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1.
采用温室盆栽试验 ,研究了不同土壤水分条件下施硼对油菜苗期根系生长、硼吸收、利用及其移动性的影响。结果表明 ,随土壤含水量、施硼量的下降 ,油菜根长、根体积、根系生长速率、根 /冠比减小 ,根系及地上部干物质积累降低 ,植株地上部硼浓度及含硼量下降。而硼利用效率、硼运移指数则随土壤含水量、施硼量的下降而升高。不同油菜品种的根系形态参数 (包括根长、根体积、根干重、根冠比及根系生长速率 )、硼利用效率及运移指数存在明显差异 ,即在相同条件下 ,V1根系较发达 ,硼利用效率、运移指数均高于V4 。研究认为 ,根系发达程度、硼利用效率及硼移动性大小是不同基因型油菜耐缺硼差异的重要因素。  相似文献   

2.
红壤上施石灰对硼的有效性及油菜生长的影响   总被引:4,自引:0,他引:4       下载免费PDF全文
徐俊祥  徐永福  唐永良 《土壤》1995,27(1):38-42
研究了两种盆栽红壤不同石灰和硼水平下,对土壤有效硼和油菜生长的影响,并探讨了石灰对油菜钙,硼平衡和钼营养的影响。  相似文献   

3.
不同施硼量对油菜叶片中不同形态硼含量的影响   总被引:1,自引:0,他引:1  
采用盆栽试验研究了不同施硼量对不同生育期不同部位叶片中水溶性硼和全硼含量的影响,并对以水溶性硼代替全硼作为植株营养诊断的方法进行了初步探讨。当施硼量达到5.1 kg/11m^2,油菜苗期、抽薹期的生物产量以及子粒产量均下降,但叶片中的全硼和水溶性硼含量仍随施硼量的增加而增加。不同生育期和不同部位叶片的全硼含量虽然与施硼量有较好的相关性,但是不同处理之间的差异,特别是过量差异过小,很难用于营养诊断。水溶性硼含量与施硼量也有较好的相关性,而且苗期未完全展开叶片和完全展开叶片的水溶性硼含量可以较敏感地反应油菜的硼营养差异,因此,可以用作硼的营养诊断方法,但是水溶性硼的诊断临界指标需要进一步的研究。  相似文献   

4.
油菜不同品种耐土壤缺硼力的研究   总被引:5,自引:0,他引:5       下载免费PDF全文
通过油菜的土培及三年定位产量试验,分析植株硼营养状况,并用^10B测定硼在花器官内的微域分布,初步表明,在土壤缺硼条件下,不同油菜品种耐土壤缺硼力存在明显差异:白菜型品种浠水白耐土壤缺硼力强,植株可吸收和积累较多的硼素,尤其是雄蕊和雌蕊的硼含量和硼充足的雄芯和雌芯的硼含量相差很小。  相似文献   

5.
不同硼水平对双低油菜华双4号产量和品质的影响   总被引:5,自引:1,他引:4  
以甘蓝型常规油菜品种中油821(双高品种)为对照,通过盆栽试验研究了不同硼水平对甘蓝型双低油菜华双4号籽粒产量和品质的影响。结果看出,两个油菜品种在缺硼条件下,施硼量从B 0.3 mg/kg增加到B 2.5 mg/kg时,单株角果数、每角粒数和籽粒产量显著增加,但增加到B 5.0 mg/kg时,每株角果数、每角粒数和籽粒产量显著降低,硼过量影响产量建成。在硼缺乏和硼过量条件下,华双4号的减产程度均高于中油821,表明双低优质油菜华双4号对缺硼和硼过量的反应较常规双高油菜中油821敏感。硼缺乏或过量时,两个品种籽粒含油量和油酸含量均表现降低的趋势,而蛋白质含量呈增加趋势。本试验的结果表明,合理施用硼肥对籽粒产量的影响大于对品质的影响,而高产优质品种更应注重硼肥的合理施用;我国栽培油菜的土壤有效硼的适宜浓度可以提高至B 1.0 mg/kg,但硼肥的安全施用应当控制在土壤有效硼含量为B 2.5 mg/kg以下。  相似文献   

6.
以甘蓝型常规油菜品种中油821(双高品种)为对照,通过盆栽试验研究了不同硼水平对甘蓝型双低油菜华双4号子粒产量和品质的影响。结果看出,两个油菜品种在缺硼条件下,施硼量从B 0.3 mg/kg增加到B 2.5 mg/kg时,单株角果数、每角粒数和子粒产量显著增加,但增加到B 5.0 mg/kg时,每株角果数、每角粒数和子粒产量显著降低,硼过量影响产量建成。在硼缺乏和硼过量条件下,华双4号的减产程度均高于中油821,表明双低优质油菜华双4号对缺硼和硼过量的反应较常规双高油菜中油821敏感。硼缺乏或过量时,两个品种子粒含油量和油酸含量均表现降低的趋势,而蛋白质含量呈增加趋势。本试验的结果表明,合理施用硼肥对子粒产量的影响大于对品质的影响,而高产优质品种华双4号更应注重硼肥的合理施用;我国栽培油菜的土壤有效硼的适宜浓度可以提高至B 1.0 mg/kg.但硼肥的安全施用应当控制在土壤有效硼含量为B 2.5 mg/kg以下。  相似文献   

7.
不同硼效率甘蓝型油菜苗期对硼镁营养的反应   总被引:2,自引:2,他引:2  
利用溶液培养研究硼低效和高效甘蓝型油菜(Brassica.napus)苗期对硼镁营养的反应。结果表明,低硼浓度下提高镁时,油菜的生长受影响不大,硼含量和累积量降低,镁含量和累积量及叶绿素上升。低镁浓度下提高硼时,油菜镁含量、镁积累量降低,且硼低效品种降低幅度大于硼高效;叶绿素降低幅度则硼高效大于硼低效品种。高硼浓度下提高镁时,硼镁含量和累积量及叶绿素含量均提高,提高幅度为硼高效品种大于低效品种。高镁浓度下提高硼时,硼镁表现出显著的相互促进,硼高效品种促进效应大于低效品种。在很大程度上镁影响油菜叶绿素a的含量,而硼影响油菜叶绿素b的含量。硼镁营养对锌含量无大的影响;在低镁浓度下,油菜低效品种锰含量显著增加。无论是低镁或高镁浓度下提高硼,硼高效和低效品种铁含量均有所增加,低效品种增加显著。  相似文献   

8.
磷硼互作对油菜生长发育、养分吸收及产量的影响   总被引:4,自引:0,他引:4  
以常规油菜品种中双9号和杂交油菜品种中油杂2号为材料,研究了盆栽条件下不同磷、硼供应水平对油菜生长发育、农艺性状、营养吸收及产量的影响.结果表明,在本试验条件下,磷肥用量是决定油菜不同生育期生物学产量的主要因素.在供磷条件下,适当增施硼肥能增加油菜生物学产量6.65%~19.39%,经济产量6.29%~104.44%;但在缺磷条件下,过高硼肥用量在一定程度上加重了油菜的缺磷症状,经济产量下降达17.65%~42.86%.杂交油菜中油杂2号花期对硼更加敏感,而常规品种中双9号成熟期对硼敏感.植株中氮、磷、钾养分含量随着施磷量的增加有着不同程度的提高,说明施磷有助于养分的吸收.  相似文献   

9.
不同施硼量对油菜叶片中不同形态硼含量的影响   总被引:2,自引:0,他引:2  
采用盆栽试验研究了不同施硼量对不同生育期不同部位叶片中水溶性硼和全硼含量的影响,并对以水溶性硼代替全硼作为植株营养诊断的方法进行了初步探讨。当施硼量达到5 1kg/hm2,油菜苗期、抽薹期的生物产量以及子粒产量均下降,但叶片中的全硼和水溶性硼含量仍随施硼量的增加而增加。不同生育期和不同部位叶片的全硼含量虽然与施硼量有较好的相关性,但是不同处理之间的差异,特别是过量差异过小,很难用于营养诊断。水溶性硼含量与施硼量也有较好的相关性,而且苗期未完全展开叶片和完全展开叶片的水溶性硼含量可以较敏感地反应油菜的硼营养差异,因此,可以用作硼的营养诊断方法,但是水溶性硼的诊断临界指标需要进一步的研究。  相似文献   

10.
【目的】 通过研究枳橙砧木 (硼不敏感型) 和枳壳砧木 (硼敏感型) 对不同硼浓度处理的反应,重点揭示两种柑橘砧木硼利用效率、光合性能及产物的差异。 【方法】 采用营养液培养的方法,设置 B0 (B0)、2 (B2)、5 (B5)、10 (B10) 和 50 μmol/L (B50) 5 个硼浓度对枳橙和枳壳砧木进行培养,通过测定植株硼含量,叶片中不同形态硼、色素含量,光合速率及糖类物质含量,探讨不同砧木硼利用效率及光合性能的差异。 【结果】 在相同硼浓度条件下,枳橙砧木植株的硼利用效率均大于枳壳砧木,不施硼时,枳橙的硼利用效率较枳壳砧木高 38.6%;两种砧木半束缚态硼/自由态硼的比值 (R) ,在各个硼处理中,枳壳砧木的 R 值均低于枳橙砧木,即枳橙砧木在细胞水平上的硼利用能力大于枳壳砧木;缺硼会降低枳壳和枳橙砧木叶绿素 a (Chl a)、叶绿素 b (Chl b) 和类胡萝卜素 (Car) 等光合色素的含量,其中枳壳砧木受缺硼影响较大,且不施硼显著降低了这两种砧木的净光合速率,相同硼水平条件下,枳橙砧木的净光合速率显著高于枳壳砧木 (B10 除外) ;两种砧木叶片可溶性糖、果糖和淀粉含量在 B0 时均高于其他处理,B0、B2 及 B5 处理,枳壳砧木叶片可溶性糖、蔗糖、果糖均显著高于枳橙砧木。 【结论】 枳橙砧木在植株水平和细胞水平的硼效率均高于枳壳砧木,光合特性和光合产物积累的不同或许是两者硼效率差异的一个关键因子。   相似文献   

11.
营养液中培养菜豆幼苗,缺镁菜豆植株生长受抑,生物量显著低于正常供应镁的植株,体内镁浓度和镁的积累总量均较低。严重缺镁黄化叶片中叶绿素含量下降。完整叶绿体的希尔反应值在缺镁与正常植株间无差别。缺镁菜豆植株的根和叶膜造性(以相对电导率表示)增加,叶片中丙二醛含量升高。活性氧清除酶系统:SOD、POD、CAT活性在缺镁菜豆真叶中高于正常植株,老叶中抗坏血醒过氧化物酶(AsA-POD)活性增加程度也较大。  相似文献   

12.
The aim of this study was to determine the combined effects of boron (B) and potassium (K) on metallic cation accumulation, membrane permeability (MP) and growth of tomato (Solanum lycopersicum L.). Four levels of B (0, 5, 10 and 20 mg kg?1) and two levels of K (0 and 200 mg kg?1) were applied. B treatments, with or without K, enhanced the MP of leaves and the concentration of metallic cations except for manganese (Mn) and zinc (Zn) concentration as well B concentration. B uptake increased linearly with increasing B treatments. Metallic cation uptakes decreased at the highest B level. Excess B decreased the shoot and root biomass with and without K supply; however, K partially improved the detrimental effect of toxic B on plant growth. It was concluded that supplying K to growth media can be beneficial for alleviating plant growth reduction and imbalances of metallic cations accumulation caused by excess B.  相似文献   

13.
Copper (Cu) contamination in the lower reaches of the Sado River in the Alcacer do Sal region of Portugal (a major rice producing area) has became a major pollution problem. In an attempt to study the changes in rice growth (Oryza sativa L.), the effect of excess Cu on the plasma membrane activity (as measured throughout proton extrusion) and membrane permeability as well as on the zinc (Zn), nitrogen (N), phosphorus (P), potassium (K), sodium (Na), calcium (Ca), magnesium (Mg), boron (B), molybdenum (Mo), and aluminum (Al) net uptake and translocation was studied. Long‐term studies (30 days) were conducted with rice subjected to increasing Cu concentrations (ranging from 0.002 to 6.25 mg/L) showed a concentration increase of Cu in root and shoot tissues. Root proton extrusion increased 7.4‐fold between the 0.01 and the 1.25 mg/L Cu treatments, whereas its membrane permeability (as measured throughout the electrolytic conductance) revealed a marked increase after the 1.25 mg/L Cu treatment. Zinc concentrations decreased with increasing Cu levels in the nutrient solution (excepting the 6.25 mg/L Cu treatment in shoots), while N, P, K, Na, Ca, Mg, B, Mo, and Al concentrations, although showing different patterns, did not reveal any correlation with increasing Cu level. The absolute content of all these metals as well as their net uptake exhibited (excepting Al) its highest values in the 0.25 mg/L Cu treatment. It is suggested that these variations, triggered by excess Cu on root growth, might be explained based on the interaction among Cu‐uptake mechanism(s), plasma membrane‐H+ ATPase and root membrane permeability. It is also suggested that Cu affects the N, P, K, Na, Ca, Mg, B, Mo, and Zn concentrations in rice shoots mainly by changing their net uptake rate.  相似文献   

14.
荞麦对酸铝胁迫生理响应的研究   总被引:15,自引:1,他引:15  
铝毒害是限制酸性土壤中植物生长的重要因素,以荞麦(FagopyrumesculentumMoench.)为实验材料,在沙培条件下,用不同浓度(0,10,100,1000mg/L)、不同pH(3,4,5)的铝溶液处理,在出苗后的第14d和28d测试与铝胁迫有直接关系的5个生理指标。结果表明,溶液的铝浓度和pH的变化对荞麦生理都有明显的影响,最低浓度的铝处理10mg/L在不同pH下已经影响了荞麦的正常生长,和对照相比根系活力(RA)下降、根质膜透性(MP)增大、叶片内丙二醛(MDA)和游离脯氨酸(Pro)的含量以及过氧化物酶(POD)的活性升高,并且随着铝处理浓度的升高,荞麦体内各生理指标和对照差异性加大;同一铝浓度下pH5和pH3相比,MP降低、RA增强、叶片内MDA和Pro的含量以及POD的活性有所下降。铝胁迫下荞麦体内各生理指标的变化有显著的相关性。随着荞麦的生长,铝毒害有所缓解。  相似文献   

15.
The interaction effect of applied zinc (Zn) and boron (B) on early vegetative growth and uptake of Zn and B by two oilseed rape (canola) (Brassica napus L.) genotypes was investigated in a sand culture experiment under controlled environmental conditions. Two genotypes (Yickadee and Dunkeld) were grown at three Zn levels (0.05, 0.25, and 2.0 mg kg‐1 soil) and two B levels (0.05 mg kg‐1 soil and 0.5 mg kg‐1 soil). Dunkeld produced significantly higher shoot and root dry matter than Yickadee at low Zn and low B supply indicating the superiority of Dunkeld over Yickadee for tolerance to both low Zn and low B supply. Chlorophyll content of fresh leaf tissue was increased significantly by an increase in Zn and B supply. Zinc deficiency enhanced B concentration in younger and older leaves. Boron concentration was higher in older leaves than in the younger leaves irrespective of B deficiency and sufficiency indicating immobility of B in two oilseed rape genotypes tested. Zinc concentration was higher in younger leaves than in the older leaves indicating mobility of Zn. An increased supply of Zn enhanced B uptake under high boron supply only. Zinc uptake in Dunkeld was enhanced significantly with an increased rate of B supply under high Zn supply, while the effect was not significant in Yickadee. Dunkeld proved to be more efficient in Zn and B uptake than Yickadee.  相似文献   

16.
燕麦幼苗对氯化钠和氯化钾胁迫的生理响应差异   总被引:1,自引:0,他引:1  
为探讨燕麦对NaCl和KCl胁迫的生理响应差异,采用水培法,研究了不同浓度NaCl和KCl胁迫对幼苗生长,活性氧代谢和渗透调节的影响。结果表明:(1)在75和150mmol/L浓度下,NaCl胁迫对燕麦幼苗的膜脂过氧化伤害和生长抑制大于KCl胁迫。NaCl胁迫下叶片中的超氧化物岐化酶(SOD),过氧化氢酶(CAT)活性及可溶性蛋白、可溶性糖和脯氨酸含量低于KCl胁迫;当浓度增大到225mmol/L时,KCl胁迫叶片中O-2.,H2O2,丙二醛(MDA),可溶性蛋白和可溶性糖含量显著大于NaCl胁迫,而SOD,抗坏血酸过氧化物酶(APX)活性及谷胱甘肽(GSH)含量则相反。(2)225mmol/L KCl和NaCl处理的植株叶片水势分别为-0.867和-1.034 MPa,渗透势分别为-1.409和-1.252 MPa,说明KCl对燕麦的更强伤害不是渗透胁迫所致;经225mmol/L KCl胁迫后,燕麦叶片中Na+含量下降至对照的36.5%,而K+含量上升为对照的1.49倍,而补充20mmol/L NaCl显著提高了225mmol/L KCl胁迫下叶片Na+的含量及SOD,APX活性,降低了K+,H2O2,O-2.和MDA含量,说明离子毒害引起的活性氧积累可能是高浓度KCl胁迫对燕麦幼苗伤害大于NaCl胁迫的重要原因。  相似文献   

17.
There is little agreement on the leaf and shoot boron (B) requirement of rice (Oryza saliva L.) and the optimum hydroponic solution B concentration for rice. Questions on the mechanism of B uptake active or passive are also unresolved. We grew rice in hydroponic solutions in a growth chamber for six weeks with B at 0, 0.05, 0.2, 1, 5, 10, 25, and 50 μM. Transpirational flow, dry matter yields and tissue B were determined. Results indicated that B deficiency occurred when there was <7.3 mg kg‐1 B in the flag leaves, <3.6 mg kg‐1 B in shoots, and <0.2 μM B in the nutrient solutions. Boron additions increased dry matter and plant height. Typical B‐deficiency symptoms were a light color or chlorosis on almost all of the youngest leaves and stems, an unthriftiness, leaf tip burn, and pale bands 2–3 mm wide on leaves, particularly on the moderately B‐deficient plants. Whitish and twisted new leaf tips occurred at >0.05 μM B. A mass balance analysis that compared the total mass of B in the plant versus B provided via transpirational flow showed that at high hydroponic B supply, passive uptake and active excretion of B, or, active blockage of B may have occurred, for > 10‐fold differences existed between the B mass in plant and B mass that could be provided via transpirational flow. Thus, B uptake was against a concentration gradient and high B supply, and as other evidence indicated, at low B supply.  相似文献   

18.
酸铝胁迫下4个速生桉优良无性系的生长反应   总被引:4,自引:0,他引:4  
采用砂土培育法研究不同的酸铝处理对几种桉树优良无性系(巨尾桉9号、巨尾桉12号、尾叶桉4号、韦赤桉3号)幼苗生长及膜透性等变化的影响。试验设: pH 3.0+0 mg/L Al3+、 pH 3.0+120 mg/L Al3+、 pH 4.0+0 mg/L Al3+、 pH 4.0+120 mg/L Al3+、 pH 4.8+0 mg/L Al3+5个处理。结果表明,不同酸铝处理对4个桉树优良无性系形态、生长指标、含水率、叶绿素含量、质膜透性和脯氨酸含量等都产生不同的影响。与对照(pH 4.8+0 mg/L Al3+)相比,pH 3.0+120 mg/L Al3+处理对桉树幼苗的生长产生的抑制作用明显,叶、芽皱缩、变形,苗高、地径以及各器官含水率降低,质膜透性和叶绿素含量下降,桉树幼苗累积较多的脯氨酸。其中,巨尾桉广林9号对酸铝逆境的抗性优于其它3个无性系。4个桉树优良无性系抗酸铝逆境的能力强弱依次为: 巨尾桉9号巨尾桉12号 韦赤桉3号尾叶桉4号。因此,选育耐酸铝桉树无性系品系是改善南方富铝化酸性土壤林地生产力的重要策略之一。  相似文献   

19.
Abstract

A field experiment was conducted to investigate the effect of P nutrition under water stress on the cell membrane stability measured by the polyethylene glycol test, plant growth, and internal plant water relations in maize (Zea mays L.). Adaptation to water deficits with improved P nutrition was observed. The cell membrane stability increased, leaf water potential and osmotic potential decreased, and turgor potential increased with improved P nutrition. Osmoregulation was evident with improved P nutrition. Sugar and K were the major osmotic contributors. Total plant dry weight and relative growth rate increased with improved P nutrition under water stress, suggesting that the supply of extra P to plants may be beneficial to increase the tolerance to drought.  相似文献   

20.
采用人工模拟酸雨的实验设计,以国家农业地理标志产品香青菜(Brassica chinensis L.)为实验材料,以叶片喷施蒸馏水为对照(CK),设置直接喷施pH3.0的酸雨(SY)和10mg·L−1浓度五酸钾溶液预处理后再喷施pH3.0的酸雨(WS)两个处理组。测定并比较分析各处理组香青菜根系活力、质膜透性(MP)、过氧化氢酶(CAT)活性、超氧阴离子自由基产生速率和脯氨酸(PRO)含量,研究酸雨胁迫对香青菜主要生理指标的影响和五酸钾对酸雨胁迫伤害香青菜的缓解效应,从而探索五酸钾对酸雨胁迫下植物幼苗的防护效果。结果表明,叶面喷施浓度10mg·L−1的五酸钾溶液能够显著提高酸雨胁迫下香青菜根系活力、CAT活性,保护了细胞质膜,有效降低香青菜体内PRO含量及超氧阴离子自由基产生速率。说明五酸钾可缓解酸雨对香青菜的生理伤害,对提高香青菜抗酸雨伤害能力具有优良效果。  相似文献   

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