共查询到19条相似文献,搜索用时 283 毫秒
1.
以黄瓜、番茄、小麦、水稻和莴苣5种植物为材料,研究了幼苗离体根在1~5mmol/LNH4NO3吸收液中选择吸收NO-3—N及NH+4—N的速率。黄瓜、番茄选择吸收NO-3_N较NH+4-N多;水稻、莴苣选择吸收NH+4—N较NO-3—N多;小麦对两种N源选择吸收性不强,在0.05和0.1mol/LKNO3底物诱导下,黄瓜叶片的硝酸还原酶活力明显高于水稻叶片的硝酸还原酶活力。吸收能力及还原能力的差异,是不同植物对两种N源利用能力不同的主要原因 相似文献
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灵芝菌丝发酵培养液中,加入不同浓度的La(NO3)3,接种培养7d后发现,不同2的La^3+均能影响灵芝菌丝生长期间的各种胞外酶的活性。0.005mmol/L的La^2+即可促进菌体胞外蛋白酶、纤维素酶、α-淀粉酶的活性,以0.500和1.000mmol/L时的促进作用最为明显;0.500和1.000mmol/L的La^3+可提高α-淀粉酶的活性,而高浓度(2.000mmol/L)的La^3+cf 相似文献
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以黄瓜、番茄、小麦、水稻和莴苣5种植物为材料,研究了幼苗离体根在1-5nmol/LNH4NO3吸收液中选择吸收NO3-N及NH4-N的速率。黄瓜、番茄选择吸收NO3-N较NH4-N多;水稻、莴苣选择吸收NH4-N较NO3-N多;小麦对两种N源选择吸收不强,在0.05和0.1mol/LKNO3底物诱导下,黄瓜叶片的硝酸的酶活力明显高于水稻叶片的硝酸还原酶活力。吸收能力还原能力的差异,是不同植物对两种 相似文献
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刺树愈伤组织培养时不定芽的分化 总被引:7,自引:1,他引:6
以枣树色白,结构紧密的愈伤组织为材料,对其不定芽的分化情况进行了研究。结果表明,用MS(NO^-3/2)作基本培养基,并附加KT4.000mg/L.ZT1.750mg/L和NAA0.015mg/L可以获得比较好的不定芽分化效果,鸡收枣和无核小枣不定芽再生频率分别达到30%,22%,其它品种再生频率低于15%,不定芽在MS(NO^-3/2)+NAA0.015mg/L+ZTT1.750mg/L+KT4 相似文献
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老江河的水质理化特性及其渔业评价 总被引:3,自引:1,他引:3
对老江河的周年水质分析结果表明,水温平均18.8℃(9.1~31.1℃);透明度平均231cm(63~525cm);pH平均7.69(7.12~8.20);溶解氧平均9.24mg/L(7.96~11.52mg/L);化学耗氧量平均4.56mg/L(3.37~5.79mg/L);碱度平均2.29mmol/l(2.05~2.64mmol/l);硬度(CaCO3)平均127.4mg/L(110.8~143.4mg/L),属软水。主要离子含量及排列顺序与长江水相近,属O·A阿列金分类法CCaⅢ型。主要营养元素中,无机N含量为0.489mg/L,其中NO-13—N0.24mg/L,NH+4—N0.225mg/L,NO-12—N0.024mg/L;PO-34—P0.008mg/L。N∶P平均为61∶1,P更缺乏。老江河的水质状况表明它是适宜鱼类生长发育的良好渔业水体,营养类型介于贫-中营养型之间,适合于在此建立中国长江四大家鱼种质资源库 相似文献
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曼海母宫殿以当年生枝条上饱满未萌发的侧芽为外植体.进行组织培养、在附加6-BA1.0mg/L的MS培养基上.芽诱导效果最好,在附加6-BA1.5+NAA0.05+ZT0.1mg/L或KT1.0+NAA0.05+ZT0.1mg/L的MS培养基上.芽的分化效果最好。在附加KT0.3+NAA0.05+ZT0.1mg/L或6-BA0.3+NAA0.05+ZT0.1mg/L的MS培养基上,壮苗效果最好。在附加IBA0.1mg/L或IBA0.1+NAA0.02mg/L的1/2MS培养基上生根效果最好。试管苗高2.5~4.0cm,且具有3~5条短根时,开瓶锻炼3~5d。移栽入土效果好、种植在保温保湿环境中.试管苗成活率高。 相似文献
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本文研究了BA、NAA、AgNO3、子叶龄、培养密度以及Km对花椰菜子叶再生和影响,建立了一个高频再生系统,使再生频率达100%,其最佳各成分的配比是:MS+BA4.5mg/L+NAA0.1mg/L+AgNO35.0 ̄10.0mg/L。 相似文献
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单双低油菜原生质体培养高效成株体系的研究 总被引:1,自引:0,他引:1
以甘蓝型单低和双低油菜为材料,对原生质体培养及植株再生进行了研究。结果表明:低温预处理无菌苗可提高原生质体活力。不同下胚轴部部位对原生质体的得率及分裂频率均有影响。用琼脂糖包理法,在不含NH4NO3及KNO3,而加有丝氨酸和谷氨酰胺的Km8p培养基上培养原生质体获得了高频率再生愈组织。在M+BA1mg/L分化培养基上两周后得到芽的分化,转至MS+NAA0.1mg/L+生根粉0.1mg/L的培养基上 相似文献
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Ca对离体筛选耐盐大豆再生植株的影响 总被引:1,自引:0,他引:1
大豆小复叶外植体在含NaCl25、50、75和100mmol/L并加Ca(NO3)210mmol/L的培养基中,大豆离体胚在含NaCl50和100mmol/L并分别加Ca(NO3)2、10、15和20mmol/L的培养基中进行耐盐筛选培养。实验结果表明,在盐胁迫下加Ca有缓解盐害的效应.小复叶外植体在较高浓度盐胁迫下的出愈率和根、芽分化率增高;对离体胚在盐胁迫下的生长有促进作用,NaCl50盐胁迫下以Ca15效果最佳。NaCl100盐胁迫下,以Ca20效果较好.在盐胁迫下加Ca可减少离体胚再生植株中Na+和Cl-的积累,而增加Ca+和K+的积累,并使MDA含量减少.因而有减轻Na+和Cl-毒害和膜脂过氧化的作用。 相似文献
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本文研究了NO2^-N与NH3-N对罗氏沼虾幼体的毒性作用,分别给出了NO2%--N与NH3-N对罗氏沼虾Z5、Z7与Z9的24h、48h、72h、96h的LC50值,提出NO2^--N对Z5、Z7和Z9的安全浓主工分别为0.64,1.38和1.68mg/l,NH3-Nt(NH3-Nm(的安全浓度分别为2.04(0.287),2.26(0.318)和2.55(0.358)mg/l。Z5与Z7分别经 相似文献
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低磷胁迫对水曲柳幼苗光合速率与氮素同化的影响 总被引:1,自引:1,他引:0
在温室内采用盆栽砂培的方法,对不同供磷水平(0.125、0.250、0.500和1.000mmol/L)的水曲柳幼苗进行了光合速率与氮素同化的研究。结果表明,水曲柳幼苗最大净光合速率随供磷减少而降低,供磷水平最低(0.125mmol/L)时水曲柳幼苗叶片最大净光合速率为正常供磷(1mmol/L)的61%,而低磷水平处理(0.125、0.250、0.500mmol/L)时的光补偿点均高于正常供磷处理。各供磷水平下,叶片中的全氮、硝态氮和铵态氮含量均高于根系。随供磷的减少,叶片与根系中硝态氮含量均降低,同时,低磷水平处理(0.125、0.250、0.500mmol/L)时根系铵态氮含量均高于正常供磷(1mmol/L),表明低磷胁迫下水曲柳偏向铵态氮的吸收。但是,叶片全氮含量随供磷水平的降低而下降。供磷水平较低时(0.125和0.25mmol/L)叶片硝酸还原酶(NR)活性低于根系,而在供磷水平较高时(0. 5和1mmol/L)则相反。随供磷的减少,叶片和根系NR活性,以及叶片天冬氨酸转氨酶(AAT)活性均逐渐降低,而叶片谷氨酰胺合成酶(GS)活性变化较小。上述结果表明,在低磷胁迫下水曲柳幼苗氮素吸收数量和同化酶活性均降低,减少了氮素向叶片的分配,导致植株光合速率下降。 相似文献
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Changes of Nitrate Reductase Activity in Cucumber Seedlings in Response to Nitrate Stress 总被引:2,自引:0,他引:2
In China, nitrogen fertilizer application rates in intensive agricultural systems have increased dramatically in recent years, especially in protected vegetable production systems. This excessive use of nitrogen fertilizer has resulted in soil secondary salinization, which has become a significant environmental stress for crops such as cucumber, in the protected farmland of China. So it is necessary to illuminate how crops respond to nitrate stress. The objective of this work was to examine the effects of increased nitrate concentration [14 (CK) and 140 mmol L^-1 (T)] on NO3- concentration, and in vitro and in vivo nitrate reductase activities in the roots and leaves of cucumber (Cucumis sativus L. cv. Xintaimici) seedlings with hydroponic culture. The results showed that the NO3- concentration in the roots and leaves of T seedlings significantly increased over treatment course, and at 12 d increased by 1.08 and 1.72 times with respect to CK seedlings, respectively; in vitro nitrate reductase activity of T was increased dramatically to 1.74 times of CK in the roots at 2 d and 1.56 times of CK in the leaves at 6 d, and then decreased. At 12 d, in vitro activity was still 24.3% higher in the roots and only 9.9% lower in the leaves than CK. Compared with in vitro nitrate reductase activity, in vivo activity responded differently to the increase of treatment time. At the beginning, in vivo nitrate reductase activity in the roots and leaves of T had no significant difference from CK, whereas with the increase of treatment duration, the activity decreased. At 12 d, in vivo activity in the roots and leaves of T lowered by 20.1 and 52.8% with respect to CK, respectively. This evidence suggests that posttranslational activation of nitrate reductase in cucumber seedlings may be seriously inhibited by nitrate stress. 相似文献
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为了丰富菏泽地区冬季蔬菜的种类,增加市场供给,进行淮南黄心乌引种试验,研究不同播种期对淮南黄心乌农艺性状、单株产量和营养品质的影响,不同施肥处理对其单株产量和营养品质的影响,移栽苗龄对其缓苗时间和单株产量的影响。结果表明:随着播种期的推迟,株高、株幅、叶片长、叶片宽、叶柄长和单株产量呈现先降低后增加的趋势,叶柄宽、叶片数呈现先增加后降低再增加的趋势,可溶性糖呈现先升后降的趋势,蛋白质呈下降趋势,硝酸盐和Vc无明显变化规律;在8月25日、9月5日播种,黄心乌单株产量、蛋白质含量极显著高于其他播种期,单株产量分别为511.16、500.08 g,蛋白质含量分别为6.27、6.50 mg/g,且硝酸盐含量较低,分别为342.87、357.66 mg/kg,9月5日播种,黄心乌Vc含量为32.34 mg/100g,显著优于其他播种期。有机肥(O)、有机肥+氮肥(ON)、有机肥+复合肥(OM)处理单株产量、可溶性糖和蛋白质显著优于不施肥对照,OM处理单株产量、蛋白质含量最高,分别为520.15、6.79mg/g,但是硝酸盐显著低于ON处理。6叶、8叶期苗龄缓苗时间较短,为4 d,且单株产量较高,分别为518.72、519.06 g。从农艺性状、单株产量、营养品质综合分析,淮南黄心乌在菏泽的最佳播种时间为8月25日至9月5日,最佳施肥处理为有机肥+复合肥,最佳移栽苗龄为6~8叶期。 相似文献
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喷施不同叶面肥对棉花前期生长发育和养分吸收的影响 总被引:2,自引:0,他引:2
为探索棉生长前期合理施用叶面肥的方法,研究了喷施不同质量浓度及配比尿素、硝酸铵和磷酸二氢钾对棉花前期生长发育和养分吸收的影响。结果表明,相比于对照(喷施清水),喷施叶面肥可加快植株生长速率,提高生物量积累量,增大叶面积。苗期喷施10 g/L尿素处理的棉株生长状况优于喷施等氮含量硝酸铵处理的棉株,但蕾期两处理差异不显著。根据喷施尿素质量浓度与棉株总干质量的函数关系,获得苗期最佳喷施尿素质量浓度为11.1 g/L,蕾期理论最佳喷施尿素质量浓度为49.1 g/L;虽然单一喷施5 g/L磷酸二氢钾效果逊于喷施10 g/L尿素,但是二者配合喷施效果最佳。综上,棉花前期配合喷施10 g/L尿素+5 g/L磷酸二氢钾的叶面肥能够为棉株生长提供更多的养分,增大光合面积,提高光能利用率,促进生长,为后期开花结铃奠定良好的物质基础。 相似文献
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硝酸银诱导雌性黄瓜产生两性花的效应及其应用研究 总被引:4,自引:1,他引:3
研究了硝酸银对雌性黄瓜产生两性花的诱导效应,对其在育种中应用的可能性进行了探讨,结果表明,当硝酸银质量浓度高于100mg/L时,两性花和雄花的数量没有明显差异,诱导雌性株产生两性花的适宜质量浓度为硝酸银质量浓度为200 ̄250mg/L,在3 ̄4叶期处理黄瓜植株能在较低节位有效地诱导两性花,利于留种;硝酸银诱导的两性花及其果实皆明显小于单雌花及其果实,两性花隔离后不进行人工辅助摇授粉的座果率为67% 相似文献
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Zhong-wei TIAN Xiao-xue LIU Shi-lu GU Jin-hong YU Lei ZHANG Wei-wei ZHANG Dong JIANG Wei-xing CAO Ting-bo DAI 《农业科学学报》2018,17(12):2648-2661
Excessive nitrogen(N) fertilization with a high basal N ratio in wheat can result in lower N use efficiency(NUE) and has led to environmental problems in the Yangtze River Basin, China. However, wheat requires less N fertilizer at seedling growth stage, and its basal N fertilizer utilization efficiency is relatively low; therefore, reducing the N application rate at the seedling stage and postponing the N fertilization period may be effective for reducing N application and increasing wheat yield and NUE. A 4-year field experiment was conducted with two cultivars under four N rates(240 kg N ha–1(N240), 180 kg N ha–1(N180), 150 kg N ha–1(N150), and 0 kg N ha–1(N0)) and three basal N application stages(seeding(L0), fourleaf stage(L4), and six-leaf stage(L6)) to investigate the effects of reducing the basal N application rate and postponing the basal N fertilization period on grain yield, NUE, and N balance in a soil-wheat system. There was no significant difference in grain yield between the N180 L4 and N240 L0(control) treatments, and the maximum N recovery efficiency and N agronomy efficiency were observed in the N180 L4 treatment. Grain yield and NUE were the highest in the L4 treatment. The leaf area index, flag leaf photosynthesis rate, flag leaf nitrate reductase and glutamine synthase activities, dry matter accumulation, and N uptake post-jointing under N180 L4 did not differ significantly from those under N240 L0. Reduced N application decreased the inorganic N content in the 0–60-cm soil layer, and the inorganic N content of the L6 treatment was higher than those of the L0 and L4 treatments at the same N level. Surplus N was low under the reduced N rates and delayed basal N application treatments. Therefore, postponing and reducing basal N fertilization could maintain a high yield and improve NUE by improving the photosynthetic production capacity, promoting N uptake and assimilation, and reducing surplus N in soil-wheat systems. 相似文献