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1.
不同水稻基因型的根系形态生理特性与高效氮素吸收 总被引:30,自引:0,他引:30
土培盆栽试验下,采用3个氮素吸收效率(NAE)有显著差异的水稻基因型五优244(低NAE)、R83—12(中NAE)和水源349(高NAE)为材料,研究了水稻拔节期根系形态特征和生理特性的基因型差异及其与高效氮索吸收的关系。结果表明,水源349总根长、根密度、根表面积和根干重极显著高于R83.12和五优244,且根系总吸收面积、活跃吸收面积和活跃吸收面积/总吸收面积最大,为高效氮索吸收提供了条件。水源349具有较强的根系耗能、氧化还原力、硝酸还原酶、谷氨酰胺合成酶、谷氨酸合酶和谷氨酸脱氢酶活性,促进根内碳水化合物的合成及氮吸收和同化,提高了根系伤流强度及可溶性糖和游离氨基酸含量,进而显著提高了地上部氮含量和氮积累量。逐步回归表明,拔节期较高的根密度、根系总吸收面积和地上部氮含量是水稻氮索高效吸收的重要特征,可作为水稻氮素高效管理和遗传改良的可靠指标。 相似文献
2.
烤烟苗期营养特性的基因型差异及其杂种优势分析 总被引:1,自引:0,他引:1
试验选用6个杂交烤烟组合共13种基因型,研究了苗期营养特性的差异,并分析F1代烟苗营养特性与亲本之间的相关性和杂种优势。结果表明: 1)不同基因型烟苗的生物量、 根冠比、 养分(氮、 磷、 钾)含量和吸收量、 硝酸还原酶活性、 叶绿素含量、 根系活力差异显著,表现出多样性; 2)在F1代烟苗中,根系氮、 磷、 钾和地上部氮、 钾含量,以及干物质积累量、 根系活力和根冠比与父本和母本值之间相关性不显著,地上部磷含量与中亲值之间呈显著负相关,叶片硝酸还原酶活性与母本值之间呈显著正相关,叶绿素含量与父本值、 中亲值和低亲值之间呈极显著正相关; 3)烟苗根系磷、 钾含量、 地上部氮含量、 硝酸还原酶活性、 叶绿素含量、 根系活力、 根冠比、 干物质积累量具有一定的中亲优势。根系磷含量、 硝酸还原酶活性、 根系活力、 根冠比和干物质积累量具有超高亲优势。尽管根系氮含量和地上部磷、 钾含量无明显杂种优势,但有的试验组合也表现出中亲优势和超高亲优势。 相似文献
3.
施氮量对不同氮效率玉米品种根系时空分布及氮素吸收的调控 总被引:7,自引:1,他引:6
【目的】研究不同氮效率夏玉米根系的时空分布、 植株氮素吸收利用特性及其对氮素用量的响应,探讨玉米氮素高效利用的生理基础,以期探明通过采用氮高效品种、 促进根土互作、 提高根系与水肥时空耦合、 提高玉米氮素利用效率,强化环境友好型生产的有效途径。【方法】试验于2011-2012年在山东农业大学黄淮海玉米技术创新中心(N3618,E11712)和作物生物学国家重点实验室进行,以氮高效玉米品种郑单958(ZD958)和氮低效品种玉米秀青73-1(XQ73-1)为试验材料,在大田条件下设置两个氮素水平(0和315 kg/hm2),采用土壤剖面取样法和系统取样法分别进行根系相关指标、 干物质及氮素积累与分配的测定。【结果】ZD958整个生育期根系相关指标(根系干重、 根长密度、 根系TTC还原量、 根系吸收面积及活跃吸收面积)及其在深层土壤(60-100 cm)中所占的比例、 单株生物量、 单株绿叶面积、 植株氮素积累量、 单株籽粒产量均显著高于XQ73-1(P0.05),抽雄期和完熟期根系干重、 根长密度、 根系TTC还原量、 根系吸收面积、 根系活跃吸收面积、 单株绿叶面积分别比XQ73-1高12.02%、 8.39%、 25.34%、 34.48%、 29.22%、 7.76%和36.74%、 24.21%、 36.29%、 29.94%、 32.83%、 13.73%,完熟期单株生物量、 植株氮素积累量、 籽粒产量分别比XQ73-1高11.65%、 11.78%、 15.16%。施氮后两品种各指标均显著提高,ZD958和XQ73-1根系干重、 根长密度、 根系TTC还原量、 根系吸收面积、 根系活跃吸收面积、 单株绿叶面积抽雄期分别提高8.13%、 6.12%、 18.08%、 15.10%、 24.71%、 12.06%和7.19%、 4.59%、 10.47%、 10.82%、 13.02%、 7.15%,而完熟期分别提高16.48%、 22.43%、 19.26%、 15.03%、 27.45%、 14.97%和15.02%、 14.59%、 13.01%、 12.81%、 21.95%、 11.06%; 单株生物量、 植株氮素积累量、 单株籽粒产量完熟期分别提高9.40%、 10.08%、 13.43%和5.20%、 8.56%、 9.69%。相关分析表明,植株吸氮量与根长密度、 根系干重、 根系活跃吸收面积呈显著线性正相关(相关系数均在0.8以上)。 ZD958花前根系对氮素的响应度高于XQ73-1,花后则低于XQ73-1。【结论】氮高效玉米品种ZD958根系总量大、 深层土壤根系多、 根系活力高、 氮素吸收能力强; 施氮条件下优势更加明显,对ZD958作用大于XQ73-1,说明氮高效玉米品种发达且分布合理的根系保证了植株对氮素的吸收,有利于进行光合生产、 获得较高籽粒产量。两品种对氮素的响应不同,氮高效品种花前对氮素的响应度高于氮低效品种,花后则相反。因此,可过适度减少氮高效品种花前施氮量、 增加花后施氮量,而适度增加氮低效品种花前施氮量、 降低花后施氮量来促进根系发育,提高氮素利用效率。 相似文献
4.
腐植酸对番茄苗期氮素代谢的影响 总被引:2,自引:0,他引:2
腐植酸对肥料具有改性增效的作用,以番茄为供试材料,研究腐植酸增效剂不同添加量对番茄苗期生长及氮素代谢酶活性的影响,为腐植酸的开发应用提供参考依据。采用砂培试验方法,设置了向霍格兰营养液分别加入腐植酸增效剂0(HA0),1(HA1),2(HA2),5(HA3),10(HA4) mL/L处理。培养30天后,测定番茄的生长指标、植株养分含量、硝酸还原酶活性、谷氨酰胺合成酶和谷氨酸脱氢酶活性。添加适量腐植酸增效剂能促进番茄苗期生长,HA3处理番茄根系干重比HA0提高了31.68%,HA1处理番茄地上部干重最大。添加腐植酸可以提高番茄苗期叶片叶绿素含量,HA3处理番茄苗期叶片叶绿素总量和类胡萝卜素含量最高,分别比HA0提高了17.11%,24.04%。添加适量腐植酸增效剂能增加番茄苗期根系和地上部对氮素的吸收,HA3处理的番茄根系、地上部及总氮素积累量比HA0分别提高了30.61%,20.24%,21.54%。添加腐植酸增效剂可以调控番茄根系和叶片氮素代谢过程,提高了氮素代谢酶活性,与HA0相比,HA4处理根系硝酸还原酶活性最大,HA3处理根系谷氨酰胺合成酶活性最高,HA2处理根系谷氨酸脱氢酶的活性最大;HA3处理番茄苗期叶片中硝酸还原酶、谷氨酰胺合成酶和谷氨酸脱氢酶活性最大,与HA0处理相比分别提高了38.27%,64.54%,106.63%。添加腐植酸增效剂可以促进番茄苗期的生长和对氮素的吸收,提高氮素代谢酶活性,处理中以在营养液中添加5 mL/L腐植酸增效剂效果最佳,腐植酸增效剂添加量低于5 mL/L时,对番茄苗期的生长及氮素代谢具有明显的促进作用。 相似文献
5.
氮素营养水平对水稻幼苗氮代谢的影响 总被引:2,自引:0,他引:2
以超级稻“两优培九”为试验材料,研究了不同氮素营养水平对其氮代谢关键酶活性的影响。结果表明,叶片硝酸还原酶(NR)活性和氮素水平具有较复杂的相关关系。叶片谷氨酰胺合成酶(GS)活性随氮素营养的增加而提高,根系GS活性在氮素水平过高时反而下降。氮素营养在2N以下时,叶片谷-丙转氨酶(GPT)和谷-草转氨酶(GOT)活性随氮素营养的增加而提高,当氮素水平继续升高时活性则下降;当氮素水平在N处理以下时,根系GPT和GOT活性随氮素营养的增加而提高;当氮素水平高于N处理时,则随氮素营养的增加下降。叶片和根系中上述酶的活性不同,而且活性高峰值出现时期不同,反映了叶片和根系氮代谢的差异。叶片和根系的蛋白质和游离氨基酸含量及叶片叶绿素含量随氮素营养水平的提高而增加,各处理叶片和根系蛋白质含量呈显著正相关,叶片蛋白质和游离氨基酸含量高于根系。 相似文献
6.
水稻氮高效基因型根系分泌物中有机酸和氨基酸的变化特征 总被引:9,自引:1,他引:8
采用溶液培养试验,研究水稻氮高效基因型在不同供氮水平下,根系分泌物中有机酸和氨基酸种类及含量的变化情况,并探讨其与氮素利用效率之间的关系。结果表明: 1)水稻氮高效基因型氮积累量随着供氮水平的降低明显下降,而氮素利用效率显著提高; 在供氮水平为20 mg/L时,高效基因型具有较高的氮积累量,且氮素利用效率较低效基因型高42.9%(分蘖期)和21.4%(拔节期)。 2)草酸为高效基因型根系分泌的主要有机酸种类,其分泌量占有机酸总量的80%以上,其次是乙酸和柠檬酸; 有机酸分泌总量和草酸分泌量在分蘖期和拔节期随供氮水平的降低而降低,乙酸和柠檬酸分泌量在拔节期也呈相同趋势; 相同供氮水平下,高效基因型有机酸分泌总量均显著低于低效基因型,且在20 mg/L时差异明显。 3)丙氨酸为高效基因型根系分泌的主要氨基酸种类,其分泌量占氨基酸总量的50%以上,其次是丝氨酸、 谷氨酸、 天冬氨酸、 苯丙氨酸、 甘氨酸和苏氨酸,且氨基酸分泌总量和各组分氨基酸分泌量均随供氮水平的降低而降低; 在低氮水平(10 mg/L和20 mg/L)下,高效基因型氨基酸分泌总量均显著低于低效基因型。4)在分蘖期和拔节期,水稻根系分泌有机酸和氨基酸总量与氮素利用效率均呈显著或极显著负相关,有机酸分泌组分中的草酸和氨基酸分泌组分的天冬氨酸分泌量与氮素利用效率也呈显著或极显著负相关。以上结果表明,低氮条件下水稻氮高效基因型氮效率优势明显,高效基因型氮素利用效率高,有利于体内同化物质的合理分配。 相似文献
7.
增硝营养对不同基因型水稻苗期氮素吸收同化的影响 总被引:21,自引:7,他引:21
利用控制条件下的溶液培养方法,研究了增硝营养(NH4+∶NO3-比例为100∶0和50∶50)对4种不同的基因型水稻(常规籼稻、常规粳稻、杂交籼稻、杂交粳稻)苗期生长和氮素吸收同化的影响。结果表明,增NO3-营养可以增加水稻叶片的光合速率,促进水稻对氮素的吸收,提高氮素利用率,进而促进水稻生长;不同基因型水稻在增NO3-营养下氮积累量增幅不同主要是由于其生物量增幅不同,而整株氮素含量增幅差异不大;NO3-的存在可增强谷氨酰胺合成酶和硝酸还原酶的活力,促进水稻对NH4+和NO3-的同化利用,从而增加了氮素在植株地上部的积累同化;籼稻与粳稻相比,杂交粳稻与杂交籼稻相比,前者在氮素吸收利用上均表现出更为明显的优势。 相似文献
8.
麦套花生氮素代谢及相关酶活性变化研究 总被引:3,自引:0,他引:3
大田条件下,以花生“花育22号”为材料,研究了麦套花生的氮素代谢及相关酶活性变化情况。结果表明,麦套花生根叶游离氨基酸、氮素平均含量及根系可溶性蛋白平均含量高于单作;而叶片可溶性蛋白平均含量则低于单作。与小麦共生期间,麦套花生根叶硝酸还原酶(NRase)活性、谷氨酸脱氢酶(GDH)活性、叶片谷氨酰胺合成酶(GS)活性及谷氨酸-丙酮酸转氨酶(GPT)活性(除播后25 d)明显低于单作;整个生育期麦套花生根系GS平均活性及GPT活性高于单作花生。可见,花生苗期小麦遮荫对花生氮素代谢及酶活性有一定影响。 相似文献
9.
为探明不同氮效率小麦(Triticum aestivum L.)品种根系特征及其对根际土壤酶活性的响应,以30年的长期定位试验为平台,于2018—2020年采用大田试验的方法,在不同氮效率品种筛选的基础上,以氮高效小麦品种郑麦113、偃高21和氮低效小麦品种丰德存5号、周麦27为试验材料,在不施氮肥(N0)和正常施氮肥(N1)条件下研究其根系特征、氮素吸收利用及根际土壤酶活性的差异。结果表明,各品种小麦的根系活力均在孕穗期达到最大值,N0、N1水平下氮高效小麦品种根系活力的平均值分别比氮低效小麦品种增加了16.13%~24.22%、10.22%~62.49%。N1水平下小麦根长、根表面积和根体积明显高于N0水平。郑麦113、偃高21、周麦27的氮吸收效率显著高于丰德存5号,而周麦27的氮利用效率较低。两种氮水平处理下,郑麦113和偃高21的根际土壤β-葡萄糖苷酶(BG)、亮氨酸氨基肽酶(LAP)和多酚氧化酶(POX)活性整体显著高于丰德存5号和周麦27(P<0.05),且根际土壤酶活性与根系形态指标均呈正相关关系。这说明郑麦113和偃高21较高的根系活力、根长、根表面积和根体积促... 相似文献
10.
以烤烟品种云烟87和贵州典型黄壤为试验材料,通过大田试验,设置不施氮(CN)、常规肥(CF)和炭基肥(BF)3个处理,探索不同施肥处理对烤烟氮素吸收相关生理、黄壤-烤烟体系氮素平衡的影响,为优化贵州烟区黄壤氮素管理和减少烟区农田生态环境污染提供科学指导。结果表明,BF处理显著提高土壤脲酶活性、烤烟根长度和根表面积、叶片谷氨酰胺合成酶和谷氨酸合成酶活性、吸氮量,烤烟吸氮量较CN和CF处理分别显著提高 35.06%和14.24%。BF处理烤烟根系活力和体积、干物质量及产量最高,显著高于CN处理。不同施肥处理黄壤-烤烟体系氮素均明显盈余,氮素输入主要是土壤起始无机氮,氮素输出主要是土壤无机氮残留以及烤烟吸氮量。BF处理提高了0~20 cm土层无机氮的残留,氮素表观损失量显著减少44.42 kg?hm-2,氮素盈余量减少37.70 kg?hm-2,氮肥表观利用率显著提高16.15%。合理施用炭基肥是贵州烟区优化黄壤氮素管理和保护烟区农田生态环境的有效途径之一。 相似文献
11.
Glutamine synthetase and nitrate reductase enzyme activities occurred both in roots and leaves of maize (Zea mays L., hybrid Pioneer 3737) and wheat (Triticum aestivum L., cultivar Jantar) plants grown on different nitrogen (N) sources. Enzyme activities and plastid pigment content in maize plants were higher in the treatments with a mixture of nitrate (NO3) and ammonium (NH4) than with either N source alone. In wheat plants, plastid pigment content, nitrate reductase activity, and root glutamine snynthetase activity were higher in the treatments where NO3 alone was applied to the nutrient medium. 相似文献
12.
采用营养液栽培,研究了以中国南瓜“360-3×112-2”杂交种和黑籽南瓜为砧木,以“津春2号”为接穗的2种嫁接黄瓜和“津春2号”自根黄瓜成株期在 80 mmol/L NaCl 胁迫12 d 后的生长状况和光合能力,以及试验期间叶片氮素代谢及其关键酶活性的动态变化。结果表明,NaCl 胁迫12 d 后以中国南瓜“360-3×112-2”杂交种为砧木嫁接黄瓜植株的主蔓生长速率、第一片功能叶面积、全株鲜重和光合参数均高于自根黄瓜和以黑籽南瓜为砧木的嫁接黄瓜; 且以“360-3×112-2”杂交种为砧木嫁接黄瓜的生长状况好于以黑籽南瓜为砧木的嫁接黄瓜。NaCl 胁迫处理植株叶片中硝态氮、铵态氮含量、谷氨酰胺合成酶(Gs)活性和可溶性蛋白含量比对照先高后低; 而硝酸还原酶(NR)活性先低后回升,但仍低于对照,说明NaCl 胁迫下,黄瓜叶片氮素代谢能力的降低。不同处理氮素代谢能力的差异其原因在于根系吸收氮源的能力差异。NaCl 胁迫对以“360-3×112-2”杂交种为砧木的黄瓜植株生长抑制较小,氮素代谢能力下降较少,表现出较强的耐盐性,可以作为一个黄瓜耐盐砧木在生产上使用。 相似文献
13.
A nitrogen dynamic hydroponic culture on performance and quality of water spinach (Ipomoea aquatica)
AbstractIn view of the unreasonable application of chemical fertilizers in agriculture and the groundwater pollution caused by nitrogen (N) leaching, a nitrogen dynamic hydroponic culture was used to simulate the dynamics variation of ammonium nitrogen (NH4-N) and nitrate nitrogen (NO3-N) in the leaching loss soil. Solutions with different ratio of NO3-N and NH4-N (100:0, 70:30, 50:50, 30:70 and 0:100) were prepared as well as the same solutions that not containing NO3-N .Water spinach was chosen to culture in the two solutions that differ from NO3-N every two (E2) or five days (E5) to observe the growth, quality and nutrient solution uptake. In terms of the growth, uptake of N source, N use efficiency and the chemical indicators, plants grown in the balanced solution all showed the best results. The nitrogen dynamic hydroponic culture showed some differences between E2 and E5 in some aspects. Under the same N source level, plants in E2 showed a better growth and higher NO3-N uptake than E5. On the other hand, the uptake of NH4-N seemed to be affected significantly by the interchanged frequency, which showed the same variations of glutamine synthetase activity. The activity of nitrate reductase and glutamine synthetase showed the coexist of NO3-N and NH4-N could play synergistic effect. It is not recommended to supplement NO3-N frequently in the case of N leaching loss, which has little impact on the growth and may lead to the hard taste and groundwater pollution. 相似文献
14.
NITRATE UPTAKE KINETICS AND METABOLIC PARAMETERS IN TWO RICE VARIETIES GROWN IN HIGH AND LOW NITRATE
Leandro Azevedo Santos Walterliny Almeida Santos Marcus Vinícius Loss Sperandio Carlos Alberto Bucher Sonia Regina de Souza Manlio Silvestre Fernandes 《Journal of plant nutrition》2013,36(7):988-1002
A study was conducted on the effect of nitrate (NO3) levels on nitrate uptake kinetics and nitrogen (N) metabolism in two rice varieties, Piaui (landrace) and IAC-47 (improved). At 27 days after germination (DAG) N supply was suspended for 72 h, and then restored as 0.2 or 2 mM nitrate. The nitrate uptake kinetics was determined by the depletion method. Plants were harvested at 0, 6, and 24 h. Plants of the Piaui variety under 0.2 mM nitrate showed higher Vmax and lower KM, indicating higher efficiency of nitrate uptake at low supply. In the sheaths of both varieties, there was a greater accumulation of nitrate and lower activities of nitrate reductase and glutamine synthetase. The V-H+-ATPase activity increased between 0 and 6 h accompanying the nitrate influx, suggesting that the activity of this proton pump is necessary for the antiport activity (H+/2NO? 3) involved in the accumulation of nitrate into vacuoles. 相似文献
15.
Plant growth, glutamine synthetase and glutamine dehydrogenase activities of two maize genotypes were compared in the presence of NH4 + and NO3 ‐ forms of N in sand culture. Ammonium reduced growth of the P3732 genotype 64% and the B73 x Mol7 hybrid 59% as compared to NO3 ‐. Both glutamine synthetase and glutamate dehydrogenase activities in roots tended to be higher with NH4 as compared to NO3. As the pH in the medium was increased by adding CaCO3, glutamine synthetase and glutamate dehydrogenase activities in roots of both genotypes were reduced; however, glutamine synthetase activity in leaves of NH^‐treated plants increased at the higher pH of the growing medium. 相似文献
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Barley (Hordeum vulgare L. cv. Martin) plants grown in solution culture, were exposed to increasing cadmium (Cd) concentration (0, 5, 10, 25, 50, and 100 μM) for a duration of 12 days. The sequence of important biochemical steps of nitrate (NO3) assimilation were studied in roots and shoots as a function of external Cd concentration. Cadmium uptake in roots and shoots increased gradually with Cd concentration in the medium. This Cd accumulation lowered substantially root and shoot biomass. The nitrate reductase (NR, EC 1.6.6.1) and nitrite reductase (NiR, EC 1.6.6.4) activities declined under Cd stress. Concurrently, tissue NO3 contents and xylem sap NO3 concentration were also decreased in Cd‐treated plants. These results suggest that Cd could exert an inhibitory effect on the assimilatory NO3 reducing system (NR and NiR) through a restriction of NO3 availability in the tissues. We therefore examined, in short‐term experiments (12 h), the impact of Cd on NO3 uptake and the two reductases in nitrogen (N)‐starved plants that were pretreated or not with Cd. It was found that Cd induced inhibition of both NO3 uptake and activities of NR and NiR, during NO3 induction period. The possible mechanisms of Cd action on NO3 uptake are proposed. Further, in Cd‐grown plants, the glutamine synthetase (GS, EC 6.3.1.2) showed a decreasing activity both in shoots and roots. However, increasing external Cd concentration resulted in a marked enhancement of glutamate dehydrogenase (NADH‐GDH, EC 1.4.1.2) activity, coupled with elevated levels of ammonium (NH4 in tissues. On the other hand, the total protein content in Cd‐treated plants declined with a progressive and substantial increase of protease activity in the tissues. These findings indicate that under Cd stress the usual pathway of NH4 assimilation (glutamine synthetase/glutamate synthase) can switch to an alternative one (glutamate dehydrogenase). The changes in all parameters investigated were concentration‐dependent and more marked in roots than shoots. The regulation of N absorption and assimilation by Cd in relation to growth and adaptation to stress conditions are discussed. 相似文献
19.
氮肥对新疆棉花产量形成期叶片光合特性的调节效应 总被引:25,自引:3,他引:25
在新疆生态条件下,采用裂区设计研究了氮肥用量对棉花产量形成期叶片光合特性的调节效应。结果表明,适量追施氮肥在一定程度上可以改善叶片光合性能,提高植株生育后期叶片叶绿素含量和硝酸还原酶(NR)活性;维持叶片较高的PSⅡ潜在活性(Fv/Fo)和PSⅡ光化学最大效率(Fv/Fm);提高中下部叶片的光合速率,延缓了叶片衰老,保证了棉花生育后期光合产物的形成,从而使棉花达到高产。这种调节效应因品种和生育时期的不同而异。新陆早6号在盛铃前期叶片叶绿素含量、NR活性、光合速率及Fv/Fo和Fv/Fm随氮肥用量增加而增加,盛铃后期至吐絮期叶绿素含量、Fv/Fo和Fv/Fm、叶片光合速率等指标均以中氮处理(300.kg/hm2)最高,高氮处理易造成植株盛花期生长过旺,群体荫蔽,影响了叶片光合作用;新陆早7号中氮处理与高氮处理之间差异不明显。因此,生产上应根据不同品种和生育时期进行合理施肥,避免因施肥不当造成产量下降和浪费肥料。 相似文献
20.
两个品种水稻中硝酸盐吸收和利用率对氮素饥饿的响应特征 总被引:2,自引:0,他引:2
Ammonium(NH+4) is the main nitrogen(N) form for rice crops, while NH+4near the root surface can be oxidized to nitrate(NO-3)by NH+4-oxidizing bacteria. Nitrate can be accumulated within rice tissues and reused when N supply is insufficient. We compared the remobilization of NO-3stored in the tissue and vacuolar between two rice(Oryza sativa L.) cultivars, Yangdao 6(YD6, indica)with a high N use efficiency(NUE) and Wuyujing 3(WYJ3, japonica) with a low NUE and measured the uptake of NO-3, expression of nitrate reductase(NR), NO-3transporter genes(NRTs), and NR activity after 4 d of N starvation following 7-d cultivation in a solution containing 2.86 mmol L-1NO-3. The results showed that both tissue NO-3concentration and vacuolar NO-3activity were higher in YD6 than WYJ3 under N starvation. YD6 showed a 2- to 3-fold higher expression of OsNRT2.1 in roots on the 1st and 4th day of N starvation and had significantly higher values of NO-3uptake(maximum uptake velocity, Vmax) than the cultivar WYJ3.Furthermore, YD6 had significantly higher leaf and root maximum NR activity(NRAmax) and actual NR activity(NRAact) as well as stronger root expression of the two NR genes after the 1st day of N starvation. There were no significant differences in NRAmax and NRAact between the two rice cultivars on the 4th day of N starvation. The results suggested that YD6 had stronger NRA under N starvation, which might result in better NO-3re-utilization from the vacuole, and higher capacity for NO-3uptake and use, potentially explaining the higher NUE of YD6 compared with WYJ3. 相似文献