活性均表现为明显的化感促进作用,其化感促进作用在有连作胁迫条件下表现更显著,因而间作大蒜对当归连作障碍胁迫有一定的缓解作用。